occt/src/GeomFill/GeomFill_LocationGuide.cdl

-- Created on: 1998-07-08
-- Created by: Stephanie HUMEAU
-- Copyright (c) 1998-1999 Matra Datavision
-- Copyright (c) 1999-2014 OPEN CASCADE SAS
--
-- This file is part of Open CASCADE Technology software library.
--
-- This library is free software; you can redistribute it and/or modify it under
-- the terms of the GNU Lesser General Public License version 2.1 as published
-- by the Free Software Foundation, with special exception defined in the file
-- OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT
-- distribution for complete text of the license and disclaimer of any warranty.
--
-- Alternatively, this file may be used under the terms of Open CASCADE
-- commercial license or contractual agreement.

class  LocationGuide  from  GeomFill   
inherits  LocationLaw  from  GeomFill 

uses 
    HCurve from  Adaptor3d,
    Mat  from  gp, 
    Vec  from  gp,  
    Pnt  from  gp, 
    Shape  from  GeomAbs,
    Array1OfReal   from TColStd,
    Array1OfVec2d  from TColgp, 
    Array1OfPnt2d  from TColgp, 
    HArray1OfPnt2d  from TColgp,  
    HArray2OfPnt2d  from TColgp,  
    HArray1OfReal  from TColStd,

    HSurface from  Adaptor3d,
    Curve  from  Geom, 
    Curve  from  Adaptor3d, 
 
    TrihedronWithGuide  from  GeomFill, 
    Dir  from  gp, 
    Line  from  Geom, 
    TrimmedCurve  from  Geom,  
    SectionLaw  from  GeomFill, 
    PipeError  from  GeomFill,    
    Vector  from  math 
    
raises   
    NotImplemented,  ConstructionError,  OutOfRange

is  
    Create(Triedre  :  TrihedronWithGuide  from  GeomFill) 
    returns  LocationGuide  from  GeomFill;
     
    Set  (me  :  mutable; 
    	  Section : SectionLaw  from  GeomFill;
    	  rotat  :  Boolean  from  Standard; 
          SFirst,  SLast  :  Real; 
          PrecAngle  :  Real; 
          LastAngle  :  out  Real)
    is  static; 
     
    EraseRotation(me  :  mutable);	  

    SetRotation(me  :  mutable; 
    	    	PrecAngle  :  Real; 
            	LastAngle  :  out  Real)   
    is  private; 

    SetCurve(me : mutable;  C  :  HCurve  from  Adaptor3d) 
    is  redefined;
     
    GetCurve(me)   
    returns HCurve  from  Adaptor3d  
    ---C++: return const &      
    is redefined;  
    
    SetTrsf(me  :  mutable;  Transfo  :  Mat  from  gp)
    is  redefined;
   
    Copy(me)   
    returns  LocationLaw  from  GeomFill          
    is redefined;
    
     
    D0(me : mutable; 
      Param: Real;
      M    : out  Mat  from  gp; 
      V    : out  Vec  from  gp)
      ---Purpose: compute Location        
    returns Boolean  is  redefined; 
     
    
    D0(me : mutable; 
      Param: Real;
      M    : out  Mat  from  gp; 
      V    : out  Vec  from  gp;
      Poles2d  : out Array1OfPnt2d from TColgp)
      ---Purpose: compute Location and 2d points        
    returns Boolean  is  redefined; 
  

   D1(me : mutable;
      Param: Real; 
      M    : out  Mat  from  gp; 
      V    : out  Vec  from  gp; 
      DM   : out  Mat  from  gp; 
      DV   : out  Vec  from  gp;             
      Poles2d  : out Array1OfPnt2d from TColgp;
      DPoles2d : out Array1OfVec2d from TColgp)
      ---Purpose: compute location 2d  points and  associated
      --          first derivatives.         
      --  Warning : It used only for C1 or C2 aproximation
   returns Boolean   
   is  redefined; 
   
   D2(me : mutable;
      Param: Real;
      M    : out  Mat  from  gp; 
      V    : out  Vec  from  gp; 
      DM   : out  Mat  from  gp; 
      DV   : out  Vec  from  gp;   
      D2M  : out  Mat  from  gp; 
      D2V  : out  Vec  from  gp;  
      Poles2d   : out Array1OfPnt2d from TColgp;
      DPoles2d  : out Array1OfVec2d from TColgp;
      D2Poles2d : out Array1OfVec2d from TColgp)      
      ---Purpose: compute location 2d  points and associated
      --          first and seconde  derivatives.
      --  Warning : It used only for C2 aproximation
   returns Boolean
   is  redefined;
       
		

--   ================== General Information On The Function  ==================    
--                                         

   HasFirstRestriction(me) 
    ---Purpose: Say if the first restriction is defined in this class.
    --           If it  is true the  first element  of poles array   in
    --          D0,D1,D2... Correspond to this restriction.
    --  Returns Standard_False (default implementation) 
   returns  Boolean 
   is  redefined;
    
   HasLastRestriction(me)  --  A  FAIRE  !!
    ---Purpose: Say if the last restriction is defined in this class.
    --           If it is  true the  last element  of poles array in
    --          D0,D1,D2... Correspond to this restriction.
    --          Returns Standard_False (default implementation)   
   returns  Boolean
   is  redefined;
    
   TraceNumber(me) 
   ---Purpose: Give the number of trace (Curves 2d wich are not restriction)
   --          Returns 1 (default implementation)   
   returns  Integer 
   is  redefined;   
    	    
  ErrorStatus(me)   
   ---Purpose:Give a status to the Law              
   --          Returns PipeOk (default implementation) 
   returns  PipeError  from  GeomFill 
   is  redefined;      

--
--  =================== Management  of  continuity  ===================
--                 
   NbIntervals(me; S : Shape from GeomAbs) 
	---Purpose: Returns  the number  of  intervals for  continuity
	--          <S>. 
        --          May be one if Continuity(me) >= <S>
   returns Integer  is  redefined;

   Intervals(me; T : in out Array1OfReal from TColStd; 
    	         S : Shape from GeomAbs)
	---Purpose: Stores in <T> the  parameters bounding the intervals
	--          of continuity <S>.
	--          
	--          The array must provide  enough room to  accomodate
	--          for the parameters. i.e. T.Length() > NbIntervals()
    raises
    	OutOfRange from Standard 
    is redefined;  
     
    	
   SetInterval(me: mutable; First, Last: Real from Standard)    
	---Purpose: Sets the bounds of the parametric interval on
	--          the function
	--          This determines the derivatives in these values if the
	--          function is not Cn.
    	is redefined; 
   
    GetInterval(me; First, Last: out  Real from Standard)    
	---Purpose: Gets the bounds of the parametric interval on 
	--          the function
        is redefined;  
	 
    GetDomain(me; First, Last: out  Real from Standard)  
    	---Purpose: Gets the bounds of the function parametric domain.
    	--  Warning: This domain it is  not modified by the
    	--          SetValue method         
        is  redefined;

--  ===================  To help   computation of  Tolerance   ===============
--  
--  Evaluation of error,  in  2d space,  or  on composed function,  is
--  difficult.  The  following methods can  help the  approximation to
--  make good evaluation and use good tolerances.
--      
--      It is not necessary for the following informations to be very
--      precise. A fast evaluation is sufficient.

   SetTolerance(me  :  mutable;  Tol3d,  Tol2d  :  Real)       
         ---Purpose: Is usefull, if (me) have to run numerical
        --          algorithm to perform D0, D1 or D2        
    	-- The default implementation make nothing.
      is redefined;       

   Resolution(me;   
              Index       :  Integer  from  Standard;
   	      Tol         : Real from Standard;   
              TolU,  TolV :  out Real  from Standard)    
    ---Purpose: Returns the resolutions in the  sub-space 2d <Index>
    --          This information is usfull to find an good tolerance in
    --          2d approximation.              
    --  Warning: Used only if Nb2dCurve > 0          
  is redefined;      
          
   
  GetMaximalNorm(me  :  mutable)
    ---Purpose:  Get the maximum Norm  of the matrix-location part.  It
    --           is usful to find an good Tolerance to approx M(t).  
  returns Real
  is  redefined;  
   
  GetAverageLaw(me :  mutable;   
                AM: out Mat  from  gp;   
                AV: out Vec  from  gp) 
     ---Purpose: Get average value of M(t) and V(t) it is usfull to 
     --          make fast approximation of rational  surfaces.        
  is  redefined; 
  
-- 
-- To find elementary sweep
-- 
  IsTranslation(me; Error  :  out  Real)  
  ---Purpose: Say if the Location  Law, is an translation of  Location
   -- The default implementation is " returns False ". 
  returns  Boolean
  is redefined;
     
  IsRotation(me; Error  :  out  Real ) 
   ---Purpose: Say if the Location  Law, is a rotation of Location
    -- The default implementation is " returns False ". 
  returns  Boolean 
  is  redefined;  
   
  Rotation(me; Center  :  out  Pnt  from  gp) 
  is redefined;    
   
 
  Section(me) 
    returns  Curve  from  Geom; 
      	    
  Guide(me) 
    returns  HCurve  from  Adaptor3d;     
   
  InitX(me; 
    	Param  :  Real  from  Standard) 
  is  private; 
   
  SetOrigine(me  :  mutable; 
    	     Param1  :  Real; 
    	      Param2  :  Real)  
  is static;
 
  ComputeAutomaticLaw(me; ParAndRad : out HArray1OfPnt2d from TColgp)
    returns PipeError from GeomFill;

fields     
    myLaw   :  TrihedronWithGuide  from  GeomFill; -- loi  de  triedre     
    mySec   :  SectionLaw  from  GeomFill; --  loi  de  section
    myCurve  :  HCurve  from  Adaptor3d; --  trajectoire
    myGuide  :  HCurve  from  Adaptor3d; --  guide
    myTrimmed  :  HCurve  from  Adaptor3d;  --  trajectoire  trimme 

    myPoles2d : HArray2OfPnt2d from TColgp  is  protected; 
    
    myNbPts  :  Integer  from  Standard; 
    rotation  :  Boolean  from  Standard; --  contact  ou  non
    OrigParam1  :  Real  from  Standard;  --  pour  ACR
    OrigParam2  :  Real  from  Standard; 
    Uf,  Ul     :  Real  from  Standard;      
    myFirstS    :  Real  from  Standard;  
    myLastS     :  Real  from  Standard; 
    ratio       :  Real  from  Standard;    
    
    WithTrans:  Boolean  from  Standard; 
    Trans    :  Mat  from gp;  
    TolRes   :  Vector  from  math; 
    Inf,  Sup:  Vector  from  math; 
    X,  R    :  Vector  from  math; 
     
    myStatus :  PipeError  from  GeomFill;
			    
end  LocationGuide;