From: Chris Koeritz Date: Thu, 27 Oct 2016 15:34:52 +0000 (-0400) Subject: adding test of angle average tricky problem X-Git-Tag: 2.140.90~367 X-Git-Url: https://feistymeow.org/gitweb/?p=feisty_meow.git;a=commitdiff_plain;h=8fc08c93d76cda90d13d6fe3bb8c2214ad7feba5 adding test of angle average tricky problem solution not completely vetted but is answering seemingly correctly for all the cases i have. --- diff --git a/graphiq/library/tests_geometric/makefile b/graphiq/library/tests_geometric/makefile index c8136624..fa54447a 100644 --- a/graphiq/library/tests_geometric/makefile +++ b/graphiq/library/tests_geometric/makefile @@ -2,7 +2,8 @@ include cpp/variables.def PROJECT = test_geometric TYPE = test -TARGETS = test_angle.exe test_ellipse.exe test_geometry.exe test_point.exe test_warper.exe +TARGETS = test_angle.exe test_ellipse.exe test_geometry.exe test_point.exe test_warper.exe \ + test_ccri_angle_average.exe LOCAL_LIBS_USED = unit_test application filesystem timely loggers configuration textual \ structures geometric basis RUN_TARGETS = $(ACTUAL_TARGETS) diff --git a/graphiq/library/tests_geometric/test_ccri_angle_average.cpp b/graphiq/library/tests_geometric/test_ccri_angle_average.cpp new file mode 100644 index 00000000..f5ac36bb --- /dev/null +++ b/graphiq/library/tests_geometric/test_ccri_angle_average.cpp @@ -0,0 +1,135 @@ + +/* + * Name : test_ccri_angle_average + * Author : Chris Koeritz + * Purpose: + * Tests the angle averaging method (for angles in degrees) + * + * Copyright (c) 2001-$now By Author. This program is free software; you can + * redistribute it and/or modify it under the terms of the GNU General Public + * License as published by the Free Software Foundation; either version 2 of + * the License or (at your option) any later version. This is online at: + * http://www.fsf.org/copyleft/gpl.html + * Please send any updates to: fred@gruntose.com +*/ + +#include +#include +#include +#include +#include +#include +#include + +using namespace application; +using namespace basis; +using namespace geometric; +using namespace loggers; +using namespace mathematics; +using namespace structures; +using namespace unit_test; + +typedef double_plus floot; + +class test_ccri_angle_average : public virtual unit_base, public virtual application_shell +{ +public: + test_ccri_angle_average() : application_shell() {} + DEFINE_CLASS_NAME("test_ccri_angle_average"); + virtual int execute(); + + // returns average of angles a1 and a2, in degrees. + double angleAverage(double a1, double a2) { + a1 = fmod(a1, 360.0); + a2 = fmod(a2, 360.0); + if (absolute_value(a1 - a2) > 180.0) { + if (a1 < 180.0) a1 += 360.0; + else a2 += 360.0; + } + return fmod( (a1 + a2) / 2.0, 360.0); + } + +}; + +int test_ccri_angle_average::execute() +{ + FUNCDEF("execute"); + + outcome retval; + double a1, a2, avg; + + // there could be two right answers for angles 180 degrees apart, but we only test for one. + a1 = 23; a2 = 203; + avg = angleAverage(a1, a2); + ASSERT_EQUAL(floot(avg), floot(113), a_sprintf("%f and %f 180 degrees apart", a1, a2)); + a1 = 359; a2 = 179; + avg = angleAverage(a1, a2); + ASSERT_EQUAL(floot(avg), floot(269), a_sprintf("%f and %f 180 degrees apart", a1, a2)); + a1 = 90; a2 = 270; + avg = angleAverage(a1, a2); + ASSERT_EQUAL(floot(avg), floot(180), a_sprintf("%f and %f 180 degrees apart", a1, a2)); + + // more cases. + a1 = 89; a2 = 274; + avg = angleAverage(a1, a2); + ASSERT_EQUAL(floot(avg), floot(1.5), a_sprintf("%f and %f", a1, a2)); + a1 = 89.9; a2 = 270.1; + avg = angleAverage(a1, a2); + ASSERT_EQUAL(floot(avg), floot(0), a_sprintf("%f and %f", a1, a2)); + a1 = 0; a2 = 0; + avg = angleAverage(a1, a2); + ASSERT_EQUAL(floot(avg), floot(0), a_sprintf("%f and %f", a1, a2)); + a1 = 0; a2 = 359; + avg = angleAverage(a1, a2); + ASSERT_EQUAL(floot(avg), floot(359.5), a_sprintf("%f and %f", a1, a2)); + a1 = 358; a2 = 359; + avg = angleAverage(a1, a2); + ASSERT_EQUAL(floot(avg), floot(358.5), a_sprintf("%f and %f", a1, a2)); + a1 = 1; a2 = 357; + avg = angleAverage(a1, a2); + ASSERT_EQUAL(floot(avg), floot(359), a_sprintf("%f and %f", a1, a2)); + a1 = 23; a2 = 160; + avg = angleAverage(a1, a2); + ASSERT_EQUAL(floot(avg), floot(91.5), a_sprintf("%f and %f", a1, a2)); + a1 = 47; a2 = 221; + avg = angleAverage(a1, a2); + ASSERT_EQUAL(floot(avg), floot(134), a_sprintf("%f and %f", a1, a2)); + a1 = 113; a2 = 114; + avg = angleAverage(a1, a2); + ASSERT_EQUAL(floot(avg), floot(113.5), a_sprintf("%f and %f", a1, a2)); + a1 = 113; a2 = 270; + avg = angleAverage(a1, a2); + ASSERT_EQUAL(floot(avg), floot(191.5), a_sprintf("%f and %f", a1, a2)); + a1 = 190; a2 = 230; + avg = angleAverage(a1, a2); + ASSERT_EQUAL(floot(avg), floot(210), a_sprintf("%f and %f", a1, a2)); + a1 = 12; a2 = 273; + avg = angleAverage(a1, a2); + ASSERT_EQUAL(floot(avg), floot(322.5), a_sprintf("%f and %f", a1, a2)); + a1 = 181; a2 = 179; + avg = angleAverage(a1, a2); + ASSERT_EQUAL(floot(avg), floot(180), a_sprintf("%f and %f", a1, a2)); + a1 = 89; a2 = 271; + avg = angleAverage(a1, a2); + ASSERT_EQUAL(floot(avg), floot(0), a_sprintf("%f and %f", a1, a2)); + + a1 = 359; a2 = 120; + avg = angleAverage(a1, a2); + ASSERT_EQUAL(floot(avg), floot(59.5), a_sprintf("%f and %f", a1, a2)); + a1 = 220; a2 = 359; + avg = angleAverage(a1, a2); + ASSERT_EQUAL(floot(avg), floot(289.5), a_sprintf("%f and %f", a1, a2)); + a1 = 3; a2 = 189; + avg = angleAverage(a1, a2); + ASSERT_EQUAL(floot(avg), floot(276), a_sprintf("%f and %f", a1, a2)); + a1 = 93; a2 = 275; + avg = angleAverage(a1, a2); + ASSERT_EQUAL(floot(avg), floot(4), a_sprintf("%f and %f", a1, a2)); + + return final_report(); +} + +////////////// + +HOOPLE_MAIN(test_ccri_angle_average, ) +