Lines Matching refs:segments

108     Controls the spacing of segments on the edges of tessellated primitives.
132 collection of line segments arranged in strips stretching across the
201 of segments used to subdivide a corresponding edge.
202 The method used to derive the number and spacing of segments is specified by
212 corresponding edge is divided into [eq]#n# segments of equal length in (u,v)
222 Otherwise, the corresponding edge will be divided into [eq]#n - 2# segments
223 of equal length, and two additional segments of equal length that are
224 typically shorter than the other segments.
225 The length of the two additional segments relative to the others will
228 When [eq]#n - f# is zero, the additional segments will have equal length to
229 the other segments.
231 segments approaches zero.
232 The two additional segments must: be placed symmetrically on opposite sides
234 The relative location of these two segments is implementation-dependent, but
337 spacing, generating [eq]#n# segments.
347 segments, with the [eq]#n - 1# vertices of this subdivision produced by
366 segments perpendicular to the edge passing through each inner vertex of the
448 into [eq]#m# segments using the clamped and rounded first inner tessellation
450 The [eq]#v = 0# and [eq]#v = 1# edges are subdivided into [eq]#n# segments
516 horizontal line segments is drawn.
517 The segments are arranged into connected strips called _isolines_, where the
521 tessellation level; the number of segments in each isoline is derived from
542 line segments.
544 These line segments are generated with a topology similar to
570 Otherwise, the tessellator will produce a collection of line segments or