Output totals at the end of the test suite.

[octave.git] / run-tests.m

diff --git a/run-tests.m b/run-tests.m
index 1682d18d20acbdf7938ba5d81c68780bd2df3351..0bf037f4e207c3c3645fa44881fc9546c1504baf 100755 (executable)
--- a/run-tests.m
+++ b/run-tests.m
@@ -1,53 +1,21 @@
 #!/usr/bin/octave --silent
 #!/usr/bin/octave --silent

+#
+# You'll need to use the .octaverc in this directory to get the proper
+# paths.
+#

 
 

-unit_init(1, {});
-
-unit_test_equals("sin[0] == 0", ...
-                0, ...
-                divided_difference(@sin, 0));
-
-unit_test_equals("sin[0, pi] == 0", ...
-                0, ...
-                divided_difference(@sin, [0,pi]));
-
-unit_test_equals("sin[0, pi, 2*pi] == 0", ...
-                0, ...
-                divided_difference(@sin, [0,pi,2*pi]));
-
-unit_test_equals("zero order divided_difference_coefficients", ...
-                [1], ...
-                divided_difference_coefficients([0]));
+addpath('./unit_test');

 
 

-unit_test_equals("first order divided_difference_coefficients", ...
-                [-1, 1] / pi, ...
-                divided_difference_coefficients([0, pi]));
+global unittest_results;

 
 

-unit_test_equals("second order divided_difference_coefficients", ...
-                [1, -2, 1] / (2*pi^2), ...
-                divided_difference_coefficients([0, pi, 2*pi]));
-
-
-unit_test_equals("1 is odd", ...
-                true, ...
-                odd(1));
-
-unit_test_equals("1 is not even", ...
-                false, ...
-                even(1));
+unit_init(1, {});

 
 

-unit_test_equals("2 is not odd", ...
-                false, ...
-                odd(2));
+test_files = glob('tests/*.m');

 
 

-unit_test_equals("2 is even", ...
-                true, ...
-                even(2));
+## Source every file that matches the glob above.
+cellfun(@source, test_files);

 
 

-expected_A = [1, 0, 0, 0, 0; ...
-              16, -32,  16,  0,  0; ...
-             0,   16, -32,  16, 0; ...
-             0,   0,   16, -32, 16; ...
-             0,   0,   0,   0,  1];
-unit_test_equals("Homework #1 problem #1 Poisson matrix is correct", ...
-                true, ...
-                expected_A == poisson_matrix(4, 0, 1));
+fprintf('\n');
+fprintf('Total tests attempted: %d\n', unittest_results.total);
+fprintf('Total tests passed: %d\n', unittest_results.pass);
+fprintf('Total tests failed: %d\n', unittest_results.fail);