forked from BilalY/Rasagar
213 lines
9.6 KiB
C#
213 lines
9.6 KiB
C#
using System;
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using Unity.Collections.LowLevel.Unsafe;
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using UnityEngine.InputSystem.Layouts;
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using UnityEngine.InputSystem.Utilities;
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using UnityEngine.Scripting;
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////TODO: come up with a mechanism to allow (certain) processors to be stateful
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////TODO: cache processors globally; there's no need to instantiate the same processor with the same parameters multiple times
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//// (except if they do end up being stateful)
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namespace UnityEngine.InputSystem
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{
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/// <summary>
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/// A processor that conditions/transforms input values.
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/// </summary>
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/// <remarks>
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/// To define a custom processor, it is usable best to derive from <see cref="InputProcessor{TValue}"/>
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/// instead of from this class. Doing so will avoid having to deal with things such as the raw memory
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/// buffers of <see cref="Process"/>.
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///
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/// Note, however, that if you do want to define a processor that can process more than one type of
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/// value, you can derive directly from this class.
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/// </remarks>
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/// <seealso cref="InputBinding.processors"/>
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/// <seealso cref="InputControlLayout.ControlItem.processors"/>
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/// <seealso cref="InputSystem.RegisterProcessor{T}"/>
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/// <seealso cref="InputActionRebindingExtensions.GetParameterValue(InputAction,string,InputBinding)"/>
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/// <seealso cref="InputActionRebindingExtensions.ApplyParameterOverride(InputActionMap,string,PrimitiveValue,InputBinding)"/>
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public abstract class InputProcessor
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{
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/// <summary>
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/// Process an input value, given as an object, and return the processed value as an object.
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/// </summary>
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/// <param name="value">A value matching the processor's value type.</param>
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/// <param name="control">Optional control that the value originated from. Must have the same value type
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/// that the processor has.</param>
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/// <returns>A processed value based on <paramref name="value"/>.</returns>
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/// <remarks>
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/// This method allocates GC heap memory. To process values without allocating GC memory, it is necessary to either know
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/// the value type of a processor at compile time and call <see cref="InputProcessor{TValue}.Process(TValue,UnityEngine.InputSystem.InputControl)"/>
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/// directly or to use <see cref="Process"/> instead and process values in raw memory buffers.
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/// </remarks>
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public abstract object ProcessAsObject(object value, InputControl control);
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/// <summary>
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/// Process an input value stored in the given memory buffer.
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/// </summary>
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/// <param name="buffer">Memory buffer containing the input value. Must be at least large enough
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/// to hold one full value as indicated by <paramref name="bufferSize"/>.</param>
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/// <param name="bufferSize">Size (in bytes) of the value inside <paramref name="buffer"/>.</param>
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/// <param name="control">Optional control that the value originated from. Must have the same value type
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/// that the processor has.</param>
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/// <remarks>
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/// This method allows processing values of arbitrary size without allocating memory on the GC heap.
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/// </remarks>
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public abstract unsafe void Process(void* buffer, int bufferSize, InputControl control);
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internal static TypeTable s_Processors;
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/// <summary>
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/// Get the value type of a processor without having to instantiate it and use <see cref="valueType"/>.
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/// </summary>
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/// <param name="processorType"></param>
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/// <returns>Value type of the given processor or null if it could not be determined statically.</returns>
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/// <exception cref="ArgumentNullException"><paramref name="processorType"/> is null.</exception>
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/// <remarks>
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/// This method is reliant on the processor being based on <see cref="InputProcessor{TValue}"/>. It will return
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/// the <c>TValue</c> argument used with the class. If the processor is not based on <see cref="InputProcessor{TValue}"/>,
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/// this method returns null.
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/// </remarks>
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internal static Type GetValueTypeFromType(Type processorType)
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{
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if (processorType == null)
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throw new ArgumentNullException(nameof(processorType));
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return TypeHelpers.GetGenericTypeArgumentFromHierarchy(processorType, typeof(InputProcessor<>), 0);
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}
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/// <summary>
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/// Caching policy regarding usage of return value from processors.
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/// </summary>
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public enum CachingPolicy
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{
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/// <summary>
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/// Cache result value if unprocessed value has not been changed.
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/// </summary>
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CacheResult = 0,
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/// <summary>
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/// Process value every call to <see cref="InputControl{TValue}.ReadValue()"/> even if unprocessed value has not been changed.
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/// </summary>
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EvaluateOnEveryRead = 1
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}
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/// <summary>
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/// Caching policy of the processor. Override this property to provide a different value.
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/// </summary>
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public virtual CachingPolicy cachingPolicy => CachingPolicy.CacheResult;
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}
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/// <summary>
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/// A processor that conditions/transforms input values.
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/// </summary>
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/// <typeparam name="TValue">Type of value to be processed. Only InputControls that use the
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/// same value type will be compatible with the processor.</typeparam>
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/// <remarks>
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/// Each <see cref="InputControl"/> can have a stack of processors assigned to it.
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///
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/// Note that processors CANNOT be stateful. If you need processing that requires keeping
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/// mutating state over time, use InputActions. All mutable state needs to be
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/// kept in the central state buffers.
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///
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/// However, processors can have configurable parameters. Every public field on a processor
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/// object can be set using "parameters" in JSON or by supplying parameters through the
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/// <see cref="InputControlAttribute.processors"/> field.
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///
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/// <example>
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/// <code>
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/// // To register the processor, call
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/// //
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/// // InputSystem.RegisterProcessor<ScalingProcessor>("scale");
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/// //
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/// public class ScalingProcessor : InputProcessor<float>
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/// {
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/// // This field can be set as a parameter. See examples below.
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/// // If not explicitly configured, will have its default value.
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/// public float factor = 2.0f;
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///
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/// public float Process(float value, InputControl control)
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/// {
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/// return value * factor;
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/// }
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/// }
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///
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/// // Use processor in JSON:
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/// const string json = @"
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/// {
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/// ""name"" : ""MyDevice"",
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/// ""controls"" : [
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/// { ""name"" : ""axis"", ""layout"" : ""Axis"", ""processors"" : ""scale(factor=4)"" }
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/// ]
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/// }
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/// ";
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///
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/// // Use processor on C# state struct:
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/// public struct MyDeviceState : IInputStateTypeInfo
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/// {
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/// [InputControl(layout = "Axis", processors = "scale(factor=4)"]
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/// public float axis;
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/// }
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/// </code>
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/// </example>
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///
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/// See <see cref="Editor.InputParameterEditor{T}"/> for how to define custom parameter
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/// editing UIs for processors.
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/// </remarks>
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/// <seealso cref="InputSystem.RegisterProcessor"/>
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public abstract class InputProcessor<TValue> : InputProcessor
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where TValue : struct
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{
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/// <summary>
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/// Process the given value and return the result.
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/// </summary>
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/// <remarks>
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/// The implementation of this method must not be stateful.
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/// </remarks>
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/// <param name="value">Input value to process.</param>
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/// <param name="control">Control that the value originally came from. This can be null if the value did
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/// not originate from a control. This can be the case, for example, if the processor sits on a composite
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/// binding (<see cref="InputBindingComposite"/>) as composites are not directly associated with controls
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/// but rather source their values through their child bindings.</param>
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/// <returns>Processed input value.</returns>
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public abstract TValue Process(TValue value, InputControl control);
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public override object ProcessAsObject(object value, InputControl control)
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{
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if (value == null)
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throw new ArgumentNullException(nameof(value));
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if (!(value is TValue))
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throw new ArgumentException(
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$"Expecting value of type '{typeof(TValue).Name}' but got value '{value}' of type '{value.GetType().Name}'",
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nameof(value));
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var valueOfType = (TValue)value;
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return Process(valueOfType, control);
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}
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public override unsafe void Process(void* buffer, int bufferSize, InputControl control)
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{
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if (buffer == null)
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throw new ArgumentNullException(nameof(buffer));
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var valueSize = UnsafeUtility.SizeOf<TValue>();
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if (bufferSize < valueSize)
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throw new ArgumentException(
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$"Expected buffer of at least {valueSize} bytes but got buffer with just {bufferSize} bytes",
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nameof(bufferSize));
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var value = default(TValue);
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var valuePtr = UnsafeUtility.AddressOf(ref value);
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UnsafeUtility.MemCpy(valuePtr, buffer, valueSize);
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value = Process(value, control);
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valuePtr = UnsafeUtility.AddressOf(ref value);
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UnsafeUtility.MemCpy(buffer, valuePtr, valueSize);
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}
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}
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}
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