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A cross-platform 3D audio API appropriate for use with gaming applications and many other types of audio applications.

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/*
 * Copyright LWJGL. All rights reserved.
 * License terms: https://www.lwjgl.org/license
 * MACHINE GENERATED FILE, DO NOT EDIT
 */
package org.lwjgl.openal;

import javax.annotation.*;

import java.nio.*;

import org.lwjgl.system.*;

import static org.lwjgl.system.Checks.*;
import static org.lwjgl.system.JNI.*;
import static org.lwjgl.system.MemoryStack.*;
import static org.lwjgl.system.MemoryUtil.*;

/** Native bindings to ALC 1.1 functionality. */
public class ALC11 extends ALC10 {

    /** Context creation attributes. */
    public static final int
        ALC_MONO_SOURCES   = 0x1010,
        ALC_STEREO_SOURCES = 0x1011;

    /** String queries. */
    public static final int
        ALC_DEFAULT_ALL_DEVICES_SPECIFIER    = 0x1012,
        ALC_ALL_DEVICES_SPECIFIER            = 0x1013,
        ALC_CAPTURE_DEVICE_SPECIFIER         = 0x310,
        ALC_CAPTURE_DEFAULT_DEVICE_SPECIFIER = 0x311;

    /** Integer queries. */
    public static final int ALC_CAPTURE_SAMPLES = 0x312;

    protected ALC11() {
        throw new UnsupportedOperationException();
    }

    // --- [ alcCaptureOpenDevice ] ---

    /** Unsafe version of: {@link #alcCaptureOpenDevice CaptureOpenDevice} */
    public static long nalcCaptureOpenDevice(long deviceName, int frequency, int format, int samples) {
		long __functionAddress = ALC.getICD().alcCaptureOpenDevice;
        if (CHECKS) {
            check(__functionAddress);
        }
        return invokePP(deviceName, frequency, format, samples, __functionAddress);
    }

    /**
     * Allows the application to connect to a capture device.
     * 
     * 

The {@code deviceName} argument is a null terminated string that requests a certain device or device configuration. If {@code NULL} is specified, the implementation * will provide an implementation specific default.

* * @param deviceName the device or device configuration * @param frequency the audio frequency * @param format the audio format * @param samples the number of sample frames to buffer in the AL */ @NativeType("ALCdevice *") public static long alcCaptureOpenDevice(@Nullable @NativeType("ALCchar const *") ByteBuffer deviceName, @NativeType("ALCuint") int frequency, @NativeType("ALCenum") int format, @NativeType("ALCsizei") int samples) { if (CHECKS) { checkNT1Safe(deviceName); } return nalcCaptureOpenDevice(memAddressSafe(deviceName), frequency, format, samples); } /** * Allows the application to connect to a capture device. * *

The {@code deviceName} argument is a null terminated string that requests a certain device or device configuration. If {@code NULL} is specified, the implementation * will provide an implementation specific default.

* * @param deviceName the device or device configuration * @param frequency the audio frequency * @param format the audio format * @param samples the number of sample frames to buffer in the AL */ @NativeType("ALCdevice *") public static long alcCaptureOpenDevice(@Nullable @NativeType("ALCchar const *") CharSequence deviceName, @NativeType("ALCuint") int frequency, @NativeType("ALCenum") int format, @NativeType("ALCsizei") int samples) { MemoryStack stack = stackGet(); int stackPointer = stack.getPointer(); try { stack.nUTF8Safe(deviceName, true); long deviceNameEncoded = deviceName == null ? NULL : stack.getPointerAddress(); return nalcCaptureOpenDevice(deviceNameEncoded, frequency, format, samples); } finally { stack.setPointer(stackPointer); } } // --- [ alcCaptureCloseDevice ] --- /** * Allows the application to disconnect from a capture device. * * @param device the capture device to close */ @NativeType("ALCboolean") public static boolean alcCaptureCloseDevice(@NativeType("ALCdevice *") long device) { long __functionAddress = ALC.getICD().alcCaptureCloseDevice; if (CHECKS) { check(__functionAddress); check(device); } return invokePZ(device, __functionAddress); } // --- [ alcCaptureStart ] --- /** * Starts recording audio on the specific capture device. * *

Once started, the device will record audio to an internal ring buffer, the size of which was specified when opening the device. The application may * query the capture device to discover how much data is currently available via the alcGetInteger with the ALC_CAPTURE_SAMPLES token. This will report the * number of sample frames currently available.

* * @param device the capture device */ @NativeType("ALCvoid") public static void alcCaptureStart(@NativeType("ALCdevice *") long device) { long __functionAddress = ALC.getICD().alcCaptureStart; if (CHECKS) { check(__functionAddress); check(device); } invokePV(device, __functionAddress); } // --- [ alcCaptureStop ] --- /** * Halts audio capturing without closing the capture device. * *

The implementation is encouraged to optimize for this case. The amount of audio samples available after restarting a stopped capture device is reset to * zero. The application does not need to stop the capture device to read from it.

* * @param device the capture device */ @NativeType("ALCvoid") public static void alcCaptureStop(@NativeType("ALCdevice *") long device) { long __functionAddress = ALC.getICD().alcCaptureStop; if (CHECKS) { check(__functionAddress); check(device); } invokePV(device, __functionAddress); } // --- [ alcCaptureSamples ] --- /** Unsafe version of: {@link #alcCaptureSamples CaptureSamples} */ public static void nalcCaptureSamples(long device, long buffer, int samples) { long __functionAddress = ALC.getICD().alcCaptureSamples; if (CHECKS) { check(__functionAddress); check(device); } invokePPV(device, buffer, samples, __functionAddress); } /** * Obtains captured audio samples from the AL. * *

The implementation may defer conversion and resampling until this point. Requesting more sample frames than are currently available is an error.

* * @param device the capture device * @param buffer the buffer that will receive the samples. It must be big enough to contain at least {@code samples} sample frames. * @param samples the number of sample frames to obtain */ @NativeType("ALCvoid") public static void alcCaptureSamples(@NativeType("ALCdevice *") long device, @NativeType("ALCvoid *") ByteBuffer buffer, @NativeType("ALCsizei") int samples) { nalcCaptureSamples(device, memAddress(buffer), samples); } /** * Obtains captured audio samples from the AL. * *

The implementation may defer conversion and resampling until this point. Requesting more sample frames than are currently available is an error.

* * @param device the capture device * @param buffer the buffer that will receive the samples. It must be big enough to contain at least {@code samples} sample frames. * @param samples the number of sample frames to obtain */ @NativeType("ALCvoid") public static void alcCaptureSamples(@NativeType("ALCdevice *") long device, @NativeType("ALCvoid *") ShortBuffer buffer, @NativeType("ALCsizei") int samples) { nalcCaptureSamples(device, memAddress(buffer), samples); } /** * Obtains captured audio samples from the AL. * *

The implementation may defer conversion and resampling until this point. Requesting more sample frames than are currently available is an error.

* * @param device the capture device * @param buffer the buffer that will receive the samples. It must be big enough to contain at least {@code samples} sample frames. * @param samples the number of sample frames to obtain */ @NativeType("ALCvoid") public static void alcCaptureSamples(@NativeType("ALCdevice *") long device, @NativeType("ALCvoid *") IntBuffer buffer, @NativeType("ALCsizei") int samples) { nalcCaptureSamples(device, memAddress(buffer), samples); } /** * Obtains captured audio samples from the AL. * *

The implementation may defer conversion and resampling until this point. Requesting more sample frames than are currently available is an error.

* * @param device the capture device * @param buffer the buffer that will receive the samples. It must be big enough to contain at least {@code samples} sample frames. * @param samples the number of sample frames to obtain */ @NativeType("ALCvoid") public static void alcCaptureSamples(@NativeType("ALCdevice *") long device, @NativeType("ALCvoid *") FloatBuffer buffer, @NativeType("ALCsizei") int samples) { nalcCaptureSamples(device, memAddress(buffer), samples); } /** Array version of: {@link #alcCaptureSamples CaptureSamples} */ @NativeType("ALCvoid") public static void alcCaptureSamples(@NativeType("ALCdevice *") long device, @NativeType("ALCvoid *") short[] buffer, @NativeType("ALCsizei") int samples) { long __functionAddress = ALC.getICD().alcCaptureSamples; if (CHECKS) { check(__functionAddress); check(device); } invokePPV(device, buffer, samples, __functionAddress); } /** Array version of: {@link #alcCaptureSamples CaptureSamples} */ @NativeType("ALCvoid") public static void alcCaptureSamples(@NativeType("ALCdevice *") long device, @NativeType("ALCvoid *") int[] buffer, @NativeType("ALCsizei") int samples) { long __functionAddress = ALC.getICD().alcCaptureSamples; if (CHECKS) { check(__functionAddress); check(device); } invokePPV(device, buffer, samples, __functionAddress); } /** Array version of: {@link #alcCaptureSamples CaptureSamples} */ @NativeType("ALCvoid") public static void alcCaptureSamples(@NativeType("ALCdevice *") long device, @NativeType("ALCvoid *") float[] buffer, @NativeType("ALCsizei") int samples) { long __functionAddress = ALC.getICD().alcCaptureSamples; if (CHECKS) { check(__functionAddress); check(device); } invokePPV(device, buffer, samples, __functionAddress); } }




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