I have a dataset of ~900 million rows, each row representing a claim for a given patient in a 3 year period, and each claim having as many as 25 diagnosis codes arranged as variables, as well as a key that translates a certain subset of the codes into "chronic conditions."

Like so:

data claims;
   infile cards;
   input id $ type dg1 $ dg2 $ dg3 $ dg4 $ [...] dg25 $; 
A 40 A123 A234 B345 . [...] .
A 10 A234 . . . . [...] . 
B 40 C567 1234 Z4657 [...] . 
B 40 C567 1233 X4787 [...] . 

data chrons;
infile cards; 
input chron nm $ code $ ;
1 ckd A234
1 ckd C567
1 ckd 1233
2 copd B345
2 copd C233
3 diab A234
3 diab 1234
55 foo Z4657
55 foo X4787

In order to decide whether the condition is "chronic" or not, I've got to count the number of claims for which a condition appeared (in any DG), with different minimum numbers of claims for different conditions.

At present I have done this using a very clunky data step that looks more or less like this:

/* first a SQL loop that puts the codes into macros: */

%macro chron(start,end); 

    proc sql noprint; 
        %do k=&start. %to &end.; 
            select strip(catt("'",code,"'")) 
                into :chron&k. separated by ',' 
            where chron=&k. 
           from chrons; 

/* then a double loop array for each of the 55 conditions in any of the 25 vars */

data claims_1yr;
 set claims;
    array dgc(25) dg1-dg25;
    array cond(55) cond1-cond55; 
do i=1 to 55; 
    do j=1 to 25; 
if cond(i) < 1 then do; 
    if dgc(j) in (&&chron&i.) then cond&i.=1; else cond&i.=0;

Followed by some SQL sums by number of claims and further conditions based on claim type, etc. Some of the conditions have special circumstances, like having a list of codes that, if appearing in any dg{n} variable make the claim not count, or requirements that the code be within the first 2 dg{n} spaces.

What I'm wondering is if there's a simpler way to perhaps use PROC FORMAT (which I'm not particularly familiar with) and PROC MEANS or PROC SUMMARY to get a summary dataset in which each ID has a count of number of claims for each condition (regardless of which dg the code was in). The number of loops is brutal in terms of computation; the last time I ran it, it took almost 48 hours to complete.

A colleague suggested:

%macro sl(st,end); 
proc sql; 
%do l=&st. %to &end.; 
    create table claims_&l as
     select distinct id, 
     sum(case when (dg1 in (&&chron&l.) or 
    dg2 in (&&chron&l.) or 
    dg3 in (&&chron&l.) or 
    dg4 in (&&chron&l.) [...] or 
    dg25 in (&&chron&l.) then 1 else 0 end) as  chron&l. 
    from claims group by id; 

But this generally causes a segfault after about an hour.

The datastep isn't the worst thing in the world, but I wonder if this puzzle seems familiar to anyone or if there's an obvious answer that I'm overlooking (using anything other than SAS 9.3 is not an option, sadly).

The goal at the end is to have a dataset that looks like:

ID   Cond   Claims
A    diab    2
A    copd    1  
A    ckd     2
B    diab    1
B    ckd     2
B    foo     2


ID  cond1   cond2  cond3  [...] cond55
A   2        1       2    [...]   0
B   2        0       1    [...]   2 

n.b. The average patient has ~70 claims in the file (there are ~13 million distinct patients). Previous runs have shown that about 40% of these have at least one chronic condition, and half of those (20% of total) have more than one chronic condition. Actually 'having' the condition is based on a minimum number of claims with the associated codes in a given time period (different minima for different conditions).


  • That's partial code, can you please post the actual code you tried, all are missing the FROM statement for example. And that's 900 Billion records * 25 per record that you're trying to summarize? You'll get a better solution on communities.sas.com since this is an efficiency type question, not a general is there a solution question. – Reeza Oct 10 '18 at 17:44
  • And what are you using the Chron's data set for? – Reeza Oct 10 '18 at 17:46
  • I am curious if there is a solution using PROC FORMAT--hence the question here. Guess I'll crosspost to SAS as well. The chron dataset is the crosswalk that is used to get the list of codes for each condition; I've clarified the SQL code that missed those lines when I was copying over. – Ben Lerner Oct 10 '18 at 17:52
  • Proc format can help, but I suspect a temporary array would work as well. Do you have answers for the rest of my questions? – Reeza Oct 10 '18 at 18:05
  • Ah, I edited to clarify--it's 900 million, not billion rows--do you want me to post the code omitted by the ellipses? I fixed the from statements; they were missed when I was transcribing. – Ben Lerner Oct 10 '18 at 18:11

This uses 'value' in array and creates CONDn variables and count by ID.

data claims;
   infile cards missover;
   input id $ type (dg1-dg5)($); 
A 40 A123 A234 B345
A 10 A234
B 40 C567 1234 Z4657
B 40 C567 1233 X4787

data chrons;
   infile cards; 
   input chron nm $ code $;
1 ckd A234
1 ckd C567
1 ckd 1233
2 copd B345
2 copd C233
3 diab A234
3 diab 1234
filename FT77F001 temp;
data _null_;
   file FT77F001;
   set chrons;
   by chron nm;
   if first.chron then put +3 'Cond' chron '=' @;
   put code :$quote. 'in DG' @;
   if not last.chron then put ' or ' @;
   if last.chron then do;
      put ';' +3 'label Cond' chron '=' nm:$quote. ';';

data want1(keep=id cond:) / view=want1;
   set claims;
   array DG[*] dg:;
   %inc FT77F001 / source2;
proc summary data=want1 nway;
   class id;
   output out=want2(drop=_type_) sum(cond:)=;
proc print;

enter image description here

From SAS Log

  • The text data is written to the temp file, I think that goes in the work library, which will disappear when the session ends. – Reeza Oct 10 '18 at 21:05
  • @Reeza Yes the "wall paper" file is temporary. Do you think it should be permanent? – data _null_ Oct 10 '18 at 21:16
  • I wasn't aware that you could reference all elements of an array that way, very cool. Assuming that SAS just does a 'do over' loop within each 'DG'-- Is that functionally different than the double-loop that is in my data step now? – Ben Lerner Oct 10 '18 at 21:32
  • @BenLerner I don't know how it works under the hood. In another question the other day I used the same technique and another SO user mentioned that "in array" is pretty quick, I think he did some performance testing. I expect it is faster that what you were doing but the only way to know is to test both. – data _null_ Oct 10 '18 at 21:42
  • Thanks! I'll run a test on my toy dataset (1M rows) tomorrow and see; I imagine you're right and however the implementation of "in array" is coded is probably faster than doing it explicitly. – Ben Lerner Oct 10 '18 at 21:48

The way I'd approach this would be to use a datastep to transpose the dataset to one row per diagnosis code, applying your Chronic Condition format to that column. Then PROC TABULATE is probably your best bet to get a count of diagnoses per condition per ID. That initial transpose won't be fast, but it'll use the data step so it will work even though it's a big file, and should not take hours unless your disk is way too slow. Just make sure your output dataset is filtered to just the three or so variables you need - ID, diag. code, type I think?

You can use the CNTLIN feature on PROC FORMAT to import your chronic conditions. You need at minimum:

  • START = input to format (i.e., diag codes)
  • LABEL = output from format (i.e., chronic conditions)
  • FMTNAME = whatever you want to name it, with a $ for character
  • TYPE = 'c' (character)
  • A single row with HLO='o' and an empty label or whatever non-matches should be collapsed into ('others' that don't match the format)

Then proc format cntlin=[formatdataset]; run; will import it.

  • Thanks--I have already been able to cntlin the chrons dataset, but the transpose results in a ~20 billion row table, and space is not too easy to come by in the environment I have to do this in (need to do this to 4 of these datasets, all 60-90gb). The space limitation is one of the reasons I hoped to do it in a more elegant way (which it seems that formats and a 2d array maybe could do with proc means or proc tabulate, but having trouble wrapping my head around whether I'm pipedreaming or if there is a "there" there). – Ben Lerner Oct 10 '18 at 19:14
  • Can you create it as a view? That should pipe the information into PROC TABULATE row by row. – Joe Oct 10 '18 at 19:56

Consider an in-memory requirement for the desired diagnostic frequency table as a hash table.

900M claims with average of 70 claims per patient means there are ~13M distinct patients

Suppose an horrific average of 10 chronic conditions per patients. So you would have 130M rows in the vertical data layout form of your goal (ID,Condition,Freq).

Further suppose an in-memory hash object key+data requiring 75 bytes per row. So a hash that contains the complete desired vertical form result might need >= ~9G RAM.

So you could in a single pass of the data, perform diagnoses -> conditions mapping and compute frequencies.

Mapping via IN based evaluations as code-generated from the chronic condition control table (per @ data null) is likely one of the fastest solutions. The generated code could possibly be further optimized -- My understanding is that the OR evaluation in SAS data step code is a full path evaluation, meaning every clause is done. For example

<condition-1> = (clause-1) OR (clause-2) … OR … (clause-k);
<condition-2> = (clause-1) OR (clause-m) … OR … (clause-n);

Also, clause-1 is a mapper (or categorization criteria) used by more than one condition. Your actual control data may have distinct mapping, meaning a single diagnosis code always maps to only one condition.

Regardless, a code-generator could produce a single test mapping select statement

  when (clause-1) do; condition1=1; end;
  when (clause-2) do; condition2=1; condition14=1; end; /* a non-distinct mapping in the control data */
  when (clause-k) do; condition<p> = 1; end;
  otherwise condition_healthy = 1;

From data _null_'s answer, the (clause-k) would be ("<some-code>" in DG)

  • These are excellent points--the environment involved here tops out at 8G RAM (but a patient having more than 4 chronic conditions is rare). The point re: OR evaluation is also well-taken, since I'm going to have to fiddle with data/_null/_'s general case for the exclusions and special cases this is a super helpful comment/answer. Thanks tons! – Ben Lerner Oct 12 '18 at 19:04

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