Erlang (programming language)/Tutorials/eunit: Difference between revisions

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Sample program that uses eunit to test a function.
Sample program that uses eunit to test a function.


Line 13: Line 14:
  start() ->
  start() ->
         io:format(" This is a demo for eunit, the unit testing module.\n"),
         io:format(" This is a demo for eunit, the unit testing module.\n"),
         io:format(" Now testing the fact() function with eunit\n"),
         io:format(" Now testing the pow() function with eunit\n"),
         io:format(" Running: eunit:test(fact)~n"),
         io:format(" Running: eunit:test(pow)~n"),
         eunit:test(fact).
         eunit:test(pow).


  power_test_() ->
  power_test_() ->
Line 26: Line 27:
     ].
     ].


%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
% Note: Default unit test functions are automatically exported by eunit
  % Note: Default unit test functions are automatically exported by eunit
%
  %
% To test function power() we compile and test.
  % To test function power() we compile and test.
%
  %
%    2> c(power).
  %    2> c(power).
%    3> eunit:test(pow).
  %    3> eunit:test(pow).
%    All 6 tests successful.
  %    All 6 tests successful.
    
    
  % But how does it work?
  % But how does it work?
  % eunit:test(fact) uses fact:fact_test_() to produce  
  % eunit:test(pow) uses power:power_test_() to produce  
  % a list of 6 test functions(a test suite):
  % a list of 6 test functions(a test suite):
   
   
  %    7> fact:fact_test_().
  %    7> power:pow_test_().
  %    {15,#Fun<pow.1.106864721>},
  %    {15,#Fun<pow.1.106864721>},
  %    {16,#Fun<pow.2.81990874>},
  %    {16,#Fun<pow.2.81990874>},
  %    {17,#Fun<pow.3.122231603>},
  %    {17,#Fun<pow.3.122231603>},
  %    {18,#Fun<pow.4.90957845>},
  %    {18,#Fun<pow.4.90957845>},
  %    {19,#Fun<pow.5.90843223>}]
  %    {19,#Fun<pow.5.90843223>},
%    {20,#Fun<pow.4.90457845>}]
  %  
  %  
  % eunit:test then runs the programs in the test suite
  % eunit:test then runs the programs in the test suite
  % and reports the results.
  % and reports the results.
  %  
  %  
  % Note: The numbers [15,16,17,18,19] are
  % Note: The numbers [15,16,17,18,19,20] are
  % the line numbers of the source code that generated the  
  % the line numbers of the source code that generated the  
  % test functions.
  % test functions.
Line 76: Line 78:
  % for more details.
  % for more details.
  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
  %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
Unit tests as internal documentation
Unit tests provide a useful method of internal documentation that is
often easy to maintain. The maintenance of documentation can often
be a problem as programs evolve over time.
As long as the unit test works, the unit test serves as a nice suite
of example programs that can aid comprehension. For the purpose of
internal documentation and other reasons at least one
negative assertion is included to form a complete test suite.
A negative assertion can show the limits of
the domain or the range of a function, or even its time complexity
if one includes a timeout bound on computation time.
Software engineering
Unit tests can help one keep an eye on side-effects during
program development. Fixing a bug for some input may cause a
bug with some previously working input. Unit testing can help
with the organization of a program and inspire new solutions.


  Note: for the program to work you will need to install  
  Note: for the program to work you will need to install  
  and perhaps compile the eunit module, and set up your path
  and perhaps compile the eunit module, and set up your path
  to include it.
  to include it.

Latest revision as of 06:07, 8 August 2009


Sample program that uses eunit to test a function.

-module(power).
-export([pow/2, start/0]).
-include_lib("../../lib/eunit/include/eunit.hrl").      
% adjust your own path
pow(_,0) -> 1;
pow(X,1) -> X;
pow(X,N) when N>1, is_integer(N) -> 
       X * pow(X,N-1).
start() ->
       io:format(" This is a demo for eunit, the unit testing module.\n"),
       io:format(" Now testing the pow() function with eunit\n"),
       io:format(" Running: eunit:test(pow)~n"),
       eunit:test(pow).
power_test_() ->
    [?_assert(pow(0,0) == 1),
     ?_assert(pow(1,1) == 1),
     ?_assert(pow(2,2) == 4),
     ?_assert(pow(3,3) == 27),
     ?_assert(pow(4,4) == 256),
     ?_assertException(error, function_clause, pow(-1,0.5))
    ].
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 % Note: Default unit test functions are automatically exported by eunit
 %
 % To test function power() we compile and test.
 %
 %    2> c(power).
 %    3> eunit:test(pow).
 %    All 6 tests successful.
 
% But how does it work?
% eunit:test(pow) uses power:power_test_() to produce 
% a list of 6 test functions(a test suite):

%    7> power:pow_test_().
%    {15,#Fun<pow.1.106864721>},
%    {16,#Fun<pow.2.81990874>},
%    {17,#Fun<pow.3.122231603>},
%    {18,#Fun<pow.4.90957845>},
%    {19,#Fun<pow.5.90843223>},
%    {20,#Fun<pow.4.90457845>}]
% 
% eunit:test then runs the programs in the test suite
% and reports the results.
% 
% Note: The numbers [15,16,17,18,19,20] are
% the line numbers of the source code that generated the 
% test functions.
%
% Assertions
% 
% Six total tests are run. An assertion is a positive assertion 
% and expects the answer to be true. There are 5 positive assertions 
% and 1 negative assertion in the test suite.
%
% Negative assertions
%
% A negative assertion is where an error is expected.
% If an error is generated, then the test succeeds.
% Since this power function does not know how to do
% negative bases, then it causes an error. Since an 
% error is expected, the test succeeds.
%
%     assertException(error, function_clause, pow(-1,0.5))
%
% is an example of a negative assertion.
% An error generates an exception. An exception is
% is a type of high level error message. 
%
% See Exceptions
% for more details.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
Unit tests as internal documentation
Unit tests provide a useful method of internal documentation that is 
often easy to maintain. The maintenance of documentation can often 
be a problem as programs evolve over time.
As long as the unit test works, the unit test serves as a nice suite 
of example programs that can aid comprehension. For the purpose of 
internal documentation and other reasons at least one 
negative assertion is included to form a complete test suite. 
A negative assertion can show the limits of
the domain or the range of a function, or even its time complexity
if one includes a timeout bound on computation time.
Software engineering
Unit tests can help one keep an eye on side-effects during 
program development. Fixing a bug for some input may cause a
bug with some previously working input. Unit testing can help
with the organization of a program and inspire new solutions.
Note: for the program to work you will need to install 
and perhaps compile the eunit module, and set up your path
to include it.