这个内部函数以一个几何图形的WKT 表示(而不是几何图形本身)以及作为SVG属性的颜色和线宽为输入。
This internal function takes the WKT representation of a geometry as input -- not the geometry itself -- along with the color and line width for the respective SVG attributes.
另一个框架显示所有层中几何图形的二维图形化表示。
Another frame shows the two-dimensional, graphical representation of the geometries in all layers.
有了范围、线宽和用户提供的颜色后,最后就可以处理所有的几何图形,将它们转换为SVG表示。
With the extent, the line width, and the user-provided color, you can now finally process all geometries and convert them to their SVG representation.
在处理过程中,需要将数据库中的几何图形转换成它的SVG表示,并添加一些特定于呈现的属性,例如颜色和笔划宽度。
It is necessary to convert a geometry in the database to its SVG representation and adding some rendering-specific attributes like color and stroke-width in the process.
将几何图形转换成其相应的SVG表示,这是由DB 2数据在一个新的用户定义函数帮助下完成的。
The conversion of geometries to their SVG representation is performed by the DB2 database server with the help of a new user-defined function.
例如,表示整个美国的区域的几何图形由60个多边形组成,总共有198569个点来定义那些多边形。
For example, a geometry that represents the whole area of the United States consists of 60 single polygons with a combined total of 198569 points defining those polygons.
每一个新的几何图形是由列表示在属性表格中的一个新对象。
Each new polygon is a new object that is represented by a row in the attribute table.
决定氨基酸残基和碱基相互关系的结合几何图形表示为立体化学图,它表明了识别的特异性。
The binding geometry determined by interaction of the residues and bases in recognition area is indicated in the stereochemical chart.
决定氨基酸残基和碱基相互关系的结合几何图形表示为立体化学图,它表明了识别的特异性。
The binding geometry determined by interaction of the residues and bases in recognition area is indicated in the stereochemical chart.
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