#include "TFIMapping.h"#include "MappingInformation.h"#include "MappingRC.h"#include <float.h>#include "LineMapping.h"#include "display.h"#include "ParallelUtility.h"
Macros | |
| #define | SQR(x) ((x)*(x)) |
| #define | C(side, axis) c[(side)+2*(axis)] |
| #define | CR(side, axis) cr[(side)+2*(axis)] |
| #define | EDGE(side, axis) edge[(side)+2*(axis)] |
| #define | EDGER(side, axis) edger[(side)+2*(axis)] |
| #define | EDGE(side, axis, dir) edge[(side)+2*(axis+3*(dir))] |
| #define | EDGER(side, axis, dir) edger[(side)+2*(axis+3*(dir))] |
Macro Definition Documentation
| #define C | ( | side, | |
| axis | |||
| ) | c[(side)+2*(axis)] |
Referenced by ErrorEstimator::computeErrorFunction(), MappingGeometry::computeVolumeIntegrals(), PlotIt::contour3d(), PlotIt::contourCuts(), MappingsFromCAD::createSurface(), displayValuesAtAPoint(), UnstructuredMapping::findBoundaryCurves(), Interpolant::interpolate(), InterpolateRefinements::interpolateCoarseFromFine(), Interpolate::interpolateCoarseToFine(), InterpolateRefinements::interpolateRefinementBoundaries(), Interpolant::interpolateRefinementLevel(), main(), Stencil::makeCoefficients(), Ogmg::operatorAveraging(), TridiagonalSolver::periodicTridiagonalFactor(), TridiagonalSolver::periodicTridiagonalSolve(), floatMappedGridFunction::periodicUpdate(), intMappedGridFunction::periodicUpdate(), doubleMappedGridFunction::periodicUpdate(), HyperbolicMapping::plotDirectionArrows(), TridiagonalSolver::scalarBlockFactor(), TridiagonalSolver::scalarBlockPeriodicFactor(), TridiagonalSolver::scalarBlockPeriodicSolve(), TridiagonalSolver::scalarBlockSolve(), showFileFromDataFile(), EllipticGridGenerator::smoothJacobi(), Integrate::surfaceArea(), Integrate::surfaceIntegral(), TridiagonalSolver::tridiagonalFactor(), TridiagonalSolver::tridiagonalSolve(), and Integrate::volumeIntegral().
| #define CR | ( | side, | |
| axis | |||
| ) | cr[(side)+2*(axis)] |
| #define EDGE | ( | side, | |
| axis | |||
| ) | edge[(side)+2*(axis)] |
| #define EDGE | ( | side, | |
| axis, | |||
| dir | |||
| ) | edge[(side)+2*(axis+3*(dir))] |
| #define EDGER | ( | side, | |
| axis | |||
| ) | edger[(side)+2*(axis)] |
| #define EDGER | ( | side, | |
| axis, | |||
| dir | |||
| ) | edger[(side)+2*(axis+3*(dir))] |
