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com.jogamp.oculusvr.ovrSensorData Maven / Gradle / Ivy

/* !---- DO NOT EDIT: This file autogenerated by com/jogamp/gluegen/JavaEmitter.java on Sat Oct 10 03:31:13 CEST 2015 ----! */


package com.jogamp.oculusvr;

import java.nio.*;

import com.jogamp.gluegen.runtime.*;
import com.jogamp.common.os.*;
import com.jogamp.common.nio.*;
import jogamp.common.os.MachineDataInfoRuntime;

import com.jogamp.oculusvr.*;
import java.security.AccessController;
import java.security.PrivilegedAction;

public class ovrSensorData {

  StructAccessor accessor;

  private static final int mdIdx = MachineDataInfoRuntime.getStatic().ordinal();
  private final MachineDataInfo md;

  private static final int[] ovrSensorData_size = new int[] { 44 /* ARM_MIPS_32 */, 44 /* X86_32_UNIX */, 44 /* X86_32_MACOS */, 44 /* PPC_32_UNIX */, 44 /* SPARC_32_SUNOS */, 44 /* X86_32_WINDOWS */, 44 /* LP64_UNIX */, 44 /* X86_64_WINDOWS */  };
  private static final int[] Accelerometer_offset = new int[] { 0 /* ARM_MIPS_32 */, 0 /* X86_32_UNIX */, 0 /* X86_32_MACOS */, 0 /* PPC_32_UNIX */, 0 /* SPARC_32_SUNOS */, 0 /* X86_32_WINDOWS */, 0 /* LP64_UNIX */, 0 /* X86_64_WINDOWS */ };
  private static final int[] Accelerometer_size = new int[] { 12 /* ARM_MIPS_32 */, 12 /* X86_32_UNIX */, 12 /* X86_32_MACOS */, 12 /* PPC_32_UNIX */, 12 /* SPARC_32_SUNOS */, 12 /* X86_32_WINDOWS */, 12 /* LP64_UNIX */, 12 /* X86_64_WINDOWS */  };
  private static final int[] Gyro_offset = new int[] { 12 /* ARM_MIPS_32 */, 12 /* X86_32_UNIX */, 12 /* X86_32_MACOS */, 12 /* PPC_32_UNIX */, 12 /* SPARC_32_SUNOS */, 12 /* X86_32_WINDOWS */, 12 /* LP64_UNIX */, 12 /* X86_64_WINDOWS */ };
  private static final int[] Gyro_size = new int[] { 12 /* ARM_MIPS_32 */, 12 /* X86_32_UNIX */, 12 /* X86_32_MACOS */, 12 /* PPC_32_UNIX */, 12 /* SPARC_32_SUNOS */, 12 /* X86_32_WINDOWS */, 12 /* LP64_UNIX */, 12 /* X86_64_WINDOWS */  };
  private static final int[] Magnetometer_offset = new int[] { 24 /* ARM_MIPS_32 */, 24 /* X86_32_UNIX */, 24 /* X86_32_MACOS */, 24 /* PPC_32_UNIX */, 24 /* SPARC_32_SUNOS */, 24 /* X86_32_WINDOWS */, 24 /* LP64_UNIX */, 24 /* X86_64_WINDOWS */ };
  private static final int[] Magnetometer_size = new int[] { 12 /* ARM_MIPS_32 */, 12 /* X86_32_UNIX */, 12 /* X86_32_MACOS */, 12 /* PPC_32_UNIX */, 12 /* SPARC_32_SUNOS */, 12 /* X86_32_WINDOWS */, 12 /* LP64_UNIX */, 12 /* X86_64_WINDOWS */  };
  private static final int[] Temperature_offset = new int[] { 36 /* ARM_MIPS_32 */, 36 /* X86_32_UNIX */, 36 /* X86_32_MACOS */, 36 /* PPC_32_UNIX */, 36 /* SPARC_32_SUNOS */, 36 /* X86_32_WINDOWS */, 36 /* LP64_UNIX */, 36 /* X86_64_WINDOWS */ };
//private static final int[] Temperature_size = new int[] { 4 /* ARM_MIPS_32 */, 4 /* X86_32_UNIX */, 4 /* X86_32_MACOS */, 4 /* PPC_32_UNIX */, 4 /* SPARC_32_SUNOS */, 4 /* X86_32_WINDOWS */, 4 /* LP64_UNIX */, 4 /* X86_64_WINDOWS */  };
  private static final int[] TimeInSeconds_offset = new int[] { 40 /* ARM_MIPS_32 */, 40 /* X86_32_UNIX */, 40 /* X86_32_MACOS */, 40 /* PPC_32_UNIX */, 40 /* SPARC_32_SUNOS */, 40 /* X86_32_WINDOWS */, 40 /* LP64_UNIX */, 40 /* X86_64_WINDOWS */ };
//private static final int[] TimeInSeconds_size = new int[] { 4 /* ARM_MIPS_32 */, 4 /* X86_32_UNIX */, 4 /* X86_32_MACOS */, 4 /* PPC_32_UNIX */, 4 /* SPARC_32_SUNOS */, 4 /* X86_32_WINDOWS */, 4 /* LP64_UNIX */, 4 /* X86_64_WINDOWS */  };

  public static int size() {
    return ovrSensorData_size[mdIdx];
  }

  public static ovrSensorData create() {
    return create(Buffers.newDirectByteBuffer(size()));
  }

  public static ovrSensorData create(java.nio.ByteBuffer buf) {
      return new ovrSensorData(buf);
  }

  ovrSensorData(java.nio.ByteBuffer buf) {
    md = MachineDataInfo.StaticConfig.values()[mdIdx].md;
    accessor = new StructAccessor(buf);
  }

  public java.nio.ByteBuffer getBuffer() {
    return accessor.getBuffer();
  }

  /** Getter for native field Accelerometer: CType[(StructType) typedef 'ovrVector3f', size [fixed false, lnx64 12], [const[false], struct{ovrVector3f_: 3, }]] */
  public ovrVector3f getAccelerometer() {
    return ovrVector3f.create( accessor.slice( Accelerometer_offset[mdIdx], Accelerometer_size[mdIdx] ) );
 }

  /** Getter for native field Gyro: CType[(StructType) typedef 'ovrVector3f', size [fixed false, lnx64 12], [const[false], struct{ovrVector3f_: 3, }]] */
  public ovrVector3f getGyro() {
    return ovrVector3f.create( accessor.slice( Gyro_offset[mdIdx], Gyro_size[mdIdx] ) );
 }

  /** Getter for native field Magnetometer: CType[(StructType) typedef 'ovrVector3f', size [fixed false, lnx64 12], [const[false], struct{ovrVector3f_: 3, }]] */
  public ovrVector3f getMagnetometer() {
    return ovrVector3f.create( accessor.slice( Magnetometer_offset[mdIdx], Magnetometer_size[mdIdx] ) );
 }

  /** Setter for native field Temperature: CType[(FloatType) 'float', size [fixed true, lnx64 4], [const[false], float]] */
  public ovrSensorData setTemperature(float val) {
    accessor.setFloatAt(Temperature_offset[mdIdx], val);
    return this;
  }

  /** Getter for native field Temperature: CType[(FloatType) 'float', size [fixed true, lnx64 4], [const[false], float]] */
  public float getTemperature() {
    return accessor.getFloatAt(Temperature_offset[mdIdx]);
  }

  /** Setter for native field TimeInSeconds: CType[(FloatType) 'float', size [fixed true, lnx64 4], [const[false], float]] */
  public ovrSensorData setTimeInSeconds(float val) {
    accessor.setFloatAt(TimeInSeconds_offset[mdIdx], val);
    return this;
  }

  /** Getter for native field TimeInSeconds: CType[(FloatType) 'float', size [fixed true, lnx64 4], [const[false], float]] */
  public float getTimeInSeconds() {
    return accessor.getFloatAt(TimeInSeconds_offset[mdIdx]);
  }
}