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Abstract.OpenCASCADE provides a general transformation class: gp_GTrsf. It can be a transformation from gp, an affinity, or you can define your own transformation giving the matrix of transformation. The general transformation contains the vectorial part of the transformation and the translation part. A GTrsf transformation is only applicable to coordinates. Be careful if you apply such a transformation to all points of a geometric object, as this can change the nature of the object and thus render it incoherent. Typically a circle is transformed into an ellipse by an affinity transformation. To avoid modifying the nature of an object, use a gp_Trsf transformation instead, as objects of this class respect the nature of geometric objects.
Key Words.OpenCASCADE, Transformation, Affinity Transformation
仿射变换(Affinity Transformation)是指线性变换后接着平移。因此,仿射变换的集合是线性变换的超集,任何线性变换都是仿射变换,但不是所有的仿射变换都是线性变换。
仿射变换的定义如下:在空间直角坐标系下,点(x,y,z)与点(x’, y’,z’)之间的变换
称为仿射变换。如果采用特殊的齐次坐标来表达,仿射变换也可用下列形式:
空间仿射变换是把平面变换到平面,直线变换到直线。两个平行平面的像也是平行的。共线三点的的简单比是不变量。平行六面体的体积是权为1的相对不变量。
OpenCASCADE的TKMath库中提供了这上仿射变换类gp_GTrsf,它能执行比gp_Trsf更通用的变换。对于TopoDS_Shape,OpenCASCADE分别提供了如下两个类进行变换:
v BRepBuilderAPI_GTransform
v BRepBuilderAPI_Transform
本文在OpenCASCADE Draw Test Harness中给出这两个类实现变换的结果。如果不想改变几何的特性,只想改变模型的位置或朝向,建议采用BRepBuilderAPI_Transform。
OpenCASCADE中使用算法BRepBuilderAPI_Transform来实现:平移、旋转、缩放及镜像变换。在Draw Test Harness中实现的函数代码如下所示:
static Standard_Integer transform(Draw_Interpretor& di,Standard_Integer n,const char** a) { if (n <= 1) return 1; gp_Trsf T; Standard_Integer last = n; const char* aName = a[0]; Standard_Boolean isBasic = Standard_False; if (!strcmp(aName,"reset")) { } else { isBasic = (aName[0] == 'b'); aName++; if (!strcmp(aName,"move")) { if (n < 3) return 1; TopoDS_Shape SL = DBRep::Get(a[n-1]); if (SL.IsNull()) return 0; T = SL.Location().Transformation(); last = n-1; } else if (!strcmp(aName,"translate")) { if (n < 5) return 1; T.SetTranslation(gp_Vec(Draw::Atof(a[n-3]),Draw::Atof(a[n-2]),Draw::Atof(a[n-1]))); last = n-3; } else if (!strcmp(aName,"rotate")) { if (n < 9) return 1; T.SetRotation(gp_Ax1(gp_Pnt(Draw::Atof(a[n-7]),Draw::Atof(a[n-6]),Draw::Atof(a[n-5])), gp_Vec(Draw::Atof(a[n-4]),Draw::Atof(a[n-3]),Draw::Atof(a[n-2]))), Draw::Atof(a[n-1])* (M_PI / 180.0)); last = n-7; } else if (!strcmp(aName,"mirror")) { if (n < 8) return 1; T.SetMirror(gp_Ax2(gp_Pnt(Draw::Atof(a[n-6]),Draw::Atof(a[n-5]),Draw::Atof(a[n-4])), gp_Vec(Draw::Atof(a[n-3]),Draw::Atof(a[n-2]),Draw::Atof(a[n-1])))); last = n-6; } else if (!strcmp(aName,"scale")) { if (n < 6) return 1; T.SetScale(gp_Pnt(Draw::Atof(a[n-4]),Draw::Atof(a[n-3]),Draw::Atof(a[n-2])),Draw::Atof(a[n-1])); last = n-4; } } if (T.Form() == gp_Identity || isBasic) { TopLoc_Location L(T); for (Standard_Integer i = 1; i < last; i++) { TopoDS_Shape S = DBRep::Get(a[i]); if (S.IsNull()) di << a[i] << " is not a valid shape/n"; else DBRep::Set(a[i],S.Located(L)); } } else { BRepBuilderAPI_Transform trf(T); for (Standard_Integer i = 1; i < last; i++) { TopoDS_Shape S = DBRep::Get(a[i]); if (S.IsNull()) { di << a[i] << " is not a valid shape/n"; } else { trf.Perform(S); if (!trf.IsDone()) return 1; DBRep::Set(a[i],trf.Shape()); } } } return 0; }
下面给出应用Tcl脚本来实现这些变换的例子:
# make rotated copies of a sphere in between two cylinders # create a file source toto.tcl # toto.tcl code: pload ALL # create a sphere psphere s 3 ttranslate s 25 0 12 . for {set i 0 } { $i < 360 } {incr i 20 } { copy s s $i trotate s
脚本运行效果如下图所示:
Figure 2.1 Transform Tcl demo
从Draw中实现的函数来看,移动、旋转及缩放变换都是使用类
BRepBuilderAPI_Transformation来实现。Tcl脚本中先创建出一个球体,再平移后,复制13份,最后又创建出两个圆柱体。如果要对TopoDS_Shape进行变换且不改变其中的几何性质,建议都使用这个类来完成。
在OpenCASCADE也可使用仿射变换BRepBuilderAPI_GTransform来对形状实现上述变换操作,还可提供变形的变换,因此仿射变换是更一般的变换方法。在Draw中实现的函数代码如下所示:
/// ======================================================================= // gtransform // ======================================================================= static Standard_Integer deform(Draw_Interpretor & di,Standard_Integer n, const char ** a) { if (n <= 1 ) return 1 ; Standard_Integer last = n; gp_Trsf T; gp_GTrsf GT(T); // gp_Mat rot(Draw::Atof(a[last-3]),0,0,0,Draw::Atof(a[last-2]),0,0,0,Draw::Atof(a[last-1]));
根据仿射变换的定义,给定一个球面的数学表达式:
应用如下的仿射变换,将会得到一个椭球面:
由变换公式解得:
将它代入球面方程得到:
在Draw中使用BRepBuilderAPI_GTransform变换得到如下图所示:
Figure 3.1 Shape Deformation
关于仿射变换有个重要定理:一般仿射变换是正交变换、沿着三个互相正交方向的压缩或放大和平移这三者的乘积。上述命令的实现代码就是设置了仿射矩阵中的a,b和c值,从而达到对模型变形的效果。
在 三维建模软件中经常需要对模型的位置和其朝向进行变换,如果不想改变模型中的几何特性,在OpenCASCADE中建议使用类 BRepBuilderAPI_Transform来实现。如果需要对模型进行更通用的变换即仿射变换,可以使用类 BRepBuilderAPI_GTransform来实现。使用此类后,会改变模型中的几何特性,必须谨慎使用。
1. OpenCASCADE, OpenCASCADE Draw Test Harness User Guide, 2014
2. 苏步表, 华宣积. 应用几何教程. 复旦大学出版社. 2012
3. Fletcher Dunn. 3D Math Primer for Graphics and Game Development. Wordware. 2002
PDF Version: OpenCASCADE General Transformation