create/src/Mod/Part/App/PrecisionPy.xml

<?xml version="1.0" encoding="UTF-8"?>
<GenerateModel xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:noNamespaceSchemaLocation="generateMetaModel_Module.xsd">
  <PythonExport
      Father="PyObjectBase"
      Name="PrecisionPy"
      PythonName="Part.Precision"
      Twin="Precision"
      TwinPointer="Precision"
      Include="Precision.hxx"
      Namespace="Part"
      FatherInclude="Base/PyObjectBase.h"
      FatherNamespace="Base">
    <Documentation>
      <Author Licence="LGPL" Name="Werner Mayer" EMail="wmayer@users.sourceforge.net" />
      <DeveloperDocu>This is the Type class</DeveloperDocu>
      <UserDocu>This is the Type class</UserDocu>
    </Documentation>
    <Methode Name="angular" Static="true">
      <Documentation>
        <UserDocu>Returns the recommended precision value when checking the equality of two angles (given in radians)</UserDocu>
      </Documentation>
    </Methode>
    <Methode Name="confusion" Static="true">
      <Documentation>
        <UserDocu>Returns the recommended precision value when checking coincidence of two points in real space</UserDocu>
      </Documentation>
    </Methode>
    <Methode Name="squareConfusion" Static="true">
      <Documentation>
        <UserDocu>Returns square of confusion</UserDocu>
      </Documentation>
    </Methode>
    <Methode Name="intersection" Static="true">
      <Documentation>
        <UserDocu>Returns the precision value in real space, frequently used by intersection algorithms</UserDocu>
      </Documentation>
    </Methode>
    <Methode Name="approximation" Static="true">
      <Documentation>
        <UserDocu>Returns the precision value in real space, frequently used by approximation algorithms</UserDocu>
      </Documentation>
    </Methode>
    <Methode Name="parametric" Static="true">
      <Documentation>
        <UserDocu>Convert a real space precision to a parametric space precision</UserDocu>
      </Documentation>
    </Methode>
    <Methode Name="isInfinite" Static="true">
      <Documentation>
        <UserDocu>Returns True if R may be considered as an infinite number</UserDocu>
      </Documentation>
    </Methode>
    <Methode Name="isPositiveInfinite" Static="true">
      <Documentation>
        <UserDocu>Returns True if R may  be considered as a positive infinite number</UserDocu>
      </Documentation>
    </Methode>
    <Methode Name="isNegativeInfinite" Static="true">
      <Documentation>
        <UserDocu>Returns True if R may  be considered as a negative infinite number</UserDocu>
      </Documentation>
    </Methode>
    <Methode Name="infinite" Static="true">
      <Documentation>
        <UserDocu>Returns a  big number that  can  be  considered as infinite</UserDocu>
      </Documentation>
    </Methode>
  </PythonExport>
</GenerateModel>