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TestScript.as
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TestScript.as
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const double PI = 4.0 * atan(1.0);
string vec3dString(const vec3d v)
{
return "(" + v.x() + ", " + v.y() + ", " + v.z() + ")";
}
string intString( int i )
{
return " " + i;
}
bool CloseVec3d( vec3d a, vec3d b, double tol )
{
double sum = (a.x()-b.x()) + (a.y()-b.y()) + (a.z()-b.z());
if ( abs(sum) < tol )
return true;
return false;
}
double tol = 0.00001;
void main()
{
Print(string("Begin Scripting Test"));
TestVec3d();
TestMatrix();
TestProxy();
}
void TestVec3d()
{
Print(string("--> Testing Vec3d"));
//==== Test Vec3d ====//
vec3d a(); // Default Constructor
vec3d b(1.0, 2.0, 3.0); // Init Constructor
//===== Test Copy ====//
a = b; // Copy Constructor
if ( !CloseVec3d( a, b, tol ) ) Print( " ---> Error: Vec3d Copy " );
//===== Test Assignment ====//
a.set_xyz( 2.0, 4.0, 6.0 );
b.set_x( 2.0 ); b.set_y( 4.0 ); b.set_z( 6.0 );
if ( !CloseVec3d( a, b, tol ) ) Print( "---> Error: Vec3d Assignment " );
//===== Test Rotate ====//
a.set_xyz( 1.0, 0.0, 0.0 );
a.rotate_z( cos( 0.5*PI ), sin( 0.5*PI ) );
a.rotate_x( cos( 0.5*PI ), sin( 0.5*PI ) );
a.rotate_y( cos( 0.5*PI ), sin( 0.5*PI ) );
if ( !CloseVec3d( a, vec3d(-1,0,0),tol ) ) Print( "---> Error: Vec3d Rotate " );
//===== Test Scale/Offset/Reflect ====//
a.set_xyz( 2.0, 2.0, 2.0 );
a.scale_x( 2.0 ); a.scale_y( 2.0 ); a.scale_z( 2.0 );
a.offset_x( 10.0 ); a.offset_y( 10.0 ); a.offset_z( 10.0 );
if ( !CloseVec3d( a, vec3d( 14.0, 14.0, 14.0 ), tol ) ) Print( "---> Error: Vec3d Scale/Offset " );
a.set_xyz( 1.0, 2.0, 3.0 );
b = a.reflect_xy();
a = b.reflect_xz();
b = a.reflect_yz();
if ( !CloseVec3d( b, vec3d( -1.0, -2.0, -3.0 ), tol ) ) Print( "---> Error: Vec3d Reflect " );
//==== Test Mag ====//
a.set_xyz( 1.0, 2.0, 3.0 );
if ( abs( a.mag() - sqrt(14) ) > tol ) Print( "---> Error: Vec3d Mag " );
//===== Test Operators ====//
a.set_xyz( 2.0, 3.0, 4.0 );
b.set_xyz( 3.0, 4.0, 5.0 );
vec3d c = a + b;
a = c - b;
b = a * 2.0;
c = b * a;
a = c / 2.0;
if ( !CloseVec3d( a, vec3d( 4.0, 9.0, 16.0 ), tol ) ) Print( "---> Error: Vec3d Operators " );
//==== Test Dist ====//
a.set_xyz( 2.0, 2.0, 2.0 );
b.set_xyz( 3.0, 4.0, 5.0 );
double d = dist(a, b);
double d2 = dist_squared(a, b);
if ( abs( d - sqrt(14) ) > tol && abs( d2 - 14 ) > tol ) Print( "---> Error: Vec3d Dist " );
//==== Test Dot ====//
a.set_xyz( 1.0, 2.0, 3.0 );
b.set_xyz( 2.0, 3.0, 4.0 );
if ( abs( dot(a,b) - 20 ) > tol ) Print( "---> Error: Vec3d Dot " );
//==== Test Cross ====//
a.set_xyz( 4.0, 0.0, 0.0 );
b.set_xyz( 0.0, 3.0, 0.0 );
c = cross(a,b);
c.normalize();
if ( !CloseVec3d( c, vec3d( 0.0, 0.0, 1.0 ), tol ) ) Print( "---> Error: Vec3d Cross " );
//==== Test Angle/Rotate ====//
a.set_xyz( 1.0, 1.0, 0.0 );
b.set_xyz( 1.0, 0.0, 0.0 );
if ( abs( angle( a, b ) - PI/4 ) > tol ) Print( "---> Error: Vec3d Angle " );
c.set_xyz( 0.0, 0.0, 1.0 );
if ( abs( signed_angle( a, b, c ) - -PI/4 ) > tol ) Print( "---> Error: Vec3d SignedAngle " );
c = RotateArbAxis( b, PI, a );
if ( !CloseVec3d( c, vec3d( 0.0, 1.0, 0.0 ), tol ) ) Print( "---> Error: Vec3d RotateArbAxis " );
}
void TestMatrix()
{
Print(string("--> Testing Matrix4d"));
//==== Test Matrix4d ====//
Matrix4d m(); // Default Constructor
m.loadIdentity();
m.translatef( 1.0, 0.0, 0.0 );
vec3d a = m.xform( vec3d( 0.0, 0.0, 0.0 ) );
m.loadIdentity();
m.rotateY( 90.0 );
m.rotateX( 90.0 );
m.rotateZ( 90.0 );
m.rotate( PI/4, vec3d( 0.0, 0.0, 1.0 ) ); // Radians
vec3d b = m.xform( a );
if ( !CloseVec3d( b, vec3d(0.707107, -0.707107, 0.0), tol ) )
Print( "---> Error: Matrix4d Rotate " );
m.loadXZRef();
m.scale( 10.0 );
b = m.xform( vec3d(1,2,3) );
m.loadXYRef();
a = m.xform( b );
m.loadYZRef();
b = m.xform( a );
if ( !CloseVec3d( b, vec3d(-10,-20,-30), tol ) ) Print( "---> Error: Matrix4d Reflect " );
m.loadIdentity();
m.rotateY( 10.0 );
m.rotateX( 20.0 );
m.rotateZ( 30.0 );
a = vec3d( 1.0, 1.0, 1.0 );
vec3d c = m.xform( a );
m.affineInverse();
b = m.xform( c );
if ( !CloseVec3d( a, b, tol ) ) Print( "---> Error: Matrix4d Affine " );
}
void TestProxy()
{
Print(string("--> Testing Proxy"));
//==== Test Proxy Stuff =====//
// SetSaveInt( 23 );
// //==== Get Vector of Vec3d From App =====//
array< vec3d > @vec3d_array = GetProxyVec3dArray();
// Print( formatInt( vec3d_array.size(), '' ) );
//for ( uint i = 0 ; i < vec3d_array.size() ; i++ )
//{
// Print( vec3dString( vec3d_array[i] ) );
//}
//array< vec3d > test_vec3d_array;
//test_vec3d_array.insertLast( vec3d(1,2,3) );
//test_vec3d_array.insertLast( vec3d(2,3,4) );
//test_vec3d_array.insertLast( vec3d(3,4,5) );
//SetVec3dArray( test_vec3d_array );
// TestProxy2();
}
//void TestProxy2()
//{
// if ( GetSaveInt() != 23 ) Print( "---> Error: Int Proxy " );
//}
void TestAPIScript()
{
Print(string("--> Testing API Code"));
string pod1 = AddGeom( "POD", "");
string pod2 = AddGeom( "POD", "");
Print(string("---> Test Write/Read"));
WriteVSPFile( "TestWrite.vsp3", SET_ALL );
ClearVSPModel();
ReadVSPFile( "TestWrite.vsp3" );
//==== There Should Be Two Geoms in the File =====//
array< string > @geom_ids = FindGeoms();
if ( geom_ids.size() != 2 ) Print( "---> Error: API Read/Find " );
array< string > @type_array = GetGeomTypes();
if ( type_array.size() < 1 ) Print( "---> Error: API GetGeomTypes " );
else if ( type_array[0] != "POD" ) Print( "---> Error: API GetGeomTypes " );
Print(string("---> Test Cut/Paste"));
string gid0 = AddGeom( "POD", "" );
SetGeomName( gid0, "ParentPod" );
CutGeomToClipboard( gid0 );
PasteGeomClipboard( "" );
geom_ids = FindGeomsWithName("ParentPod");
if ( geom_ids.size() != 1 )
{
Print( "---> API Add/Cut/Paste Geom " );
return;
}
Print(string("---> Test Copy/Paste"));
string gid1 = AddGeom( "POD", geom_ids[0] );
SetGeomName( gid1, "ChildPod" );
CopyGeomToClipboard( gid1 );
PasteGeomClipboard( geom_ids[0] );
geom_ids = FindGeoms();
if ( geom_ids.size() != 5 ) Print( "---> Error: API Copy/Paste Geom " );
string geom_name = GetGeomName( gid1 );
if ( geom_name != "ChildPod" ) Print( "---> Error: API GetGeomName " );
Print(string("---> Test Get Parm Arrays"));
array< string > @parm_array = GetGeomParmIDs( gid1 );
if ( parm_array.size() < 1 ) Print( "---> Error: API GetGeomParmIDs " );
string lenid = GetParm( gid1, "Length", "Design" );
if ( !ValidParm( lenid ) ) Print( "---> Error: API GetParm " );
Print(string("---> Test Get Num XSec Surfs"));
string fuseid = AddGeom( "FUSELAGE", "" );
int num_xsec_surfs = GetNumXSecSurfs( fuseid );
if ( num_xsec_surfs != 1 ) Print( "---> Error: API GetNumXSecSurfs " );
string xsec_surf = GetXSecSurf( fuseid, 0 );
int num_xsecs = GetNumXSec( xsec_surf );
Print(string("---> Test Get XSec Type"));
int xsec_type = GetXSecType( xsec_surf );
if ( xsec_type != XSEC_FUSE ) Print( "---> Error: API GetXSecType " );
if ( num_xsecs < 1 ) Print( "---> Error: API GetXSecSurf/GetNumXSec " );
Print(string("---> Test Get XSec"));
string xsec = GetXSec( xsec_surf, 0 );
if ( xsec.size() == 0 ) Print( "---> Error: API GetXSec " );
string add_xsec = AppendXSec( xsec_surf, XS_CIRCLE );
CutXSec( xsec_surf, GetNumXSec( xsec_surf )-2 );
CopyXSec( xsec_surf, GetNumXSec( xsec_surf )-1 );
PasteXSec( xsec_surf, GetNumXSec( xsec_surf )-2 );
InsertXSec( xsec_surf, XS_ROUNDED_RECTANGLE, 0 );
Print(string("---> Test Change XSec Shape"));
ChangeXSecShape( xsec_surf, GetNumXSec( xsec_surf )-1, XS_POINT );
xsec = GetXSec( xsec_surf, 1 );
if ( GetXSecShape( xsec ) != XS_ROUNDED_RECTANGLE )
Print( "---> Error: API ChangeXSec/GetShape " );
Print(string("---> Test Change Set XSec W/H"));
SetXSecWidthHeight( xsec, 3.0, 6.0 );
if ( abs( GetXSecWidth( xsec ) - 3.0 ) > tol ) Print( "---> Error: API Get/Set Width " );
if ( abs( GetXSecHeight( xsec ) - 6.0 ) > tol ) Print( "---> Error: API Get/Set Height " );
parm_array = GetXSecParmIDs( xsec );
if ( parm_array.size() < 1 ) Print( "---> Error: API GetXSecParmIDs " );
string wid = GetXSecParm( xsec, "RoundedRect_Width" );
if ( !ValidParm( wid ) ) Print( "---> Error: API GetXSecParm " );
Print(string("---> Test Read Fuse File"));
ChangeXSecShape( xsec_surf, 0, XS_FILE_FUSE );
xsec = GetXSec( xsec_surf, 0 );
array< vec3d > @vec_array = ReadFileXSec( xsec, "../../TestXSec.fxs" );
vec_array[1] = vec_array[1]*2.0;
vec_array[3] = vec_array[3]*2.0;
SetXSecPnts( xsec, vec_array );
double wh_ratio = GetXSecWidth( xsec )/GetXSecHeight( xsec );
if ( ( abs( wh_ratio ) - 2.0 ) > tol ) Print( "---> Error: API Read/Set XSecPnts " );
//==== Sets ====//
Print(string("---> Test Sets"));
if ( GetNumSets() <= 0 ) Print( "---> Error: API GetNumSets " );
SetSetName( 3, "SetFromScript" );
if ( GetSetName( 3) != "SetFromScript" ) Print( "---> Error: API Get/Set Set Name " );
array<string> @geom_arr1 = GetGeomSetAtIndex(3);
array<string> @geom_arr2 = GetGeomSet("SetFromScript");
if ( geom_arr1.size() != geom_arr2.size() ) Print( "---> Error: API GetGeomSet " );
SetSetFlag( fuseid, 3, true );
if ( !GetSetFlag( fuseid, 3 ) ) Print( "---> Error: API Set/Get Set Flag " );
//==== Parms ====//
Print(string("---> Test Parms"));
SetParmVal( wid, 23.0 );
if ( abs( GetParmVal(wid) - 23) > tol ) Print( "---> Error: API Parm Val Set/Get " );
SetParmUpperLimit( wid, 13.0 );
if ( abs( GetParmVal(wid) - 13) > tol ) Print( "---> Error: API SetParmUpperLimit " );
SetParmUpperLimit( wid, 20.0 );
SetParmLowerLimit( wid, 15.0 );
if ( abs( GetParmVal(wid) - 15) > tol ) Print( "---> Error: API SetParmLowerLimit " );
if ( GetParmType( wid ) != PARM_DOUBLE_TYPE ) Print( "---> Error: API GetParmType " );
if ( GetParmName( wid ) != "RoundedRect_Width" ) Print( "---> Error: API GetParmName " );
string cid = GetParmContainer(wid);
if ( cid.size() == 0 ) Print( "---> Error: API GetParmContainer " );
Update();
//==== Bogus Call To Create API Error ====//
Print(string("---> Test Error Handling"));
SetParmVal( "BogusParmID", 23.0 );
if ( !GetErrorLastCallFlag() ) Print( "---> Error: API GetErrorLastCallFlag " );
//==== Check For API Errors ====//
while ( GetNumTotalErrors() > 0 )
{
ErrorObj err = PopLastError();
if ( err.GetErrorCode() != VSP_CANT_FIND_PARM) Print( "---> Error: API PopLast" );
}
ClearVSPModel();
//==== Write Some Fake Test Results =====//
WriteTestResults();
Print(string("---> Test Results"));
array<string> @res_names_vec = GetAllResultsNames();
bool found_name = false;
for( int n = 0 ; n < int(res_names_vec.length()) ; n++ )
if ( res_names_vec[n] == "Test_Results" ) found_name = true;
if ( !found_name ) Print( "---> Error: API GetAllResultsNames" );
if ( GetNumResults( "Test_Results" ) != 2 ) Print( "---> Error: API GetNumResults" );
string res_id = FindResultsID( "Test_Results" );
if ( res_id.size() == 0 ) Print( "---> Error: API FindResultsID" );
array< string > @data_names = GetAllDataNames( res_id );
if ( data_names.size() != 5 ) Print( "---> Error: API GetAllDataNames" );
if ( GetNumData( res_id, "Test_Int" ) != 2 ) Print( "---> Error: API GetNumData " );
array<int> @int_arr = GetIntResults( res_id, "Test_Int", 0 );
if ( int_arr[0] != 1 ) Print( "---> Error: API GetIntResults" );
int_arr = GetIntResults( res_id, "Test_Int", 1 );
if ( int_arr[0] != 2 ) Print( "---> Error: API GetIntResults" );
array<string> @str_arr = GetStringResults( res_id, "Test_String" );
if ( str_arr[0] != "This Is A Test" ) Print( "---> Error: API GetStringResults" );
array<double> @double_arr = GetDoubleResults( res_id, "Test_Double_Vec" );
if ( double_arr.size() != 5 ) Print( "---> Error: API GetDoubleResults" );
if ( abs( double_arr[4] - 4 ) > tol ) Print( "---> Error: API GetDoubleResults" );
res_id = FindLatestResultsID( "Test_Results" );
array<vec3d> @vec3d_vec = GetVec3dResults( res_id, "Test_Vec3d" );
if ( !CloseVec3d( vec3d_vec[0], vec3d( 1.0, 2.0, 4.0 ), tol )) Print( "---> Error: API GetVec3dResults" );
//==== Test Mass Props ====//
Print(string("---> Test Mass Properties"));
gid0 = AddGeom( "POD", "" );
string sliced_id = ComputeMassProps( 0, 4 );
string mass_res_id = FindLatestResultsID( "Mass_Properties" );
double_arr = GetDoubleResults( mass_res_id, "Total_Mass" );
if ( double_arr.size() != 1 ) Print( "---> Error: API ComputeMassProps" );
CutGeomToClipboard( mass_res_id );
//==== Test Comp Geom ====//
Print(string("---> Test Comp Geom"));
gid1 = AddGeom( "POD", "" );
string p0 = GetParm( gid1, "Length", "Design" );
string p1 = GetParm( gid1, "X_Location", "XForm" );
SetParmVal( p0, 12.0 );
SetParmVal( p1, 4.0 );
string mesh_id = ComputeCompGeom( 0, false, 0 );
string comp_res_id = FindLatestResultsID( "Comp_Geom" );
double_arr = GetDoubleResults( comp_res_id, "Wet_Area" );
if ( double_arr.size() != 2 ) Print( "---> Error: API ComputeCompGeom" );
//==== Test Comp Geom Mesh Results ====//
string mesh_geom_res_id = CreateGeomResults( mesh_id, "Comp_Mesh" );
int_arr = GetIntResults( mesh_geom_res_id, "Num_Tris" );
if ( int_arr[0] < 4 ) Print( "---> Error: API CreateGeomResults" );
CutGeomToClipboard( mesh_id );
//==== Test Geom Results ====//
Print(string("---> Test Geom Export Results"));
string geom_xsec_results = CreateGeomResults( gid1, "Geom_XSecs" );
file f;
if( f.open("geom_xsecs.stl", "w") >= 0 )
{
f.writeString( "solid " + "\r\n" );
int_arr = GetIntResults( geom_xsec_results, "Num_XSecs" );
int num_xsecs = int_arr[0];
for ( int i = 0 ; i < num_xsecs ; i++ )
{
array<vec3d> @p_vec = GetVec3dResults( geom_xsec_results, "XSec_Pnts", i );
for ( int p = 0 ; p < int(p_vec.size()) - 1 ; p++ )
{
f.writeString( "facet normal 1 0 0 \r\n" );
f.writeString( " outer loop \r\n" );
f.writeString( " vertex " + p_vec[p].x() + " " + p_vec[p].y() + " " + p_vec[p].z() + "\r\n");
f.writeString( " vertex " + p_vec[p+1].x() + " " + p_vec[p+1].y() + " " + p_vec[p+1].z() + "\r\n");
f.writeString( " vertex " + (p_vec[p].x() + 0.1) + " " + p_vec[p].y() + " " + p_vec[p].z() + "\r\n");
f.writeString( " endloop \r\n" );
f.writeString( "endfacet \r\n" );
}
}
f.writeString( "endsolid \r\n" );
f.close();
}
//==== Test Plane Slice ====//
Print(string("---> Test Plane Slice"));
string slice_mesh_id = ComputePlaneSlice( 0, 6, vec3d(0.0, 0.0, 1.0), true );
string pslice_results = FindLatestResultsID( "Slice" );
double_arr = GetDoubleResults( pslice_results, "Slice_Area" );
if ( double_arr.size() != 6 ) Print( "---> Error: API ComputePlaneSlice" );
string slice_geom_results = CreateGeomResults( slice_mesh_id, "Slice_Mesh" );
int_arr = GetIntResults( slice_geom_results, "Num_Slices" );
if ( int_arr[0] != 6 ) Print( "---> Error: API CreateGeomResults (Slice)" );
//===== Write File With Slice Triangles ====//
if( f.open("slice_tris.stl", "w") >= 0 )
{
int num_slices = int_arr[0];
f.writeString( "solid " + "\r\n" );
for ( int s = 0 ; s < num_slices ; s++ )
{
array<vec3d> @p0_vec = GetVec3dResults( slice_geom_results, "Slice_Tris_Pnt_0", s );
array<vec3d> @p1_vec = GetVec3dResults( slice_geom_results, "Slice_Tris_Pnt_1", s );
array<vec3d> @p2_vec = GetVec3dResults( slice_geom_results, "Slice_Tris_Pnt_2", s );
for ( int p = 0 ; p < int(p0_vec.size()) ; p++ )
{
f.writeString( "facet normal 1 0 0 \r\n" );
f.writeString( " outer loop \r\n" );
f.writeString( " vertex " + p0_vec[p].x() + " " + p0_vec[p].y() + " " + p0_vec[p].z() + "\r\n");
f.writeString( " vertex " + p1_vec[p].x() + " " + p1_vec[p].y() + " " + p1_vec[p].z() + "\r\n");
f.writeString( " vertex " + p2_vec[p].x() + " " + p2_vec[p].y() + " " + p2_vec[p].z() + "\r\n");
f.writeString( " endloop \r\n" );
f.writeString( "endfacet \r\n" );
}
}
f.writeString( "endsolid \r\n" );
f.close();
}
CutGeomToClipboard( slice_mesh_id );
//==== Test AWave Slice ====//
Print(string("---> Test Awave Slice"));
mesh_id = ComputeAwaveSlice( 0, 4, 4, 22.0, true, vec3d(1.0, 0.0, 0.0), true );
string aslice_results = FindLatestResultsID( "Slice" );
if ( GetNumResults( "Slice" ) != 2 ) Print( "---> Error: API ComputeAwaveSlice" );
DeleteResult( pslice_results );
if ( GetNumResults( "Slice" ) != 1 ) Print( "---> Error: API DeleteResult" );
DeleteAllResults();
if ( GetNumResults( "Slice" ) != 0 ) Print( "---> Error: API DeleteAllResults" );
ClearVSPModel();
//==== Check For API Errors ====//
while ( GetNumTotalErrors() > 0 )
{
ErrorObj err = PopLastError();
Print( err.GetErrorString() );
}
}