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42cf5bc1ca
Automatic upgrade of OCCT code by command "occt_upgrade . -nocdl": - WOK-generated header files from inc and sources from drv are moved to src - CDL files removed - All packages are converted to nocdlpack
142 lines
4.5 KiB
C++
142 lines
4.5 KiB
C++
// Created on: 2008-06-21
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// Created by: Vladislav ROMASHKO
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// Copyright (c) 2008-2014 OPEN CASCADE SAS
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//
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// This file is part of Open CASCADE Technology software library.
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//
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// This library is free software; you can redistribute it and/or modify it under
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// the terms of the GNU Lesser General Public License version 2.1 as published
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// by the Free Software Foundation, with special exception defined in the file
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// OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT
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// distribution for complete text of the license and disclaimer of any warranty.
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//
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// Alternatively, this file may be used under the terms of Open CASCADE
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// commercial license or contractual agreement.
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#include <Voxel_BoolDS.hxx>
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#include <stdlib.h>
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static Standard_Byte gbits[8] = {1, 2, 4, 8, 16, 32, 64, 128};
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static Standard_Byte gnbits[8] = {255-1, 255-2, 255-4, 255-8, 255-16, 255-32, 255-64, 255-128};
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// Empty constructor
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Voxel_BoolDS::Voxel_BoolDS():Voxel_DS()
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{
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}
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// Constructor with intialization.
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Voxel_BoolDS::Voxel_BoolDS(const Standard_Real x, const Standard_Real y, const Standard_Real z,
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const Standard_Real xlen, const Standard_Real ylen, const Standard_Real zlen,
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const Standard_Integer nbx, const Standard_Integer nby, const Standard_Integer nbz)
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:Voxel_DS()
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{
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Init(x, y, z, xlen, ylen, zlen, nbx, nby, nbz);
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}
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// Initialization.
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void Voxel_BoolDS::Init(const Standard_Real x, const Standard_Real y, const Standard_Real z,
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const Standard_Real xlen, const Standard_Real ylen, const Standard_Real zlen,
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const Standard_Integer nbx, const Standard_Integer nby, const Standard_Integer nbz)
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{
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Destroy();
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Voxel_DS::Init(x, y, z, xlen, ylen, zlen, nbx, nby, nbz);
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if (!myNbX || !myNbY || !myNbZ)
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return;
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Standard_Integer nb_bytes = RealToInt(ceil(myNbXY * myNbZ / 8.0));
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Standard_Integer nb_slices = RealToInt(ceil(nb_bytes / 8.0));
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myData = (Standard_Address) calloc(nb_slices, sizeof(Standard_Byte*));
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}
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// Destructor
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void Voxel_BoolDS::Destroy()
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{
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if (myData)
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{
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SetZero();
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free((Standard_Byte**)myData);
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myData = 0;
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}
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}
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void Voxel_BoolDS::SetZero()
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{
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if (myData)
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{
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Standard_Integer nb_bytes = RealToInt(ceil(myNbXY * myNbZ / 8.0));
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Standard_Integer ix = 0, nb_slices = RealToInt(ceil(nb_bytes / 8.0));
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for (; ix < nb_slices; ix++)
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{
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if (((Standard_Byte**)myData)[ix])
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{
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free(((Standard_Byte**)myData)[ix]);
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((Standard_Byte**)myData)[ix] = 0;
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}
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}
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}
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}
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// Access to the boolean information attached to a particular voxel:
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// Info: (ix >= 0 && ix < theNb_x), etc.
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void Voxel_BoolDS::Set(const Standard_Integer ix, const Standard_Integer iy, const Standard_Integer iz,
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const Standard_Boolean data)
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{
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Standard_Integer ibit = ix + myNbX * iy + myNbXY * iz;
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Standard_Integer islice = ibit >> 6;
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if (!data && !((Standard_Byte**)myData)[islice])
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return; // don't allocate a slice of data for setting a 0 value
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// Allocate the slice if it is not done yet.
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if (!((Standard_Byte**)myData)[islice])
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{
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((Standard_Byte**)myData)[islice] = (Standard_Byte*) calloc(8/*number of bytes in slice*/, sizeof(Standard_Byte));
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}
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// Index within 8 bytes of the slice.
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Standard_Integer ibit_in_current_slice = ibit - (islice << 6);
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Standard_Integer ibyte = ibit_in_current_slice >> 3;
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// Value (byte)
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Standard_Byte value = ((Standard_Byte*)((Standard_Byte**)myData)[islice])[ibyte];
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// Position of data in the 8 bit-"value".
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Standard_Integer shift = ibit_in_current_slice - (ibyte << 3);
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// Set data
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if (data != ((value & gbits[shift]) ? Standard_True : Standard_False))
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{
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if (data)
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value |= gbits[shift];
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else
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value &= gnbits[shift];
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((Standard_Byte*)((Standard_Byte**)myData)[islice])[ibyte] = value;
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}
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}
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Standard_Boolean Voxel_BoolDS::Get(const Standard_Integer ix, const Standard_Integer iy, const Standard_Integer iz) const
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{
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Standard_Integer ibit = ix + myNbX * iy + myNbXY * iz;
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Standard_Integer islice = ibit >> 6;
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// If the slice of data is not allocated, it means that its values are 0.
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if (!((Standard_Byte**)myData)[islice])
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return Standard_False;
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// Index within 8 bytes of the slice.
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Standard_Integer ibit_in_current_slice = ibit - (islice << 6);
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Standard_Integer ibyte = ibit_in_current_slice >> 3;
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// Value (byte)
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Standard_Byte value = ((Standard_Byte*)((Standard_Byte**)myData)[islice])[ibyte];
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// Position of data in the 8 bit-"value".
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Standard_Integer shift = ibit_in_current_slice - (ibyte << 3);
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return ((value & gbits[shift]) ? Standard_True : Standard_False);
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}
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