hongshaorou/openrocket
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity

Minor modification to test case which makes setting breakpoints easier. No functional or assert changes.

Browse Source
This commit is contained in:
Kevin Ruland 2012-05-23 14:38:36 +00:00
parent 0302130c11
commit 4abceb9185
1 changed files with 31 additions and 21 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

52
core/test/net/sf/openrocket/rocketcomponent/SymmetricComponentVolumeTest.java
View File

@ -21,9 +21,11 @@ public class SymmetricComponentVolumeTest extends BaseTestCase {
nc.setType( Transition.Shape.CONICAL );
nc.setAftRadius(1.0);
nc.setMaterial( new Material.Bulk("test",density,true));
Coordinate cg = nc.getCG();
System.out.println( nc.getComponentVolume() + "\t" + nc.getMass());
System.out.println(nc.getCG());
System.out.println( cg );
double volume = Math.PI / 3.0;
@ -33,7 +35,6 @@ public class SymmetricComponentVolumeTest extends BaseTestCase {
assertEquals( volume, nc.getComponentVolume(), epsilonPercent * volume);
assertEquals( mass, nc.getMass(), epsilonPercent * mass );
Coordinate cg = nc.getCG();
assertEquals( 0.75, cg.x, epsilonPercent * 0.75 );
assertEquals( mass, cg.weight, epsilonPercent * mass);
@ -55,8 +56,10 @@ public class SymmetricComponentVolumeTest extends BaseTestCase {
nc.setAftShoulderThickness(1.0);
nc.setMaterial( new Material.Bulk("test",density,true));
Coordinate cg = nc.getCG();
System.out.println( nc.getComponentVolume() + "\t" + nc.getMass());
System.out.println(nc.getCG());
System.out.println( cg );
double volume = Math.PI / 3.0;
volume += Math.PI;
@ -67,7 +70,6 @@ public class SymmetricComponentVolumeTest extends BaseTestCase {
assertEquals( volume, nc.getComponentVolume(), epsilonPercent * volume);
assertEquals( mass, nc.getMass(), epsilonPercent * mass );
Coordinate cg = nc.getCG();
assertEquals( 1.312, cg.x, epsilonPercent * 1.071 );
assertEquals( mass, cg.weight, epsilonPercent * mass);
@ -86,8 +88,10 @@ public class SymmetricComponentVolumeTest extends BaseTestCase {
nc.setType( Transition.Shape.CONICAL );
nc.setMaterial( new Material.Bulk("test",density,true));
Coordinate cg = nc.getCG();
System.out.println( nc.getComponentVolume() + "\t" + nc.getMass());
System.out.println(nc.getCG());
System.out.println( cg );
double volume = Math.PI / 3.0; // outer volume
@ -105,7 +109,6 @@ public class SymmetricComponentVolumeTest extends BaseTestCase {
assertEquals( volume, nc.getComponentVolume(), epsilonPercent * volume);
assertEquals( mass, nc.getMass(), epsilonPercent * mass );
Coordinate cg = nc.getCG();
assertEquals( 0.7454, cg.x, epsilonPercent * 0.7454 );
assertEquals( mass, cg.weight, epsilonPercent * mass);
@ -127,8 +130,10 @@ public class SymmetricComponentVolumeTest extends BaseTestCase {
nc.setAftShoulderThickness(0.5);
nc.setMaterial( new Material.Bulk("test",density,true));
Coordinate cg = nc.getCG();
System.out.println( nc.getComponentVolume() + "\t" + nc.getMass());
System.out.println(nc.getCG());
System.out.println( cg );
double volume = Math.PI / 3.0; // outer volume
@ -149,7 +154,6 @@ public class SymmetricComponentVolumeTest extends BaseTestCase {
assertEquals( volume, nc.getComponentVolume(), epsilonPercent * volume);
assertEquals( mass, nc.getMass(), epsilonPercent * mass );
Coordinate cg = nc.getCG();
assertEquals( 1.2719, cg.x, epsilonPercent * 1.2719 );
assertEquals( mass, cg.weight, epsilonPercent * mass);
@ -169,8 +173,10 @@ public class SymmetricComponentVolumeTest extends BaseTestCase {
nc.setAftRadius(2.0);
nc.setMaterial( new Material.Bulk("test",density,true));
Coordinate cg = nc.getCG();
System.out.println( nc.getComponentVolume() + "\t" + nc.getMass());
System.out.println(nc.getCG());
System.out.println( cg );
double volume = Math.PI / 3.0 * (2.0*2.0 + 2.0 * 1.0 + 1.0 * 1.0) * 4.0;
@ -180,7 +186,6 @@ public class SymmetricComponentVolumeTest extends BaseTestCase {
assertEquals( volume, nc.getComponentVolume(), epsilonPercent * volume);
assertEquals( mass, nc.getMass(), epsilonPercent * mass );
Coordinate cg = nc.getCG();
assertEquals( 2.4285, cg.x, epsilonPercent * 2.4285 );
assertEquals( mass, cg.weight, epsilonPercent * mass);
@ -206,8 +211,10 @@ public class SymmetricComponentVolumeTest extends BaseTestCase {
nc.setForeShoulderThickness(1.0);
nc.setMaterial( new Material.Bulk("test",density,true));
Coordinate cg = nc.getCG();
System.out.println( nc.getComponentVolume() + "\t" + nc.getMass());
System.out.println(nc.getCG());
System.out.println( cg );
double volume = Math.PI / 3.0 * (2.0*2.0 + 2.0 * 1.0 + 1.0 * 1.0) * 4.0;
// plus aft shoulder:
@ -221,7 +228,6 @@ public class SymmetricComponentVolumeTest extends BaseTestCase {
assertEquals( volume, nc.getComponentVolume(), epsilonPercent * volume);
assertEquals( mass, nc.getMass(), epsilonPercent * mass );
Coordinate cg = nc.getCG();
assertEquals( 2.8023, cg.x, epsilonPercent * 2.8023 );
assertEquals( mass, cg.weight, epsilonPercent * mass);
@ -241,8 +247,10 @@ public class SymmetricComponentVolumeTest extends BaseTestCase {
nc.setThickness(0.5);
nc.setMaterial( new Material.Bulk("test",density,true));
Coordinate cg = nc.getCG();
System.out.println( nc.getComponentVolume() + "\t" + nc.getMass());
System.out.println(nc.getCG());
System.out.println( cg );
// Volume of filled transition =
double filledVolume = Math.PI /3.0 * ( 1.0*1.0 + 1.0 * 0.5 + 0.5 * 0.5 ) * 1.0;
@ -267,7 +275,6 @@ public class SymmetricComponentVolumeTest extends BaseTestCase {
assertEquals( volume, nc.getComponentVolume(), epsilonPercent * volume);
assertEquals( mass, nc.getMass(), epsilonPercent * mass );
Coordinate cg = nc.getCG();
assertEquals( 0.5884, cg.x, epsilonPercent * 0.5884 );
assertEquals( mass, cg.weight, epsilonPercent * mass);
@ -293,8 +300,10 @@ public class SymmetricComponentVolumeTest extends BaseTestCase {
nc.setForeShoulderThickness(0.5); // note this means fore shoulder is filled.
nc.setMaterial( new Material.Bulk("test",density,true));
Coordinate cg = nc.getCG();
System.out.println( nc.getComponentVolume() + "\t" + nc.getMass());
System.out.println(nc.getCG());
System.out.println( cg );
// Volume of filled transition =
double filledVolume = Math.PI /3.0 * ( 1.0*1.0 + 1.0 * 0.5 + 0.5 * 0.5 ) * 1.0;
@ -324,7 +333,6 @@ public class SymmetricComponentVolumeTest extends BaseTestCase {
assertEquals( volume, nc.getComponentVolume(), epsilonPercent * volume);
assertEquals( mass, nc.getMass(), epsilonPercent * mass );
Coordinate cg = nc.getCG();
assertEquals( 0.8581, cg.x, epsilonPercent * 0.8581 );
assertEquals( mass, cg.weight, epsilonPercent * mass);
@ -344,8 +352,10 @@ public class SymmetricComponentVolumeTest extends BaseTestCase {
nc.setThickness(0.25);
nc.setMaterial( new Material.Bulk("test",density,true));
Coordinate cg = nc.getCG();
System.out.println( nc.getComponentVolume() + "\t" + nc.getMass());
System.out.println(nc.getCG());
System.out.println( cg );
// Volume of filled transition =
double filledVolume = Math.PI /3.0 * ( 1.0*1.0 + 1.0 * 0.5 + 0.5 * 0.5 ) * 1.0;
@ -370,7 +380,6 @@ public class SymmetricComponentVolumeTest extends BaseTestCase {
assertEquals( volume, nc.getComponentVolume(), epsilonPercent * volume);
assertEquals( mass, nc.getMass(), epsilonPercent * mass );
Coordinate cg = nc.getCG();
assertEquals( 0.56827, cg.x, epsilonPercent * 0.56827 );
assertEquals( mass, cg.weight, epsilonPercent * mass);
@ -397,8 +406,10 @@ public class SymmetricComponentVolumeTest extends BaseTestCase {
nc.setMaterial( new Material.Bulk("test",density,true));
Coordinate cg = nc.getCG();
System.out.println( nc.getComponentVolume() + "\t" + nc.getMass());
System.out.println(nc.getCG());
System.out.println( cg );
// Volume of filled transition =
double filledVolume = Math.PI /3.0 * ( 1.0*1.0 + 1.0 * 0.5 + 0.5 * 0.5 ) * 1.0;
@ -429,7 +440,6 @@ public class SymmetricComponentVolumeTest extends BaseTestCase {
assertEquals( volume, nc.getComponentVolume(), epsilonPercent * volume);
assertEquals( mass, nc.getMass(), epsilonPercent * mass );
Coordinate cg = nc.getCG();
assertEquals( 0.7829, cg.x, epsilonPercent * 0.7829 );
assertEquals( mass, cg.weight, epsilonPercent * mass);