X-Git-Url: http://git.salome-platform.org/gitweb/?a=blobdiff_plain;f=src%2FTools%2FYamsPlug%2FYamsPlugDialog.ui;h=f9ae2a42a1aed6e0c941be5943c106d0b8690e98;hb=52d825495306f72048c8754aa5c86c6a390f8262;hp=e34b7b7da1b09f05119bdf38cd8b4b4abb9a90de;hpb=51aa4c4a2d1d6b180791d0c063dcc23fded5333c;p=modules%2Fsmesh.git
diff --git a/src/Tools/YamsPlug/YamsPlugDialog.ui b/src/Tools/YamsPlug/YamsPlugDialog.ui
index e34b7b7da..f9ae2a42a 100644
--- a/src/Tools/YamsPlug/YamsPlugDialog.ui
+++ b/src/Tools/YamsPlug/YamsPlugDialog.ui
@@ -6,12 +6,12 @@
0
0
- 800
- 500
+ 791
+ 593
- Yams : Remeshing tool
+ MGSurfOpt : Remeshing tool
false
@@ -19,7 +19,7 @@
-
-
-
+
-
Qt::Horizontal
@@ -34,7 +34,7 @@
-
+
-
@@ -67,12 +67,12 @@
Save
-
-
- 18
- 18
-
-
+
+
+ 18
+ 18
+
+
-
@@ -80,12 +80,12 @@
Load
-
-
- 18
- 18
-
-
+
+
+ 18
+ 18
+
+
-
@@ -120,7 +120,7 @@
- -
+
-
Qt::Horizontal
@@ -135,7 +135,7 @@
-
+
-
@@ -164,156 +164,152 @@
Optimisation
-
-
-
-
-
-
-
- Qt::Horizontal
-
-
- QSizePolicy::Minimum
-
-
-
- 30
- 20
-
-
-
-
-
- -
-
-
-
-
-
- Quality improvement is done by point smoothing and edge swapping.
-
-
- Quality improvement Only (0)
-
-
- true
-
-
-
- -
-
-
- The given surface triangulation is enriched (no coarsening at all) in such away that the distance
+
+
-
+
+
+ Qt::Horizontal
+
+
+ QSizePolicy::Minimum
+
+
+
+ 30
+ 20
+
+
+
+
+ -
+
+
-
+
+
+ Quality improvement is done by point smoothing and edge swapping.
+
+
+ Quality improvement Only
+
+
+ true
+
+
+
+ -
+
+
+ The given surface triangulation is enriched (no coarsening at all) in such away that the distance
between the elements in the final mesh and those of the initial one is bounded by auser specified tolerance value.
One should use this option, to enrich the mesh where purely
geometrical features may be insuficiently fine, i.e. the resulting mesh will be least as fine as the input.
Mesh and the geometric features will be refined if needed as specified by the other program parameters.
The meshes obtained with those settings may not be suitable for computation.
-
-
- Pure Geometry Enrichment (G)
-
-
- false
-
-
-
- -
-
-
- An uniform subdivision of the given surface triangulation is performed :
+
+
+ Pure Geometry Enrichment
+
+
+ false
+
+
+
+ -
+
+
+ An uniform subdivision of the given surface triangulation is performed :
each triangle of the given surface triangulation is considered at and
is divided into identical triangles.
-
-
- Uniform Subdivision (U)
-
-
- false
-
-
-
- -
-
-
- A surface sandpapering without shrinkage of the given surface
+
+
+ Uniform Subdivision
+
+
+ false
+
+
+
+ -
+
+
+ A surface sandpapering without shrinkage of the given surface
triangulation is performed, i.e., the high curvature variations of the
given surface will be smoothed out without shrinking the volume in
doing so. If ridges are defined, they will be kept as they are in the
resulting mesh.
This option modifies the geometry.
-
-
- Sandpapering (S)
-
-
- false
-
-
-
- -
-
-
- The given surface triangulation is modified in such a way that the distance between
+
+
+ Sandpapering
+
+
+ false
+
+
+
+ -
+
+
+ The given surface triangulation is modified in such a way that the distance between
the elements in the final mesh and those of the initial one is bounded by a user specfied tolerance value.
One should use this option, to coarsen when a purely geometrical mesh is needed. (a mesh that keeps
and obeys its geometric features only.) The meshes obtained with this option are usually not suitable
for computation because anisotropic elements may be generated
-
-
- Geometrical Mesh : Coarsening (-2)
-
-
-
- -
-
-
- The given surface triangulation is modified in such a way that the distance between
+
+
+ Geometrical Mesh : Coarsening
+
+
+
+ -
+
+
+ The given surface triangulation is modified in such a way that the distance between
the elements in the final mesh and those of the initial one is bounded by a user specfied tolerance value.
One should use this option, to coarsen and enrich when a purely geometrical mesh is needed. (a mesh that keeps
and obeys its geometric features only.) The meshes obtained with this setting are usually not suitable
for computation because anisotropic elements may be generated
-
-
- Geometrical Mesh : Coarsening and Enrichment (2)
-
-
-
- -
-
-
- The given surface triangulation is modified in accordance to a size map.
+
+
+ Geometrical Mesh : Coarsening and Enrichment
+
+
+
+ -
+
+
+ The given surface triangulation is modified in accordance to a size map.
The latter can be either the intrinsic size map (computed automatically
and based on the surface properties, i.e. the local curvatures),
or on a given size map (which is then combined to the intrinsic size map).
One should use this option to coarsen the mesh, when a regular mesh
for computation purposes is desired, i.e. a mesh with good aspect ratios or
good quality elements.
-
-
- Mesh for finite element computation : Coarsening (-1)
-
-
-
- -
-
-
- The given surface triangulation is modified in accordance to a size map.
+
+
+ Mesh for finite element computation : Coarsening
+
+
+
+ -
+
+
+ The given surface triangulation is modified in accordance to a size map.
The latter can be either the intrinsic size map (computed automatically
and based on the surface properties, i.e. the local curvatures),
or on a given size map (which is then combined to the intrinsic size map).
One should use this option to coarse and enrich the mesh, when a regular mesh
for computation purposes is desired, i.e. a mesh with good aspect ratios or
good quality elements
-
-
- Mesh for finite element computation : Coarsening and Enrichment (1)
-
-
-
-
-
-
-
+
+
+ Mesh for finite element computation : Coarsening and Enrichment
+
+
+
+
+
+
@@ -343,7 +339,7 @@ In other words, it avoids having faces too far away from the curve they should r
- If the Units parameter is relative, epsilon max correspond to (per thousand) s*Tolerance/1000, where s is the size of the bounding box of the domain.
+ If the Units parameter is relative, epsilon max correspond to s*Tolerance, where s is the size of the bounding box of the domain.
If the Units parameter is absolute, the tolerance parameter is expressed in model units:
if P=2 and point coordinates are given in millimeters, the maximal chordal deviation is 2 mm.
@@ -494,6 +490,7 @@ If the Units parameter is absolute, the tolerance parameter is expressed in mode
+ GBUnit
groupBox
GBOptim
@@ -558,7 +555,6 @@ or add vertices (refines) to change the mesh.
true
-
@@ -580,8 +576,6 @@ New created vertices are saved in the .mesh file under keyword section 'Vertices
false
-
-
@@ -595,7 +589,6 @@ New created vertices are saved in the .mesh file under keyword section 'Vertices
You can control
-##1
@@ -606,13 +599,13 @@ New created vertices are saved in the .mesh file under keyword section 'Vertices
- 0.89
+ 90.000000000000000
- 0.01
+ 1.000000000000000
- 0.04
+ 15.000000000000000
@@ -646,7 +639,6 @@ faces.
Maximum angle allowed between a face and a curve (not separated by a ridge).
-##2
@@ -657,10 +649,10 @@ Maximum angle allowed between a face and a curve (not separated by a ridge).
- 90.
+ 90.000000000000000
- 45.
+ 45.000000000000000
@@ -677,7 +669,6 @@ Maximum angle allowed between a face and a curve (not separated by a ridge).
-##3
@@ -688,16 +679,16 @@ the edge common to the faces is a ridge.
- 0.01
+ 0.010000000000000
- 100.
+ 100.000000000000000
- 0.1
+ 0.100000000000000
- 100.
+ 100.000000000000000
@@ -723,7 +714,6 @@ size may be slightly bigger than the prescribed ones.
the lengths of the edges with respect to the specified size map.
-##4
@@ -734,16 +724,16 @@ the lengths of the edges with respect to the specified size map.
- 0.
+ 0.000000000000000
- 100.
+ 100.000000000000000
- 0.1
+ 0.100000000000000
- 5.
+ 5.000000000000000
@@ -769,7 +759,6 @@ size may be slightly bigger than the prescribed ones.
the lengths of the edges with respect to the specified size map.
-##5
@@ -780,10 +769,10 @@ the lengths of the edges with respect to the specified size map.
- 0.01
+ 0.010000000000000
- 1.3
+ 1.300000000000000
@@ -827,8 +816,7 @@ Yams will avoid having two adjacent edges which sizes vary more than the given g
Yams Generic Options
-
-
+
20
@@ -837,15 +825,14 @@ Yams will avoid having two adjacent edges which sizes vary more than the given g
25
-
- 10
-
-
- 3
-
-
-
-
+
+ 10
+
+
+ 3
+
+
+
130
@@ -859,12 +846,11 @@ Yams will avoid having two adjacent edges which sizes vary more than the given g
From 0 (no detail) to 10 (very detailed).
Default is 3.
-
- Verbosity level
-
-
-
-
+
+ Verbosity level
+
+
+
20
@@ -873,16 +859,15 @@ Default is 3.
25
-
- 100000
-
-
- 0
-
-
-
-
-
+
+ 100000
+
+
+ 0
+
+
+
+
130
70
@@ -890,11 +875,8 @@ Default is 3.
30
-
- Memory size (in Mbytes)
-
-
- The program requires roughly about 370 bytes per point. It is thus possible to estimate a priori
+
+ The program requires roughly about 370 bytes per point. It is thus possible to estimate a priori
the required memory size to complete a job. As an example of memory space needed, a mesh
of 543,652 points (1,087,716 triangles) requires 182 Mbytes (about 351 bytes per point). Conversely,
a workstation having 512 Mbytes of memory can handle a mesh of about 2,750,000 points.
@@ -907,9 +889,11 @@ Specify the memory if:
- you want to limit the amount of memory used by the program.
If the input mesh size requires more memory than requested or if the allocated memory (user defined or not)
exceeds the machine capabilities, the tool will stop because of insufficient memory.
-
-
-
+
+
+ Memory size (in Mbytes)
+
+
@@ -959,8 +943,7 @@ exceeds the machine capabilities, the tool will stop because of insufficient mem
-
-
+
20
@@ -969,18 +952,17 @@ exceeds the machine capabilities, the tool will stop because of insufficient mem
31
-
- Save
-
+
+ Save
+
18
18
-
-
-
+
+
120
@@ -989,17 +971,16 @@ exceeds the machine capabilities, the tool will stop because of insufficient mem
31
-
- Load
-
+
+ Load
+
18
18
-
-
+