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/*
 * Copyright © 2016  http://io7m.com
 *
 * Permission to use, copy, modify, and/or distribute this software for any
 * purpose with or without fee is hereby granted, provided that the above
 * copyright notice and this permission notice appear in all copies.
 *
 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
 * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
 * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
 * SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
 * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
 * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR
 * IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
 */

package com.io7m.jtensors.bytebuffered.parameterized;

import com.io7m.jintegers.CheckedMath;
import com.io7m.jnull.NullCheck;
import com.io7m.jnull.Nullable;
import com.io7m.jtensors.MatrixM4x4F;
import com.io7m.jtensors.VectorReadable2FType;
import com.io7m.jtensors.VectorReadable3FType;
import com.io7m.jtensors.VectorReadable4FType;
import com.io7m.jtensors.VectorWritable2FType;
import com.io7m.jtensors.VectorWritable3FType;
import com.io7m.jtensors.VectorWritable4FType;
import com.io7m.jtensors.bytebuffered.ByteBufferRanges;
import com.io7m.jtensors.bytebuffered.ByteBuffered;

import java.nio.ByteBuffer;
import java.util.concurrent.atomic.AtomicLong;

/**
 * 

A 4x4 matrix type with {@code float} elements, packed into a {@link * ByteBuffer}.

* *

Values of this type cannot be accessed safely from multiple threads * without explicit synchronization.

* * @param A phantom type parameter * @param A phantom type parameter */ public final class PMatrixByteBufferedM4x4F extends ByteBuffered implements PMatrixByteBuffered4x4FType { private final ByteBuffer buffer; private PMatrixByteBufferedM4x4F( final ByteBuffer in_buffer, final AtomicLong in_base, final int in_offset) { super(in_base, in_offset); this.buffer = NullCheck.notNull(in_buffer); } /** *

Return a new matrix that is backed by whatever data is at byte offset * {@code byte_offset} in the byte buffer {@code}.

* *

No initialization of the data is performed.

* * @param A phantom type parameter * @param A phantom type parameter * @param b The byte buffer * @param byte_offset A byte offset * * @return A new buffered matrix */ public static PMatrixByteBuffered4x4FType newMatrixFromByteBuffer( final ByteBuffer b, final long byte_offset) { return new PMatrixByteBufferedM4x4F( b, new AtomicLong(byte_offset), 0); } /** *

Return a new matrix that is backed by the given byte buffer {@code b} *

* *

The data for the instance will be taken from the data at the current * value of {@code base.get() + offset}, each time a field is requested or * set.

* *

No initialization of the data is performed.

* * @param A phantom type parameter * @param A phantom type parameter * @param b The byte buffer * @param base The base address * @param offset A constant offset * * @return A new buffered matrix */ public static PMatrixByteBuffered4x4FType newMatrixFromByteBufferAndBase( final ByteBuffer b, final AtomicLong base, final int offset) { return new PMatrixByteBufferedM4x4F(b, base, offset); } private static int checkColumn( final int column) { if ((column < 0) || (column >= 4)) { throw new IndexOutOfBoundsException( "column must be in the range 0 <= row < 4"); } return column; } /** *

The main function that indexes into the buffer that backs the array. * The body of this function decides on how elements are stored. This * implementation chooses to store values in column-major format as this * allows matrices to be sent directly to OpenGL without conversion.

* *

(row * 4) + column, corresponds to row-major storage. (column * 4) + * row, corresponds to column-major (OpenGL) storage.

*/ private static int indexUnsafe( final int row, final int column) { return (column * 4) + row; } private static int checkRow( final int row) { if ((row < 0) || (row >= 4)) { throw new IndexOutOfBoundsException( "row must be in the range 0 <= row < 4"); } return row; } private static int getByteOffsetForIndex( final long base, final int index) { final long b = CheckedMath.add(base, (long) (index * 4)); return (int) ByteBufferRanges.checkByteOffset(b); } @Override public String toString() { final StringBuilder builder = new StringBuilder(512); MatrixM4x4F.showElements(this, builder); return builder.toString(); } private void setAtOffsetAndRowColumn( final long o, final int row, final int col, final float x) { final int i = getByteOffsetForIndex( o, indexUnsafe(row, col)); this.buffer.putFloat(i, x); } private float getAtOffsetAndRowColumn( final long o, final int row, final int col) { return this.buffer.getFloat( getByteOffsetForIndex( o, indexUnsafe(row, col))); } @Override public void getRow4F( final int row, final V out) { this.getRow4FUnsafe(checkRow(row), out); } @Override public void getRow4FUnsafe( final int row, final V out) { final long o = super.getIndex(); out.set4F( this.getAtOffsetAndRowColumn(o, row, 0), this.getAtOffsetAndRowColumn(o, row, 1), this.getAtOffsetAndRowColumn(o, row, 2), this.getAtOffsetAndRowColumn(o, row, 3)); } @Override public int hashCode() { return MatrixM4x4F.hashElements(this); } @Override public boolean equals( final @Nullable Object obj) { if (this == obj) { return true; } if (obj == null) { return false; } if (this.getClass() != obj.getClass()) { return false; } final PMatrixByteBufferedM4x4F other = (PMatrixByteBufferedM4x4F) obj; return MatrixM4x4F.compareElements(this, other); } @Override public float getR0C3F() { return this.getAtOffsetAndRowColumn(super.getIndex(), 0, 3); } @Override public void setR0C3F(final float x) { this.setAtOffsetAndRowColumn(super.getIndex(), 0, 3, x); } @Override public float getR1C3F() { return this.getAtOffsetAndRowColumn(super.getIndex(), 1, 3); } @Override public void setR1C3F(final float x) { this.setAtOffsetAndRowColumn(super.getIndex(), 1, 3, x); } @Override public float getR2C3F() { return this.getAtOffsetAndRowColumn(super.getIndex(), 2, 3); } @Override public void setR2C3F(final float x) { this.setAtOffsetAndRowColumn(super.getIndex(), 2, 3, x); } @Override public float getR3C0F() { return this.getAtOffsetAndRowColumn(super.getIndex(), 3, 0); } @Override public void setR3C0F(final float x) { this.setAtOffsetAndRowColumn(super.getIndex(), 3, 0, x); } @Override public float getR3C1F() { return this.getAtOffsetAndRowColumn(super.getIndex(), 3, 1); } @Override public void setR3C1F(final float x) { this.setAtOffsetAndRowColumn(super.getIndex(), 3, 1, x); } @Override public float getR3C2F() { return this.getAtOffsetAndRowColumn(super.getIndex(), 3, 2); } @Override public void setR3C2F(final float x) { this.setAtOffsetAndRowColumn(super.getIndex(), 3, 2, x); } @Override public float getR3C3F() { return this.getAtOffsetAndRowColumn(super.getIndex(), 3, 3); } @Override public void setR3C3F(final float x) { this.setAtOffsetAndRowColumn(super.getIndex(), 3, 3, x); } @Override public void getRow3F( final int row, final V out) { this.getRow3FUnsafe(checkRow(row), out); } @Override public void getRow3FUnsafe( final int row, final V out) { final long o = super.getIndex(); out.set3F( this.getAtOffsetAndRowColumn(o, row, 0), this.getAtOffsetAndRowColumn(o, row, 1), this.getAtOffsetAndRowColumn(o, row, 2)); } @Override public float getR0C2F() { return this.getAtOffsetAndRowColumn(super.getIndex(), 0, 2); } @Override public void setR0C2F(final float x) { this.setAtOffsetAndRowColumn(super.getIndex(), 0, 2, x); } @Override public float getR1C2F() { return this.getAtOffsetAndRowColumn(super.getIndex(), 1, 2); } @Override public void setR1C2F(final float x) { this.setAtOffsetAndRowColumn(super.getIndex(), 1, 2, x); } @Override public float getR2C0F() { return this.getAtOffsetAndRowColumn(super.getIndex(), 2, 0); } @Override public void setR2C0F(final float x) { this.setAtOffsetAndRowColumn(super.getIndex(), 2, 0, x); } @Override public float getR2C1F() { return this.getAtOffsetAndRowColumn(super.getIndex(), 2, 1); } @Override public void setR2C1F(final float x) { this.setAtOffsetAndRowColumn(super.getIndex(), 2, 1, x); } @Override public float getR2C2F() { return this.getAtOffsetAndRowColumn(super.getIndex(), 2, 2); } @Override public void setR2C2F(final float x) { this.setAtOffsetAndRowColumn(super.getIndex(), 2, 2, x); } @Override public void getRow2F( final int row, final V out) { this.getRow2FUnsafe(checkRow(row), out); } @Override public void getRow2FUnsafe( final int row, final V out) { final long o = super.getIndex(); out.set2F( this.getAtOffsetAndRowColumn(o, row, 0), this.getAtOffsetAndRowColumn(o, row, 1)); } @Override public float getR0C0F() { return this.getAtOffsetAndRowColumn(super.getIndex(), 0, 0); } @Override public void setR0C0F(final float x) { this.setAtOffsetAndRowColumn(super.getIndex(), 0, 0, x); } @Override public float getR1C0F() { return this.getAtOffsetAndRowColumn(super.getIndex(), 1, 0); } @Override public void setR1C0F(final float x) { this.setAtOffsetAndRowColumn(super.getIndex(), 1, 0, x); } @Override public float getR0C1F() { return this.getAtOffsetAndRowColumn(super.getIndex(), 0, 1); } @Override public void setR0C1F(final float x) { this.setAtOffsetAndRowColumn(super.getIndex(), 0, 1, x); } @Override public float getR1C1F() { return this.getAtOffsetAndRowColumn(super.getIndex(), 1, 1); } @Override public void setR1C1F(final float x) { this.setAtOffsetAndRowColumn(super.getIndex(), 1, 1, x); } @Override public float getRowColumnF( final int row, final int column) { checkRow(row); checkColumn(column); return this.getAtOffsetAndRowColumn(super.getIndex(), row, column); } @Override public void setRowWith4F( final int row, final VectorReadable4FType v) { checkRow(row); this.setRowWith4FUnsafe(row, v); } @Override public void setRowWith4FUnsafe( final int row, final VectorReadable4FType v) { final long o = super.getIndex(); this.setAtOffsetAndRowColumn(o, row, 0, v.getXF()); this.setAtOffsetAndRowColumn(o, row, 1, v.getYF()); this.setAtOffsetAndRowColumn(o, row, 2, v.getZF()); this.setAtOffsetAndRowColumn(o, row, 3, v.getWF()); } @Override public void setRow0With4F(final VectorReadable4FType v) { final long o = super.getIndex(); this.setAtOffsetAndRowColumn(o, 0, 0, v.getXF()); this.setAtOffsetAndRowColumn(o, 0, 1, v.getYF()); this.setAtOffsetAndRowColumn(o, 0, 2, v.getZF()); this.setAtOffsetAndRowColumn(o, 0, 3, v.getWF()); } @Override public void setRow1With4F(final VectorReadable4FType v) { final long o = super.getIndex(); this.setAtOffsetAndRowColumn(o, 1, 0, v.getXF()); this.setAtOffsetAndRowColumn(o, 1, 1, v.getYF()); this.setAtOffsetAndRowColumn(o, 1, 2, v.getZF()); this.setAtOffsetAndRowColumn(o, 1, 3, v.getWF()); } @Override public void setRow2With4F(final VectorReadable4FType v) { final long o = super.getIndex(); this.setAtOffsetAndRowColumn(o, 2, 0, v.getXF()); this.setAtOffsetAndRowColumn(o, 2, 1, v.getYF()); this.setAtOffsetAndRowColumn(o, 2, 2, v.getZF()); this.setAtOffsetAndRowColumn(o, 2, 3, v.getWF()); } @Override public void setRow3With4F(final VectorReadable4FType v) { final long o = super.getIndex(); this.setAtOffsetAndRowColumn(o, 3, 0, v.getXF()); this.setAtOffsetAndRowColumn(o, 3, 1, v.getYF()); this.setAtOffsetAndRowColumn(o, 3, 2, v.getZF()); this.setAtOffsetAndRowColumn(o, 3, 3, v.getWF()); } @Override public void setRowWith3F( final int row, final VectorReadable3FType v) { checkRow(row); this.setRowWith3FUnsafe(row, v); } @Override public void setRowWith3FUnsafe( final int row, final VectorReadable3FType v) { final long o = super.getIndex(); this.setAtOffsetAndRowColumn(o, row, 0, v.getXF()); this.setAtOffsetAndRowColumn(o, row, 1, v.getYF()); this.setAtOffsetAndRowColumn(o, row, 2, v.getZF()); } @Override public void setRowWith2F( final int row, final VectorReadable2FType v) { checkRow(row); this.setRowWith2FUnsafe(row, v); } @Override public void setRowWith2FUnsafe( final int row, final VectorReadable2FType v) { final long o = super.getIndex(); this.setAtOffsetAndRowColumn(o, row, 0, v.getXF()); this.setAtOffsetAndRowColumn(o, row, 1, v.getYF()); } @Override public void setRowColumnF( final int row, final int column, final float value) { checkRow(row); checkColumn(column); this.setAtOffsetAndRowColumn(super.getIndex(), row, column, value); } }




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