/*========================================================================= Program: Visualization Toolkit Module: otherLookupTableWithEnabling.cxx Copyright (c) Ken Martin, Will Schroeder, Bill Lorensen All rights reserved. See Copyright.txt or http://www.kitware.com/Copyright.htm for details. This software is distributed WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the above copyright notice for more information. =========================================================================*/ // .NAME // .SECTION Description // this program tests the LookupTableWithEnabling #include "vtkLookupTableWithEnabling.h" #include "vtkDebugLeaks.h" void TestOLT(vtkLookupTableWithEnabling *lut1) { // actual test lut1->SetRange(1,1024); lut1->Allocate (1024); lut1->SetRampToLinear(); lut1->Build(); double rgb[4]; lut1->GetColor(0, rgb); lut1->GetOpacity(0); lut1->GetTableValue(10,rgb); lut1->GetTableValue(10); unsigned char output[4*1024]; int bitA = 0; lut1->MapScalarsThroughTable2(&bitA, output, VTK_BIT, 2, 1, VTK_RGBA); lut1->MapScalarsThroughTable2(&bitA, output, VTK_CHAR, 2, 1, VTK_RGB); lut1->MapScalarsThroughTable2(&bitA, output, VTK_CHAR, 2, 1, VTK_LUMINANCE_ALPHA); lut1->MapScalarsThroughTable2(&bitA, output, VTK_CHAR, 2, 1, VTK_LUMINANCE); bitA = 1; lut1->MapScalarsThroughTable2(&bitA, output, VTK_BIT, 2, 1, VTK_RGBA); lut1->MapScalarsThroughTable2(&bitA, output, VTK_CHAR, 2, 1, VTK_RGB); lut1->MapScalarsThroughTable2(&bitA, output, VTK_CHAR, 2, 1, VTK_LUMINANCE_ALPHA); lut1->MapScalarsThroughTable2(&bitA, output, VTK_CHAR, 2, 1, VTK_LUMINANCE); char charA[2] = {0, 10}; lut1->MapScalarsThroughTable2(charA, output, VTK_CHAR, 2, 1, VTK_RGBA); lut1->MapScalarsThroughTable2(charA, output, VTK_CHAR, 2, 1, VTK_RGB); lut1->MapScalarsThroughTable2(charA, output, VTK_CHAR, 2, 1, VTK_LUMINANCE_ALPHA); lut1->MapScalarsThroughTable2(charA, output, VTK_CHAR, 2, 1, VTK_LUMINANCE); unsigned char ucharA[2] = {0, 10}; lut1->MapScalarsThroughTable2(ucharA, output, VTK_UNSIGNED_CHAR, 2, 1, VTK_RGBA); lut1->MapScalarsThroughTable2(ucharA, output, VTK_UNSIGNED_CHAR, 2, 1, VTK_RGB); lut1->MapScalarsThroughTable2(ucharA, output, VTK_UNSIGNED_CHAR, 2, 1, VTK_LUMINANCE_ALPHA); lut1->MapScalarsThroughTable2(ucharA, output, VTK_UNSIGNED_CHAR, 2, 1, VTK_LUMINANCE); int intA[2] = {0, 10}; lut1->MapScalarsThroughTable2(intA, output, VTK_INT, 2, 1, VTK_RGBA); lut1->MapScalarsThroughTable2(intA, output, VTK_INT, 2, 1, VTK_RGB); lut1->MapScalarsThroughTable2(intA, output, VTK_INT, 2, 1, VTK_LUMINANCE_ALPHA); lut1->MapScalarsThroughTable2(intA, output, VTK_INT, 2, 1, VTK_LUMINANCE); unsigned int uintA[2] = {0, 10}; lut1->MapScalarsThroughTable2(uintA, output, VTK_UNSIGNED_INT, 2, 1, VTK_RGBA); lut1->MapScalarsThroughTable2(uintA, output, VTK_UNSIGNED_INT, 2, 1, VTK_RGB); lut1->MapScalarsThroughTable2(uintA, output, VTK_UNSIGNED_INT, 2, 1, VTK_LUMINANCE_ALPHA); lut1->MapScalarsThroughTable2(uintA, output, VTK_UNSIGNED_INT, 2, 1, VTK_LUMINANCE); long longA[2] = {0, 10}; lut1->MapScalarsThroughTable2(longA, output, VTK_LONG, 2, 1, VTK_RGBA); lut1->MapScalarsThroughTable2(longA, output, VTK_LONG, 2, 1, VTK_RGB); lut1->MapScalarsThroughTable2(longA, output, VTK_LONG, 2, 1, VTK_LUMINANCE_ALPHA); lut1->MapScalarsThroughTable2(longA, output, VTK_LONG, 2, 1, VTK_LUMINANCE); unsigned long ulongA[2] = {0, 10}; lut1->MapScalarsThroughTable2(ulongA, output, VTK_UNSIGNED_LONG, 2, 1, VTK_RGBA); lut1->MapScalarsThroughTable2(ulongA, output, VTK_UNSIGNED_LONG, 2, 1, VTK_RGB); lut1->MapScalarsThroughTable2(ulongA, output, VTK_UNSIGNED_LONG, 2, 1, VTK_LUMINANCE_ALPHA); lut1->MapScalarsThroughTable2(ulongA, output, VTK_UNSIGNED_LONG, 2, 1, VTK_LUMINANCE); short shortA[2] = {0, 10}; lut1->MapScalarsThroughTable2(shortA, output, VTK_SHORT, 2, 1, VTK_RGBA); lut1->MapScalarsThroughTable2(shortA, output, VTK_SHORT, 2, 1, VTK_RGB); lut1->MapScalarsThroughTable2(shortA, output, VTK_SHORT, 2, 1, VTK_LUMINANCE_ALPHA); lut1->MapScalarsThroughTable2(shortA, output, VTK_SHORT, 2, 1, VTK_LUMINANCE); unsigned short ushortA[2] = {0, 10}; lut1->MapScalarsThroughTable2(ushortA, output, VTK_UNSIGNED_SHORT, 2, 1, VTK_RGBA); lut1->MapScalarsThroughTable2(ushortA, output, VTK_UNSIGNED_SHORT, 2, 1, VTK_RGB); lut1->MapScalarsThroughTable2(ushortA, output, VTK_UNSIGNED_SHORT, 2, 1, VTK_LUMINANCE_ALPHA); lut1->MapScalarsThroughTable2(ushortA, output, VTK_UNSIGNED_SHORT, 2, 1, VTK_LUMINANCE); float floatA[2] = {0, 10}; lut1->MapScalarsThroughTable2(floatA, output, VTK_FLOAT, 2, 1, VTK_RGBA); lut1->MapScalarsThroughTable2(floatA, output, VTK_FLOAT, 2, 1, VTK_RGB); lut1->MapScalarsThroughTable2(floatA, output, VTK_FLOAT, 2, 1, VTK_LUMINANCE_ALPHA); lut1->MapScalarsThroughTable2(floatA, output, VTK_FLOAT, 2, 1, VTK_LUMINANCE); double doubleA[2] = {0, 10}; lut1->MapScalarsThroughTable2(doubleA, output, VTK_DOUBLE, 2, 1, VTK_RGBA); lut1->MapScalarsThroughTable2(doubleA, output, VTK_DOUBLE, 2, 1, VTK_RGB); lut1->MapScalarsThroughTable2(doubleA, output, VTK_DOUBLE, 2, 1, VTK_LUMINANCE_ALPHA); lut1->MapScalarsThroughTable2(doubleA, output, VTK_DOUBLE, 2, 1, VTK_LUMINANCE); } int otherLookupTableWithEnabling(int,char *[]) { vtkLookupTableWithEnabling *lut1 = vtkLookupTableWithEnabling::New(); lut1->SetAlpha(1.0); lut1->SetScaleToLinear(); TestOLT(lut1); lut1->SetAlpha(.5); TestOLT(lut1); lut1->Delete(); vtkLookupTableWithEnabling *lut2 = vtkLookupTableWithEnabling::New(); lut2->SetAlpha(1.0); lut2->SetScaleToLog10(); TestOLT(lut2); lut2->SetAlpha(.5); TestOLT(lut2); lut2->Delete(); return 0; }