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Define a geometry and discretize it using a triangular or tetrahedral
mesh

Reconstruct a geometry from STL or mesh data:

Import an STL file into MATLAB

^{®}by using`importGeometry`

. The STL file format is very common and supported by most CAD software. In case of a planar STL geometry, the toolbox converts it to a 2-D geometry by mapping it to the X-Y plane.Reconstruct a geometry from a mesh by using

`geometryFromMesh`

. This function works with triangulated meshes, including planar, volume, and surface triangulation that bounds a closed volume.

Create a geometry:

Stack or nest cubes, cylinders, or spheres to create a geometry for a 3-D problem.

Extrude a 2-D geometry into a 3-D geometry.

Use the constructive solid geometry (CSG) approach, write a geometry function, or use the

`polyshape`

function to create a geometry for a 2-D problem. The CSG approach uses a set of solid building blocks (square, rectangle, circle, ellipse, and polygon) and combines them to define complex geometries.Use the PDE Modeler app to create complex 2-D geometries by drawing, overlapping, and rotating basic shapes, such as circles, polygons and so on.

Mesh a geometry by using the `generateMesh`

function. The
toolbox uses the finite element method (FEM) to solve PDEs. A PDE model
stores the generated mesh as an `FEMesh`

object in its
`Mesh`

property. For details, see Mesh Data.

AnalyticGeometry Properties | Analytic 2-D geometry description |

DiscreteGeometry Properties | Discrete 2-D or 3-D geometry description |

FEMesh Properties | Mesh object |

PDEVisualization Properties | PDE visualization of mesh and nodal results |

PDE Modeler | Create complex 2-D geometries by drawing, overlapping, and rotating basic shapes |

Import a 2-D or 3-D geometry from an STL file.

**Geometry from Triangulated Mesh**

Reconstruct a geometry from a tetrahedral mesh and from a planar multidomain mesh.

Reconstruct a geometry from a triangulated mesh created by the MATLAB
`polyshape`

function.

Reconstruct a geometry from a triangulated surface mesh created by the MATLAB
`alphaShape`

function.

**2-D Geometry Creation at Command Line**

Use constructive solid geometry (CSG) modeling approach to combine basic shapes at the command line.

**Parametrized Function for 2-D Geometry Creation**

Create a 2-D geometry by using a parametrized function.

**Cuboids, Cylinders, and Spheres**

Create a 3-D geometry by stacking or nesting three basic volumes.

**3-D Multidomain Geometry from 2-D Geometry**

Extrude a 2-D geometry imported as an STL file into a 3-D geometry.

**Multidomain Geometry Reconstructed from Mesh**

Split a single-domain block geometry into two domains.

Create a nested multidomain geometry consisting of a unit sphere and a cube.

Recommended workflow uses `FEMesh`

objects to represent
meshes.

Adjust a mesh by using additional arguments of the `generateMesh`

function.

**Find Mesh Elements and Nodes by Location**

Find mesh elements and nodes by their geometric location or proximity to a particular point or node.

**Assess Quality of Mesh Elements**

Evaluate the shape quality of mesh elements.

Legacy workflow uses [p,e,t] triples to represent meshes.

**Poisson's Equation with Point Source and Adaptive Mesh Refinement**

Solve a Poisson's equation with a delta-function point source on the unit disk
using the `adaptmesh`

function.