DisplayMagician/HeliosPlus.Shared/Topology/ProfileViewportTargetDisplay.cs
2020-05-15 23:25:14 +12:00

239 lines
9.6 KiB
C#

using System;
using System.Linq;
using WindowsDisplayAPI.DisplayConfig;
using HeliosPlus.Shared.NVIDIA;
using Newtonsoft.Json;
using Newtonsoft.Json.Converters;
using System.Collections.Generic;
namespace HeliosPlus.Shared.Topology
{
public class ProfileViewportTargetDisplay : IEquatable<ProfileViewportTargetDisplay>
{
public ProfileViewportTargetDisplay(PathTargetInfo targetInfo, SurroundTopology surround = null)
{
DevicePath = targetInfo.DisplayTarget.DevicePath;
var index = DevicePath.IndexOf("{", StringComparison.InvariantCultureIgnoreCase);
if (index > 0)
{
DevicePath = DevicePath.Substring(0, index).TrimEnd('#');
}
FrequencyInMillihertz = targetInfo.FrequencyInMillihertz;
Rotation = targetInfo.Rotation.ToRotation();
Scaling = targetInfo.Scaling.ToScaling();
ScanLineOrdering = targetInfo.ScanLineOrdering.ToScanLineOrdering();
try
{
DisplayName = targetInfo.DisplayTarget.FriendlyName;
}
catch
{
DisplayName = null;
}
SurroundTopology = surround ?? SurroundTopology.FromPathTargetInfo(targetInfo);
}
public ProfileViewportTargetDisplay()
{
}
public string DevicePath { get; set; }
public string DisplayName { get; set; }
public ulong FrequencyInMillihertz { get; set; }
[JsonConverter(typeof(StringEnumConverter))]
public Rotation Rotation { get; set; }
[JsonConverter(typeof(StringEnumConverter))]
public Scaling Scaling { get; set; }
[JsonConverter(typeof(StringEnumConverter))]
public ScanLineOrdering ScanLineOrdering { get; set; }
public SurroundTopology SurroundTopology { get; set; }
/// <inheritdoc />
public override string ToString()
{
return DisplayName ?? $"PathTarget {DevicePath}";
}
public PathTargetInfo ToPathTargetInfo()
{
var targetDevice =
PathDisplayTarget.GetDisplayTargets()
.FirstOrDefault(
target => target.DevicePath.StartsWith(DevicePath,
StringComparison.InvariantCultureIgnoreCase));
if (targetDevice == null)
{
return null;
}
return new PathTargetInfo(new PathDisplayTarget(targetDevice.Adapter, targetDevice.TargetId),
FrequencyInMillihertz, ScanLineOrdering.ToDisplayConfigScanLineOrdering(),
Rotation.ToDisplayConfigRotation(), Scaling.ToDisplayConfigScaling());
}
// The public override for the Object.Equals
public override bool Equals(object obj)
{
return this.Equals(obj as ProfileViewportTargetDisplay);
}
// Profiles are equal if their contents (except name) are equal
public bool Equals(ProfileViewportTargetDisplay other)
{
// If parameter is null, return false.
if (Object.ReferenceEquals(other, null))
return false;
// Optimization for a common success case.
if (Object.ReferenceEquals(this, other))
return true;
// If run-time types are not exactly the same, return false.
if (this.GetType() != other.GetType())
return false;
// Check whether the Profile Viewport properties are equal
// Two profiles are equal only when they have the same viewport data exactly
if (FrequencyInMillihertz == other.FrequencyInMillihertz &&
Rotation.Equals(other.Rotation) &&
Scaling.Equals(other.Scaling) &&
ScanLineOrdering.Equals(other.ScanLineOrdering) &&
DisplayName.Equals(other.DisplayName) &&
DevicePath.Equals(other.DevicePath))
{
// If the above all match, then we need to check the SurroundTopology matches
if (SurroundTopology == null && other.SurroundTopology == null)
return true;
else if (SurroundTopology != null && other.SurroundTopology == null)
return false;
else if (SurroundTopology == null && other.SurroundTopology != null)
return false;
else if (SurroundTopology.Equals(other.SurroundTopology))
return true;
return false;
}
else
return false;
}
// If Equals() returns true for this object compared to another
// then GetHashCode() must return the same value for these objects.
public override int GetHashCode()
{
// Get hash code for the FrequencyInMillihertz field if it is not null.
int hashFrequencyInMillihertz = FrequencyInMillihertz.GetHashCode();
// Get hash code for the Position field if it is not null.
int hashRotation = Rotation.GetHashCode();
// Get hash code for the Scaling field if it is not null.
int hashScaling = Scaling.GetHashCode();
// Get hash code for the ScanLineOrdering field if it is not null.
int hashScanLineOrdering = ScanLineOrdering.GetHashCode();
// Get hash code for the hashDisplayName field if it is not null.
int hashDisplayName = DisplayName == null ? 0 : DisplayName.GetHashCode();
// Get hash code for the DevicePath field if it is not null.
int hashDevicePath = DevicePath == null ? 0 : DevicePath.GetHashCode();
// Get hash code for the SurroundTopology field if it is not null.
int hashSurroundTopology = SurroundTopology == null ? 0 : SurroundTopology.GetHashCode();
//Calculate the hash code for the product.
return hashFrequencyInMillihertz ^ hashRotation ^ hashScaling ^ hashScanLineOrdering ^
hashDisplayName ^ hashDevicePath ^ hashSurroundTopology;
}
}
// Custom comparer for the ProfileViewportTargetDisplay class
class ProfileViewportTargetDisplayComparer : IEqualityComparer<ProfileViewportTargetDisplay>
{
// Products are equal if their names and product numbers are equal.
public bool Equals(ProfileViewportTargetDisplay x, ProfileViewportTargetDisplay y)
{
//Check whether the compared objects reference the same data.
if (Object.ReferenceEquals(x, y)) return true;
//Check whether any of the compared objects is null.
if (Object.ReferenceEquals(x, null) || Object.ReferenceEquals(y, null))
return false;
// Check whether the Profile Viewport properties are equal
// Two profiles are equal only when they have the same viewport data exactly
if (x.FrequencyInMillihertz == y.FrequencyInMillihertz &&
x.Rotation.Equals(y.Rotation) &&
x.Scaling.Equals(y.Scaling) &&
x.ScanLineOrdering.Equals(y.ScanLineOrdering) &&
x.DisplayName.Equals(y.DisplayName) &&
x.DevicePath.Equals(y.DevicePath))
{
// If the above all match, then we need to check the SurroundTopology matches
if (x.SurroundTopology == null && y.SurroundTopology == null)
return true;
else if (x.SurroundTopology != null && y.SurroundTopology == null)
return false;
else if (x.SurroundTopology == null && y.SurroundTopology != null)
return false;
else if (x.SurroundTopology.Equals(y.SurroundTopology))
return true;
return false;
}
else
return false;
}
// If Equals() returns true for a pair of objects
// then GetHashCode() must return the same value for these objects.
public int GetHashCode(ProfileViewportTargetDisplay profileViewport)
{
// Check whether the object is null
if (Object.ReferenceEquals(profileViewport, null)) return 0;
// Get hash code for the FrequencyInMillihertz field if it is not null.
int hashFrequencyInMillihertz = profileViewport.FrequencyInMillihertz.GetHashCode();
// Get hash code for the Position field if it is not null.
int hashRotation = profileViewport.Rotation.GetHashCode();
// Get hash code for the Scaling field if it is not null.
int hashScaling = profileViewport.Scaling.GetHashCode();
// Get hash code for the ScanLineOrdering field if it is not null.
int hashScanLineOrdering = profileViewport.ScanLineOrdering.GetHashCode();
// Get hash code for the hashDisplayName field if it is not null.
int hashDisplayName = profileViewport.DisplayName == null ? 0 : profileViewport.DisplayName.GetHashCode();
// Get hash code for the DevicePath field if it is not null.
int hashDevicePath = profileViewport.DevicePath == null ? 0 : profileViewport.DevicePath.GetHashCode();
// Get hash code for the SurroundTopology field if it is not null.
int hashSurroundTopology = profileViewport.SurroundTopology == null ? 0 : profileViewport.SurroundTopology.GetHashCode();
//Calculate the hash code for the product.
return hashFrequencyInMillihertz ^ hashRotation ^ hashScaling ^ hashScanLineOrdering ^
hashDisplayName ^ hashDevicePath ^ hashSurroundTopology;
}
}
}