Pig Mix
PigMix is a set of queries used test pig performance from release to release. There are queries that test latency (how long does it take to run this query?), and queries that test scalability (how many fields or records can pig handle before it fails?). In addition it includes a set of map reduce java programs to run equivalent map reduce jobs directly. These will be used to test the performance gap between direct use of map reduce and using pig. In Jun 2010, we release PigMix2, which include 5 more queries in addition to the original 12 queries into PigMix to measure the performance of new Pig features. We will publish the result of both PigMix and PigMix2.
Usage
To run PigMix, run the following command from PIG_HOME:
ant -Dharness.hadoop.home=$HADOOP_HOME pigmix-deploy (generate test dataset) ant -Dharness.hadoop.home=$HADOOP_HOME pigmix (run the PigMix benchmark)
You can optionally set HADOOP_CONF_DIR before run.
If you want to change the default size of test dataset, change test/perf/pigmix/conf/config.sh.
Note the PigMix is checked in to Pig 0.12 and beyond. If you want to run it in earlier version of Pig, Please go to https://issues.apache.org/jira/browse/PIG-200 and use PIG-200-0.12.patch.
Runs
PigMix
The following table includes runs done of the pig mix. All of these runs have been done on a cluster with 26 slaves plus one machine acting as the name node and job tracker. The cluster was running hadoop version 0.18.1. (TODO: Need to get specific hardware info on those machines).
The tests were run against two versions of pig: top of trunk, and top of types branch both as of Nov 21 2008.
The tests were run three times for each version and the results averaged.
tot = top of trunk
totb = top of types branch
Version |
Map Reduce Java Code |
tot 11/21/08 |
totb 11/21/08 |
totb 1/20/09 |
tot 2/23/09 |
|---|---|---|---|---|---|
Date Run |
11/22/08 |
11/21/08 |
11/21/08 |
1/20/09 |
2/23/09 |
L1 explode |
116 |
261 |
283 |
218 |
205 |
L2 fr join |
41 |
1665 |
253 |
168 |
89 |
L3 join |
97 |
1912 |
320 |
258 |
254 |
L4 distinct agg |
68 |
254 |
193 |
110 |
116 |
L5 anti-join |
90 |
1535 |
281 |
209 |
112 |
L6 large group by key |
61 |
294 |
226 |
126 |
120 |
L7 nested split |
72 |
243 |
204 |
107 |
102 |
L8 group all |
56 |
462 |
194 |
104 |
103 |
L9 order by 1 field |
286 |
5294 |
867 |
851 |
444 |
L10 order by multiple fields |
634 |
1403 |
565 |
469 |
447 |
L11 distinct + union |
120 |
316 |
255 |
164 |
154 |
L12 multi-store |
150 |
fails |
781 |
499 |
804 |
Total time |
1791 |
13638 |
4420 |
3284 |
2950 |
Compared to hadoop |
1.0 |
7.6 |
2.5 |
1.8 |
1.6 |
Weighted Average |
1.0 |
11.2 |
3.26 |
2.20 |
1.97 |
The totb run of 1/20/09 includes the change to make BufferedPositionedInputStream use a buffer instead of relying on hadoop to buffer.
tot run of 2/23/09, top of trunk is now what was on the types branch (that is proto 0.2.0). This run includes fragment replicate join and rework of partitioning for order by.
Run of 5/28/09, placed in a separate table because there were underlying cluster changes, thus the map reduce tests needed to be rerun. This is the same code base that became 0.3.0.
Version |
Map Reduce Java code |
tot 5/27/09 |
|---|---|---|
Date Run |
5/28/09 |
5/28/09 |
L1 explode |
119 |
205 |
L2 fr join |
44 |
110 |
L3 join |
113 |
314 |
L4 distinct agg |
76 |
153 |
L5 anti-join |
96 |
128 |
L6 large group by key |
67 |
148 |
L7 nested split |
67 |
133 |
L8 group all |
64 |
115 |
L9 order by 1 field |
329 |
563 |
L10 order by multiple fields |
607 |
532 |
L11 distinct + union |
106 |
203 |
L12 multi-store |
139 |
159 |
Total time |
1826 |
2764 |
Compared to hadoop |
N/A |
1.5 |
Weighted average |
N/A |
1.83 |
Run date: June 28, 2009, run against top of trunk as of that day.
Note that the columns got reversed in this one (Pig then MR)
Test |
Pig run time |
Java run time |
Multiplier |
|---|---|---|---|
PigMix_1 |
204 |
117.33 |
1.74 |
PigMix_2 |
110.33 |
50.67 |
2.18 |
PigMix_3 |
292.33 |
125 |
2.34 |
PigMix_4 |
149.67 |
85.33 |
1.75 |
PigMix_5 |
131.33 |
105 |
1.25 |
PigMix_6 |
146.33 |
65.33 |
2.24 |
PigMix_7 |
128.33 |
82 |
1.57 |
PigMix_8 |
126.33 |
63.67 |
1.98 |
PigMix_9 |
506.67 |
312.67 |
1.62 |
PigMix_10 |
555 |
643 |
0.86 |
PigMix_11 |
206.33 |
136.67 |
1.51 |
PigMix_12 |
173 |
161.67 |
1.07 |
Total |
2729.67 |
1948.33 |
1.40 |
Weighted avg |
|
|
1.68 |
Run date: August 27, 2009, run against top of trunk as of that day.
Test |
Pig run time |
Java run time |
Multiplier |
|---|---|---|---|
PigMix_1 |
218 |
133.33 |
1.635 |
PigMix_2 |
99.333 |
48 |
2.07 |
PigMix_3 |
272 |
127.67 |
2.13 |
PigMix_4 |
142.33 |
76.333 |
1.87 |
PigMix_5 |
127.33 |
107.33 |
1.19 |
PigMix_6 |
135.67 |
73 |
1.86 |
PigMix_7 |
124.67 |
78.333 |
1.59 |
PigMix_8 |
117.33 |
68 |
1.73 |
PigMix_9 |
356.33 |
323.67 |
1.10 |
PigMix_10 |
511.67 |
684.33 |
0.75 |
PigMix_11 |
180 |
121 |
1.49 |
PigMix_12 |
156 |
160.67 |
0.97 |
Total |
2440.67 |
2001.67 |
1.22 |
Weighted avg |
|
|
1.53 |
Run date: October 18, 2009, run against top of trunk as of that day.
With this run we included a new measure, weighted average. Our previous multiplier that we have been publishing takes the total time of running all 12 Pig Latin scripts and compares it to the total time of running all 12 Java Map Reduce programs. This is a valid way to measure, as it shows the total amount of time to do all these operations on both platforms. But it has the drawback that it gives more weight to long running operations (such as joins and order bys) while masking the performance in faster operations such as group bys. The new "weighted average" adds up the multiplier for each Pig Latin script vs. Java program separately and then divides by 12, thus weighting each test equally. In past runs the weighted average had significantly lagged the overall average (for example, in the run above for August 27 it was 1.5 even though the total difference was 1.2). With this latest run it still lags some, but the gap has shrunk noticably.
Test |
Pig run time |
Java run time |
Multiplier |
|---|---|---|---|
PigMix_1 |
135.0 |
133.0 |
1.02 |
PigMix_2 |
46.67 |
39.33 |
1.19 |
PigMix_3 |
184.0 |
98.0 |
1.88 |
PigMix_4 |
71.67 |
77.67 |
0.92 |
PigMix_5 |
70.0 |
83.0 |
0.84 |
PigMix_6 |
76.67 |
61.0 |
1.26 |
PigMix_7 |
71.67 |
61.0 |
1.17 |
PigMix_8 |
43.33 |
47.67 |
0.91 |
PigMix_9 |
184.0 |
209.33 |
0.88 |
PigMix_10 |
268.67 |
283.0 |
0.95 |
PigMix_11 |
145.33 |
168.67 |
0.86 |
PigMix_12 |
55.33 |
95.33 |
0.58 |
Total |
1352.33 |
1357 |
1.00 |
Weighted avg |
|
|
1.04 |
Run date: January 4, 2010, run against 0.6 branch as of that day
Test |
Pig run time |
Java run time |
Multiplier |
|---|---|---|---|
PigMix_1 |
138.33 |
112.67 |
1.23 |
PigMix_2 |
66.33 |
39.33 |
1.69 |
PigMix_3 |
199 |
83.33 |
2.39 |
PigMix_4 |
59 |
60.67 |
0.97 |
PigMix_5 |
80.33 |
113.67 |
0.71 |
PigMix_6 |
65 |
77.67 |
0.84 |
PigMix_7 |
63.33 |
61 |
1.04 |
PigMix_8 |
40 |
47.67 |
0.84 |
PigMix_9 |
214 |
215.67 |
0.99 |
PigMix_10 |
284.67 |
284.33 |
1.00 |
PigMix_11 |
141.33 |
151.33 |
0.93 |
PigMix_12 |
55.67 |
115 |
0.48 |
Total |
1407 |
1362.33 |
1.03 |
Weighted Avg |
|
|
1.09 |
PigMix2
Run date: May 29, 2010, run against top of trunk as of that day.
Test |
Pig run time |
Java run time |
Multiplier |
|---|---|---|---|
PigMix_1 |
122.33 |
117 |
1.05 |
PigMix_2 |
50.33 |
42.67 |
1.18 |
PigMix_3 |
189 |
100.33 |
1.88 |
PigMix_4 |
75.67 |
61 |
1.24 |
PigMix_5 |
64 |
138.67 |
0.46 |
PigMix_6 |
65.67 |
69.33 |
0.95 |
PigMix_7 |
88.33 |
84.33 |
1.05 |
PigMix_8 |
39 |
47.67 |
0.82 |
PigMix_9 |
274.33 |
215.33 |
1.27 |
PigMix_10 |
333.33 |
311.33 |
1.07 |
PigMix_11 |
151.33 |
157 |
0.96 |
PigMix_12 |
70.67 |
97.67 |
0.72 |
PigMix_13 |
80 |
33 |
2.42 |
PigMix_14 |
69 |
86.33 |
0.80 |
PigMix_15 |
80.33 |
69.33 |
1.16 |
PigMix_16 |
82.33 |
69.33 |
1.19 |
PigMix_17 |
286 |
229.33 |
1.25 |
Total |
2121.67 |
1929.67 |
1.10 |
Weighted Avg |
|
|
1.15 |
Run date: Jun 11, 2011, run against top of trunk as of that day.
Test |
Pig run time |
Java run time |
Multiplier |
|---|---|---|---|
PigMix_1 |
130 |
139 |
0.94 |
PigMix_2 |
66 |
48.67 |
1.36 |
PigMix_3 |
138 |
107.33 |
1.29 |
PigMix_4 |
106 |
78.33 |
1.35 |
PigMix_5 |
135.67 |
114 |
1.19 |
PigMix_6 |
103.67 |
74.33 |
1.39 |
PigMix_7 |
77.67 |
77.33 |
1.00 |
PigMix_8 |
56.33 |
57 |
0.99 |
PigMix_9 |
384.67 |
280.33 |
1.37 |
PigMix_10 |
380 |
354.67 |
1.07 |
PigMix_11 |
164 |
141 |
1.16 |
PigMix_12 |
109.67 |
187.33 |
0.59 |
PigMix_13 |
78 |
44.33 |
1.76 |
PigMix_14 |
105.33 |
111.67 |
0.94 |
PigMix_15 |
89.67 |
87 |
1.03 |
PigMix_16 |
87.67 |
75.33 |
1.16 |
PigMix_17 |
171.33 |
152.33 |
1.12 |
Total |
2383.67 |
2130 |
1.12 |
Weighted Avg |
|
|
1.16 |
Pig 0.9.2
Test |
Pig run time |
Java run time |
Multiplier |
|---|---|---|---|
PigMix_1 |
146 |
147 |
0.993197278911565 |
PigMix_2 |
73 |
61 |
1.19672131147541 |
PigMix_3 |
134 |
158 |
0.848101265822785 |
PigMix_4 |
91 |
87 |
1.04597701149425 |
PigMix_5 |
81 |
153 |
0.529411764705882 |
PigMix_6 |
91 |
81 |
1.12345679012346 |
PigMix_7 |
71 |
86 |
0.825581395348837 |
PigMix_8 |
56 |
61 |
0.918032786885246 |
PigMix_9 |
302 |
192 |
1.57291666666667 |
PigMix_10 |
312 |
226 |
1.38053097345133 |
PigMix_11 |
207 |
222 |
0.932432432432432 |
PigMix_12 |
96 |
163 |
0.588957055214724 |
PigMix_13 |
76 |
127 |
0.598425196850394 |
PigMix_14 |
94 |
157 |
0.598726114649682 |
PigMix_15 |
86 |
92 |
0.934782608695652 |
PigMix_16 |
80 |
82 |
0.975609756097561 |
PigMix_17 |
196 |
176 |
1.11363636363636 |
Total |
2192 |
2271 |
0.965213562 |
Weighted Avg |
|
|
0.951558634 |
Pig 0.10.1
Test |
Pig run time |
Java run time |
Multiplier |
|---|---|---|---|
PigMix_1 |
147 |
146 |
1.00684931506849 |
PigMix_2 |
74 |
62 |
1.19354838709677 |
PigMix_3 |
140 |
158 |
0.886075949367089 |
PigMix_4 |
87 |
86 |
1.01162790697674 |
PigMix_5 |
81 |
153 |
0.529411764705882 |
PigMix_6 |
92 |
262 |
0.351145038167939 |
PigMix_7 |
76 |
86 |
0.883720930232558 |
PigMix_8 |
62 |
61 |
1.01639344262295 |
PigMix_9 |
303 |
187 |
1.62032085561497 |
PigMix_10 |
303 |
232 |
1.30603448275862 |
PigMix_11 |
188 |
218 |
0.862385321100917 |
PigMix_12 |
101 |
157 |
0.643312101910828 |
PigMix_13 |
82 |
132 |
0.621212121212121 |
PigMix_14 |
99 |
158 |
0.626582278481013 |
PigMix_15 |
82 |
91 |
0.901098901098901 |
PigMix_16 |
82 |
82 |
1 |
PigMix_17 |
206 |
177 |
1.1638418079096 |
Total |
2205 |
2448 |
0.900735294117647 |
Weighted Avg |
|
|
0.919032977 |
Pig 0.11.1
Test |
Pig run time |
Java run time |
Multiplier |
|---|---|---|---|
PigMix_1 |
163 |
141 |
1.15602836879433 |
PigMix_2 |
66 |
61 |
1.08196721311475 |
PigMix_3 |
141 |
158 |
0.892405063291139 |
PigMix_4 |
87 |
86 |
1.01162790697674 |
PigMix_5 |
82 |
158 |
0.518987341772152 |
PigMix_6 |
92 |
81 |
1.1358024691358 |
PigMix_7 |
82 |
87 |
0.942528735632184 |
PigMix_8 |
63 |
62 |
1.01612903225806 |
PigMix_9 |
320 |
207 |
1.54589371980676 |
PigMix_10 |
311 |
226 |
1.37610619469027 |
PigMix_11 |
184 |
218 |
0.844036697247706 |
PigMix_12 |
97 |
158 |
0.613924050632911 |
PigMix_13 |
78 |
127 |
0.614173228346457 |
PigMix_14 |
101 |
158 |
0.639240506329114 |
PigMix_15 |
87 |
91 |
0.956043956043956 |
PigMix_16 |
82 |
87 |
0.942528735632184 |
PigMix_17 |
203 |
176 |
1.15340909090909 |
Total |
2239 |
2282 |
0.981156879929886 |
Weighted Avg |
|
|
0.967107783 |
Pig 0.12 (4/4/2013)
Test |
Pig run time |
Java run time |
Multiplier |
|---|---|---|---|
PigMix_1 |
168 |
142 |
1.1830985915493 |
PigMix_2 |
71 |
62 |
1.14516129032258 |
PigMix_3 |
141 |
158 |
0.892405063291139 |
PigMix_4 |
93 |
87 |
1.06896551724138 |
PigMix_5 |
87 |
158 |
0.550632911392405 |
PigMix_6 |
93 |
81 |
1.14814814814815 |
PigMix_7 |
77 |
87 |
0.885057471264368 |
PigMix_8 |
62 |
57 |
1.08771929824561 |
PigMix_9 |
310 |
192 |
1.61458333333333 |
PigMix_10 |
311 |
221 |
1.40723981900452 |
PigMix_11 |
190 |
217 |
0.875576036866359 |
PigMix_12 |
102 |
158 |
0.645569620253165 |
PigMix_13 |
77 |
133 |
0.578947368421053 |
PigMix_14 |
101 |
343 |
0.294460641399417 |
PigMix_15 |
87 |
86 |
1.01162790697674 |
PigMix_16 |
82 |
82 |
1 |
PigMix_17 |
207 |
177 |
1.16949152542373 |
Total |
2259 |
2441 |
0.925440393281442 |
Weighted Avg |
|
|
0.974040267 |
Features Tested
Based on a sample of user queries, PigMix includes tests for the following features.
- Data with many fields, but only a few are used.
- Reading data from maps.
- Use of bincond and arithmetic operators.
- Exploding nested data.
- Load bzip2 data
- Load uncompressed data
- join with one table small enough to fit into a fragment and replicate algorithm.
- join where tables are sorted and partitioned on the same key
- Do a cogroup that is not immediately followed by a flatten (that is, use cogroup for something other than a straight forward join).
- group by with only algebraic udfs that has nested plan (distinct aggs basically).
- foreachs with nested plans including filter and implicit splits.
- group by where the key accounts for a large portion of the record.
- group all
- union plus distinct
- order by
- multi-store query (that is, a query where data is scanned once, then split and grouped different ways).
- outer join
- merge join
- multiple distinct aggregates
- accumulative mode
The data is generated so that it has a zipf type distribution for the group by and join keys, as this models most human generated
data.
Some other fields are generated using a uniform data distribution.
Scalability tests test the following:
- Join of very large data sets.
- Grouping of very large data set.
- Query with a very wide (500+ fields) row.
- Loading many data sets together in one load
Proposed Data
Initially, four data sets have been created. The first, "page_views", is 10 million rows in size, with a schema of:
Name |
Type |
Average Length |
Cardinality |
Distribution |
Percent Null |
|---|---|---|---|---|---|
user |
string |
20 |
1.6M |
zipf |
7 |
action |
int |
X |
2 |
uniform |
0 |
timespent |
int |
X |
20 |
zipf |
0 |
query_term |
string |
10 |
1.8M |
zipf |
20 |
ip_addr |
long |
X |
1M |
zipf |
0 |
timestamp |
long |
X |
86400 |
uniform |
0 |
estimated_revenue |
double |
X |
100k |
zipf |
5 |
page_info |
map |
15 |
X |
zipf |
0 |
page_links |
bag of maps |
50 |
X |
zipf |
20 |
The second, "users", was created by taking the unique user keys from "page_views" and adding additional columns.
Name |
Type |
Average Length |
Cardinality |
Distribution |
Percent Null |
|---|---|---|---|---|---|
name |
string |
20 |
1.6M |
unique |
7 |
phone |
string |
10 |
1.6M |
zipf |
20 |
address |
string |
20 |
1.6M |
zipf |
20 |
city |
string |
10 |
1.6M |
zipf |
20 |
state |
string |
2 |
1.6M |
zipf |
20 |
zip |
int |
X |
1.6M |
zipf |
20 |
The third, "power_users", has 500 rows, and has the same schema as users. It was generated by skimming 500 unique names from
users. This will produce a table that can be used to test fragment replicate type joins.
The fourth, "widerow", has a very wide row (500 fields), consisting of one string and 499 integers.
"users", "power_users", and "widerow" are written in ASCII format, using Ctrl-A as the field delimiter. They can be read using
PigStorage.
"page_views" is written in as text data, with Ctrl-A as the field delimiter. Maps in the file are delimited by Ctrl-C
between key value pairs and Ctrl-D between keys and values. Bags in the file are delimited by Ctrl-B between tuples in the bag.
A special loader, PigPerformance loader has been written to read this format.
PigMix2 include 4 more data set, which can be derived from the original dataset:
A = load 'page_views' using org.apache.pig.test.udf.storefunc.PigPerformanceLoader()
as (user, action, timespent, query_term, ip_addr, timestamp, estimated_revenue, page_info, page_links);
B = order A by user $parallelfactor;
store B into 'page_views_sorted' using PigStorage('\u0001');
alpha = load 'users' using PigStorage('\u0001') as (name, phone, address, city, state, zip);
a1 = order alpha by name $parallelfactor;
store a1 into 'users_sorted' using PigStorage('\u0001');
a = load 'power_users' using PigStorage('\u0001') as (name, phone, address, city, state, zip);
b = sample a 0.5;
store b into 'power_users_samples' using PigStorage('\u0001');
A = load 'page_views' as (user, action, timespent, query_term, ip_addr, timestamp,
estimated_revenue, page_info, page_links);
B = foreach A generate user, action, timespent, query_term, ip_addr, timestamp, estimated_revenue, page_info, page_links,
user as user1, action as action1, timespent as timespent1, query_term as query_term1, ip_addr as ip_addr1, timestamp as timestamp1, estimated_revenue as estimated_revenue1, page_info as page_info1, page_links as page_links1,
user as user2, action as action2, timespent as timespent2, query_term as query_term2, ip_addr as ip_addr2, timestamp as timestamp2, estimated_revenue as estimated_revenue2, page_info as page_info2, page_links as page_links2;
store B into 'widegroupbydata';
Proposed Scripts
Scalability
Script S1
This script tests grouping, projecting, udf envocation, and filtering with a very wide row. Covers scalability feature 3.
A = load '$widerow' using PigStorage('\u0001') as (name: chararray, c0: int, c1: int, ..., c500: int);
B = group A by name parallel $parrallelfactor;
C = foreach B generate group, SUM(A.c0) as c0, SUM(A.c1) as c1, ... SUM(A.c500) as c500;
D = filter C by c0 > 100 and c1 > 100 and c2 > 100 ... and c500 > 100;
store D into '$out';
Script S2
This script tests joining two inputs where a given value of the join key appears many times in both inputs. This will test pig's
ability to handle large joins. It covers scalability features 1 and 2.
TBD
Features not yet tested: 4.
Latency
Script L1
This script tests reading from a map, flattening a bag of maps, and use of bincond (features 2, 3, and 4).
register pigperf.jar;
A = load '/user/pig/tests/data/pigmix/page_views' using org.apache.pig.test.udf.storefunc.PigPerformanceLoader()
as (user, action, timespent, query_term, ip_addr, timestamp,
estimated_revenue, page_info, page_links);
B = foreach A generate user, (int)action as action, (map[])page_info as page_info,
flatten((bag{tuple(map[])})page_links) as page_links;
C = foreach B generate user,
(action == 1 ? page_info#'a' : page_links#'b') as header;
D = group C by user parallel 40;
E = foreach D generate group, COUNT(C) as cnt;
store E into 'L1out';
Script L2
This script tests using a join small enough to do in fragment and replicate (feature 7).
register pigperf.jar;
A = load '/user/pig/tests/data/pigmix/page_views' using org.apache.pig.test.udf.storefunc.PigPerformanceLoader()
as (user, action, timespent, query_term, ip_addr, timestamp,
estimated_revenue, page_info, page_links);
B = foreach A generate user, estimated_revenue;
alpha = load '/user/pig/tests/data/pigmix/power_users' using PigStorage('\u0001') as (name, phone,
address, city, state, zip);
beta = foreach alpha generate name;
C = join B by user, beta by name using 'replicated' parallel 40;
store C into 'L2out';
Script L3
This script tests a join too large for fragment and replicate. It also contains a join followed by a group by on the same key,
something that pig could potentially optimize by not regrouping.
register pigperf.jar;
A = load '/user/pig/tests/data/pigmix/page_views' using org.apache.pig.test.udf.storefunc.PigPerformanceLoader()
as (user, action, timespent, query_term, ip_addr, timestamp,
estimated_revenue, page_info, page_links);
B = foreach A generate user, (double)estimated_revenue;
alpha = load '/user/pig/tests/data/pigmix/users' using PigStorage('\u0001') as (name, phone, address,
city, state, zip);
beta = foreach alpha generate name;
C = join beta by name, B by user parallel 40;
D = group C by $0 parallel 40;
E = foreach D generate group, SUM(C.estimated_revenue);
store E into 'L3out';
Script L4
This script covers foreach generate with a nested distinct (feature 10).
register pigperf.jar;
A = load '/user/pig/tests/data/pigmix/page_views' using org.apache.pig.test.udf.storefunc.PigPerformanceLoader()
as (user, action, timespent, query_term, ip_addr, timestamp,
estimated_revenue, page_info, page_links);
B = foreach A generate user, action;
C = group B by user parallel 40;
D = foreach C {
aleph = B.action;
beth = distinct aleph;
generate group, COUNT(beth);
}
store D into 'L4out';
Script L5
This script does an anti-join. This is useful because it is a use of cogroup that is not a regular join (feature 9).
register pigperf.jar;
A = load '/user/pig/tests/data/pigmix/page_views' using org.apache.pig.test.udf.storefunc.PigPerformanceLoader()
as (user, action, timespent, query_term, ip_addr, timestamp,
estimated_revenue, page_info, page_links);
B = foreach A generate user;
alpha = load '/user/pig/tests/data/pigmix/users' using PigStorage('\u0001') as (name, phone, address,
city, state, zip);
beta = foreach alpha generate name;
C = cogroup beta by name, B by user parallel 40;
D = filter C by COUNT(beta) == 0;
E = foreach D generate group;
store E into 'L5out';
Script L6
This script covers the case where the group by key is a significant percentage of the row (feature 12).
register pigperf.jar;
A = load '/user/pig/tests/data/pigmix/page_views' using org.apache.pig.test.udf.storefunc.PigPerformanceLoader()
as (user, action, timespent, query_term, ip_addr, timestamp,
estimated_revenue, page_info, page_links);
B = foreach A generate user, action, (int)timespent as timespent, query_term, ip_addr, timestamp;
C = group B by (user, query_term, ip_addr, timestamp) parallel 40;
D = foreach C generate flatten(group), SUM(B.timespent);
store D into 'L6out';
Script L7
This script covers having a nested plan with splits (feature 11).
register pigperf.jar;
A = load '/user/pig/tests/data/pigmix/page_views' using org.apache.pig.test.udf.storefunc.PigPerformanceLoader() as (user, action, timespent, query_term,
ip_addr, timestamp, estimated_revenue, page_info, page_links);
B = foreach A generate user, timestamp;
C = group B by user parallel 40;
D = foreach C {
morning = filter B by timestamp < 43200;
afternoon = filter B by timestamp >= 43200;
generate group, COUNT(morning), COUNT(afternoon);
}
store D into 'L7out';
Script L8
This script covers group all (feature 13).
register pigperf.jar;
A = load '/user/pig/tests/data/pigmix/page_views' using org.apache.pig.test.udf.storefunc.PigPerformanceLoader()
as (user, action, timespent, query_term, ip_addr, timestamp,
estimated_revenue, page_info, page_links);
B = foreach A generate user, (int)timespent as timespent, (double)estimated_revenue as estimated_revenue;
C = group B all;
D = foreach C generate SUM(B.timespent), AVG(B.estimated_revenue);
store D into 'L8out';
Script L9
This script covers order by of a single value (feature 15).
register pigperf.jar;
A = load '/user/pig/tests/data/pigmix/page_views' using org.apache.pig.test.udf.storefunc.PigPerformanceLoader()
as (user, action, timespent, query_term, ip_addr, timestamp,
estimated_revenue, page_info, page_links);
B = order A by query_term parallel 40;
store B into 'L9out';
Script L10
This script covers order by of multiple values (feature 15).
register pigperf.jar;
A = load '/user/pig/tests/data/pigmix/page_views' using org.apache.pig.test.udf.storefunc.PigPerformanceLoader()
as (user, action, timespent:int, query_term, ip_addr, timestamp,
estimated_revenue:double, page_info, page_links);
B = order A by query_term, estimated_revenue desc, timespent parallel 40;
store B into 'L10out';
Script L11
This script covers distinct and union and reading from a wide row but using only one field (features: 1, 14).
register pigperf.jar;
A = load '/user/pig/tests/data/pigmix/page_views' using org.apache.pig.test.udf.storefunc.PigPerformanceLoader()
as (user, action, timespent, query_term, ip_addr, timestamp,
estimated_revenue, page_info, page_links);
B = foreach A generate user;
C = distinct B parallel 40;
alpha = load '/user/pig/tests/data/pigmix/widerow' using PigStorage('\u0001');
beta = foreach alpha generate $0 as name;
gamma = distinct beta parallel 40;
D = union C, gamma;
E = distinct D parallel 40;
store E into 'L11out';
Script L12
This script covers multi-store queries (feature 16).
register pigperf.jar;
A = load '/user/pig/tests/data/pigmix/page_views' using org.apache.pig.test.udf.storefunc.PigPerformanceLoader()
as (user, action, timespent, query_term, ip_addr, timestamp,
estimated_revenue, page_info, page_links);
B = foreach A generate user, action, (int)timespent as timespent, query_term,
(double)estimated_revenue as estimated_revenue;
split B into C if user is not null, alpha if user is null;
split C into D if query_term is not null, aleph if query_term is null;
E = group D by user parallel 40;
F = foreach E generate group, MAX(D.estimated_revenue);
store F into 'highest_value_page_per_user';
beta = group alpha by query_term parallel 40;
gamma = foreach beta generate group, SUM(alpha.timespent);
store gamma into 'total_timespent_per_term';
beth = group aleph by action parallel 40;
gimel = foreach beth generate group, COUNT(aleph);
store gimel into 'queries_per_action';
Script L13 (PigMix2 only)
This script covers outer join (feature 17).
register pigperf.jar;
A = load '/user/pig/tests/data/pigmix/page_views' using org.apache.pig.test.udf.storefunc.PigPerformanceLoader()
as (user, action, timespent, query_term, ip_addr, timestamp, estimated_revenue, page_info, page_links);
B = foreach A generate user, estimated_revenue;
alpha = load '/user/pig/tests/data/pigmix/power_users_samples' using PigStorage('\u0001') as (name, phone, address, city, state, zip);
beta = foreach alpha generate name, phone;
C = join B by user left outer, beta by name parallel 40;
store C into 'L13out';
Script L14 (PigMix2 only)
This script covers merge join (feature 18).
register pigperf.jar;
A = load '/user/pig/tests/data/pigmix/page_views_sorted' using org.apache.pig.test.udf.storefunc.PigPerformanceLoader()
as (user, action, timespent, query_term, ip_addr, timestamp, estimated_revenue, page_info, page_links);
B = foreach A generate user, estimated_revenue;
alpha = load '/user/pig/tests/data/pigmix/users_sorted' using PigStorage('\u0001') as (name, phone, address, city, state, zip);
beta = foreach alpha generate name;
C = join B by user, beta by name using 'merge';
store C into 'L14out';
Script L15 (PigMix2 only)
This script covers multiple distinct aggregates (feature 19).
register pigperf.jar;
A = load '/user/pig/tests/data/pigmix/page_views' using org.apache.pig.test.udf.storefunc.PigPerformanceLoader()
as (user, action, timespent, query_term, ip_addr, timestamp, estimated_revenue, page_info, page_links);
B = foreach A generate user, action, estimated_revenue, timespent;
C = group B by user parallel 40;
D = foreach C {
beth = distinct B.action;
rev = distinct B.estimated_revenue;
ts = distinct B.timespent;
generate group, COUNT(beth), SUM(rev), (int)AVG(ts);
}
store D into 'L15out';
Script L16 (PigMix2 only)
This script covers accumulative mode (feature 20).
register pigperf.jar;
A = load '/user/pig/tests/data/pigmix/page_views' using org.apache.pig.test.udf.storefunc.PigPerformanceLoader()
as (user, action, timespent, query_term, ip_addr, timestamp, estimated_revenue, page_info, page_links);
B = foreach A generate user, estimated_revenue;
C = group B by user parallel 40;
D = foreach C {
E = order B by estimated_revenue;
F = E.estimated_revenue;
generate group, SUM(F);
}
store D into 'L16out';
Script L17 (PigMix2 only)
This script covers wide key group (feature 12).
register pigperf.jar;
A = load '/user/pig/tests/data/pigmix/widegroupbydata' using org.apache.pig.test.udf.storefunc.PigPerformanceLoader()
as (user, action, timespent, query_term, ip_addr, timestamp,
estimated_revenue, page_info, page_links, user_1, action_1, timespent_1, query_term_1, ip_addr_1, timestamp_1,
estimated_revenue_1, page_info_1, page_links_1, user_2, action_2, timespent_2, query_term_2, ip_addr_2, timestamp_2,
estimated_revenue_2, page_info_2, page_links_2);
B = group A by (user, action, timespent, query_term, ip_addr, timestamp,
estimated_revenue, user_1, action_1, timespent_1, query_term_1, ip_addr_1, timestamp_1,
estimated_revenue_1, user_2, action_2, timespent_2, query_term_2, ip_addr_2, timestamp_2,
estimated_revenue_2) parallel 40;
C = foreach B generate SUM(A.timespent), SUM(A.timespent_1), SUM(A.timespent_2), AVG(A.estimated_revenue), AVG(A.estimated_revenue_1), AVG(A.estimated_revenue_2);
store C into 'L17out';
Features not yet covered: 5 (bzip data)
Data Generation
If you want to know the details of data generation, please see DataGeneratorHadoop.