script-astra/Android/Sdk/sources/android-35/android/os/vibrator/RampSegment.java

/*
 * Copyright (C) 2021 The Android Open Source Project
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package android.os.vibrator;

import android.annotation.NonNull;
import android.annotation.TestApi;
import android.os.Parcel;
import android.os.VibrationEffect;
import android.os.VibratorInfo;

import com.android.internal.util.Preconditions;

import java.util.Objects;

/**
 * Representation of {@link VibrationEffectSegment} that ramps vibration amplitude and/or frequency
 * for a specified duration.
 *
 * <p>The amplitudes are expressed by float values in the range [0, 1], representing the relative
 * output acceleration for the vibrator. The frequencies are expressed in hertz by positive finite
 * float values. The special value zero is used here for an unspecified frequency, and will be
 * automatically mapped to the device's default vibration frequency (usually the resonant
 * frequency).
 *
 * @hide
 */
@TestApi
public final class RampSegment extends VibrationEffectSegment {
    private final float mStartAmplitude;
    private final float mStartFrequencyHz;
    private final float mEndAmplitude;
    private final float mEndFrequencyHz;
    private final int mDuration;

    RampSegment(@NonNull Parcel in) {
        this(in.readFloat(), in.readFloat(), in.readFloat(), in.readFloat(), in.readInt());
    }

    /** @hide */
    public RampSegment(float startAmplitude, float endAmplitude, float startFrequencyHz,
            float endFrequencyHz, int duration) {
        mStartAmplitude = startAmplitude;
        mEndAmplitude = endAmplitude;
        mStartFrequencyHz = startFrequencyHz;
        mEndFrequencyHz = endFrequencyHz;
        mDuration = duration;
    }

    @Override
    public boolean equals(Object o) {
        if (!(o instanceof RampSegment)) {
            return false;
        }
        RampSegment other = (RampSegment) o;
        return Float.compare(mStartAmplitude, other.mStartAmplitude) == 0
                && Float.compare(mEndAmplitude, other.mEndAmplitude) == 0
                && Float.compare(mStartFrequencyHz, other.mStartFrequencyHz) == 0
                && Float.compare(mEndFrequencyHz, other.mEndFrequencyHz) == 0
                && mDuration == other.mDuration;
    }

    public float getStartAmplitude() {
        return mStartAmplitude;
    }

    public float getEndAmplitude() {
        return mEndAmplitude;
    }

    public float getStartFrequencyHz() {
        return mStartFrequencyHz;
    }

    public float getEndFrequencyHz() {
        return mEndFrequencyHz;
    }

    @Override
    public long getDuration() {
        return mDuration;
    }

    /** @hide */
    @Override
    public boolean areVibrationFeaturesSupported(@NonNull VibratorInfo vibratorInfo) {
        boolean areFeaturesSupported = true;
        // If the start/end frequencies are not the same, require frequency control since we need to
        // ramp up/down the frequency.
        if ((mStartFrequencyHz != mEndFrequencyHz)
                // If there is no frequency ramping, make sure that the one frequency used does not
                // require frequency control.
                || frequencyRequiresFrequencyControl(mStartFrequencyHz)) {
            areFeaturesSupported &= vibratorInfo.hasFrequencyControl();
        }
        // If the start/end amplitudes are not the same, require amplitude control since we need to
        // ramp up/down the amplitude.
        if ((mStartAmplitude != mEndAmplitude)
                // If there is no amplitude ramping, make sure that the amplitude used does not
                // require amplitude control.
                || amplitudeRequiresAmplitudeControl(mStartAmplitude)) {
            areFeaturesSupported &= vibratorInfo.hasAmplitudeControl();
        }
        return areFeaturesSupported;
    }

    /** @hide */
    @Override
    public boolean isHapticFeedbackCandidate() {
        return true;
    }

    /** @hide */
    @Override
    public void validate() {
        VibrationEffectSegment.checkFrequencyArgument(mStartFrequencyHz, "startFrequencyHz");
        VibrationEffectSegment.checkFrequencyArgument(mEndFrequencyHz, "endFrequencyHz");
        VibrationEffectSegment.checkDurationArgument(mDuration, "duration");
        Preconditions.checkArgumentInRange(mStartAmplitude, 0f, 1f, "startAmplitude");
        Preconditions.checkArgumentInRange(mEndAmplitude, 0f, 1f, "endAmplitude");
    }

    /** @hide */
    @NonNull
    @Override
    public RampSegment resolve(int defaultAmplitude) {
        // Default amplitude is not supported for ramping.
        return this;
    }

    /** @hide */
    @NonNull
    @Override
    public RampSegment scale(float scaleFactor) {
        float newStartAmplitude = VibrationEffect.scale(mStartAmplitude, scaleFactor);
        float newEndAmplitude = VibrationEffect.scale(mEndAmplitude, scaleFactor);
        if (Float.compare(mStartAmplitude, newStartAmplitude) == 0
                && Float.compare(mEndAmplitude, newEndAmplitude) == 0) {
            return this;
        }
        return new RampSegment(newStartAmplitude, newEndAmplitude, mStartFrequencyHz,
                mEndFrequencyHz,
                mDuration);
    }

    /** @hide */
    @NonNull
    @Override
    public RampSegment scaleLinearly(float scaleFactor) {
        float newStartAmplitude = VibrationEffect.scaleLinearly(mStartAmplitude, scaleFactor);
        float newEndAmplitude = VibrationEffect.scaleLinearly(mEndAmplitude, scaleFactor);
        if (Float.compare(mStartAmplitude, newStartAmplitude) == 0
                && Float.compare(mEndAmplitude, newEndAmplitude) == 0) {
            return this;
        }
        return new RampSegment(newStartAmplitude, newEndAmplitude, mStartFrequencyHz,
                mEndFrequencyHz,
                mDuration);
    }

    /** @hide */
    @NonNull
    @Override
    public RampSegment applyEffectStrength(int effectStrength) {
        return this;
    }

    @Override
    public int hashCode() {
        return Objects.hash(mStartAmplitude, mEndAmplitude, mStartFrequencyHz, mEndFrequencyHz,
                mDuration);
    }

    @Override
    public String toString() {
        return "Ramp{startAmplitude=" + mStartAmplitude
                + ", endAmplitude=" + mEndAmplitude
                + ", startFrequencyHz=" + mStartFrequencyHz
                + ", endFrequencyHz=" + mEndFrequencyHz
                + ", duration=" + mDuration
                + "}";
    }

    /** @hide */
    @Override
    public String toDebugString() {
        return String.format("Ramp=%dms(amplitude=%.2f%s to %.2f%s)",
                mDuration,
                mStartAmplitude,
                Float.compare(mStartFrequencyHz, 0) == 0 ? "" : " @ " + mStartFrequencyHz + "Hz",
                mEndAmplitude,
                Float.compare(mEndFrequencyHz, 0) == 0 ? "" : " @ " + mEndFrequencyHz + "Hz");
    }

    @Override
    public int describeContents() {
        return 0;
    }

    @Override
    public void writeToParcel(@NonNull Parcel out, int flags) {
        out.writeInt(PARCEL_TOKEN_RAMP);
        out.writeFloat(mStartAmplitude);
        out.writeFloat(mEndAmplitude);
        out.writeFloat(mStartFrequencyHz);
        out.writeFloat(mEndFrequencyHz);
        out.writeInt(mDuration);
    }

    @NonNull
    public static final Creator<RampSegment> CREATOR =
            new Creator<RampSegment>() {
                @Override
                public RampSegment createFromParcel(Parcel in) {
                    // Skip the type token
                    in.readInt();
                    return new RampSegment(in);
                }

                @Override
                public RampSegment[] newArray(int size) {
                    return new RampSegment[size];
                }
            };
}
init 2025-01-20 15:15:20 +00:00			`/*`
			`* Copyright (C) 2021 The Android Open Source Project`
			`*`
			`* Licensed under the Apache License, Version 2.0 (the "License");`
			`* you may not use this file except in compliance with the License.`
			`* You may obtain a copy of the License at`
			`*`
			`* http://www.apache.org/licenses/LICENSE-2.0`
			`*`
			`* Unless required by applicable law or agreed to in writing, software`
			`* distributed under the License is distributed on an "AS IS" BASIS,`
			`* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.`
			`* See the License for the specific language governing permissions and`
			`* limitations under the License.`
			`*/`

			`package android.os.vibrator;`

			`import android.annotation.NonNull;`
			`import android.annotation.TestApi;`
			`import android.os.Parcel;`
			`import android.os.VibrationEffect;`
			`import android.os.VibratorInfo;`

			`import com.android.internal.util.Preconditions;`

			`import java.util.Objects;`

			`/**`
			`* Representation of {@link VibrationEffectSegment} that ramps vibration amplitude and/or frequency`
			`* for a specified duration.`
			`*`
			`* <p>The amplitudes are expressed by float values in the range [0, 1], representing the relative`
			`* output acceleration for the vibrator. The frequencies are expressed in hertz by positive finite`
			`* float values. The special value zero is used here for an unspecified frequency, and will be`
			`* automatically mapped to the device's default vibration frequency (usually the resonant`
			`* frequency).`
			`*`
			`* @hide`
			`*/`
			`@TestApi`
			`public final class RampSegment extends VibrationEffectSegment {`
			`private final float mStartAmplitude;`
			`private final float mStartFrequencyHz;`
			`private final float mEndAmplitude;`
			`private final float mEndFrequencyHz;`
			`private final int mDuration;`

			`RampSegment(@NonNull Parcel in) {`
			`this(in.readFloat(), in.readFloat(), in.readFloat(), in.readFloat(), in.readInt());`
			`}`

			`/** @hide */`
			`public RampSegment(float startAmplitude, float endAmplitude, float startFrequencyHz,`
			`float endFrequencyHz, int duration) {`
			`mStartAmplitude = startAmplitude;`
			`mEndAmplitude = endAmplitude;`
			`mStartFrequencyHz = startFrequencyHz;`
			`mEndFrequencyHz = endFrequencyHz;`
			`mDuration = duration;`
			`}`

			`@Override`
			`public boolean equals(Object o) {`
			`if (!(o instanceof RampSegment)) {`
			`return false;`
			`}`
			`RampSegment other = (RampSegment) o;`
			`return Float.compare(mStartAmplitude, other.mStartAmplitude) == 0`
			`&& Float.compare(mEndAmplitude, other.mEndAmplitude) == 0`
			`&& Float.compare(mStartFrequencyHz, other.mStartFrequencyHz) == 0`
			`&& Float.compare(mEndFrequencyHz, other.mEndFrequencyHz) == 0`
			`&& mDuration == other.mDuration;`
			`}`

			`public float getStartAmplitude() {`
			`return mStartAmplitude;`
			`}`

			`public float getEndAmplitude() {`
			`return mEndAmplitude;`
			`}`

			`public float getStartFrequencyHz() {`
			`return mStartFrequencyHz;`
			`}`

			`public float getEndFrequencyHz() {`
			`return mEndFrequencyHz;`
			`}`

			`@Override`
			`public long getDuration() {`
			`return mDuration;`
			`}`

			`/** @hide */`
			`@Override`
			`public boolean areVibrationFeaturesSupported(@NonNull VibratorInfo vibratorInfo) {`
			`boolean areFeaturesSupported = true;`
			`// If the start/end frequencies are not the same, require frequency control since we need to`
			`// ramp up/down the frequency.`
			`if ((mStartFrequencyHz != mEndFrequencyHz)`
			`// If there is no frequency ramping, make sure that the one frequency used does not`
			`// require frequency control.`
			`\|\| frequencyRequiresFrequencyControl(mStartFrequencyHz)) {`
			`areFeaturesSupported &= vibratorInfo.hasFrequencyControl();`
			`}`
			`// If the start/end amplitudes are not the same, require amplitude control since we need to`
			`// ramp up/down the amplitude.`
			`if ((mStartAmplitude != mEndAmplitude)`
			`// If there is no amplitude ramping, make sure that the amplitude used does not`
			`// require amplitude control.`
			`\|\| amplitudeRequiresAmplitudeControl(mStartAmplitude)) {`
			`areFeaturesSupported &= vibratorInfo.hasAmplitudeControl();`
			`}`
			`return areFeaturesSupported;`
			`}`

			`/** @hide */`
			`@Override`
			`public boolean isHapticFeedbackCandidate() {`
			`return true;`
			`}`

			`/** @hide */`
			`@Override`
			`public void validate() {`
			`VibrationEffectSegment.checkFrequencyArgument(mStartFrequencyHz, "startFrequencyHz");`
			`VibrationEffectSegment.checkFrequencyArgument(mEndFrequencyHz, "endFrequencyHz");`
			`VibrationEffectSegment.checkDurationArgument(mDuration, "duration");`
			`Preconditions.checkArgumentInRange(mStartAmplitude, 0f, 1f, "startAmplitude");`
			`Preconditions.checkArgumentInRange(mEndAmplitude, 0f, 1f, "endAmplitude");`
			`}`

			`/** @hide */`
			`@NonNull`
			`@Override`
			`public RampSegment resolve(int defaultAmplitude) {`
			`// Default amplitude is not supported for ramping.`
			`return this;`
			`}`

			`/** @hide */`
			`@NonNull`
			`@Override`
			`public RampSegment scale(float scaleFactor) {`
			`float newStartAmplitude = VibrationEffect.scale(mStartAmplitude, scaleFactor);`
			`float newEndAmplitude = VibrationEffect.scale(mEndAmplitude, scaleFactor);`
			`if (Float.compare(mStartAmplitude, newStartAmplitude) == 0`
			`&& Float.compare(mEndAmplitude, newEndAmplitude) == 0) {`
			`return this;`
			`}`
			`return new RampSegment(newStartAmplitude, newEndAmplitude, mStartFrequencyHz,`
			`mEndFrequencyHz,`
			`mDuration);`
			`}`

			`/** @hide */`
			`@NonNull`
			`@Override`
			`public RampSegment scaleLinearly(float scaleFactor) {`
			`float newStartAmplitude = VibrationEffect.scaleLinearly(mStartAmplitude, scaleFactor);`
			`float newEndAmplitude = VibrationEffect.scaleLinearly(mEndAmplitude, scaleFactor);`
			`if (Float.compare(mStartAmplitude, newStartAmplitude) == 0`
			`&& Float.compare(mEndAmplitude, newEndAmplitude) == 0) {`
			`return this;`
			`}`
			`return new RampSegment(newStartAmplitude, newEndAmplitude, mStartFrequencyHz,`
			`mEndFrequencyHz,`
			`mDuration);`
			`}`

			`/** @hide */`
			`@NonNull`
			`@Override`
			`public RampSegment applyEffectStrength(int effectStrength) {`
			`return this;`
			`}`

			`@Override`
			`public int hashCode() {`
			`return Objects.hash(mStartAmplitude, mEndAmplitude, mStartFrequencyHz, mEndFrequencyHz,`
			`mDuration);`
			`}`

			`@Override`
			`public String toString() {`
			`return "Ramp{startAmplitude=" + mStartAmplitude`
			`+ ", endAmplitude=" + mEndAmplitude`
			`+ ", startFrequencyHz=" + mStartFrequencyHz`
			`+ ", endFrequencyHz=" + mEndFrequencyHz`
			`+ ", duration=" + mDuration`
			`+ "}";`
			`}`

			`/** @hide */`
			`@Override`
			`public String toDebugString() {`
			`return String.format("Ramp=%dms(amplitude=%.2f%s to %.2f%s)",`
			`mDuration,`
			`mStartAmplitude,`
			`Float.compare(mStartFrequencyHz, 0) == 0 ? "" : " @ " + mStartFrequencyHz + "Hz",`
			`mEndAmplitude,`
			`Float.compare(mEndFrequencyHz, 0) == 0 ? "" : " @ " + mEndFrequencyHz + "Hz");`
			`}`

			`@Override`
			`public int describeContents() {`
			`return 0;`
			`}`

			`@Override`
			`public void writeToParcel(@NonNull Parcel out, int flags) {`
			`out.writeInt(PARCEL_TOKEN_RAMP);`
			`out.writeFloat(mStartAmplitude);`
			`out.writeFloat(mEndAmplitude);`
			`out.writeFloat(mStartFrequencyHz);`
			`out.writeFloat(mEndFrequencyHz);`
			`out.writeInt(mDuration);`
			`}`

			`@NonNull`
			`public static final Creator<RampSegment> CREATOR =`
			`new Creator<RampSegment>() {`
			`@Override`
			`public RampSegment createFromParcel(Parcel in) {`
			`// Skip the type token`
			`in.readInt();`
			`return new RampSegment(in);`
			`}`

			`@Override`
			`public RampSegment[] newArray(int size) {`
			`return new RampSegment[size];`
			`}`
			`};`
			`}`