Patch coloring is defined differently from surface object coloring in that patches do not automatically generate color data based on the value of the z-coordinate at each vertex. You must explicitly specify patch coloring if you do not want the default white face color and black edge color.
You can specify patch face coloring by defining
A single color for all faces
One color for each face, which is used for flat coloring
One color for each vertex, which is used for interpolated coloring
This table summarizes the patch properties that control color (exclusive of those used when light sources are present).
Specify single, per face, or per vertex colors in conjunction with x, y, and z data
Specifies whether color data is scaled or used directly as indices into the figure colormap
Specify single, per face, or per vertex colors in conjunction with faces and vertices data
Specifies whether edges are invisible, a single color, a flat color determined by vertex colors, or interpolated colors determined by vertex colors
Specifies whether faces are invisible, a single color, a flat color determined by vertex colors, or interpolated colors determined by vertex colors
Specifies the color of the marker, or the edge color for filled markers
Specifies the fill color for markers that are closed shapes
Each patch face has a bounding edge, colored as
A single color for all edges
A flat color defined by the color of the vertex that precedes the edge
Interpolated colors determined by the two vertices that bound the edge
Patch edge colors can be flat or interpolated only when you specify a color for each vertex. Flat edge coloring uses the color of the vertex preceding the edge to determine the color of the edge. The order in which you specify the vertices establishes which vertex colors a particular edge.
The following examples illustrate patch edge coloring:
These statements create a square patch.
v = [0 0 0;1 0 0;1 1 0;0 1 0]; f = [1 2 3 4]; fvc = [1 0 0;0 1 0;1 0 1;1 1 0]; patch('Vertices',v,'Faces',f,'FaceVertexCData',fvc,... 'FaceColor','flat','EdgeColor','flat',... 'Marker','o','MarkerFaceColor','flat')
Faces property value,
[1 2 3
4], determines the order in which MATLAB® connects the
vertices. In this case, the order is red, green, magenta, and yellow.
If you change this order, the results can be quite different. For
example, specifying the
Faces property as
f = [4 3 2 1];
changes the order to yellow, magenta, green, and red. Changing the order not only changes the color of the edges, but also the color of the face, which is the color of the first vertex specified.
Each patch face is bound by edges, which are line segments that connect the vertices. When patches have multiple faces that share vertices, some of the edges might overlap. In such cases, the first face drawn determines the edge color.
For example, this illustration shows a patch with two faces that share an edge. The arrows indicate the order in which each edge is drawn. The color at each vertex determines the color of the edge that follows it. The first face determines the color of the shared edge.
EdgeColor set to
interp, MATLAB interpolates
colors between adjacent vertices. In this case, the order in which
you specify the vertices does not affect the edge color.