TableOfContents

Mercurial contains a simple regression test framework that allows both Python unit tests and shell-script driven regression tests.

Running the test suite

To run the tests, do:

$ make tests
cd tests && ./run-tests
............................................
Ran 44 tests, 0 failed.

This finds all scripts in the tests/ directory named test-* and executes them. The scripts can be either shell scripts or Python. Each test is run in a temporary directory that is removed when the test is complete.

You can also run tests individually:

$ cd tests/
$ ./run-tests test-pull test-undo
..
Ran 2 tests, 0 failed.

A test-<x> succeeds if the script returns success and its output matches test-<x>.out. If the new output doesn't match, it is stored in test-<x>.err.

Also, run-tests has some useful options:

$ ./run-tests.py --help
usage: run-tests.py [options] [tests]

options:
  -h, --help            show this help message and exit
  -v, --verbose         output verbose messages
  -t TIMEOUT, --timeout=TIMEOUT
                        kill errant tests after TIMEOUT seconds
  -c, --cover           print a test coverage report
  -s, --cover_stdlib    print a test coverage report inc. standard libraries
  -C, --annotate        output files annotated with coverage
  -r, --retest          retest failed tests
  -f, --first           exit on the first test failure
  -R, --restart         restart at last error
  -i, --interactive     prompt to accept changed output

Writing a shell script test

Creating a regression test is easy. Simply create a shell script that executes the necessary commands to exercise Mercurial.

Here's an example:

hg init
touch a
hg add a
hg commit -m "Added a" -d "0 0"

touch main
hg add main
hg commit -m "Added main" -d "0 0"
hg checkout 0

echo Main should be gone
ls

Then run your test:

$ ./run-tests test-example
.
test-example generated unexpected output:
Main should be gone
a

Ran 1 tests, 1 failed.

Double-check your script's output, then save the output so that future runs can check for the expected output:

$ mv test-example.err test-example.out
$ ./run-tests test-example
.
Ran 1 tests, 0 failed.

Writing a Python unit test

A unit test operates much like a regression test, but is written in Python. Here's an example:

   1 #!/usr/bin/env python
   2 
   3 import sys
   4 from mercurial import bdiff, mpatch
   5 
   6 def test1(a, b):
   7     d = bdiff.bdiff(a, b)
   8     c = a
   9     if d:
  10         c = mpatch.patches(a, [d])
  11     if c != b:
  12         print "***", `a`, `b`
  13         print "bad:"
  14         print `c`[:200]
  15         print `d`
  16 
  17 def test(a, b):
  18     print "***", `a`, `b`
  19     test1(a, b)
  20     test1(b, a)
  21 
  22 test("a\nc\n\n\n\n", "a\nb\n\n\n")
  23 test("a\nb\nc\n", "a\nc\n")
  24 test("", "")
  25 test("a\nb\nc", "a\nb\nc")
  26 test("a\nb\nc\nd\n", "a\nd\n")
  27 test("a\nb\nc\nd\n", "a\nc\ne\n")
  28 test("a\nb\nc\n", "a\nc\n")
  29 test("a\n", "c\na\nb\n")
  30 test("a\n", "")
  31 test("a\n", "b\nc\n")
  32 test("a\n", "c\na\n")
  33 test("", "adjfkjdjksdhfksj")
  34 test("", "ab")
  35 test("", "abc")
  36 test("a", "a")
  37 test("ab", "ab")
  38 test("abc", "abc")
  39 test("a\n", "a\n")
  40 test("a\nb", "a\nb")
  41 
  42 print "done"

Making Tests Repeatable

There are some tricky points here that you should be aware of when writing tests:

cat <<'EOF' > merge
#!/bin/sh
echo merging for `basename $1`
EOF
chmod +x merge

env HGMERGE=./merge hg update -m 1

hg commit -m "test" -u test -d "0 0"

hg diff | sed "s/\(\(---\|+++\) [a-zA-Z0-9_/.-]*\).*/\1/"

Making tests portable

You also need to be careful that the tests are portable from one platform to another. You're probably working on Linux, where the GNU toolchain has more (or different) functionality than on MacOS, *BSD, Solaris, AIX, etc. While testing on all platforms is the only sure-fire way to make sure that you've written portable code, here's a list of problems that have been found and fixed in the tests. Another, more comprehensive list may be found in the GNU Autoconf manual, online here:

sh

The Bourne shell is a very basic shell. /bin/sh on Linux is typically bash, which even in Bourne-shell mode has many features that Bourne shells on other Unix systems don't have (and even on Linux /bin/sh isn't guaranteed to be bash). You'll need to be careful about constructs that seem ubiquitous, but are actually not available in the least common denominator. While using another shell (ksh, bash explicitly, posix shell, etc.) explicitly may seem like another option, these may not exist in a portable location, and so are generally probably not a good idea. You may find that rewriting the test in python will be easier.

- don't use pushd/popd; save the output of "pwd" and use "cd" in place of

- don't use math expressions like let, (( ... )), or $(( ... )); use "expr"

grep

- don't use the -q option; redirect stdout to /dev/null instead.

- don't use extended regular expressions with grep; use egrep instead, and

sed

- make sure that the beginning-of-line matcher ("^") is at the very

echo

- echo may interpret "\n" and print a newline; use printf instead if you

false

- false is guaranteed only to return a non-zero value; you cannot depend on

diff

- don't use the -N option. There's no particularly good workaround short