Backups/UnityExplorer_Fix
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Project refactor, namespace cleanup, splitting UI/functionality.

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This commit is contained in:
Sinai
2021-03-18 17:17:29 +11:00
parent 1c0011bef9
commit 25e48f2f37
99 changed files with 3387 additions and 3096 deletions
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76
src/Core/CSharp/ScriptEvaluator.cs Normal file
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using System;
using System.Collections.Generic;
using System.IO;
using System.Reflection;
using Mono.CSharp;
// Thanks to ManlyMarco for most of this
namespace UnityExplorer.Core.CSharp
{
public class ScriptEvaluator : Evaluator, IDisposable
{
private static readonly HashSet<string> StdLib = new HashSet<string>(StringComparer.InvariantCultureIgnoreCase)
{
"mscorlib", "System.Core", "System", "System.Xml"
};
private readonly TextWriter tw;
public ScriptEvaluator(TextWriter tw) : base(BuildContext(tw))
{
this.tw = tw;
ImportAppdomainAssemblies(ReferenceAssembly);
AppDomain.CurrentDomain.AssemblyLoad += OnAssemblyLoad;
}
public void Dispose()
{
AppDomain.CurrentDomain.AssemblyLoad -= OnAssemblyLoad;
tw.Dispose();
}
private void OnAssemblyLoad(object sender, AssemblyLoadEventArgs args)
{
string name = args.LoadedAssembly.GetName().Name;
if (StdLib.Contains(name))
{
return;
}
ReferenceAssembly(args.LoadedAssembly);
}
private static CompilerContext BuildContext(TextWriter tw)
{
var reporter = new StreamReportPrinter(tw);
var settings = new CompilerSettings
{
Version = LanguageVersion.Experimental,
GenerateDebugInfo = false,
StdLib = true,
Target = Target.Library,
WarningLevel = 0,
EnhancedWarnings = false
};
return new CompilerContext(settings, reporter);
}
private static void ImportAppdomainAssemblies(Action<Assembly> import)
{
foreach (Assembly assembly in AppDomain.CurrentDomain.GetAssemblies())
{
string name = assembly.GetName().Name;
if (StdLib.Contains(name))
{
continue;
}
import(assembly);
}
}
}
}

57
src/Core/CSharp/ScriptInteraction.cs Normal file
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using System;
using Mono.CSharp;
using UnityExplorer.UI;
using UnityExplorer.UI.Main;
using UnityExplorer.Core.Inspectors;
namespace UnityExplorer.Core.CSharp
{
public class ScriptInteraction : InteractiveBase
{
public static void Log(object message)
{
ExplorerCore.Log(message);
}
public static void AddUsing(string directive)
{
CSharpConsole.Instance.AddUsing(directive);
}
public static void GetUsing()
{
ExplorerCore.Log(CSharpConsole.Instance.m_evaluator.GetUsing());
}
public static void Reset()
{
CSharpConsole.Instance.ResetConsole();
}
public static object CurrentTarget()
{
return InspectorManager.Instance?.m_activeInspector?.Target;
}
public static object[] AllTargets()
{
int count = InspectorManager.Instance?.m_currentInspectors.Count ?? 0;
object[] ret = new object[count];
for (int i = 0; i < count; i++)
{
ret[i] = InspectorManager.Instance?.m_currentInspectors[i].Target;
}
return ret;
}
public static void Inspect(object obj)
{
InspectorManager.Instance.Inspect(obj);
}
public static void Inspect(Type type)
{
InspectorManager.Instance.Inspect(type);
}
}
}

71
src/Core/CSharp/Suggestion.cs Normal file
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using System;
using System.Collections.Generic;
using System.Linq;
using System.Reflection;
using UnityEngine;
using UnityExplorer.Core;
using UnityExplorer.Core.Unity;
using UnityExplorer.UI.CSConsole;
namespace UnityExplorer.Core.CSharp
{
public struct Suggestion
{
public enum Contexts
{
Namespace,
Keyword,
Other
}
// ~~~~ Instance ~~~~
public readonly string Prefix;
public readonly string Addition;
public readonly Contexts Context;
public string Full => Prefix + Addition;
public Color TextColor => GetTextColor();
public Suggestion(string addition, string prefix, Contexts type)
{
Addition = addition;
Prefix = prefix;
Context = type;
}
private Color GetTextColor()
{
switch (Context)
{
case Contexts.Namespace: return Color.grey;
case Contexts.Keyword: return keywordColor;
default: return Color.white;
}
}
// ~~~~ Static ~~~~
public static HashSet<string> Namespaces => m_namspaces ?? GetNamespaces();
private static HashSet<string> m_namspaces;
public static HashSet<string> Keywords => m_keywords ?? (m_keywords = new HashSet<string>(CSLexerHighlighter.validKeywordMatcher.Keywords));
private static HashSet<string> m_keywords;
private static readonly Color keywordColor = new Color(80f / 255f, 150f / 255f, 215f / 255f);
private static HashSet<string> GetNamespaces()
{
HashSet<string> set = new HashSet<string>(
AppDomain.CurrentDomain.GetAssemblies()
.SelectMany(GetTypes)
.Where(x => x.IsPublic && !string.IsNullOrEmpty(x.Namespace))
.Select(x => x.Namespace));
return m_namspaces = set;
IEnumerable<Type> GetTypes(Assembly asm) => asm.TryGetTypes();
}
}
}

153
src/Core/Config/ExplorerConfig.cs Normal file
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using System;
using System.IO;
using UnityEngine;
using IniParser;
using IniParser.Parser;
using UnityExplorer.UI;
namespace UnityExplorer.Core.Config
{
public class ExplorerConfig
{
public static ExplorerConfig Instance;
internal static readonly IniDataParser _parser = new IniDataParser();
internal static readonly string INI_PATH = Path.Combine(ExplorerCore.Loader.ConfigFolder, "config.ini");
static ExplorerConfig()
{
_parser.Configuration.CommentString = "#";
PanelDragger.OnFinishResize += PanelDragger_OnFinishResize;
}
// Actual configs
public KeyCode Main_Menu_Toggle = KeyCode.F7;
public bool Force_Unlock_Mouse = true;
public int Default_Page_Limit = 25;
public string Default_Output_Path = Path.Combine(ExplorerCore.EXPLORER_FOLDER, "Output");
public bool Log_Unity_Debug = false;
public bool Hide_On_Startup = false;
public string Window_Anchors = DEFAULT_WINDOW_ANCHORS;
private const string DEFAULT_WINDOW_ANCHORS = "0.25,0.1,0.78,0.95";
public static event Action OnConfigChanged;
internal static void InvokeConfigChanged()
{
OnConfigChanged?.Invoke();
}
public static void OnLoad()
{
Instance = new ExplorerConfig();
if (LoadSettings())
return;
SaveSettings();
}
public static bool LoadSettings()
{
if (!File.Exists(INI_PATH))
return false;
string ini = File.ReadAllText(INI_PATH);
var data = _parser.Parse(ini);
foreach (var config in data.Sections["Config"])
{
switch (config.KeyName)
{
case nameof(Main_Menu_Toggle):
Instance.Main_Menu_Toggle = (KeyCode)Enum.Parse(typeof(KeyCode), config.Value);
break;
case nameof(Force_Unlock_Mouse):
Instance.Force_Unlock_Mouse = bool.Parse(config.Value);
break;
case nameof(Default_Page_Limit):
Instance.Default_Page_Limit = int.Parse(config.Value);
break;
case nameof(Log_Unity_Debug):
Instance.Log_Unity_Debug = bool.Parse(config.Value);
break;
case nameof(Default_Output_Path):
Instance.Default_Output_Path = config.Value;
break;
case nameof(Hide_On_Startup):
Instance.Hide_On_Startup = bool.Parse(config.Value);
break;
case nameof(Window_Anchors):
Instance.Window_Anchors = config.Value;
break;
}
}
return true;
}
public static void SaveSettings()
{
var data = new IniParser.Model.IniData();
data.Sections.AddSection("Config");
var sec = data.Sections["Config"];
sec.AddKey(nameof(Main_Menu_Toggle), Instance.Main_Menu_Toggle.ToString());
sec.AddKey(nameof(Force_Unlock_Mouse), Instance.Force_Unlock_Mouse.ToString());
sec.AddKey(nameof(Default_Page_Limit), Instance.Default_Page_Limit.ToString());
sec.AddKey(nameof(Log_Unity_Debug), Instance.Log_Unity_Debug.ToString());
sec.AddKey(nameof(Default_Output_Path), Instance.Default_Output_Path);
sec.AddKey(nameof(Hide_On_Startup), Instance.Hide_On_Startup.ToString());
sec.AddKey(nameof(Window_Anchors), GetWindowAnchorsString());
if (!Directory.Exists(ExplorerCore.Loader.ConfigFolder))
Directory.CreateDirectory(ExplorerCore.Loader.ConfigFolder);
File.WriteAllText(INI_PATH, data.ToString());
}
// ============ Window Anchors specific stuff ============== //
private static void PanelDragger_OnFinishResize()
{
Instance.Window_Anchors = GetWindowAnchorsString();
SaveSettings();
}
internal Vector4 GetWindowAnchorsVector()
{
try
{
var split = Window_Anchors.Split(',');
Vector4 ret = Vector4.zero;
ret.x = float.Parse(split[0]);
ret.y = float.Parse(split[1]);
ret.z = float.Parse(split[2]);
ret.w = float.Parse(split[3]);
return ret;
}
catch
{
Window_Anchors = DEFAULT_WINDOW_ANCHORS;
return GetWindowAnchorsVector();
}
}
internal static string GetWindowAnchorsString()
{
try
{
var rect = PanelDragger.Instance.Panel;
return $"{rect.anchorMin.x},{rect.anchorMin.y},{rect.anchorMax.x},{rect.anchorMax.y}";
}
catch
{
return DEFAULT_WINDOW_ANCHORS;
}
}
}
}

23
src/Core/Input/IHandleInput.cs Normal file
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using UnityEngine;
using UnityEngine.EventSystems;
namespace UnityExplorer.Core.Input
{
public interface IHandleInput
{
Vector2 MousePosition { get; }
bool GetKeyDown(KeyCode key);
bool GetKey(KeyCode key);
bool GetMouseButtonDown(int btn);
bool GetMouseButton(int btn);
BaseInputModule UIModule { get; }
PointerEventData InputPointerEvent { get; }
void AddUIInputModule();
void ActivateModule();
}
}

61
src/Core/Input/InputManager.cs Normal file
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using System;
using UnityEngine;
using System.Diagnostics.CodeAnalysis;
using UnityEngine.EventSystems;
namespace UnityExplorer.Core.Input
{
public enum InputType
{
InputSystem,
Legacy,
None
}
public static class InputManager
{
public static InputType CurrentType { get; private set; }
private static IHandleInput m_inputModule;
public static Vector3 MousePosition => m_inputModule.MousePosition;
public static bool GetKeyDown(KeyCode key) => m_inputModule.GetKeyDown(key);
public static bool GetKey(KeyCode key) => m_inputModule.GetKey(key);
public static bool GetMouseButtonDown(int btn) => m_inputModule.GetMouseButtonDown(btn);
public static bool GetMouseButton(int btn) => m_inputModule.GetMouseButton(btn);
public static BaseInputModule UIInput => m_inputModule.UIModule;
public static PointerEventData InputPointerEvent => m_inputModule.InputPointerEvent;
public static void ActivateUIModule() => m_inputModule.ActivateModule();
public static void AddUIModule()
{
m_inputModule.AddUIInputModule();
ActivateUIModule();
}
public static void Init()
{
if (InputSystem.TKeyboard != null || (ReflectionUtility.LoadModule("Unity.InputSystem") && InputSystem.TKeyboard != null))
{
m_inputModule = new InputSystem();
CurrentType = InputType.InputSystem;
}
else if (LegacyInput.TInput != null || (ReflectionUtility.LoadModule("UnityEngine.InputLegacyModule") && LegacyInput.TInput != null))
{
m_inputModule = new LegacyInput();
CurrentType = InputType.Legacy;
}
if (m_inputModule == null)
{
ExplorerCore.LogWarning("Could not find any Input module!");
m_inputModule = new NoInput();
CurrentType = InputType.None;
}
}
}
}

171
src/Core/Input/InputSystem.cs Normal file
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using System;
using System.Reflection;
using UnityExplorer.Core.Unity;
using UnityEngine;
using UnityEngine.EventSystems;
using UnityExplorer.UI;
using System.Collections.Generic;
namespace UnityExplorer.Core.Input
{
public class InputSystem : IHandleInput
{
public InputSystem()
{
ExplorerCore.Log("Initializing new InputSystem support...");
m_kbCurrentProp = TKeyboard.GetProperty("current");
m_kbIndexer = TKeyboard.GetProperty("Item", new Type[] { TKey });
var btnControl = ReflectionUtility.GetTypeByName("UnityEngine.InputSystem.Controls.ButtonControl");
m_btnIsPressedProp = btnControl.GetProperty("isPressed");
m_btnWasPressedProp = btnControl.GetProperty("wasPressedThisFrame");
m_mouseCurrentProp = TMouse.GetProperty("current");
m_leftButtonProp = TMouse.GetProperty("leftButton");
m_rightButtonProp = TMouse.GetProperty("rightButton");
m_positionProp = ReflectionUtility.GetTypeByName("UnityEngine.InputSystem.Pointer")
.GetProperty("position");
m_readVector2InputMethod = ReflectionUtility.GetTypeByName("UnityEngine.InputSystem.InputControl`1")
.MakeGenericType(typeof(Vector2))
.GetMethod("ReadValue");
}
public static Type TKeyboard => m_tKeyboard ?? (m_tKeyboard = ReflectionUtility.GetTypeByName("UnityEngine.InputSystem.Keyboard"));
private static Type m_tKeyboard;
public static Type TMouse => m_tMouse ?? (m_tMouse = ReflectionUtility.GetTypeByName("UnityEngine.InputSystem.Mouse"));
private static Type m_tMouse;
public static Type TKey => m_tKey ?? (m_tKey = ReflectionUtility.GetTypeByName("UnityEngine.InputSystem.Key"));
private static Type m_tKey;
private static PropertyInfo m_btnIsPressedProp;
private static PropertyInfo m_btnWasPressedProp;
private static object CurrentKeyboard => m_currentKeyboard ?? (m_currentKeyboard = m_kbCurrentProp.GetValue(null, null));
private static object m_currentKeyboard;
private static PropertyInfo m_kbCurrentProp;
private static PropertyInfo m_kbIndexer;
private static object CurrentMouse => m_currentMouse ?? (m_currentMouse = m_mouseCurrentProp.GetValue(null, null));
private static object m_currentMouse;
private static PropertyInfo m_mouseCurrentProp;
private static object LeftMouseButton => m_lmb ?? (m_lmb = m_leftButtonProp.GetValue(CurrentMouse, null));
private static object m_lmb;
private static PropertyInfo m_leftButtonProp;
private static object RightMouseButton => m_rmb ?? (m_rmb = m_rightButtonProp.GetValue(CurrentMouse, null));
private static object m_rmb;
private static PropertyInfo m_rightButtonProp;
private static object MousePositionInfo => m_pos ?? (m_pos = m_positionProp.GetValue(CurrentMouse, null));
private static object m_pos;
private static PropertyInfo m_positionProp;
private static MethodInfo m_readVector2InputMethod;
public Vector2 MousePosition
{
get
{
try
{
return (Vector2)m_readVector2InputMethod.Invoke(MousePositionInfo, new object[0]);
}
catch
{
return Vector2.zero;
}
}
}
internal static Dictionary<KeyCode, object> ActualKeyDict = new Dictionary<KeyCode, object>();
internal object GetActualKey(KeyCode key)
{
if (!ActualKeyDict.ContainsKey(key))
{
var s = key.ToString();
if (s.Contains("Control"))
s = s.Replace("Control", "Ctrl");
else if (s.Contains("Return"))
s = "Enter";
var parsed = Enum.Parse(TKey, s);
var actualKey = m_kbIndexer.GetValue(CurrentKeyboard, new object[] { parsed });
ActualKeyDict.Add(key, actualKey);
}
return ActualKeyDict[key];
}
public bool GetKeyDown(KeyCode key) => (bool)m_btnWasPressedProp.GetValue(GetActualKey(key), null);
public bool GetKey(KeyCode key) => (bool)m_btnIsPressedProp.GetValue(GetActualKey(key), null);
public bool GetMouseButtonDown(int btn)
{
switch (btn)
{
case 0: return (bool)m_btnWasPressedProp.GetValue(LeftMouseButton, null);
case 1: return (bool)m_btnWasPressedProp.GetValue(RightMouseButton, null);
// case 2: return (bool)_btnWasPressedProp.GetValue(MiddleMouseButton, null);
default: throw new NotImplementedException();
}
}
public bool GetMouseButton(int btn)
{
switch (btn)
{
case 0: return (bool)m_btnIsPressedProp.GetValue(LeftMouseButton, null);
case 1: return (bool)m_btnIsPressedProp.GetValue(RightMouseButton, null);
// case 2: return (bool)_btnIsPressedProp.GetValue(MiddleMouseButton, null);
default: throw new NotImplementedException();
}
}
// UI Input
//public Type TInputSystemUIInputModule
// => m_tUIInputModule
// ?? (m_tUIInputModule = ReflectionHelpers.GetTypeByName("UnityEngine.InputSystem.UI.InputSystemUIInputModule"));
//internal Type m_tUIInputModule;
public BaseInputModule UIModule => null; // m_newInputModule;
//internal BaseInputModule m_newInputModule;
public PointerEventData InputPointerEvent => null;
public void AddUIInputModule()
{
// if (TInputSystemUIInputModule != null)
// {
//#if CPP
// // m_newInputModule = UIManager.CanvasRoot.AddComponent(Il2CppType.From(TInputSystemUIInputModule)).TryCast<BaseInputModule>();
//#else
// m_newInputModule = (BaseInputModule)UIManager.CanvasRoot.AddComponent(TInputSystemUIInputModule);
//#endif
// }
// else
// {
// ExplorerCore.LogWarning("New input system: Could not find type by name 'UnityEngine.InputSystem.UI.InputSystemUIInputModule'");
// }
}
public void ActivateModule()
{
//#if CPP
// // m_newInputModule.ActivateModule();
//#else
// m_newInputModule.ActivateModule();
//#endif
}
}
}

64
src/Core/Input/LegacyInput.cs Normal file
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using System;
using System.Reflection;
using UnityExplorer.Core.Unity;
using UnityEngine;
using UnityEngine.EventSystems;
using UnityExplorer.UI;
namespace UnityExplorer.Core.Input
{
public class LegacyInput : IHandleInput
{
public LegacyInput()
{
ExplorerCore.Log("Initializing Legacy Input support...");
m_mousePositionProp = TInput.GetProperty("mousePosition");
m_getKeyMethod = TInput.GetMethod("GetKey", new Type[] { typeof(KeyCode) });
m_getKeyDownMethod = TInput.GetMethod("GetKeyDown", new Type[] { typeof(KeyCode) });
m_getMouseButtonMethod = TInput.GetMethod("GetMouseButton", new Type[] { typeof(int) });
m_getMouseButtonDownMethod = TInput.GetMethod("GetMouseButtonDown", new Type[] { typeof(int) });
}
public static Type TInput => m_tInput ?? (m_tInput = ReflectionUtility.GetTypeByName("UnityEngine.Input"));
private static Type m_tInput;
private static PropertyInfo m_mousePositionProp;
private static MethodInfo m_getKeyMethod;
private static MethodInfo m_getKeyDownMethod;
private static MethodInfo m_getMouseButtonMethod;
private static MethodInfo m_getMouseButtonDownMethod;
public Vector2 MousePosition => (Vector3)m_mousePositionProp.GetValue(null, null);
public bool GetKey(KeyCode key) => (bool)m_getKeyMethod.Invoke(null, new object[] { key });
public bool GetKeyDown(KeyCode key) => (bool)m_getKeyDownMethod.Invoke(null, new object[] { key });
public bool GetMouseButton(int btn) => (bool)m_getMouseButtonMethod.Invoke(null, new object[] { btn });
public bool GetMouseButtonDown(int btn) => (bool)m_getMouseButtonDownMethod.Invoke(null, new object[] { btn });
// UI Input module
public BaseInputModule UIModule => m_inputModule;
internal StandaloneInputModule m_inputModule;
public PointerEventData InputPointerEvent =>
#if CPP
m_inputModule.m_InputPointerEvent;
#else
null;
#endif
public void AddUIInputModule()
{
m_inputModule = UIManager.CanvasRoot.gameObject.AddComponent<StandaloneInputModule>();
}
public void ActivateModule()
{
m_inputModule.ActivateModule();
}
}
}

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src/Core/Input/NoInput.cs Normal file
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using UnityEngine;
using UnityEngine.EventSystems;
namespace UnityExplorer.Core.Input
{
// Just a stub for games where no Input module was able to load at all.
public class NoInput : IHandleInput
{
public Vector2 MousePosition => Vector2.zero;
public bool GetKey(KeyCode key) => false;
public bool GetKeyDown(KeyCode key) => false;
public bool GetMouseButton(int btn) => false;
public bool GetMouseButtonDown(int btn) => false;
public BaseInputModule UIModule => null;
public PointerEventData InputPointerEvent => null;
public void ActivateModule() { }
public void AddUIInputModule() { }
}
}

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src/Core/InspectorManager.cs Normal file
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using System;
using System.Collections.Generic;
using System.Linq;
using UnityExplorer.Core.Unity;
using UnityExplorer.UI;
using UnityExplorer.UI.Main;
using UnityEngine;
using UnityEngine.SceneManagement;
using UnityEngine.UI;
using UnityExplorer.Core.Inspectors.Reflection;
using UnityExplorer.Core.Runtime;
using UnityExplorer.UI.Main.Home;
namespace UnityExplorer.Core.Inspectors
{
public class InspectorManager
{
public static InspectorManager Instance { get; private set; }
internal static InspectorManagerUI UI;
public InspectorManager()
{
Instance = this;
UI = new InspectorManagerUI();
UI.ConstructInspectorPane();
}
public InspectorBase m_activeInspector;
public readonly List<InspectorBase> m_currentInspectors = new List<InspectorBase>();
public void Update()
{
for (int i = 0; i < m_currentInspectors.Count; i++)
{
if (i >= m_currentInspectors.Count)
break;
m_currentInspectors[i].Update();
}
}
public void Inspect(object obj, CacheObjectBase parentMember = null)
{
obj = ReflectionProvider.Instance.Cast(obj, ReflectionProvider.Instance.GetActualType(obj));
UnityEngine.Object unityObj = obj as UnityEngine.Object;
if (obj.IsNullOrDestroyed(false))
{
return;
}
// check if currently inspecting this object
foreach (InspectorBase tab in m_currentInspectors)
{
if (ReferenceEquals(obj, tab.Target))
{
SetInspectorTab(tab);
return;
}
#if CPP
else if (unityObj && tab.Target is UnityEngine.Object uTabObj)
{
if (unityObj.m_CachedPtr == uTabObj.m_CachedPtr)
{
SetInspectorTab(tab);
return;
}
}
#endif
}
InspectorBase inspector;
if (obj is GameObject go)
inspector = new GameObjectInspector(go);
else
inspector = new InstanceInspector(obj);
if (inspector is ReflectionInspector ri)
ri.ParentMember = parentMember;
m_currentInspectors.Add(inspector);
SetInspectorTab(inspector);
}
public void Inspect(Type type)
{
if (type == null)
{
ExplorerCore.LogWarning("The provided type was null!");
return;
}
foreach (var tab in m_currentInspectors.Where(x => x is StaticInspector))
{
if (ReferenceEquals(tab.Target as Type, type))
{
SetInspectorTab(tab);
return;
}
}
var inspector = new StaticInspector(type);
m_currentInspectors.Add(inspector);
SetInspectorTab(inspector);
}
public void SetInspectorTab(InspectorBase inspector)
{
MainMenu.Instance.SetPage(HomePage.Instance);
if (m_activeInspector == inspector)
return;
UnsetInspectorTab();
m_activeInspector = inspector;
inspector.SetActive();
UI.OnSetInspectorTab(inspector);
}
public void UnsetInspectorTab()
{
if (m_activeInspector == null)
return;
m_activeInspector.SetInactive();
UI.OnUnsetInspectorTab();
m_activeInspector = null;
}
}
}

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src/Core/Inspectors/GameObjects/GameObjectInspector.cs Normal file
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using System;
using System.Collections.Generic;
using System.Linq;
using UnityExplorer.UI;
using UnityEngine;
using UnityEngine.UI;
using UnityExplorer.Core.Runtime;
using UnityExplorer.Core.Unity;
using UnityExplorer.UI.Main.Home.Inspectors;
namespace UnityExplorer.Core.Inspectors
{
public class GameObjectInspector : InspectorBase
{
public override string TabLabel => $" <color=cyan>[G]</color> {TargetGO?.name}";
public static GameObjectInspector ActiveInstance { get; private set; }
public GameObject TargetGO;
public GameObjectInspectorUI UIModule;
// sub modules
internal static ChildList s_childList;
internal static ComponentList s_compList;
internal static GameObjectControls s_controls;
internal static bool m_UIConstructed;
public GameObjectInspector(GameObject target) : base(target)
{
ActiveInstance = this;
TargetGO = target;
if (!TargetGO)
{
ExplorerCore.LogWarning("Target GameObject is null!");
return;
}
// one UI is used for all gameobject inspectors. no point recreating it.
if (!m_UIConstructed)
{
m_UIConstructed = true;
s_childList = new ChildList();
s_compList = new ComponentList();
s_controls = new GameObjectControls();
UIModule.ConstructUI();
}
}
public override void SetActive()
{
base.SetActive();
ActiveInstance = this;
}
public override void SetInactive()
{
base.SetInactive();
ActiveInstance = null;
}
internal void ChangeInspectorTarget(GameObject newTarget)
{
if (!newTarget)
return;
this.Target = this.TargetGO = newTarget;
}
// Update
public override void Update()
{
base.Update();
if (m_pendingDestroy || !this.IsActive)
return;
UIModule.RefreshTopInfo();
s_childList.RefreshChildObjectList();
s_compList.RefreshComponentList();
s_controls.RefreshControls();
if (GameObjectControls.s_sliderChangedWanted)
GameObjectControls.UpdateSliderControl();
}
public override void CreateUIModule()
{
base.BaseUI = UIModule = new GameObjectInspectorUI();
}
}
}

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using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using UnityEngine;
using UnityEngine.EventSystems;
using UnityEngine.UI;
using UnityExplorer.Core;
using UnityExplorer.Core.Unity;
using UnityExplorer.Core.Input;
using UnityExplorer.Core.Runtime;
using UnityExplorer.UI;
using UnityExplorer.UI.Main;
using UnityExplorer.UI.Main.Home.Inspectors;
namespace UnityExplorer.Core.Inspectors
{
public class InspectUnderMouse
{
public enum MouseInspectMode
{
World,
UI
}
public static bool Enabled { get; set; }
public static MouseInspectMode Mode { get; set; }
private static GameObject s_lastHit;
private static Vector3 s_lastMousePos;
internal static MouseInspectorUI UI;
static InspectUnderMouse()
{
UI = new MouseInspectorUI();
}
public static void StartInspect()
{
Enabled = true;
MainMenu.Instance.MainPanel.SetActive(false);
UI.s_UIContent.SetActive(true);
// recache Graphic Raycasters each time we start
var casters = RuntimeProvider.Instance.FindObjectsOfTypeAll(typeof(GraphicRaycaster));
m_gCasters = new GraphicRaycaster[casters.Length];
for (int i = 0; i < casters.Length; i++)
{
m_gCasters[i] = casters[i].Cast(typeof(GraphicRaycaster)) as GraphicRaycaster;
}
}
public static void StopInspect()
{
Enabled = false;
MainMenu.Instance.MainPanel.SetActive(true);
UI.s_UIContent.SetActive(false);
ClearHitData();
}
internal static GraphicRaycaster[] m_gCasters;
public static void UpdateInspect()
{
if (InputManager.GetKeyDown(KeyCode.Escape))
{
StopInspect();
return;
}
var mousePos = InputManager.MousePosition;
if (mousePos != s_lastMousePos)
UpdatePosition(mousePos);
if (!UnityHelper.MainCamera)
return;
// actual inspect raycast
switch (Mode)
{
case MouseInspectMode.UI:
RaycastUI(mousePos); break;
case MouseInspectMode.World:
RaycastWorld(mousePos); break;
}
}
internal static void OnHitGameObject(GameObject obj)
{
if (obj != s_lastHit)
{
s_lastHit = obj;
UI.s_objNameLabel.text = $"<b>Click to Inspect:</b> <color=cyan>{obj.name}</color>";
UI.s_objPathLabel.text = $"Path: {obj.transform.GetTransformPath(true)}";
}
if (InputManager.GetMouseButtonDown(0))
{
StopInspect();
InspectorManager.Instance.Inspect(obj);
}
}
internal static void RaycastWorld(Vector2 mousePos)
{
var ray = UnityHelper.MainCamera.ScreenPointToRay(mousePos);
Physics.Raycast(ray, out RaycastHit hit, 1000f);
if (hit.transform)
{
var obj = hit.transform.gameObject;
OnHitGameObject(obj);
}
else
{
if (s_lastHit)
ClearHitData();
}
}
internal static void RaycastUI(Vector2 mousePos)
{
var ped = new PointerEventData(null)
{
position = mousePos
};
#if MONO
var list = new List<RaycastResult>();
#else
var list = new Il2CppSystem.Collections.Generic.List<RaycastResult>();
#endif
foreach (var gr in m_gCasters)
{
gr.Raycast(ped, list);
if (list.Count > 0)
{
foreach (var hit in list)
{
if (hit.gameObject)
{
var obj = hit.gameObject;
OnHitGameObject(obj);
break;
}
}
}
else
{
if (s_lastHit)
ClearHitData();
}
}
}
internal static void UpdatePosition(Vector2 mousePos)
{
s_lastMousePos = mousePos;
var inversePos = UIManager.CanvasRoot.transform.InverseTransformPoint(mousePos);
UI.s_mousePosLabel.text = $"<color=grey>Mouse Position:</color> {mousePos.ToString()}";
float yFix = mousePos.y < 120 ? 80 : -80;
UI.s_UIContent.transform.localPosition = new Vector3(inversePos.x, inversePos.y + yFix, 0);
}
internal static void ClearHitData()
{
s_lastHit = null;
UI.s_objNameLabel.text = "No hits...";
UI.s_objPathLabel.text = "";
}
}
}

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using System;
using UnityEngine;
using UnityEngine.UI;
using UnityExplorer.Core.Unity;
using UnityExplorer.UI;
using UnityExplorer.UI.Main.Home.Inspectors;
namespace UnityExplorer.Core.Inspectors
{
public abstract class InspectorBase
{
public object Target;
public InspectorBaseUI BaseUI;
public abstract string TabLabel { get; }
public bool IsActive { get; private set; }
internal bool m_pendingDestroy;
public InspectorBase(object target)
{
Target = target;
if (Target.IsNullOrDestroyed(false))
{
Destroy();
return;
}
CreateUIModule();
BaseUI.AddInspectorTab(this);
}
public abstract void CreateUIModule();
public virtual void SetActive()
{
this.IsActive = true;
BaseUI.Content?.SetActive(true);
}
public virtual void SetInactive()
{
this.IsActive = false;
BaseUI.Content?.SetActive(false);
}
public virtual void Update()
{
if (Target.IsNullOrDestroyed(false))
{
Destroy();
return;
}
BaseUI.tabText.text = TabLabel;
}
public virtual void Destroy()
{
m_pendingDestroy = true;
GameObject tabGroup = BaseUI.tabButton?.transform.parent.gameObject;
if (tabGroup)
{
GameObject.Destroy(tabGroup);
}
int thisIndex = -1;
if (InspectorManager.Instance.m_currentInspectors.Contains(this))
{
thisIndex = InspectorManager.Instance.m_currentInspectors.IndexOf(this);
InspectorManager.Instance.m_currentInspectors.Remove(this);
}
if (ReferenceEquals(InspectorManager.Instance.m_activeInspector, this))
{
InspectorManager.Instance.UnsetInspectorTab();
if (InspectorManager.Instance.m_currentInspectors.Count > 0)
{
var prevTab = InspectorManager.Instance.m_currentInspectors[thisIndex > 0 ? thisIndex - 1 : 0];
InspectorManager.Instance.SetInspectorTab(prevTab);
}
}
}
}
}

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src/Core/Inspectors/Reflection/CacheObject/CacheEnumerated.cs Normal file
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using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using UnityExplorer.UI;
using UnityEngine;
using UnityEngine.UI;
namespace UnityExplorer.Core.Inspectors.Reflection
{
public class CacheEnumerated : CacheObjectBase
{
public override Type FallbackType => ParentEnumeration.m_baseEntryType;
public override bool CanWrite => RefIList != null && ParentEnumeration.Owner.CanWrite;
public int Index { get; set; }
public IList RefIList { get; set; }
public InteractiveEnumerable ParentEnumeration { get; set; }
public CacheEnumerated(int index, InteractiveEnumerable parentEnumeration, IList refIList, GameObject parentContent)
{
this.ParentEnumeration = parentEnumeration;
this.Index = index;
this.RefIList = refIList;
this.m_parentContent = parentContent;
}
public override void CreateIValue(object value, Type fallbackType)
{
IValue = InteractiveValue.Create(value, fallbackType);
IValue.Owner = this;
}
public override void SetValue()
{
RefIList[Index] = IValue.Value;
ParentEnumeration.Value = RefIList;
ParentEnumeration.Owner.SetValue();
}
internal override void ConstructUI()
{
base.ConstructUI();
var rowObj = UIFactory.CreateHorizontalGroup(m_mainContent, new Color(1, 1, 1, 0));
var rowGroup = rowObj.GetComponent<HorizontalLayoutGroup>();
rowGroup.padding.left = 5;
rowGroup.padding.right = 2;
var indexLabelObj = UIFactory.CreateLabel(rowObj, TextAnchor.MiddleLeft);
var indexLayout = indexLabelObj.AddComponent<LayoutElement>();
indexLayout.minWidth = 20;
indexLayout.flexibleWidth = 30;
indexLayout.minHeight = 25;
var indexText = indexLabelObj.GetComponent<Text>();
indexText.text = this.Index + ":";
IValue.m_mainContentParent = rowObj;
}
}
}

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src/Core/Inspectors/Reflection/CacheObject/CacheField.cs Normal file
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using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Reflection;
using UnityExplorer.UI;
using UnityEngine;
namespace UnityExplorer.Core.Inspectors.Reflection
{
public class CacheField : CacheMember
{
public override bool IsStatic => (MemInfo as FieldInfo).IsStatic;
public override Type FallbackType => (MemInfo as FieldInfo).FieldType;
public CacheField(FieldInfo fieldInfo, object declaringInstance, GameObject parent) : base(fieldInfo, declaringInstance, parent)
{
CreateIValue(null, fieldInfo.FieldType);
}
public override void UpdateReflection()
{
var fi = MemInfo as FieldInfo;
IValue.Value = fi.GetValue(fi.IsStatic ? null : DeclaringInstance);
m_evaluated = true;
ReflectionException = null;
}
public override void SetValue()
{
var fi = MemInfo as FieldInfo;
fi.SetValue(fi.IsStatic ? null : DeclaringInstance, IValue.Value);
if (this.ParentInspector?.ParentMember != null)
this.ParentInspector.ParentMember.SetValue();
}
}
}

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using System;
using System.Collections.Generic;
using System.Linq;
using System.Reflection;
using UnityEngine;
using UnityEngine.UI;
using UnityExplorer.UI;
using UnityExplorer.UI.Reusable;
using UnityExplorer.Core.Unity;
using UnityExplorer.Core.Runtime;
using UnityExplorer.Core;
using UnityExplorer.UI.Utility;
namespace UnityExplorer.Core.Inspectors.Reflection
{
public abstract class CacheMember : CacheObjectBase
{
public override bool IsMember => true;
public override Type FallbackType { get; }
public ReflectionInspector ParentInspector { get; set; }
public MemberInfo MemInfo { get; set; }
public Type DeclaringType { get; set; }
public object DeclaringInstance { get; set; }
public virtual bool IsStatic { get; private set; }
public string ReflectionException { get; set; }
public override bool CanWrite => m_canWrite ?? GetCanWrite();
private bool? m_canWrite;
public override bool HasParameters => ParamCount > 0;
public virtual int ParamCount => m_arguments.Length;
public override bool HasEvaluated => m_evaluated;
public bool m_evaluated = false;
public bool m_isEvaluating;
public ParameterInfo[] m_arguments = new ParameterInfo[0];
public string[] m_argumentInput = new string[0];
public string NameForFiltering => m_nameForFilter ?? (m_nameForFilter = $"{MemInfo.DeclaringType.Name}.{MemInfo.Name}".ToLower());
private string m_nameForFilter;
public string RichTextName => m_richTextName ?? GetRichTextName();
private string m_richTextName;
public CacheMember(MemberInfo memberInfo, object declaringInstance, GameObject parentContent)
{
MemInfo = memberInfo;
DeclaringType = memberInfo.DeclaringType;
DeclaringInstance = declaringInstance;
this.m_parentContent = parentContent;
DeclaringInstance = ReflectionProvider.Instance.Cast(declaringInstance, DeclaringType);
}
public static bool CanProcessArgs(ParameterInfo[] parameters)
{
foreach (var param in parameters)
{
var pType = param.ParameterType;
if (pType.IsByRef && pType.HasElementType)
pType = pType.GetElementType();
if (pType != null && (pType.IsPrimitive || pType == typeof(string)))
continue;
else
return false;
}
return true;
}
public override void CreateIValue(object value, Type fallbackType)
{
IValue = InteractiveValue.Create(value, fallbackType);
IValue.Owner = this;
IValue.m_mainContentParent = this.m_rightGroup;
IValue.m_subContentParent = this.m_subContent;
}
public override void UpdateValue()
{
if (!HasParameters || m_isEvaluating)
{
try
{
Type baseType = ReflectionUtility.GetType(IValue.Value) ?? FallbackType;
if (!ReflectionProvider.Instance.IsReflectionSupported(baseType))
throw new Exception("Type not supported with reflection");
UpdateReflection();
if (IValue.Value != null)
IValue.Value = IValue.Value.Cast(ReflectionUtility.GetType(IValue.Value));
}
catch (Exception e)
{
ReflectionException = e.ReflectionExToString(true);
}
}
base.UpdateValue();
}
public abstract void UpdateReflection();
public override void SetValue()
{
// no implementation for base class
}
public object[] ParseArguments()
{
if (m_arguments.Length < 1)
return new object[0];
var parsedArgs = new List<object>();
for (int i = 0; i < m_arguments.Length; i++)
{
var input = m_argumentInput[i];
var type = m_arguments[i].ParameterType;
if (type.IsByRef)
type = type.GetElementType();
if (!string.IsNullOrEmpty(input))
{
if (type == typeof(string))
{
parsedArgs.Add(input);
continue;
}
else
{
try
{
var arg = type.GetMethod("Parse", new Type[] { typeof(string) })
.Invoke(null, new object[] { input });
parsedArgs.Add(arg);
continue;
}
catch
{
ExplorerCore.Log($"Could not parse input '{input}' for argument #{i} '{m_arguments[i].Name}' ({type.FullName})");
}
}
}
// No input, see if there is a default value.
if (m_arguments[i].IsOptional)
{
parsedArgs.Add(m_arguments[i].DefaultValue);
continue;
}
// Try add a null arg I guess
parsedArgs.Add(null);
}
return parsedArgs.ToArray();
}
private bool GetCanWrite()
{
if (MemInfo is FieldInfo fi)
m_canWrite = !(fi.IsLiteral && !fi.IsInitOnly);
else if (MemInfo is PropertyInfo pi)
m_canWrite = pi.CanWrite;
else
m_canWrite = false;
return (bool)m_canWrite;
}
private string GetRichTextName()
{
return m_richTextName = SignatureHighlighter.ParseFullSyntax(MemInfo.DeclaringType, false, MemInfo);
}
#region UI
internal float GetMemberLabelWidth(RectTransform scrollRect)
{
var textGenSettings = m_memLabelText.GetGenerationSettings(m_topRowRect.rect.size);
textGenSettings.scaleFactor = InputFieldScroller.canvasScaler.scaleFactor;
var textGen = m_memLabelText.cachedTextGeneratorForLayout;
float preferredWidth = textGen.GetPreferredWidth(RichTextName, textGenSettings);
float max = scrollRect.rect.width * 0.4f;
if (preferredWidth > max) preferredWidth = max;
return preferredWidth < 125f ? 125f : preferredWidth;
}
internal void SetWidths(float labelWidth, float valueWidth)
{
m_leftLayout.preferredWidth = labelWidth;
m_rightLayout.preferredWidth = valueWidth;
}
internal RectTransform m_topRowRect;
internal Text m_memLabelText;
internal GameObject m_leftGroup;
internal LayoutElement m_leftLayout;
internal GameObject m_rightGroup;
internal LayoutElement m_rightLayout;
internal override void ConstructUI()
{
base.ConstructUI();
var topGroupObj = UIFactory.CreateHorizontalGroup(m_mainContent, new Color(1, 1, 1, 0));
m_topRowRect = topGroupObj.GetComponent<RectTransform>();
var topLayout = topGroupObj.AddComponent<LayoutElement>();
topLayout.minHeight = 25;
topLayout.flexibleHeight = 0;
topLayout.minWidth = 300;
topLayout.flexibleWidth = 5000;
var topGroup = topGroupObj.GetComponent<HorizontalLayoutGroup>();
topGroup.childForceExpandHeight = false;
topGroup.childForceExpandWidth = false;
topGroup.childControlHeight = true;
topGroup.childControlWidth = true;
topGroup.spacing = 10;
topGroup.padding.left = 3;
topGroup.padding.right = 3;
topGroup.padding.top = 0;
topGroup.padding.bottom = 0;
// left group
m_leftGroup = UIFactory.CreateHorizontalGroup(topGroupObj, new Color(1, 1, 1, 0));
var leftLayout = m_leftGroup.AddComponent<LayoutElement>();
leftLayout.minHeight = 25;
leftLayout.flexibleHeight = 0;
leftLayout.minWidth = 125;
leftLayout.flexibleWidth = 200;
var leftGroup = m_leftGroup.GetComponent<HorizontalLayoutGroup>();
leftGroup.childForceExpandHeight = true;
leftGroup.childForceExpandWidth = false;
leftGroup.childControlHeight = true;
leftGroup.childControlWidth = true;
leftGroup.spacing = 4;
// member label
var labelObj = UIFactory.CreateLabel(m_leftGroup, TextAnchor.MiddleLeft);
var leftRect = labelObj.GetComponent<RectTransform>();
leftRect.anchorMin = Vector2.zero;
leftRect.anchorMax = Vector2.one;
leftRect.offsetMin = Vector2.zero;
leftRect.offsetMax = Vector2.zero;
leftRect.sizeDelta = Vector2.zero;
m_leftLayout = labelObj.AddComponent<LayoutElement>();
m_leftLayout.preferredWidth = 125;
m_leftLayout.minHeight = 25;
m_leftLayout.flexibleHeight = 100;
var labelFitter = labelObj.AddComponent<ContentSizeFitter>();
labelFitter.verticalFit = ContentSizeFitter.FitMode.PreferredSize;
labelFitter.horizontalFit = ContentSizeFitter.FitMode.PreferredSize;
m_memLabelText = labelObj.GetComponent<Text>();
m_memLabelText.horizontalOverflow = HorizontalWrapMode.Wrap;
m_memLabelText.text = this.RichTextName;
// right group
m_rightGroup = UIFactory.CreateVerticalGroup(topGroupObj, new Color(1, 1, 1, 0));
m_rightLayout = m_rightGroup.AddComponent<LayoutElement>();
m_rightLayout.minHeight = 25;
m_rightLayout.flexibleHeight = 480;
m_rightLayout.minWidth = 125;
m_rightLayout.flexibleWidth = 5000;
var rightGroup = m_rightGroup.GetComponent<VerticalLayoutGroup>();
rightGroup.childForceExpandHeight = true;
rightGroup.childForceExpandWidth = false;
rightGroup.childControlHeight = true;
rightGroup.childControlWidth = true;
rightGroup.spacing = 2;
rightGroup.padding.top = 4;
rightGroup.padding.bottom = 2;
ConstructArgInput(out GameObject argsHolder);
ConstructEvaluateButtons(argsHolder);
IValue.m_mainContentParent = m_rightGroup;
}
internal void ConstructArgInput(out GameObject argsHolder)
{
argsHolder = null;
if (HasParameters)
{
argsHolder = UIFactory.CreateVerticalGroup(m_rightGroup, new Color(1, 1, 1, 0));
var argsGroup = argsHolder.GetComponent<VerticalLayoutGroup>();
argsGroup.spacing = 4;
if (this is CacheMethod cm && cm.GenericArgs.Length > 0)
{
cm.ConstructGenericArgInput(argsHolder);
}
// todo normal args
if (m_arguments.Length > 0)
{
var titleObj = UIFactory.CreateLabel(argsHolder, TextAnchor.MiddleLeft);
var titleText = titleObj.GetComponent<Text>();
titleText.text = "<b>Arguments:</b>";
for (int i = 0; i < m_arguments.Length; i++)
{
AddArgRow(i, argsHolder);
}
}
argsHolder.SetActive(false);
}
}
internal void AddArgRow(int i, GameObject parent)
{
var arg = m_arguments[i];
var rowObj = UIFactory.CreateHorizontalGroup(parent, new Color(1, 1, 1, 0));
var rowLayout = rowObj.AddComponent<LayoutElement>();
rowLayout.minHeight = 25;
rowLayout.flexibleWidth = 5000;
var rowGroup = rowObj.GetComponent<HorizontalLayoutGroup>();
rowGroup.childForceExpandHeight = false;
rowGroup.childForceExpandWidth = true;
rowGroup.spacing = 4;
var argLabelObj = UIFactory.CreateLabel(rowObj, TextAnchor.MiddleLeft);
var argLabelLayout = argLabelObj.AddComponent<LayoutElement>();
argLabelLayout.minHeight = 25;
var argText = argLabelObj.GetComponent<Text>();
var argTypeTxt = SignatureHighlighter.ParseFullSyntax(arg.ParameterType, false);
argText.text = $"{argTypeTxt} <color={SignatureHighlighter.LOCAL_ARG}>{arg.Name}</color>";
var argInputObj = UIFactory.CreateInputField(rowObj, 14, (int)TextAnchor.MiddleLeft, 1);
var argInputLayout = argInputObj.AddComponent<LayoutElement>();
argInputLayout.flexibleWidth = 1200;
argInputLayout.preferredWidth = 150;
argInputLayout.minWidth = 20;
argInputLayout.minHeight = 25;
argInputLayout.flexibleHeight = 0;
//argInputLayout.layoutPriority = 2;
var argInput = argInputObj.GetComponent<InputField>();
argInput.onValueChanged.AddListener((string val) => { m_argumentInput[i] = val; });
if (arg.IsOptional)
{
var phInput = argInput.placeholder.GetComponent<Text>();
phInput.text = " = " + arg.DefaultValue?.ToString() ?? "null";
}
}
internal void ConstructEvaluateButtons(GameObject argsHolder)
{
if (HasParameters)
{
var evalGroupObj = UIFactory.CreateHorizontalGroup(m_rightGroup, new Color(1, 1, 1, 0));
var evalGroup = evalGroupObj.GetComponent<HorizontalLayoutGroup>();
evalGroup.childForceExpandWidth = false;
evalGroup.childForceExpandHeight = false;
evalGroup.spacing = 5;
var evalGroupLayout = evalGroupObj.AddComponent<LayoutElement>();
evalGroupLayout.minHeight = 25;
evalGroupLayout.flexibleHeight = 0;
evalGroupLayout.flexibleWidth = 5000;
var evalButtonObj = UIFactory.CreateButton(evalGroupObj, new Color(0.4f, 0.4f, 0.4f));
var evalLayout = evalButtonObj.AddComponent<LayoutElement>();
evalLayout.minWidth = 100;
evalLayout.minHeight = 22;
evalLayout.flexibleWidth = 0;
var evalText = evalButtonObj.GetComponentInChildren<Text>();
evalText.text = $"Evaluate ({ParamCount})";
var evalButton = evalButtonObj.GetComponent<Button>();
var colors = evalButton.colors;
colors.highlightedColor = new Color(0.4f, 0.7f, 0.4f);
evalButton.colors = colors;
var cancelButtonObj = UIFactory.CreateButton(evalGroupObj, new Color(0.3f, 0.3f, 0.3f));
var cancelLayout = cancelButtonObj.AddComponent<LayoutElement>();
cancelLayout.minWidth = 100;
cancelLayout.minHeight = 22;
cancelLayout.flexibleWidth = 0;
var cancelText = cancelButtonObj.GetComponentInChildren<Text>();
cancelText.text = "Close";
cancelButtonObj.SetActive(false);
evalButton.onClick.AddListener(() =>
{
if (!m_isEvaluating)
{
argsHolder.SetActive(true);
m_isEvaluating = true;
evalText.text = "Evaluate";
colors = evalButton.colors;
colors.normalColor = new Color(0.3f, 0.6f, 0.3f);
evalButton.colors = colors;
cancelButtonObj.SetActive(true);
}
else
{
if (this is CacheMethod cm)
cm.Evaluate();
else
UpdateValue();
}
});
var cancelButton = cancelButtonObj.GetComponent<Button>();
cancelButton.onClick.AddListener(() =>
{
cancelButtonObj.SetActive(false);
argsHolder.SetActive(false);
m_isEvaluating = false;
evalText.text = $"Evaluate ({ParamCount})";
colors = evalButton.colors;
colors.normalColor = new Color(0.4f, 0.4f, 0.4f);
evalButton.colors = colors;
});
}
else if (this is CacheMethod)
{
// simple method evaluate button
var evalButtonObj = UIFactory.CreateButton(m_rightGroup, new Color(0.3f, 0.6f, 0.3f));
var evalLayout = evalButtonObj.AddComponent<LayoutElement>();
evalLayout.minWidth = 100;
evalLayout.minHeight = 22;
evalLayout.flexibleWidth = 0;
var evalText = evalButtonObj.GetComponentInChildren<Text>();
evalText.text = "Evaluate";
var evalButton = evalButtonObj.GetComponent<Button>();
var colors = evalButton.colors;
colors.highlightedColor = new Color(0.4f, 0.7f, 0.4f);
evalButton.colors = colors;
evalButton.onClick.AddListener(OnMainEvaluateButton);
void OnMainEvaluateButton()
{
(this as CacheMethod).Evaluate();
}
}
}
#endregion
}
}

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using System;
using System.Collections.Generic;
using System.Linq;
using System.Reflection;
using UnityEngine;
using UnityEngine.UI;
using UnityExplorer.UI;
using UnityExplorer.Core.Unity;
using UnityExplorer.Core;
using UnityExplorer.UI.Utility;
namespace UnityExplorer.Core.Inspectors.Reflection
{
public class CacheMethod : CacheMember
{
//private CacheObjectBase m_cachedReturnValue;
public override Type FallbackType => (MemInfo as MethodInfo).ReturnType;
public override bool HasParameters => base.HasParameters || GenericArgs.Length > 0;
public override bool IsStatic => (MemInfo as MethodInfo).IsStatic;
public override int ParamCount => base.ParamCount + m_genericArgInput.Length;
public Type[] GenericArgs { get; private set; }
public Type[][] GenericConstraints { get; private set; }
public string[] m_genericArgInput = new string[0];
public CacheMethod(MethodInfo methodInfo, object declaringInstance, GameObject parent) : base(methodInfo, declaringInstance, parent)
{
GenericArgs = methodInfo.GetGenericArguments();
GenericConstraints = GenericArgs.Select(x => x.GetGenericParameterConstraints())
.Where(x => x != null)
.ToArray();
m_genericArgInput = new string[GenericArgs.Length];
m_arguments = methodInfo.GetParameters();
m_argumentInput = new string[m_arguments.Length];
CreateIValue(null, methodInfo.ReturnType);
}
public override void UpdateReflection()
{
// CacheMethod cannot UpdateValue directly. Need to Evaluate.
}
public void Evaluate()
{
MethodInfo mi;
if (GenericArgs.Length > 0)
{
mi = MakeGenericMethodFromInput();
if (mi == null) return;
}
else
{
mi = MemInfo as MethodInfo;
}
object ret = null;
try
{
ret = mi.Invoke(mi.IsStatic ? null : DeclaringInstance, ParseArguments());
m_evaluated = true;
m_isEvaluating = false;
ReflectionException = null;
}
catch (Exception e)
{
while (e.InnerException != null)
e = e.InnerException;
ExplorerCore.LogWarning($"Exception evaluating: {e.GetType()}, {e.Message}");
ReflectionException = ReflectionUtility.ReflectionExToString(e);
}
IValue.Value = ret;
UpdateValue();
}
private MethodInfo MakeGenericMethodFromInput()
{
var mi = MemInfo as MethodInfo;
var list = new List<Type>();
for (int i = 0; i < GenericArgs.Length; i++)
{
var input = m_genericArgInput[i];
if (ReflectionUtility.GetTypeByName(input) is Type t)
{
if (GenericConstraints[i].Length == 0)
{
list.Add(t);
}
else
{
foreach (var constraint in GenericConstraints[i].Where(x => x != null))
{
if (!constraint.IsAssignableFrom(t))
{
ExplorerCore.LogWarning($"Generic argument #{i}, '{input}' is not assignable from the constraint '{constraint}'!");
return null;
}
}
list.Add(t);
}
}
else
{
ExplorerCore.LogWarning($"Generic argument #{i}, could not get any type by the name of '{input}'!" +
$" Make sure you use the full name including the namespace.");
return null;
}
}
// make into a generic with type list
mi = mi.MakeGenericMethod(list.ToArray());
return mi;
}
#region UI CONSTRUCTION
internal void ConstructGenericArgInput(GameObject parent)
{
var titleObj = UIFactory.CreateLabel(parent, TextAnchor.MiddleLeft);
var titleText = titleObj.GetComponent<Text>();
titleText.text = "<b>Generic Arguments:</b>";
for (int i = 0; i < GenericArgs.Length; i++)
{
AddGenericArgRow(i, parent);
}
}
internal void AddGenericArgRow(int i, GameObject parent)
{
var arg = GenericArgs[i];
string constrainTxt = "";
if (this.GenericConstraints[i].Length > 0)
{
foreach (var constraint in this.GenericConstraints[i])
{
if (constrainTxt != "")
constrainTxt += ", ";
constrainTxt += $"{SignatureHighlighter.ParseFullSyntax(constraint, false)}";
}
}
else
constrainTxt = $"Any";
var rowObj = UIFactory.CreateHorizontalGroup(parent, new Color(1, 1, 1, 0));
var rowLayout = rowObj.AddComponent<LayoutElement>();
rowLayout.minHeight = 25;
rowLayout.flexibleWidth = 5000;
var rowGroup = rowObj.GetComponent<HorizontalLayoutGroup>();
rowGroup.childForceExpandHeight = true;
rowGroup.spacing = 4;
var argLabelObj = UIFactory.CreateLabel(rowObj, TextAnchor.MiddleLeft);
//var argLayout = argLabelObj.AddComponent<LayoutElement>();
//argLayout.minWidth = 20;
var argText = argLabelObj.GetComponent<Text>();
argText.text = $"{constrainTxt} <color={SignatureHighlighter.CONST_VAR}>{arg.Name}</color>";
var argInputObj = UIFactory.CreateInputField(rowObj, 14, (int)TextAnchor.MiddleLeft, 1);
var argInputLayout = argInputObj.AddComponent<LayoutElement>();
argInputLayout.flexibleWidth = 1200;
var argInput = argInputObj.GetComponent<InputField>();
argInput.onValueChanged.AddListener((string val) => { m_genericArgInput[i] = val; });
//var constraintLabelObj = UIFactory.CreateLabel(rowObj, TextAnchor.MiddleLeft);
//var constraintLayout = constraintLabelObj.AddComponent<LayoutElement>();
//constraintLayout.minWidth = 60;
//constraintLayout.flexibleWidth = 100;
//var constraintText = constraintLabelObj.GetComponent<Text>();
//constraintText.text = ;
}
#endregion
}
}

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using System;
using System.Collections.Generic;
using System.Linq;
using System.Reflection;
using UnityEngine;
using UnityExplorer.UI;
using UnityExplorer.UI.Reusable;
using UnityExplorer.Core.Unity;
using UnityEngine.UI;
using UnityExplorer.Core;
namespace UnityExplorer.Core.Inspectors.Reflection
{
public abstract class CacheObjectBase
{
public InteractiveValue IValue;
public virtual bool CanWrite => false;
public virtual bool HasParameters => false;
public virtual bool IsMember => false;
public virtual bool HasEvaluated => true;
public abstract Type FallbackType { get; }
public abstract void CreateIValue(object value, Type fallbackType);
public virtual void Enable()
{
if (!m_constructedUI)
{
ConstructUI();
UpdateValue();
}
m_mainContent.SetActive(true);
m_mainContent.transform.SetAsLastSibling();
}
public virtual void Disable()
{
if (m_mainContent)
m_mainContent.SetActive(false);
}
public void Destroy()
{
if (this.m_mainContent)
GameObject.Destroy(this.m_mainContent);
}
public virtual void UpdateValue()
{
var value = IValue.Value;
// if the type has changed fundamentally, make a new interactivevalue for it
var type = value == null
? FallbackType
: ReflectionUtility.GetType(value);
var ivalueType = InteractiveValue.GetIValueForType(type);
if (ivalueType != IValue.GetType())
{
IValue.OnDestroy();
CreateIValue(value, FallbackType);
m_subContent.SetActive(false);
}
IValue.OnValueUpdated();
IValue.RefreshElementsAfterUpdate();
}
public virtual void SetValue() => throw new NotImplementedException();
#region UI CONSTRUCTION
internal bool m_constructedUI;
internal GameObject m_parentContent;
internal RectTransform m_mainRect;
internal GameObject m_mainContent;
internal GameObject m_subContent;
// Make base UI holder for CacheObject, this doesnt actually display anything.
internal virtual void ConstructUI()
{
m_constructedUI = true;
m_mainContent = UIFactory.CreateVerticalGroup(m_parentContent, new Color(0.1f, 0.1f, 0.1f));
m_mainContent.name = "CacheObjectBase.MainContent";
m_mainRect = m_mainContent.GetComponent<RectTransform>();
m_mainRect.SetSizeWithCurrentAnchors(RectTransform.Axis.Vertical, 25);
var mainGroup = m_mainContent.GetComponent<VerticalLayoutGroup>();
mainGroup.childForceExpandWidth = true;
mainGroup.childControlWidth = true;
mainGroup.childForceExpandHeight = true;
mainGroup.childControlHeight = true;
var mainLayout = m_mainContent.AddComponent<LayoutElement>();
mainLayout.minHeight = 25;
mainLayout.flexibleHeight = 9999;
mainLayout.minWidth = 200;
mainLayout.flexibleWidth = 5000;
// subcontent
m_subContent = UIFactory.CreateVerticalGroup(m_mainContent, new Color(0.085f, 0.085f, 0.085f));
m_subContent.name = "CacheObjectBase.SubContent";
var subGroup = m_subContent.GetComponent<VerticalLayoutGroup>();
subGroup.childForceExpandWidth = true;
subGroup.childForceExpandHeight = false;
var subLayout = m_subContent.AddComponent<LayoutElement>();
subLayout.minHeight = 30;
subLayout.flexibleHeight = 9999;
subLayout.minWidth = 125;
subLayout.flexibleWidth = 9000;
m_subContent.SetActive(false);
IValue.m_subContentParent = m_subContent;
}
#endregion
}
}

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using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using UnityExplorer.UI;
using UnityEngine;
using UnityEngine.UI;
namespace UnityExplorer.Core.Inspectors.Reflection
{
public enum PairTypes
{
Key,
Value
}
public class CachePaired : CacheObjectBase
{
public override Type FallbackType => PairType == PairTypes.Key
? ParentDictionary.m_typeOfKeys
: ParentDictionary.m_typeofValues;
public override bool CanWrite => false; // todo?
public PairTypes PairType;
public int Index { get; private set; }
public InteractiveDictionary ParentDictionary { get; private set; }
internal IDictionary RefIDict;
public CachePaired(int index, InteractiveDictionary parentDict, IDictionary refIDict, PairTypes pairType, GameObject parentContent)
{
Index = index;
ParentDictionary = parentDict;
RefIDict = refIDict;
this.PairType = pairType;
this.m_parentContent = parentContent;
}
public override void CreateIValue(object value, Type fallbackType)
{
IValue = InteractiveValue.Create(value, fallbackType);
IValue.Owner = this;
}
#region UI CONSTRUCTION
internal override void ConstructUI()
{
base.ConstructUI();
var rowObj = UIFactory.CreateHorizontalGroup(m_mainContent, new Color(1, 1, 1, 0));
var rowGroup = rowObj.GetComponent<HorizontalLayoutGroup>();
rowGroup.padding.left = 5;
rowGroup.padding.right = 2;
var indexLabelObj = UIFactory.CreateLabel(rowObj, TextAnchor.MiddleLeft);
var indexLayout = indexLabelObj.AddComponent<LayoutElement>();
indexLayout.minWidth = 80;
indexLayout.flexibleWidth = 30;
indexLayout.minHeight = 25;
var indexText = indexLabelObj.GetComponent<Text>();
indexText.text = $"{this.PairType} {this.Index}:";
IValue.m_mainContentParent = rowObj;
}
#endregion
}
}

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using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Reflection;
using UnityExplorer.UI;
using UnityExplorer.Core.Unity;
using UnityEngine;
namespace UnityExplorer.Core.Inspectors.Reflection
{
public class CacheProperty : CacheMember
{
public override Type FallbackType => (MemInfo as PropertyInfo).PropertyType;
public override bool IsStatic => (MemInfo as PropertyInfo).GetAccessors(true)[0].IsStatic;
public CacheProperty(PropertyInfo propertyInfo, object declaringInstance, GameObject parent) : base(propertyInfo, declaringInstance, parent)
{
this.m_arguments = propertyInfo.GetIndexParameters();
this.m_argumentInput = new string[m_arguments.Length];
CreateIValue(null, propertyInfo.PropertyType);
}
public override void UpdateReflection()
{
if (HasParameters && !m_isEvaluating)
{
// Need to enter parameters first.
return;
}
var pi = MemInfo as PropertyInfo;
if (pi.CanRead)
{
var target = pi.GetAccessors(true)[0].IsStatic ? null : DeclaringInstance;
IValue.Value = pi.GetValue(target, ParseArguments());
m_evaluated = true;
ReflectionException = null;
}
else
{
if (FallbackType == typeof(string))
{
IValue.Value = "";
}
else if (FallbackType.IsPrimitive)
{
IValue.Value = Activator.CreateInstance(FallbackType);
}
m_evaluated = true;
ReflectionException = null;
}
}
public override void SetValue()
{
var pi = MemInfo as PropertyInfo;
var target = pi.GetAccessors()[0].IsStatic ? null : DeclaringInstance;
pi.SetValue(target, IValue.Value, ParseArguments());
if (this.ParentInspector?.ParentMember != null)
this.ParentInspector.ParentMember.SetValue();
}
}
}

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using System;
using System.Reflection;
using UnityEngine;
using UnityExplorer.UI;
using UnityEngine.UI;
using System.IO;
using UnityExplorer.Core.Runtime;
using UnityExplorer.UI.Main.Home.Inspectors;
namespace UnityExplorer.Core.Inspectors.Reflection
{
public enum MemberScopes
{
All,
Instance,
Static
}
public class InstanceInspector : ReflectionInspector
{
public override string TabLabel => $" <color=cyan>[R]</color> {base.TabLabel}";
internal MemberScopes m_scopeFilter;
internal Button m_lastActiveScopeButton;
public InstanceInspector(object target) : base(target) { }
internal InstanceInspectorUI InstanceUI;
public void CreateInstanceUIModule()
{
InstanceUI = new InstanceInspectorUI(this);
}
internal void OnScopeFilterClicked(MemberScopes type, Button button)
{
if (m_lastActiveScopeButton)
{
var lastColors = m_lastActiveScopeButton.colors;
lastColors.normalColor = new Color(0.2f, 0.2f, 0.2f);
m_lastActiveScopeButton.colors = lastColors;
}
m_scopeFilter = type;
m_lastActiveScopeButton = button;
var colors = m_lastActiveScopeButton.colors;
colors.normalColor = new Color(0.2f, 0.6f, 0.2f);
m_lastActiveScopeButton.colors = colors;
FilterMembers(null, true);
base.ReflectionUI.m_sliderScroller.m_slider.value = 1f;
}
}
}

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using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using UnityEngine;
using UnityEngine.UI;
using UnityExplorer.Core.Unity;
using UnityExplorer.UI;
namespace UnityExplorer.Core.Inspectors.Reflection
{
public class InteractiveBool : InteractiveValue
{
public InteractiveBool(object value, Type valueType) : base(value, valueType) { }
public override bool HasSubContent => false;
public override bool SubContentWanted => false;
public override bool WantInspectBtn => false;
internal Toggle m_toggle;
internal Button m_applyBtn;
public override void OnValueUpdated()
{
base.OnValueUpdated();
}
public override void RefreshUIForValue()
{
GetDefaultLabel();
if (Owner.HasEvaluated)
{
var val = (bool)Value;
if (Owner.CanWrite)
{
if (!m_toggle.gameObject.activeSelf)
m_toggle.gameObject.SetActive(true);
if (!m_applyBtn.gameObject.activeSelf)
m_applyBtn.gameObject.SetActive(true);
if (val != m_toggle.isOn)
m_toggle.isOn = val;
}
var color = val
? "6bc981" // on
: "c96b6b"; // off
m_baseLabel.text = $"<color=#{color}>{val}</color>";
}
else
{
m_baseLabel.text = DefaultLabel;
}
}
public override void OnException(CacheMember member)
{
base.OnException(member);
if (Owner.CanWrite)
{
if (m_toggle.gameObject.activeSelf)
m_toggle.gameObject.SetActive(false);
if (m_applyBtn.gameObject.activeSelf)
m_applyBtn.gameObject.SetActive(false);
}
}
internal void OnToggleValueChanged(bool val)
{
Value = val;
RefreshUIForValue();
}
public override void ConstructUI(GameObject parent, GameObject subGroup)
{
base.ConstructUI(parent, subGroup);
var baseLayout = m_baseLabel.gameObject.GetComponent<LayoutElement>();
baseLayout.flexibleWidth = 0;
baseLayout.minWidth = 50;
if (Owner.CanWrite)
{
var toggleObj = UIFactory.CreateToggle(m_valueContent, out m_toggle, out _, new Color(0.1f, 0.1f, 0.1f));
var toggleLayout = toggleObj.AddComponent<LayoutElement>();
toggleLayout.minWidth = 24;
m_toggle.onValueChanged.AddListener(OnToggleValueChanged);
m_baseLabel.transform.SetAsLastSibling();
var applyBtnObj = UIFactory.CreateButton(m_valueContent, new Color(0.2f, 0.2f, 0.2f));
var applyLayout = applyBtnObj.AddComponent<LayoutElement>();
applyLayout.minWidth = 50;
applyLayout.minHeight = 25;
applyLayout.flexibleWidth = 0;
m_applyBtn = applyBtnObj.GetComponent<Button>();
m_applyBtn.onClick.AddListener(() => { Owner.SetValue(); });
var applyText = applyBtnObj.GetComponentInChildren<Text>();
applyText.text = "Apply";
toggleObj.SetActive(false);
applyBtnObj.SetActive(false);
}
}
}
}

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using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using UnityEngine;
using UnityEngine.UI;
using UnityExplorer.Core.Config;
using UnityExplorer.Core.Unity;
using UnityExplorer.UI;
using UnityExplorer.UI.Reusable;
using System.Reflection;
#if CPP
using CppDictionary = Il2CppSystem.Collections.IDictionary;
#endif
namespace UnityExplorer.Core.Inspectors.Reflection
{
public class InteractiveDictionary : InteractiveValue
{
public InteractiveDictionary(object value, Type valueType) : base(value, valueType)
{
if (valueType.IsGenericType)
{
var gArgs = valueType.GetGenericArguments();
m_typeOfKeys = gArgs[0];
m_typeofValues = gArgs[1];
}
else
{
m_typeOfKeys = typeof(object);
m_typeofValues = typeof(object);
}
}
public override bool WantInspectBtn => false;
public override bool HasSubContent => true;
// todo fix for il2cpp
public override bool SubContentWanted
{
get
{
if (m_recacheWanted)
return true;
else return m_entries.Count > 0;
}
}
internal IDictionary RefIDictionary;
#if CPP
internal CppDictionary RefCppDictionary;
#else
internal IDictionary RefCppDictionary = null;
#endif
internal Type m_typeOfKeys;
internal Type m_typeofValues;
internal readonly List<KeyValuePair<CachePaired, CachePaired>> m_entries
= new List<KeyValuePair<CachePaired, CachePaired>>();
internal readonly KeyValuePair<CachePaired, CachePaired>[] m_displayedEntries
= new KeyValuePair<CachePaired, CachePaired>[ExplorerConfig.Instance.Default_Page_Limit];
internal bool m_recacheWanted = true;
public override void OnDestroy()
{
base.OnDestroy();
}
public override void OnValueUpdated()
{
RefIDictionary = Value as IDictionary;
#if CPP
try { RefCppDictionary = (Value as Il2CppSystem.Object).TryCast<CppDictionary>(); }
catch { }
#endif
if (m_subContentParent.activeSelf)
{
GetCacheEntries();
RefreshDisplay();
}
else
m_recacheWanted = true;
base.OnValueUpdated();
}
internal void OnPageTurned()
{
RefreshDisplay();
}
public override void RefreshUIForValue()
{
GetDefaultLabel();
if (Value != null)
{
string count = "?";
if (m_recacheWanted && RefIDictionary != null)
count = RefIDictionary.Count.ToString();
else if (!m_recacheWanted)
count = m_entries.Count.ToString();
m_baseLabel.text = $"[{count}] {m_richValueType}";
}
else
{
m_baseLabel.text = DefaultLabel;
}
}
public void GetCacheEntries()
{
if (m_entries.Any())
{
// maybe improve this, probably could be more efficient i guess
foreach (var pair in m_entries)
{
pair.Key.Destroy();
pair.Value.Destroy();
}
m_entries.Clear();
}
#if CPP
if (RefIDictionary == null && Value != null)
RefIDictionary = EnumerateWithReflection();
#endif
if (RefIDictionary != null)
{
int index = 0;
foreach (var key in RefIDictionary.Keys)
{
var value = RefIDictionary[key];
var cacheKey = new CachePaired(index, this, this.RefIDictionary, PairTypes.Key, m_listContent);
cacheKey.CreateIValue(key, this.m_typeOfKeys);
cacheKey.Disable();
var cacheValue = new CachePaired(index, this, this.RefIDictionary, PairTypes.Value, m_listContent);
cacheValue.CreateIValue(value, this.m_typeofValues);
cacheValue.Disable();
//holder.SetActive(false);
m_entries.Add(new KeyValuePair<CachePaired, CachePaired>(cacheKey, cacheValue));
index++;
}
}
RefreshDisplay();
}
public void RefreshDisplay()
{
var entries = m_entries;
m_pageHandler.ListCount = entries.Count;
for (int i = 0; i < m_displayedEntries.Length; i++)
{
var entry = m_displayedEntries[i];
if (entry.Key != null && entry.Value != null)
{
//m_rowHolders[i].SetActive(false);
entry.Key.Disable();
entry.Value.Disable();
}
else
break;
}
if (entries.Count < 1)
return;
foreach (var itemIndex in m_pageHandler)
{
if (itemIndex >= entries.Count)
break;
var entry = entries[itemIndex];
m_displayedEntries[itemIndex - m_pageHandler.StartIndex] = entry;
//m_rowHolders[itemIndex].SetActive(true);
entry.Key.Enable();
entry.Value.Enable();
}
//UpdateSubcontentHeight();
}
internal override void OnToggleSubcontent(bool active)
{
base.OnToggleSubcontent(active);
if (active && m_recacheWanted)
{
m_recacheWanted = false;
GetCacheEntries();
RefreshUIForValue();
}
RefreshDisplay();
}
#region CPP fixes
#if CPP
// temp fix for Il2Cpp IDictionary until interfaces are fixed
private IDictionary EnumerateWithReflection()
{
var valueType = Value?.GetType() ?? FallbackType;
// get keys and values
var keys = valueType.GetProperty("Keys").GetValue(Value, null);
var values = valueType.GetProperty("Values").GetValue(Value, null);
// create lists to hold them
var keyList = new List<object>();
var valueList = new List<object>();
// store entries with reflection
EnumerateCollection(keys, keyList);
EnumerateCollection(values, valueList);
// make actual mono dictionary
var dict = (IDictionary)Activator.CreateInstance(typeof(Dictionary<,>)
.MakeGenericType(m_typeOfKeys, m_typeofValues));
// finally iterate into mono dictionary
for (int i = 0; i < keyList.Count; i++)
dict.Add(keyList[i], valueList[i]);
return dict;
}
private void EnumerateCollection(object collection, List<object> list)
{
// invoke GetEnumerator
var enumerator = collection.GetType().GetMethod("GetEnumerator").Invoke(collection, null);
// get the type of it
var enumeratorType = enumerator.GetType();
// reflect MoveNext and Current
var moveNext = enumeratorType.GetMethod("MoveNext");
var current = enumeratorType.GetProperty("Current");
// iterate
while ((bool)moveNext.Invoke(enumerator, null))
{
list.Add(current.GetValue(enumerator, null));
}
}
#endif
#endregion
#region UI CONSTRUCTION
internal GameObject m_listContent;
internal LayoutElement m_listLayout;
internal PageHandler m_pageHandler;
//internal List<GameObject> m_rowHolders = new List<GameObject>();
public override void ConstructUI(GameObject parent, GameObject subGroup)
{
base.ConstructUI(parent, subGroup);
}
public override void ConstructSubcontent()
{
base.ConstructSubcontent();
m_pageHandler = new PageHandler(null);
m_pageHandler.ConstructUI(m_subContentParent);
m_pageHandler.OnPageChanged += OnPageTurned;
var scrollObj = UIFactory.CreateVerticalGroup(this.m_subContentParent, new Color(0.08f, 0.08f, 0.08f));
m_listContent = scrollObj;
var scrollRect = scrollObj.GetComponent<RectTransform>();
scrollRect.SetSizeWithCurrentAnchors(RectTransform.Axis.Vertical, 0);
m_listLayout = Owner.m_mainContent.GetComponent<LayoutElement>();
m_listLayout.minHeight = 25;
m_listLayout.flexibleHeight = 0;
Owner.m_mainRect.SetSizeWithCurrentAnchors(RectTransform.Axis.Vertical, 25);
var scrollGroup = m_listContent.GetComponent<VerticalLayoutGroup>();
scrollGroup.childForceExpandHeight = true;
scrollGroup.childControlHeight = true;
scrollGroup.spacing = 2;
scrollGroup.padding.top = 5;
scrollGroup.padding.left = 5;
scrollGroup.padding.right = 5;
scrollGroup.padding.bottom = 5;
var contentFitter = scrollObj.AddComponent<ContentSizeFitter>();
contentFitter.horizontalFit = ContentSizeFitter.FitMode.Unconstrained;
contentFitter.verticalFit = ContentSizeFitter.FitMode.PreferredSize;
}
//internal void AddRowHolder()
//{
// var obj = UIFactory.CreateHorizontalGroup(m_listContent, new Color(0.15f, 0.15f, 0.15f));
// m_rowHolders.Add(obj);
//}
#endregion
}
}

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using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using UnityEngine;
using UnityEngine.UI;
using UnityExplorer.Core.Unity;
using UnityExplorer.UI;
namespace UnityExplorer.Core.Inspectors.Reflection
{
public class InteractiveEnum : InteractiveValue
{
internal static Dictionary<Type, KeyValuePair<int,string>[]> s_enumNamesCache = new Dictionary<Type, KeyValuePair<int, string>[]>();
public InteractiveEnum(object value, Type valueType) : base(value, valueType)
{
GetNames();
}
public override bool HasSubContent => true;
public override bool SubContentWanted => Owner.CanWrite;
public override bool WantInspectBtn => false;
internal KeyValuePair<int,string>[] m_values = new KeyValuePair<int, string>[0];
internal Type m_lastEnumType;
internal void GetNames()
{
var type = Value?.GetType() ?? FallbackType;
if (m_lastEnumType == type)
return;
m_lastEnumType = type;
if (m_subContentConstructed)
{
DestroySubContent();
}
if (!s_enumNamesCache.ContainsKey(type))
{
// using GetValues not GetNames, to catch instances of weird enums (eg CameraClearFlags)
var values = Enum.GetValues(type);
var list = new List<KeyValuePair<int, string>>();
var set = new HashSet<string>();
foreach (var value in values)
{
var name = value.ToString();
if (set.Contains(name))
continue;
set.Add(name);
var backingType = Enum.GetUnderlyingType(type);
int intValue;
try
{
// this approach is necessary, a simple '(int)value' is not sufficient.
var unbox = Convert.ChangeType(value, backingType);
intValue = (int)Convert.ChangeType(unbox, typeof(int));
}
catch (Exception ex)
{
ExplorerCore.LogWarning("[InteractiveEnum] Could not Unbox underlying type " + backingType.Name + " from " + type.FullName);
ExplorerCore.Log(ex.ToString());
continue;
}
list.Add(new KeyValuePair<int, string>(intValue, name));
}
s_enumNamesCache.Add(type, list.ToArray());
}
m_values = s_enumNamesCache[type];
}
public override void OnValueUpdated()
{
GetNames();
base.OnValueUpdated();
}
public override void RefreshUIForValue()
{
base.RefreshUIForValue();
if (m_subContentConstructed)
{
m_dropdownText.text = Value?.ToString() ?? "<no value set>";
}
}
internal override void OnToggleSubcontent(bool toggle)
{
base.OnToggleSubcontent(toggle);
RefreshUIForValue();
}
private void SetValueFromDropdown()
{
var type = Value?.GetType() ?? FallbackType;
var index = m_dropdown.value;
var value = Enum.Parse(type, s_enumNamesCache[type][index].Value);
if (value != null)
{
Value = value;
Owner.SetValue();
RefreshUIForValue();
}
}
internal Dropdown m_dropdown;
internal Text m_dropdownText;
public override void ConstructUI(GameObject parent, GameObject subGroup)
{
base.ConstructUI(parent, subGroup);
}
public override void ConstructSubcontent()
{
base.ConstructSubcontent();
if (Owner.CanWrite)
{
var groupObj = UIFactory.CreateHorizontalGroup(m_subContentParent, new Color(1, 1, 1, 0));
var group = groupObj.GetComponent<HorizontalLayoutGroup>();
group.padding.top = 3;
group.padding.left = 3;
group.padding.right = 3;
group.padding.bottom = 3;
group.spacing = 5;
// apply button
var applyObj = UIFactory.CreateButton(groupObj, new Color(0.3f, 0.3f, 0.3f));
var applyLayout = applyObj.AddComponent<LayoutElement>();
applyLayout.minHeight = 25;
applyLayout.minWidth = 50;
var applyText = applyObj.GetComponentInChildren<Text>();
applyText.text = "Apply";
var applyBtn = applyObj.GetComponent<Button>();
applyBtn.onClick.AddListener(SetValueFromDropdown);
// dropdown
var dropdownObj = UIFactory.CreateDropdown(groupObj, out m_dropdown);
var dropLayout = dropdownObj.AddComponent<LayoutElement>();
dropLayout.minWidth = 150;
dropLayout.minHeight = 25;
dropLayout.flexibleWidth = 120;
foreach (var kvp in m_values)
{
m_dropdown.options.Add(new Dropdown.OptionData
{
text = $"{kvp.Key}: {kvp.Value}"
});
}
m_dropdownText = m_dropdown.transform.Find("Label").GetComponent<Text>();
}
}
}
}

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using System;
using System.Collections;
using System.Collections.Generic;
using System.Linq;
using System.Reflection;
using System.Text;
using UnityEngine;
using UnityEngine.UI;
using UnityExplorer.Core.Config;
using UnityExplorer.Core.Unity;
using UnityExplorer.UI;
using UnityExplorer.UI.Reusable;
namespace UnityExplorer.Core.Inspectors.Reflection
{
public class InteractiveEnumerable : InteractiveValue
{
public InteractiveEnumerable(object value, Type valueType) : base(value, valueType)
{
if (valueType.IsGenericType)
m_baseEntryType = valueType.GetGenericArguments()[0];
else
m_baseEntryType = typeof(object);
}
public override bool WantInspectBtn => false;
public override bool HasSubContent => true;
public override bool SubContentWanted
{
get
{
if (m_recacheWanted)
return true;
else return m_entries.Count > 0;
}
}
internal IEnumerable RefIEnumerable;
internal IList RefIList;
#if CPP
internal Il2CppSystem.Collections.ICollection CppICollection;
#else
internal ICollection CppICollection = null;
#endif
internal readonly Type m_baseEntryType;
internal readonly List<CacheEnumerated> m_entries = new List<CacheEnumerated>();
internal readonly CacheEnumerated[] m_displayedEntries = new CacheEnumerated[ExplorerConfig.Instance.Default_Page_Limit];
internal bool m_recacheWanted = true;
public override void OnValueUpdated()
{
RefIEnumerable = Value as IEnumerable;
RefIList = Value as IList;
#if CPP
if (Value != null && RefIList == null)
{
try { CppICollection = (Value as Il2CppSystem.Object).TryCast<Il2CppSystem.Collections.ICollection>(); }
catch { }
}
#endif
if (m_subContentParent.activeSelf)
{
GetCacheEntries();
RefreshDisplay();
}
else
m_recacheWanted = true;
base.OnValueUpdated();
}
public override void OnException(CacheMember member)
{
base.OnException(member);
}
private void OnPageTurned()
{
RefreshDisplay();
}
public override void RefreshUIForValue()
{
GetDefaultLabel();
if (Value != null)
{
string count = "?";
if (m_recacheWanted && (RefIList != null || CppICollection != null))
count = RefIList?.Count.ToString() ?? CppICollection.Count.ToString();
else if (!m_recacheWanted)
count = m_entries.Count.ToString();
m_baseLabel.text = $"[{count}] {m_richValueType}";
}
else
{
m_baseLabel.text = DefaultLabel;
}
}
public void GetCacheEntries()
{
if (m_entries.Any())
{
// maybe improve this, probably could be more efficient i guess
foreach (var entry in m_entries)
entry.Destroy();
m_entries.Clear();
}
#if CPP
if (RefIEnumerable == null && Value != null)
RefIEnumerable = EnumerateWithReflection();
#endif
if (RefIEnumerable != null)
{
int index = 0;
foreach (var entry in RefIEnumerable)
{
var cache = new CacheEnumerated(index, this, RefIList, this.m_listContent);
cache.CreateIValue(entry, m_baseEntryType);
m_entries.Add(cache);
cache.Disable();
index++;
}
}
RefreshDisplay();
}
public void RefreshDisplay()
{
var entries = m_entries;
m_pageHandler.ListCount = entries.Count;
for (int i = 0; i < m_displayedEntries.Length; i++)
{
var entry = m_displayedEntries[i];
if (entry != null)
entry.Disable();
else
break;
}
if (entries.Count < 1)
return;
foreach (var itemIndex in m_pageHandler)
{
if (itemIndex >= entries.Count)
break;
CacheEnumerated entry = entries[itemIndex];
m_displayedEntries[itemIndex - m_pageHandler.StartIndex] = entry;
entry.Enable();
}
//UpdateSubcontentHeight();
}
internal override void OnToggleSubcontent(bool active)
{
base.OnToggleSubcontent(active);
if (active && m_recacheWanted)
{
m_recacheWanted = false;
GetCacheEntries();
RefreshUIForValue();
}
RefreshDisplay();
}
#region CPP Helpers
#if CPP
// some temp fixes for Il2Cpp IEnumerables until interfaces are fixed
internal static readonly Dictionary<Type, MethodInfo> s_getEnumeratorMethods = new Dictionary<Type, MethodInfo>();
internal static readonly Dictionary<Type, EnumeratorInfo> s_enumeratorInfos = new Dictionary<Type, EnumeratorInfo>();
internal class EnumeratorInfo
{
internal MethodInfo moveNext;
internal PropertyInfo current;
}
private IEnumerable EnumerateWithReflection()
{
if (Value == null)
return null;
// new test
var CppEnumerable = (Value as Il2CppSystem.Object)?.TryCast<Il2CppSystem.Collections.IEnumerable>();
if (CppEnumerable != null)
{
var type = Value.GetType();
if (!s_getEnumeratorMethods.ContainsKey(type))
s_getEnumeratorMethods.Add(type, type.GetMethod("GetEnumerator"));
var enumerator = s_getEnumeratorMethods[type].Invoke(Value, null);
var enumeratorType = enumerator.GetType();
if (!s_enumeratorInfos.ContainsKey(enumeratorType))
{
s_enumeratorInfos.Add(enumeratorType, new EnumeratorInfo
{
current = enumeratorType.GetProperty("Current"),
moveNext = enumeratorType.GetMethod("MoveNext"),
});
}
var info = s_enumeratorInfos[enumeratorType];
// iterate
var list = new List<object>();
while ((bool)info.moveNext.Invoke(enumerator, null))
list.Add(info.current.GetValue(enumerator));
return list;
}
return null;
}
#endif
#endregion
#region UI CONSTRUCTION
internal GameObject m_listContent;
internal LayoutElement m_listLayout;
internal PageHandler m_pageHandler;
public override void ConstructUI(GameObject parent, GameObject subGroup)
{
base.ConstructUI(parent, subGroup);
}
public override void ConstructSubcontent()
{
base.ConstructSubcontent();
m_pageHandler = new PageHandler(null);
m_pageHandler.ConstructUI(m_subContentParent);
m_pageHandler.OnPageChanged += OnPageTurned;
var scrollObj = UIFactory.CreateVerticalGroup(this.m_subContentParent, new Color(0.08f, 0.08f, 0.08f));
m_listContent = scrollObj;
var scrollRect = scrollObj.GetComponent<RectTransform>();
scrollRect.SetSizeWithCurrentAnchors(RectTransform.Axis.Vertical, 0);
m_listLayout = Owner.m_mainContent.GetComponent<LayoutElement>();
m_listLayout.minHeight = 25;
m_listLayout.flexibleHeight = 0;
Owner.m_mainRect.SetSizeWithCurrentAnchors(RectTransform.Axis.Vertical, 25);
var scrollGroup = m_listContent.GetComponent<VerticalLayoutGroup>();
scrollGroup.childForceExpandHeight = true;
scrollGroup.childControlHeight = true;
scrollGroup.spacing = 2;
scrollGroup.padding.top = 5;
scrollGroup.padding.left = 5;
scrollGroup.padding.right = 5;
scrollGroup.padding.bottom = 5;
var contentFitter = scrollObj.AddComponent<ContentSizeFitter>();
contentFitter.horizontalFit = ContentSizeFitter.FitMode.Unconstrained;
contentFitter.verticalFit = ContentSizeFitter.FitMode.PreferredSize;
}
#endregion
}
}

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using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using UnityEngine;
using UnityEngine.UI;
using UnityExplorer.Core.Unity;
using UnityExplorer.UI;
namespace UnityExplorer.Core.Inspectors.Reflection
{
public class InteractiveFlags : InteractiveEnum
{
public InteractiveFlags(object value, Type valueType) : base(value, valueType)
{
m_toggles = new Toggle[m_values.Length];
m_enabledFlags = new bool[m_values.Length];
}
public override bool HasSubContent => true;
public override bool SubContentWanted => Owner.CanWrite;
public override bool WantInspectBtn => false;
internal bool[] m_enabledFlags;
internal Toggle[] m_toggles;
public override void OnValueUpdated()
{
base.OnValueUpdated();
if (Owner.CanWrite)
{
var enabledNames = new List<string>();
var enabled = Value?.ToString().Split(',').Select(it => it.Trim());
if (enabled != null)
enabledNames.AddRange(enabled);
for (int i = 0; i < m_values.Length; i++)
{
m_enabledFlags[i] = enabledNames.Contains(m_values[i].Value);
}
}
}
public override void RefreshUIForValue()
{
GetDefaultLabel();
m_baseLabel.text = DefaultLabel;
if (m_subContentConstructed)
{
for (int i = 0; i < m_values.Length; i++)
{
var toggle = m_toggles[i];
if (toggle.isOn != m_enabledFlags[i])
toggle.isOn = m_enabledFlags[i];
}
}
}
private void SetValueFromToggles()
{
string val = "";
for (int i = 0; i < m_values.Length; i++)
{
if (m_enabledFlags[i])
{
if (val != "") val += ", ";
val += m_values[i].Value;
}
}
var type = Value?.GetType() ?? FallbackType;
Value = Enum.Parse(type, val);
RefreshUIForValue();
Owner.SetValue();
}
internal override void OnToggleSubcontent(bool toggle)
{
base.OnToggleSubcontent(toggle);
RefreshUIForValue();
}
public override void ConstructUI(GameObject parent, GameObject subGroup)
{
base.ConstructUI(parent, subGroup);
}
public override void ConstructSubcontent()
{
m_subContentConstructed = true;
if (Owner.CanWrite)
{
var groupObj = UIFactory.CreateVerticalGroup(m_subContentParent, new Color(1, 1, 1, 0));
var group = groupObj.GetComponent<VerticalLayoutGroup>();
group.childForceExpandHeight = true;
group.childForceExpandWidth = false;
group.childControlHeight = true;
group.childControlWidth = true;
group.padding.top = 3;
group.padding.left = 3;
group.padding.right = 3;
group.padding.bottom = 3;
group.spacing = 5;
// apply button
var applyObj = UIFactory.CreateButton(groupObj, new Color(0.3f, 0.3f, 0.3f));
var applyLayout = applyObj.AddComponent<LayoutElement>();
applyLayout.minHeight = 25;
applyLayout.minWidth = 50;
var applyText = applyObj.GetComponentInChildren<Text>();
applyText.text = "Apply";
var applyBtn = applyObj.GetComponent<Button>();
applyBtn.onClick.AddListener(SetValueFromToggles);
// toggles
for (int i = 0; i < m_values.Length; i++)
{
AddToggle(i, groupObj);
}
}
}
internal void AddToggle(int index, GameObject groupObj)
{
var value = m_values[index];
var toggleObj = UIFactory.CreateToggle(groupObj, out Toggle toggle, out Text text, new Color(0.1f, 0.1f, 0.1f));
var toggleLayout = toggleObj.AddComponent<LayoutElement>();
toggleLayout.minWidth = 100;
toggleLayout.flexibleWidth = 2000;
toggleLayout.minHeight = 25;
m_toggles[index] = toggle;
toggle.onValueChanged.AddListener((bool val) => { m_enabledFlags[index] = val; });
text.text = $"{value.Key}: {value.Value}";
}
}
}

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using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Reflection;
using UnityEngine;
using UnityEngine.UI;
using UnityExplorer.Core.Unity;
using UnityExplorer.UI;
using UnityExplorer.Core;
using UnityExplorer.UI.Utility;
namespace UnityExplorer.Core.Inspectors.Reflection
{
public class InteractiveNumber : InteractiveValue
{
public InteractiveNumber(object value, Type valueType) : base(value, valueType) { }
public override bool HasSubContent => false;
public override bool SubContentWanted => false;
public override bool WantInspectBtn => false;
public override void OnValueUpdated()
{
base.OnValueUpdated();
}
public override void OnException(CacheMember member)
{
base.OnException(member);
if (m_valueInput.gameObject.activeSelf)
m_valueInput.gameObject.SetActive(false);
if (Owner.CanWrite)
{
if (m_applyBtn.gameObject.activeSelf)
m_applyBtn.gameObject.SetActive(false);
}
}
public override void RefreshUIForValue()
{
if (!Owner.HasEvaluated)
{
GetDefaultLabel();
m_baseLabel.text = DefaultLabel;
return;
}
m_baseLabel.text = SignatureHighlighter.ParseFullSyntax(FallbackType, false);
m_valueInput.text = Value.ToString();
var type = Value.GetType();
if (type == typeof(float)
|| type == typeof(double)
|| type == typeof(decimal))
{
m_valueInput.characterValidation = InputField.CharacterValidation.Decimal;
}
else
{
m_valueInput.characterValidation = InputField.CharacterValidation.Integer;
}
if (Owner.CanWrite)
{
if (!m_applyBtn.gameObject.activeSelf)
m_applyBtn.gameObject.SetActive(true);
}
if (!m_valueInput.gameObject.activeSelf)
m_valueInput.gameObject.SetActive(true);
}
public MethodInfo ParseMethod => m_parseMethod ?? (m_parseMethod = Value.GetType().GetMethod("Parse", new Type[] { typeof(string) }));
private MethodInfo m_parseMethod;
internal void OnApplyClicked()
{
try
{
Value = ParseMethod.Invoke(null, new object[] { m_valueInput.text });
Owner.SetValue();
RefreshUIForValue();
}
catch (Exception e)
{
ExplorerCore.LogWarning("Could not parse input! " + ReflectionUtility.ReflectionExToString(e, true));
}
}
internal InputField m_valueInput;
internal Button m_applyBtn;
public override void ConstructUI(GameObject parent, GameObject subGroup)
{
base.ConstructUI(parent, subGroup);
var labelLayout = m_baseLabel.gameObject.GetComponent<LayoutElement>();
labelLayout.minWidth = 50;
labelLayout.flexibleWidth = 0;
var inputObj = UIFactory.CreateInputField(m_valueContent);
var inputLayout = inputObj.AddComponent<LayoutElement>();
inputLayout.minWidth = 120;
inputLayout.minHeight = 25;
inputLayout.flexibleWidth = 0;
m_valueInput = inputObj.GetComponent<InputField>();
m_valueInput.gameObject.SetActive(false);
if (Owner.CanWrite)
{
var applyBtnObj = UIFactory.CreateButton(m_valueContent, new Color(0.2f, 0.2f, 0.2f));
var applyLayout = applyBtnObj.AddComponent<LayoutElement>();
applyLayout.minWidth = 50;
applyLayout.minHeight = 25;
applyLayout.flexibleWidth = 0;
m_applyBtn = applyBtnObj.GetComponent<Button>();
m_applyBtn.onClick.AddListener(OnApplyClicked);
var applyText = applyBtnObj.GetComponentInChildren<Text>();
applyText.text = "Apply";
}
}
}
}

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using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Reflection;
using UnityEngine;
using UnityEngine.UI;
using UnityExplorer.Core.Unity;
using UnityExplorer.UI;
using UnityExplorer.UI.Utility;
namespace UnityExplorer.Core.Inspectors.Reflection
{
public class InteractiveString : InteractiveValue
{
public InteractiveString(object value, Type valueType) : base(value, valueType) { }
public override bool HasSubContent => true;
public override bool SubContentWanted => true;
public override bool WantInspectBtn => false;
public override void OnValueUpdated()
{
base.OnValueUpdated();
}
public override void OnException(CacheMember member)
{
base.OnException(member);
if (m_subContentConstructed && m_hiddenObj.gameObject.activeSelf)
m_hiddenObj.gameObject.SetActive(false);
m_labelLayout.minWidth = 200;
m_labelLayout.flexibleWidth = 5000;
}
public override void RefreshUIForValue()
{
GetDefaultLabel(false);
if (!Owner.HasEvaluated)
{
m_baseLabel.text = DefaultLabel;
return;
}
m_baseLabel.text = m_richValueType;
if (m_subContentConstructed)
{
if (!m_hiddenObj.gameObject.activeSelf)
m_hiddenObj.gameObject.SetActive(true);
}
if (!string.IsNullOrEmpty((string)Value))
{
var toString = (string)Value;
if (toString.Length > 15000)
toString = toString.Substring(0, 15000);
m_readonlyInput.text = toString;
if (m_subContentConstructed)
{
m_valueInput.text = toString;
m_placeholderText.text = toString;
}
}
else
{
string s = Value == null
? "null"
: "empty";
m_readonlyInput.text = $"<i><color=grey>{s}</color></i>";
if (m_subContentConstructed)
{
m_valueInput.text = "";
m_placeholderText.text = s;
}
}
m_labelLayout.minWidth = 50;
m_labelLayout.flexibleWidth = 0;
}
internal void OnApplyClicked()
{
Value = m_valueInput.text;
Owner.SetValue();
RefreshUIForValue();
}
// for the default label
internal LayoutElement m_labelLayout;
//internal InputField m_readonlyInput;
internal Text m_readonlyInput;
// for input
internal InputField m_valueInput;
internal GameObject m_hiddenObj;
internal Text m_placeholderText;
public override void ConstructUI(GameObject parent, GameObject subGroup)
{
base.ConstructUI(parent, subGroup);
GetDefaultLabel(false);
m_richValueType = SignatureHighlighter.ParseFullSyntax(FallbackType, false);
m_labelLayout = m_baseLabel.gameObject.GetComponent<LayoutElement>();
var readonlyInputObj = UIFactory.CreateLabel(m_valueContent, TextAnchor.MiddleLeft);
m_readonlyInput = readonlyInputObj.GetComponent<Text>();
m_readonlyInput.horizontalOverflow = HorizontalWrapMode.Overflow;
var testFitter = readonlyInputObj.AddComponent<ContentSizeFitter>();
testFitter.verticalFit = ContentSizeFitter.FitMode.MinSize;
var labelLayout = readonlyInputObj.AddComponent<LayoutElement>();
labelLayout.minHeight = 25;
labelLayout.preferredHeight = 25;
labelLayout.flexibleHeight = 0;
}
public override void ConstructSubcontent()
{
base.ConstructSubcontent();
var groupObj = UIFactory.CreateVerticalGroup(m_subContentParent, new Color(1, 1, 1, 0));
var group = groupObj.GetComponent<VerticalLayoutGroup>();
group.spacing = 4;
group.padding.top = 3;
group.padding.left = 3;
group.padding.right = 3;
group.padding.bottom = 3;
m_hiddenObj = UIFactory.CreateLabel(groupObj, TextAnchor.MiddleLeft);
m_hiddenObj.SetActive(false);
var hiddenText = m_hiddenObj.GetComponent<Text>();
hiddenText.color = Color.clear;
hiddenText.fontSize = 14;
hiddenText.raycastTarget = false;
hiddenText.supportRichText = false;
var hiddenFitter = m_hiddenObj.AddComponent<ContentSizeFitter>();
hiddenFitter.verticalFit = ContentSizeFitter.FitMode.PreferredSize;
var hiddenLayout = m_hiddenObj.AddComponent<LayoutElement>();
hiddenLayout.minHeight = 25;
hiddenLayout.flexibleHeight = 500;
hiddenLayout.minWidth = 250;
hiddenLayout.flexibleWidth = 9000;
var hiddenGroup = m_hiddenObj.AddComponent<HorizontalLayoutGroup>();
hiddenGroup.childForceExpandWidth = true;
hiddenGroup.childControlWidth = true;
hiddenGroup.childForceExpandHeight = true;
hiddenGroup.childControlHeight = true;
var inputObj = UIFactory.CreateInputField(m_hiddenObj, 14, 3);
var inputLayout = inputObj.AddComponent<LayoutElement>();
inputLayout.minWidth = 120;
inputLayout.minHeight = 25;
inputLayout.flexibleWidth = 5000;
inputLayout.flexibleHeight = 5000;
m_valueInput = inputObj.GetComponent<InputField>();
m_valueInput.lineType = InputField.LineType.MultiLineNewline;
m_placeholderText = m_valueInput.placeholder.GetComponent<Text>();
m_placeholderText.supportRichText = false;
m_valueInput.textComponent.supportRichText = false;
m_valueInput.onValueChanged.AddListener((string val) =>
{
hiddenText.text = val ?? "";
LayoutRebuilder.ForceRebuildLayoutImmediate(Owner.m_mainRect);
});
if (Owner.CanWrite)
{
var applyBtnObj = UIFactory.CreateButton(groupObj, new Color(0.2f, 0.2f, 0.2f));
var applyLayout = applyBtnObj.AddComponent<LayoutElement>();
applyLayout.minWidth = 50;
applyLayout.minHeight = 25;
applyLayout.flexibleWidth = 0;
var applyBtn = applyBtnObj.GetComponent<Button>();
applyBtn.onClick.AddListener(OnApplyClicked);
var applyText = applyBtnObj.GetComponentInChildren<Text>();
applyText.text = "Apply";
}
else
{
m_valueInput.readOnly = true;
}
RefreshUIForValue();
}
}
}

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using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using UnityEngine;
using UnityEngine.UI;
using UnityExplorer.Core.Unity;
using UnityExplorer.UI;
namespace UnityExplorer.Core.Inspectors.Reflection
{
#region IStructInfo helper
public interface IStructInfo
{
string[] FieldNames { get; }
object SetValue(ref object value, int fieldIndex, float val);
void RefreshUI(InputField[] inputs, object value);
}
public class StructInfo<T> : IStructInfo where T : struct
{
public string[] FieldNames { get; set; }
public delegate void SetMethod(ref T value, int fieldIndex, float val);
public SetMethod SetValueMethod;
public delegate void UpdateMethod(InputField[] inputs, object value);
public UpdateMethod UpdateUIMethod;
public object SetValue(ref object value, int fieldIndex, float val)
{
var box = (T)value;
SetValueMethod.Invoke(ref box, fieldIndex, val);
return box;
}
public void RefreshUI(InputField[] inputs, object value)
{
UpdateUIMethod.Invoke(inputs, value);
}
}
// This part is a bit ugly, but everything else is generalized above.
// I could generalize it more with reflection, but it would be different for
// mono/il2cpp and also slower.
public static class StructInfoFactory
{
public static IStructInfo Create(Type type)
{
if (type == typeof(Vector2))
{
return new StructInfo<Vector2>()
{
FieldNames = new[] { "x", "y", },
SetValueMethod = (ref Vector2 vec, int fieldIndex, float val) =>
{
switch (fieldIndex)
{
case 0: vec.x = val; break;
case 1: vec.y = val; break;
}
},
UpdateUIMethod = (InputField[] inputs, object value) =>
{
Vector2 vec = (Vector2)value;
inputs[0].text = vec.x.ToString();
inputs[1].text = vec.y.ToString();
}
};
}
else if (type == typeof(Vector3))
{
return new StructInfo<Vector3>()
{
FieldNames = new[] { "x", "y", "z" },
SetValueMethod = (ref Vector3 vec, int fieldIndex, float val) =>
{
switch (fieldIndex)
{
case 0: vec.x = val; break;
case 1: vec.y = val; break;
case 2: vec.z = val; break;
}
},
UpdateUIMethod = (InputField[] inputs, object value) =>
{
Vector3 vec = (Vector3)value;
inputs[0].text = vec.x.ToString();
inputs[1].text = vec.y.ToString();
inputs[2].text = vec.z.ToString();
}
};
}
else if (type == typeof(Vector4))
{
return new StructInfo<Vector4>()
{
FieldNames = new[] { "x", "y", "z", "w" },
SetValueMethod = (ref Vector4 vec, int fieldIndex, float val) =>
{
switch (fieldIndex)
{
case 0: vec.x = val; break;
case 1: vec.y = val; break;
case 2: vec.z = val; break;
case 3: vec.w = val; break;
}
},
UpdateUIMethod = (InputField[] inputs, object value) =>
{
Vector4 vec = (Vector4)value;
inputs[0].text = vec.x.ToString();
inputs[1].text = vec.y.ToString();
inputs[2].text = vec.z.ToString();
inputs[3].text = vec.w.ToString();
}
};
}
else if (type == typeof(Rect))
{
return new StructInfo<Rect>()
{
FieldNames = new[] { "x", "y", "width", "height" },
SetValueMethod = (ref Rect vec, int fieldIndex, float val) =>
{
switch (fieldIndex)
{
case 0: vec.x = val; break;
case 1: vec.y = val; break;
case 2: vec.width = val; break;
case 3: vec.height = val; break;
}
},
UpdateUIMethod = (InputField[] inputs, object value) =>
{
Rect vec = (Rect)value;
inputs[0].text = vec.x.ToString();
inputs[1].text = vec.y.ToString();
inputs[2].text = vec.width.ToString();
inputs[3].text = vec.height.ToString();
}
};
}
else if (type == typeof(Color))
{
return new StructInfo<Color>()
{
FieldNames = new[] { "r", "g", "b", "a" },
SetValueMethod = (ref Color vec, int fieldIndex, float val) =>
{
switch (fieldIndex)
{
case 0: vec.r = val; break;
case 1: vec.g = val; break;
case 2: vec.b = val; break;
case 3: vec.a = val; break;
}
},
UpdateUIMethod = (InputField[] inputs, object value) =>
{
Color vec = (Color)value;
inputs[0].text = vec.r.ToString();
inputs[1].text = vec.g.ToString();
inputs[2].text = vec.b.ToString();
inputs[3].text = vec.a.ToString();
}
};
}
else
throw new NotImplementedException();
}
}
#endregion
public class InteractiveUnityStruct : InteractiveValue
{
public static bool SupportsType(Type type) => s_supportedTypes.Contains(type);
private static readonly HashSet<Type> s_supportedTypes = new HashSet<Type>
{
typeof(Vector2),
typeof(Vector3),
typeof(Vector4),
typeof(Rect),
typeof(Color) // todo might make a special editor for colors
};
//~~~~~~~~~ Instance ~~~~~~~~~~
public InteractiveUnityStruct(object value, Type valueType) : base(value, valueType) { }
public override bool HasSubContent => true;
public override bool SubContentWanted => true;
public override bool WantInspectBtn => true;
public IStructInfo StructInfo;
public override void RefreshUIForValue()
{
InitializeStructInfo();
base.RefreshUIForValue();
if (m_subContentConstructed)
StructInfo.RefreshUI(m_inputs, this.Value);
}
internal override void OnToggleSubcontent(bool toggle)
{
InitializeStructInfo();
base.OnToggleSubcontent(toggle);
StructInfo.RefreshUI(m_inputs, this.Value);
}
internal Type m_lastStructType;
internal void InitializeStructInfo()
{
var type = Value?.GetType() ?? FallbackType;
if (StructInfo != null && type == m_lastStructType)
return;
if (StructInfo != null)
{
DestroySubContent();
//// changing types, destroy subcontent
//for (int i = 0; i < m_subContentParent.transform.childCount; i++)
//{
// var child = m_subContentParent.transform.GetChild(i);
// GameObject.Destroy(child.gameObject);
//}
//m_UIConstructed = false;
}
m_lastStructType = type;
StructInfo = StructInfoFactory.Create(type);
if (m_subContentParent.activeSelf)
{
ConstructSubcontent();
}
}
#region UI CONSTRUCTION
internal InputField[] m_inputs;
public override void ConstructUI(GameObject parent, GameObject subGroup)
{
base.ConstructUI(parent, subGroup);
}
public override void ConstructSubcontent()
{
base.ConstructSubcontent();
if (StructInfo == null)
{
ExplorerCore.LogWarning("Setting up subcontent but structinfo is null");
return;
}
var editorContainer = UIFactory.CreateVerticalGroup(m_subContentParent, new Color(0.08f, 0.08f, 0.08f));
var editorGroup = editorContainer.GetComponent<VerticalLayoutGroup>();
editorGroup.childForceExpandWidth = false;
editorGroup.padding.top = 4;
editorGroup.padding.right = 4;
editorGroup.padding.left = 4;
editorGroup.padding.bottom = 4;
editorGroup.spacing = 2;
m_inputs = new InputField[StructInfo.FieldNames.Length];
for (int i = 0; i < StructInfo.FieldNames.Length; i++)
{
AddEditorRow(i, editorContainer);
}
if (Owner.CanWrite)
{
var applyBtnObj = UIFactory.CreateButton(editorContainer, new Color(0.2f, 0.2f, 0.2f));
var applyLayout = applyBtnObj.AddComponent<LayoutElement>();
applyLayout.minWidth = 175;
applyLayout.minHeight = 25;
applyLayout.flexibleWidth = 0;
var m_applyBtn = applyBtnObj.GetComponent<Button>();
m_applyBtn.onClick.AddListener(OnSetValue);
void OnSetValue()
{
Owner.SetValue();
RefreshUIForValue();
}
var applyText = applyBtnObj.GetComponentInChildren<Text>();
applyText.text = "Apply";
}
}
internal void AddEditorRow(int index, GameObject groupObj)
{
var rowObj = UIFactory.CreateHorizontalGroup(groupObj, new Color(1, 1, 1, 0));
var rowGroup = rowObj.GetComponent<HorizontalLayoutGroup>();
rowGroup.childForceExpandHeight = true;
rowGroup.childForceExpandWidth = false;
rowGroup.spacing = 5;
var label = UIFactory.CreateLabel(rowObj, TextAnchor.MiddleRight);
var labelLayout = label.AddComponent<LayoutElement>();
labelLayout.minWidth = 50;
labelLayout.flexibleWidth = 0;
labelLayout.minHeight = 25;
var labelText = label.GetComponent<Text>();
labelText.text = $"{StructInfo.FieldNames[index]}:";
labelText.color = Color.cyan;
var inputFieldObj = UIFactory.CreateInputField(rowObj, 14, 3, 1);
var inputField = inputFieldObj.GetComponent<InputField>();
inputField.characterValidation = InputField.CharacterValidation.Decimal;
var inputLayout = inputFieldObj.AddComponent<LayoutElement>();
inputLayout.flexibleWidth = 0;
inputLayout.minWidth = 120;
inputLayout.minHeight = 25;
m_inputs[index] = inputField;
inputField.onValueChanged.AddListener((string val) => { Value = StructInfo.SetValue(ref this.Value, index, float.Parse(val)); });
}
#endregion
}
}

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using System;
using System.Collections.Generic;
using System.Linq;
using System.Reflection;
using UnityEngine;
using UnityEngine.EventSystems;
using UnityEngine.UI;
using UnityExplorer.Core;
using UnityExplorer.Core.Unity;
using UnityExplorer.Core.Runtime;
using UnityExplorer.UI;
using UnityExplorer.UI.Utility;
namespace UnityExplorer.Core.Inspectors.Reflection
{
public class InteractiveValue
{
/// <summary>
/// Get the <see cref="InteractiveValue"/> subclass which supports the provided <paramref name="type"/>.
/// </summary>
/// <param name="type">The <see cref="Type"/> which you want the <see cref="InteractiveValue"/> Type for.</param>
/// <returns>The best subclass of <see cref="InteractiveValue"/> which supports the provided <paramref name="type"/>.</returns>
public static Type GetIValueForType(Type type)
{
// rather ugly but I couldn't think of a cleaner way that was worth it.
// switch-case doesn't really work here.
// arbitrarily check some types, fastest methods first.
if (type == typeof(bool))
return typeof(InteractiveBool);
// if type is primitive then it must be a number if its not a bool
else if (type.IsPrimitive)
return typeof(InteractiveNumber);
// check for strings
else if (type == typeof(string))
return typeof(InteractiveString);
// check for enum/flags
else if (typeof(Enum).IsAssignableFrom(type))
{
// NET 3.5 doesn't have "GetCustomAttribute", gotta use the multiple version.
if (type.GetCustomAttributes(typeof(FlagsAttribute), true) is object[] fa && fa.Any())
return typeof(InteractiveFlags);
else
return typeof(InteractiveEnum);
}
// check for unity struct types
else if (InteractiveUnityStruct.SupportsType(type))
return typeof(InteractiveUnityStruct);
// check Transform, force InteractiveValue so they dont become InteractiveEnumerables.
else if (typeof(Transform).IsAssignableFrom(type))
return typeof(InteractiveValue);
// check Dictionaries before Enumerables
else if (ReflectionUtility.IsDictionary(type))
return typeof(InteractiveDictionary);
// finally check for Enumerables
else if (ReflectionUtility.IsEnumerable(type))
return typeof(InteractiveEnumerable);
// fallback to default
else
return typeof(InteractiveValue);
}
public static InteractiveValue Create(object value, Type fallbackType)
{
var type = ReflectionUtility.GetType(value) ?? fallbackType;
var iType = GetIValueForType(type);
return (InteractiveValue)Activator.CreateInstance(iType, new object[] { value, type });
}
// ~~~~~~~~~ Instance ~~~~~~~~~
public InteractiveValue(object value, Type valueType)
{
this.Value = value;
this.FallbackType = valueType;
}
public CacheObjectBase Owner;
public object Value;
public readonly Type FallbackType;
public virtual bool HasSubContent => false;
public virtual bool SubContentWanted => false;
public virtual bool WantInspectBtn => true;
public string DefaultLabel => m_defaultLabel ?? GetDefaultLabel();
internal string m_defaultLabel;
internal string m_richValueType;
public bool m_UIConstructed;
public virtual void OnDestroy()
{
if (this.m_valueContent)
{
m_valueContent.transform.SetParent(null, false);
m_valueContent.SetActive(false);
GameObject.Destroy(this.m_valueContent.gameObject);
}
DestroySubContent();
}
public virtual void DestroySubContent()
{
if (this.m_subContentParent && HasSubContent)
{
for (int i = 0; i < this.m_subContentParent.transform.childCount; i++)
{
var child = m_subContentParent.transform.GetChild(i);
if (child)
GameObject.Destroy(child.gameObject);
}
}
m_subContentConstructed = false;
}
public virtual void OnValueUpdated()
{
if (!m_UIConstructed)
ConstructUI(m_mainContentParent, m_subContentParent);
if (Owner is CacheMember ownerMember && !string.IsNullOrEmpty(ownerMember.ReflectionException))
OnException(ownerMember);
else
RefreshUIForValue();
}
public virtual void OnException(CacheMember member)
{
if (m_UIConstructed)
m_baseLabel.text = "<color=red>" + member.ReflectionException + "</color>";
Value = null;
}
public virtual void RefreshUIForValue()
{
GetDefaultLabel();
m_baseLabel.text = DefaultLabel;
}
public void RefreshElementsAfterUpdate()
{
if (WantInspectBtn)
{
bool shouldShowInspect = !Value.IsNullOrDestroyed();
if (m_inspectButton.activeSelf != shouldShowInspect)
m_inspectButton.SetActive(shouldShowInspect);
}
bool subContentWanted = SubContentWanted;
if (Owner is CacheMember cm && (!cm.HasEvaluated || !string.IsNullOrEmpty(cm.ReflectionException)))
subContentWanted = false;
if (HasSubContent)
{
if (m_subExpandBtn.gameObject.activeSelf != subContentWanted)
m_subExpandBtn.gameObject.SetActive(subContentWanted);
if (!subContentWanted && m_subContentParent.activeSelf)
ToggleSubcontent();
}
}
public virtual void ConstructSubcontent()
{
m_subContentConstructed = true;
}
public void ToggleSubcontent()
{
if (!this.m_subContentParent.activeSelf)
{
this.m_subContentParent.SetActive(true);
this.m_subContentParent.transform.SetAsLastSibling();
m_subExpandBtn.GetComponentInChildren<Text>().text = "▼";
}
else
{
this.m_subContentParent.SetActive(false);
m_subExpandBtn.GetComponentInChildren<Text>().text = "▲";
}
OnToggleSubcontent(m_subContentParent.activeSelf);
RefreshElementsAfterUpdate();
}
internal virtual void OnToggleSubcontent(bool toggle)
{
if (!m_subContentConstructed)
ConstructSubcontent();
}
internal MethodInfo m_toStringMethod;
internal MethodInfo m_toStringFormatMethod;
internal bool m_gotToStringMethods;
public string GetDefaultLabel(bool updateType = true)
{
var valueType = Value?.GetType() ?? this.FallbackType;
if (updateType)
m_richValueType = SignatureHighlighter.ParseFullSyntax(valueType, true);
if (!Owner.HasEvaluated)
return m_defaultLabel = $"<i><color=grey>Not yet evaluated</color> ({m_richValueType})</i>";
if (Value.IsNullOrDestroyed())
return m_defaultLabel = $"<color=grey>null</color> ({m_richValueType})";
string label;
// Two dirty fixes for TextAsset and EventSystem, which can have very long ToString results.
if (Value is TextAsset textAsset)
{
label = textAsset.text;
if (label.Length > 10)
label = $"{label.Substring(0, 10)}...";
label = $"\"{label}\" {textAsset.name} ({m_richValueType})";
}
else if (Value is EventSystem)
{
label = m_richValueType;
}
else // For everything else...
{
if (!m_gotToStringMethods)
{
m_gotToStringMethods = true;
m_toStringMethod = valueType.GetMethod("ToString", new Type[0]);
m_toStringFormatMethod = valueType.GetMethod("ToString", new Type[] { typeof(string) });
// test format method actually works
try
{
m_toStringFormatMethod.Invoke(Value, new object[] { "F3" });
}
catch
{
m_toStringFormatMethod = null;
}
}
string toString;
if (m_toStringFormatMethod != null)
toString = (string)m_toStringFormatMethod.Invoke(Value, new object[] { "F3" });
else
toString = (string)m_toStringMethod.Invoke(Value, new object[0]);
string typeName = valueType.FullName;
if (typeName.StartsWith("Il2CppSystem."))
typeName = typeName.Substring(6, typeName.Length - 6);
toString = ReflectionProvider.Instance.ProcessTypeNameInString(valueType, toString, ref typeName);
// If the ToString is just the type name, use our syntax highlighted type name instead.
if (toString == typeName)
{
label = m_richValueType;
}
else // Otherwise, parse the result and put our highlighted name in.
{
if (toString.Length > 200)
toString = toString.Substring(0, 200) + "...";
label = toString;
var unityType = $"({valueType.FullName})";
if (Value is UnityEngine.Object && label.Contains(unityType))
label = label.Replace(unityType, $"({m_richValueType})");
else
label += $" ({m_richValueType})";
}
}
return m_defaultLabel = label;
}
#region UI CONSTRUCTION
internal GameObject m_mainContentParent;
internal GameObject m_subContentParent;
internal GameObject m_valueContent;
internal GameObject m_inspectButton;
internal Text m_baseLabel;
internal Button m_subExpandBtn;
internal bool m_subContentConstructed;
public virtual void ConstructUI(GameObject parent, GameObject subGroup)
{
m_UIConstructed = true;
m_valueContent = UIFactory.CreateHorizontalGroup(parent, new Color(1, 1, 1, 0));
m_valueContent.name = "InteractiveValue.ValueContent";
var mainRect = m_valueContent.GetComponent<RectTransform>();
mainRect.SetSizeWithCurrentAnchors(RectTransform.Axis.Vertical, 25);
var mainGroup = m_valueContent.GetComponent<HorizontalLayoutGroup>();
mainGroup.childForceExpandWidth = false;
mainGroup.childControlWidth = true;
mainGroup.childForceExpandHeight = false;
mainGroup.childControlHeight = true;
mainGroup.spacing = 4;
mainGroup.childAlignment = TextAnchor.UpperLeft;
var mainLayout = m_valueContent.AddComponent<LayoutElement>();
mainLayout.flexibleWidth = 9000;
mainLayout.minWidth = 175;
mainLayout.minHeight = 25;
mainLayout.flexibleHeight = 0;
// subcontent expand button TODO
if (HasSubContent)
{
var subBtnObj = UIFactory.CreateButton(m_valueContent, new Color(0.3f, 0.3f, 0.3f));
var btnLayout = subBtnObj.AddComponent<LayoutElement>();
btnLayout.minHeight = 25;
btnLayout.minWidth = 25;
btnLayout.flexibleWidth = 0;
btnLayout.flexibleHeight = 0;
var btnText = subBtnObj.GetComponentInChildren<Text>();
btnText.text = "▲";
m_subExpandBtn = subBtnObj.GetComponent<Button>();
m_subExpandBtn.onClick.AddListener(() =>
{
ToggleSubcontent();
});
}
// inspect button
m_inspectButton = UIFactory.CreateButton(m_valueContent, new Color(0.3f, 0.3f, 0.3f, 0.2f));
var inspectLayout = m_inspectButton.AddComponent<LayoutElement>();
inspectLayout.minWidth = 60;
inspectLayout.minHeight = 25;
inspectLayout.flexibleHeight = 0;
inspectLayout.flexibleWidth = 0;
var inspectText = m_inspectButton.GetComponentInChildren<Text>();
inspectText.text = "Inspect";
var inspectBtn = m_inspectButton.GetComponent<Button>();
inspectBtn.onClick.AddListener(OnInspectClicked);
void OnInspectClicked()
{
if (!Value.IsNullOrDestroyed(false))
InspectorManager.Instance.Inspect(this.Value, this.Owner);
}
m_inspectButton.SetActive(false);
// value label
var labelObj = UIFactory.CreateLabel(m_valueContent, TextAnchor.MiddleLeft);
m_baseLabel = labelObj.GetComponent<Text>();
var labelLayout = labelObj.AddComponent<LayoutElement>();
labelLayout.flexibleWidth = 9000;
labelLayout.minHeight = 25;
m_subContentParent = subGroup;
}
#endregion
}
}

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using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using UnityExplorer.Core.Unity;
using UnityEngine;
using UnityExplorer.Core.Inspectors.Reflection;
using UnityExplorer.UI.Reusable;
using System.Reflection;
using UnityExplorer.UI;
using UnityEngine.UI;
using UnityExplorer.Core.Config;
using UnityExplorer.Core;
using UnityExplorer.UI.Utility;
using UnityExplorer.UI.Main.Home.Inspectors;
namespace UnityExplorer.Core.Inspectors
{
public class ReflectionInspector : InspectorBase
{
#region STATIC
public static ReflectionInspector ActiveInstance { get; private set; }
static ReflectionInspector()
{
PanelDragger.OnFinishResize += OnContainerResized;
SceneExplorer.OnToggleShow += OnContainerResized;
}
private static void OnContainerResized()
{
if (ActiveInstance == null)
return;
ActiveInstance.ReflectionUI.m_widthUpdateWanted = true;
}
// Blacklists
private static readonly HashSet<string> bl_typeAndMember = new HashSet<string>
{
#if CPP
// these cause a crash in IL2CPP
"Type.DeclaringMethod",
"Rigidbody2D.Cast",
"Collider2D.Cast",
"Collider2D.Raycast",
"Texture2D.SetPixelDataImpl",
"Camera.CalculateProjectionMatrixFromPhysicalProperties",
#endif
};
private static readonly HashSet<string> bl_memberNameStartsWith = new HashSet<string>
{
// these are redundant
"get_",
"set_",
};
#endregion
#region INSTANCE
public override string TabLabel => m_targetTypeShortName;
internal CacheObjectBase ParentMember { get; set; }
internal ReflectionInspectorUI ReflectionUI;
internal readonly Type m_targetType;
internal readonly string m_targetTypeShortName;
// all cached members of the target
internal CacheMember[] m_allMembers;
// filtered members based on current filters
internal readonly List<CacheMember> m_membersFiltered = new List<CacheMember>();
// actual shortlist of displayed members
internal readonly CacheMember[] m_displayedMembers = new CacheMember[ExplorerConfig.Instance.Default_Page_Limit];
internal bool m_autoUpdate;
public ReflectionInspector(object target) : base(target)
{
if (this is StaticInspector)
m_targetType = target as Type;
else
m_targetType = ReflectionUtility.GetType(target);
m_targetTypeShortName = SignatureHighlighter.ParseFullSyntax(m_targetType, false);
ReflectionUI.ConstructUI();
CacheMembers(m_targetType);
FilterMembers();
}
public override void CreateUIModule()
{
BaseUI = ReflectionUI = new ReflectionInspectorUI(this);
}
public override void SetActive()
{
base.SetActive();
ActiveInstance = this;
}
public override void SetInactive()
{
base.SetInactive();
ActiveInstance = null;
}
public override void Destroy()
{
base.Destroy();
if (this.BaseUI.Content)
GameObject.Destroy(this.BaseUI.Content);
}
internal void OnPageTurned()
{
RefreshDisplay();
}
internal bool IsBlacklisted(string sig) => bl_typeAndMember.Any(it => sig.Contains(it));
internal bool IsBlacklisted(MethodInfo method) => bl_memberNameStartsWith.Any(it => method.Name.StartsWith(it));
internal string GetSig(MemberInfo member) => $"{member.DeclaringType.Name}.{member.Name}";
internal string AppendArgsToSig(ParameterInfo[] args)
{
string ret = " (";
foreach (var param in args)
ret += $"{param.ParameterType.Name} {param.Name}, ";
ret += ")";
return ret;
}
public void CacheMembers(Type type)
{
var list = new List<CacheMember>();
var cachedSigs = new HashSet<string>();
var types = ReflectionUtility.GetAllBaseTypes(type);
var flags = BindingFlags.NonPublic | BindingFlags.Public | BindingFlags.Static;
if (this is InstanceInspector)
flags |= BindingFlags.Instance;
foreach (var declaringType in types)
{
var target = Target;
target = target.Cast(declaringType);
IEnumerable<MemberInfo> infos = declaringType.GetMethods(flags);
infos = infos.Concat(declaringType.GetProperties(flags));
infos = infos.Concat(declaringType.GetFields(flags));
foreach (var member in infos)
{
try
{
var sig = GetSig(member);
//ExplorerCore.Log($"Trying to cache member {sig}...");
//ExplorerCore.Log(member.DeclaringType.FullName + "." + member.Name);
var mi = member as MethodInfo;
var pi = member as PropertyInfo;
var fi = member as FieldInfo;
if (IsBlacklisted(sig) || (mi != null && IsBlacklisted(mi)))
continue;
var args = mi?.GetParameters() ?? pi?.GetIndexParameters();
if (args != null)
{
if (!CacheMember.CanProcessArgs(args))
continue;
sig += AppendArgsToSig(args);
}
if (cachedSigs.Contains(sig))
continue;
cachedSigs.Add(sig);
if (mi != null)
list.Add(new CacheMethod(mi, target, ReflectionUI.m_scrollContent));
else if (pi != null)
list.Add(new CacheProperty(pi, target, ReflectionUI.m_scrollContent));
else
list.Add(new CacheField(fi, target, ReflectionUI.m_scrollContent));
list.Last().ParentInspector = this;
}
catch (Exception e)
{
ExplorerCore.LogWarning($"Exception caching member {member.DeclaringType.FullName}.{member.Name}!");
ExplorerCore.Log(e.ToString());
}
}
}
var typeList = types.ToList();
var sorted = new List<CacheMember>();
sorted.AddRange(list.Where(it => it is CacheMethod)
.OrderBy(it => typeList.IndexOf(it.DeclaringType))
.ThenBy(it => it.NameForFiltering));
sorted.AddRange(list.Where(it => it is CacheProperty)
.OrderBy(it => typeList.IndexOf(it.DeclaringType))
.ThenBy(it => it.NameForFiltering));
sorted.AddRange(list.Where(it => it is CacheField)
.OrderBy(it => typeList.IndexOf(it.DeclaringType))
.ThenBy(it => it.NameForFiltering));
m_allMembers = sorted.ToArray();
}
public override void Update()
{
base.Update();
if (m_autoUpdate)
{
foreach (var member in m_displayedMembers)
{
if (member == null) break;
member.UpdateValue();
}
}
if (ReflectionUI.m_widthUpdateWanted)
{
if (!ReflectionUI.m_widthUpdateWaiting)
ReflectionUI.m_widthUpdateWaiting = true;
else
{
UpdateWidths();
ReflectionUI.m_widthUpdateWaiting = false;
ReflectionUI.m_widthUpdateWanted = false;
}
}
}
internal void OnMemberFilterClicked(MemberTypes type, Button button)
{
if (ReflectionUI.m_lastActiveMemButton)
{
var lastColors = ReflectionUI.m_lastActiveMemButton.colors;
lastColors.normalColor = new Color(0.2f, 0.2f, 0.2f);
ReflectionUI.m_lastActiveMemButton.colors = lastColors;
}
ReflectionUI.m_memberFilter = type;
ReflectionUI.m_lastActiveMemButton = button;
var colors = ReflectionUI.m_lastActiveMemButton.colors;
colors.normalColor = new Color(0.2f, 0.6f, 0.2f);
ReflectionUI.m_lastActiveMemButton.colors = colors;
FilterMembers(null, true);
ReflectionUI.m_sliderScroller.m_slider.value = 1f;
}
public void FilterMembers(string nameFilter = null, bool force = false)
{
int lastCount = m_membersFiltered.Count;
m_membersFiltered.Clear();
nameFilter = nameFilter?.ToLower() ?? ReflectionUI.m_nameFilterText.text.ToLower();
foreach (var mem in m_allMembers)
{
// membertype filter
if (ReflectionUI.m_memberFilter != MemberTypes.All && mem.MemInfo.MemberType != ReflectionUI.m_memberFilter)
continue;
if (this is InstanceInspector ii && ii.m_scopeFilter != MemberScopes.All)
{
if (mem.IsStatic && ii.m_scopeFilter != MemberScopes.Static)
continue;
else if (!mem.IsStatic && ii.m_scopeFilter != MemberScopes.Instance)
continue;
}
// name filter
if (!string.IsNullOrEmpty(nameFilter) && !mem.NameForFiltering.Contains(nameFilter))
continue;
m_membersFiltered.Add(mem);
}
if (force || lastCount != m_membersFiltered.Count)
RefreshDisplay();
}
public void RefreshDisplay()
{
var members = m_membersFiltered;
ReflectionUI.m_pageHandler.ListCount = members.Count;
// disable current members
for (int i = 0; i < m_displayedMembers.Length; i++)
{
var mem = m_displayedMembers[i];
if (mem != null)
mem.Disable();
else
break;
}
if (members.Count < 1)
return;
foreach (var itemIndex in ReflectionUI.m_pageHandler)
{
if (itemIndex >= members.Count)
break;
CacheMember member = members[itemIndex];
m_displayedMembers[itemIndex - ReflectionUI.m_pageHandler.StartIndex] = member;
member.Enable();
}
ReflectionUI.m_widthUpdateWanted = true;
}
internal void UpdateWidths()
{
float labelWidth = 125;
foreach (var cache in m_displayedMembers)
{
if (cache == null)
break;
var width = cache.GetMemberLabelWidth(ReflectionUI.m_scrollContentRect);
if (width > labelWidth)
labelWidth = width;
}
float valueWidth = ReflectionUI.m_scrollContentRect.rect.width - labelWidth - 20;
foreach (var cache in m_displayedMembers)
{
if (cache == null)
break;
cache.SetWidths(labelWidth, valueWidth);
}
}
#endregion // end instance
}
}

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using System;
namespace UnityExplorer.Core.Inspectors.Reflection
{
public class StaticInspector : ReflectionInspector
{
public override string TabLabel => $" <color=cyan>[S]</color> {base.TabLabel}";
public StaticInspector(Type type) : base(type) { }
}
}

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using System;
using System.Collections;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Reflection;
using BF = System.Reflection.BindingFlags;
using UnityExplorer.Core.Runtime;
namespace UnityExplorer.Core
{
public static class ReflectionUtility
{
public static BF CommonFlags = BF.Public | BF.Instance | BF.NonPublic | BF.Static;
/// <summary>
/// Helper for IL2CPP to get the underlying true Type (Unhollowed) of the object.
/// </summary>
/// <param name="obj">The object to get the true Type for.</param>
/// <returns>The most accurate Type of the object which could be identified.</returns>
public static Type GetType(this object obj)
{
if (obj == null)
return null;
return ReflectionProvider.Instance.GetActualType(obj);
}
/// <summary>
/// Cast an object to its underlying Type.
/// </summary>
/// <param name="obj">The object to cast</param>
/// <returns>The object, cast to the underlying Type if possible, otherwise the original object.</returns>
public static object Cast(this object obj)
=> Cast(obj, GetType(obj));
/// <summary>
/// Cast an object to a Type, if possible.
/// </summary>
/// <param name="obj">The object to cast</param>
/// <param name="castTo">The Type to cast to </param>
/// <returns>The object, cast to the Type provided if possible, otherwise the original object.</returns>
public static object Cast(this object obj, Type castTo)
=> ReflectionProvider.Instance.Cast(obj, castTo);
/// <summary>
/// Check if the provided Type is assignable to IEnumerable.
/// </summary>
/// <param name="t">The Type to check</param>
/// <returns>True if the Type is assignable to IEnumerable, otherwise false.</returns>
public static bool IsEnumerable(this Type t)
=> ReflectionProvider.Instance.IsAssignableFrom(typeof(IEnumerable), t);
/// <summary>
/// Check if the provided Type is assignable to IDictionary.
/// </summary>
/// <param name="t">The Type to check</param>
/// <returns>True if the Type is assignable to IDictionary, otherwise false.</returns>
public static bool IsDictionary(this Type t)
=> ReflectionProvider.Instance.IsAssignableFrom(typeof(IDictionary), t);
public static bool LoadModule(string module)
=> ReflectionProvider.Instance.LoadModule(module);
// cache for GetTypeByName
internal static readonly Dictionary<string, Type> s_typesByName = new Dictionary<string, Type>();
/// <summary>
/// Find a <see cref="Type"/> in the current AppDomain whose <see cref="Type.FullName"/> matches the provided <paramref name="fullName"/>.
/// </summary>
/// <param name="fullName">The <see cref="Type.FullName"/> you want to search for - case sensitive and full matches only.</param>
/// <returns>The Type if found, otherwise null.</returns>
public static Type GetTypeByName(string fullName)
{
s_typesByName.TryGetValue(fullName, out Type ret);
if (ret != null)
return ret;
foreach (var type in from asm in AppDomain.CurrentDomain.GetAssemblies()
from type in asm.TryGetTypes()
select type)
{
if (type.FullName == fullName)
{
ret = type;
break;
}
}
if (s_typesByName.ContainsKey(fullName))
s_typesByName[fullName] = ret;
else
s_typesByName.Add(fullName, ret);
return ret;
}
// cache for GetBaseTypes
internal static readonly Dictionary<string, Type[]> s_cachedTypeInheritance = new Dictionary<string, Type[]>();
/// <summary>
/// Get all base types of the provided Type, including itself.
/// </summary>
public static Type[] GetAllBaseTypes(this object obj) => GetAllBaseTypes(GetType(obj));
/// <summary>
/// Get all base types of the provided Type, including itself.
/// </summary>
public static Type[] GetAllBaseTypes(this Type type)
{
if (type == null)
throw new ArgumentNullException("type");
var name = type.AssemblyQualifiedName;
if (s_cachedTypeInheritance.TryGetValue(name, out Type[] ret))
return ret;
List<Type> list = new List<Type>();
while (type != null)
{
list.Add(type);
type = type.BaseType;
}
ret = list.ToArray();
s_cachedTypeInheritance.Add(name, ret);
return ret;
}
/// <summary>
/// Safely get all valid Types inside an Assembly.
/// </summary>
/// <param name="asm">The Assembly to find Types in.</param>
/// <returns>All possible Types which could be retrieved from the Assembly, or an empty array.</returns>
public static IEnumerable<Type> TryGetTypes(this Assembly asm)
{
try
{
return asm.GetTypes();
}
catch (ReflectionTypeLoadException e)
{
try
{
return asm.GetExportedTypes();
}
catch
{
return e.Types.Where(t => t != null);
}
}
catch
{
return Enumerable.Empty<Type>();
}
}
/// <summary>
/// Helper to display a simple "{ExceptionType}: {Message}" of the exception, and optionally use the inner-most exception.
/// </summary>
/// <param name="e">The Exception to convert to string.</param>
/// <param name="innerMost">Should the inner-most Exception of the stack be used? If false, the Exception you provided will be used directly.</param>
/// <returns>The exception to string.</returns>
public static string ReflectionExToString(this Exception e, bool innerMost = false)
{
if (innerMost)
{
while (e.InnerException != null)
{
#if CPP
if (e.InnerException is System.Runtime.CompilerServices.RuntimeWrappedException)
break;
#endif
e = e.InnerException;
}
}
return $"{e.GetType()}: {e.Message}";
}
}
}

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#if CPP
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using UnhollowerBaseLib;
using UnhollowerRuntimeLib;
using UnityEngine;
using UnityExplorer.Core.Runtime.Il2Cpp;
namespace UnityExplorer
{
public class AssetBundle
{
// ~~~~~~~~~~~~ Static ~~~~~~~~~~~~
internal delegate IntPtr d_LoadFromFile(IntPtr path, uint crc, ulong offset);
public static AssetBundle LoadFromFile(string path)
{
var iCall = ICallManager.GetICall<d_LoadFromFile>("UnityEngine.AssetBundle::LoadFromFile_Internal");
var ptr = iCall.Invoke(IL2CPP.ManagedStringToIl2Cpp(path), 0u, 0UL);
return new AssetBundle(ptr);
}
private delegate IntPtr d_LoadFromMemory(IntPtr binary, uint crc);
public static AssetBundle LoadFromMemory(byte[] binary, uint crc = 0)
{
var iCall = ICallManager.GetICall<d_LoadFromMemory>("UnityEngine.AssetBundle::LoadFromMemory_Internal");
var ptr = iCall(((Il2CppStructArray<byte>) binary).Pointer, crc);
return new AssetBundle(ptr);
}
// ~~~~~~~~~~~~ Instance ~~~~~~~~~~~~
private readonly IntPtr m_bundlePtr = IntPtr.Zero;
public AssetBundle(IntPtr ptr) { m_bundlePtr = ptr; }
// LoadAllAssets()
internal delegate IntPtr d_LoadAssetWithSubAssets_Internal(IntPtr _this, IntPtr name, IntPtr type);
public UnityEngine.Object[] LoadAllAssets()
{
var iCall = ICallManager.GetICall<d_LoadAssetWithSubAssets_Internal>("UnityEngine.AssetBundle::LoadAssetWithSubAssets_Internal");
var ptr = iCall.Invoke(m_bundlePtr, IL2CPP.ManagedStringToIl2Cpp(""), Il2CppType.Of<UnityEngine.Object>().Pointer);
if (ptr == IntPtr.Zero)
return new UnityEngine.Object[0];
return new Il2CppReferenceArray<UnityEngine.Object>(ptr);
}
// LoadAsset<T>(string name, Type type)
internal delegate IntPtr d_LoadAsset_Internal(IntPtr _this, IntPtr name, IntPtr type);
public T LoadAsset<T>(string name) where T : UnityEngine.Object
{
var iCall = ICallManager.GetICall<d_LoadAsset_Internal>("UnityEngine.AssetBundle::LoadAsset_Internal");
var ptr = iCall.Invoke(m_bundlePtr, IL2CPP.ManagedStringToIl2Cpp(name), Il2CppType.Of<T>().Pointer);
if (ptr == IntPtr.Zero)
return null;
return new UnityEngine.Object(ptr).TryCast<T>();
}
}
}
#endif

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#if CPP
using System;
using System.Collections.Generic;
using System.Diagnostics.CodeAnalysis;
using System.Runtime.InteropServices;
namespace UnityExplorer.Core.Runtime.Il2Cpp
{
[SuppressMessage("Style", "IDE1006:Naming Styles", Justification = "External methods")]
public static class ICallManager
{
private static readonly Dictionary<string, Delegate> iCallCache = new Dictionary<string, Delegate>();
/// <summary>
/// Helper to get and cache an iCall by providing the signature (eg. "UnityEngine.Resources::FindObjectsOfTypeAll").
/// </summary>
/// <typeparam name="T">The Type of Delegate to provide for the iCall.</typeparam>
/// <param name="signature">The signature of the iCall you want to get.</param>
/// <returns>The <typeparamref name="T"/> delegate if successful.</returns>
/// <exception cref="MissingMethodException">If the iCall could not be found.</exception>
public static T GetICall<T>(string signature) where T : Delegate
{
if (iCallCache.ContainsKey(signature))
return (T)iCallCache[signature];
IntPtr ptr = il2cpp_resolve_icall(signature);
if (ptr == IntPtr.Zero)
{
throw new MissingMethodException($"Could not resolve internal call by name '{signature}'!");
}
Delegate iCall = Marshal.GetDelegateForFunctionPointer(ptr, typeof(T));
iCallCache.Add(signature, iCall);
return (T)iCall;
}
[DllImport("GameAssembly", CallingConvention = CallingConvention.Cdecl, CharSet = CharSet.Ansi)]
public static extern IntPtr il2cpp_resolve_icall([MarshalAs(UnmanagedType.LPStr)] string name);
}
}
#endif

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#if CPP
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using UnhollowerBaseLib;
using UnhollowerRuntimeLib;
using UnityEngine;
using UnityEngine.Events;
using UnityEngine.SceneManagement;
namespace UnityExplorer.Core.Runtime.Il2Cpp
{
public class Il2CppProvider : RuntimeProvider
{
public override void Initialize()
{
Reflection = new Il2CppReflection();
TextureUtil = new Il2CppTextureUtil();
}
public override void SetupEvents()
{
Application.add_logMessageReceived(
new Action<string, string, LogType>(ExplorerCore.Instance.OnUnityLog));
//SceneManager.add_sceneLoaded(
// new Action<Scene, LoadSceneMode>(ExplorerCore.Instance.OnSceneLoaded1));
//SceneManager.add_activeSceneChanged(
// new Action<Scene, Scene>(ExplorerCore.Instance.OnSceneLoaded2));
}
internal delegate IntPtr d_LayerToName(int layer);
public override string LayerToName(int layer)
{
var iCall = ICallManager.GetICall<d_LayerToName>("UnityEngine.LayerMask::LayerToName");
return IL2CPP.Il2CppStringToManaged(iCall.Invoke(layer));
}
internal delegate IntPtr d_FindObjectsOfTypeAll(IntPtr type);
public override UnityEngine.Object[] FindObjectsOfTypeAll(Type type)
{
var iCall = ICallManager.GetICall<d_FindObjectsOfTypeAll>("UnityEngine.Resources::FindObjectsOfTypeAll");
var cppType = Il2CppType.From(type);
return new Il2CppReferenceArray<UnityEngine.Object>(iCall.Invoke(cppType.Pointer));
}
public override int GetSceneHandle(Scene scene)
=> scene.handle;
//Scene.GetRootGameObjects();
internal delegate void d_GetRootGameObjects(int handle, IntPtr list);
public override GameObject[] GetRootGameObjects(Scene scene) => GetRootGameObjects(scene.handle);
public static GameObject[] GetRootGameObjects(int handle)
{
if (handle == -1)
return new GameObject[0];
int count = GetRootCount(handle);
if (count < 1)
return new GameObject[0];
var list = new Il2CppSystem.Collections.Generic.List<GameObject>(count);
var iCall = ICallManager.GetICall<d_GetRootGameObjects>("UnityEngine.SceneManagement.Scene::GetRootGameObjectsInternal");
iCall.Invoke(handle, list.Pointer);
return list.ToArray();
}
//Scene.rootCount;
internal delegate int d_GetRootCountInternal(int handle);
public override int GetRootCount(Scene scene) => GetRootCount(scene.handle);
public static int GetRootCount(int handle)
{
return ICallManager.GetICall<d_GetRootCountInternal>("UnityEngine.SceneManagement.Scene::GetRootCountInternal")
.Invoke(handle);
}
}
}
public static class UnityEventExtensions
{
public static void AddListener(this UnityEvent action, Action listener)
{
action.AddListener(listener);
}
public static void AddListener<T>(this UnityEvent<T> action, Action<T> listener)
{
action.AddListener(listener);
}
}
#endif

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#if CPP
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using UnhollowerBaseLib;
using UnityExplorer.Core.Unity;
using UnhollowerRuntimeLib;
using System.Runtime.InteropServices;
using System.Reflection;
using System.Collections;
using System.IO;
using System.Diagnostics.CodeAnalysis;
using UnityExplorer.Core;
using CppType = Il2CppSystem.Type;
using BF = System.Reflection.BindingFlags;
namespace UnityExplorer.Core.Runtime.Il2Cpp
{
[SuppressMessage("Style", "IDE1006:Naming Styles", Justification = "External methods")]
public class Il2CppReflection : ReflectionProvider
{
public Il2CppReflection() : base()
{
Instance = this;
TryLoadGameModules();
}
public override object Cast(object obj, Type castTo)
{
return Il2CppCast(obj, castTo);
}
public override string ProcessTypeNameInString(Type type, string theString, ref string typeName)
{
if (!Il2CppTypeNotNull(type))
return theString;
var cppType = Il2CppType.From(type);
if (cppType != null && s_deobfuscatedTypeNames.ContainsKey(cppType.FullName))
{
typeName = s_deobfuscatedTypeNames[cppType.FullName];
theString = theString.Replace(cppType.FullName, typeName);
}
return theString;
}
public override Type GetActualType(object obj)
{
if (obj == null)
return null;
var type = obj.GetType();
if (obj is Il2CppSystem.Object cppObject)
{
// weird specific case - if the object is an Il2CppSystem.Type, then return so manually.
if (cppObject is CppType)
return typeof(CppType);
if (!string.IsNullOrEmpty(type.Namespace))
{
// Il2CppSystem-namespace objects should just return GetType,
// because using GetIl2CppType returns the System namespace type instead.
if (type.Namespace.StartsWith("System.") || type.Namespace.StartsWith("Il2CppSystem."))
return cppObject.GetType();
}
var cppType = cppObject.GetIl2CppType();
// check if type is injected
IntPtr classPtr = il2cpp_object_get_class(cppObject.Pointer);
if (RuntimeSpecificsStore.IsInjected(classPtr))
{
var typeByName = ReflectionUtility.GetTypeByName(cppType.FullName);
if (typeByName != null)
return typeByName;
}
// this should be fine for all other il2cpp objects
var getType = GetMonoType(cppType);
if (getType != null)
return getType;
}
return type;
}
// caching for GetMonoType
private static readonly Dictionary<string, Type> Il2CppToMonoType = new Dictionary<string, Type>();
// keep deobfuscated type name cache, used to display proper name.
internal static Dictionary<string, string> s_deobfuscatedTypeNames = new Dictionary<string, string>();
/// <summary>
/// Try to get the Mono (Unhollowed) Type representation of the provided <see cref="Il2CppSystem.Type"/>.
/// </summary>
/// <param name="cppType">The Cpp Type you want to convert to Mono.</param>
/// <returns>The Mono Type if found, otherwise null.</returns>
public static Type GetMonoType(CppType cppType)
{
string name = cppType.AssemblyQualifiedName;
if (Il2CppToMonoType.ContainsKey(name))
return Il2CppToMonoType[name];
Type ret = Type.GetType(name);
if (ret == null)
{
string baseName = cppType.FullName;
string baseAssembly = cppType.Assembly.GetName().name;
ret = AppDomain.CurrentDomain
.GetAssemblies()
.FirstOrDefault(a
=> a.GetName().Name == baseAssembly)?
.TryGetTypes()
.FirstOrDefault(t
=> t.CustomAttributes.Any(ca
=> ca.AttributeType.Name == "ObfuscatedNameAttribute"
&& (string)ca.ConstructorArguments[0].Value == baseName));
if (ret != null)
{
// deobfuscated type was found, add to cache.
s_deobfuscatedTypeNames.Add(cppType.FullName, ret.FullName);
}
}
Il2CppToMonoType.Add(name, ret);
return ret;
}
// cached class pointers for Il2CppCast
private static readonly Dictionary<string, IntPtr> s_cppClassPointers = new Dictionary<string, IntPtr>();
/// <summary>
/// Attempt to cast the object to its underlying type.
/// </summary>
/// <param name="obj">The object you want to cast.</param>
/// <returns>The object, as the underlying type if successful or the input value if not.</returns>
public static object Il2CppCast(object obj) => Il2CppCast(obj, Instance.GetActualType(obj));
/// <summary>
/// Attempt to cast the object to the provided type.
/// </summary>
/// <param name="obj">The object you want to cast.</param>
/// <param name="castTo">The Type you want to cast to.</param>
/// <returns>The object, as the type (or a normal C# object) if successful or the input value if not.</returns>
public static object Il2CppCast(object obj, Type castTo)
{
if (!(obj is Il2CppSystem.Object ilObj))
return obj;
if (!Il2CppTypeNotNull(castTo, out IntPtr castToPtr))
return obj;
IntPtr castFromPtr = il2cpp_object_get_class(ilObj.Pointer);
if (!il2cpp_class_is_assignable_from(castToPtr, castFromPtr))
return obj;
if (RuntimeSpecificsStore.IsInjected(castToPtr))
return UnhollowerBaseLib.Runtime.ClassInjectorBase.GetMonoObjectFromIl2CppPointer(ilObj.Pointer);
return Activator.CreateInstance(castTo, ilObj.Pointer);
}
/// <summary>
/// Get the Il2Cpp Class Pointer for the provided Mono (Unhollowed) Type.
/// </summary>
/// <param name="type">The Mono/Unhollowed Type you want the Il2Cpp Class Pointer for.</param>
/// <returns>True if successful, false if not.</returns>
public static bool Il2CppTypeNotNull(Type type) => Il2CppTypeNotNull(type, out _);
/// <summary>
/// Get the Il2Cpp Class Pointer for the provided Mono (Unhollowed) Type.
/// </summary>
/// <param name="type">The Mono/Unhollowed Type you want the Il2Cpp Class Pointer for.</param>
/// <param name="il2cppPtr">The IntPtr for the Il2Cpp class, or IntPtr.Zero if not found.</param>
/// <returns>True if successful, false if not.</returns>
public static bool Il2CppTypeNotNull(Type type, out IntPtr il2cppPtr)
{
if (s_cppClassPointers.TryGetValue(type.AssemblyQualifiedName, out il2cppPtr))
return il2cppPtr != IntPtr.Zero;
il2cppPtr = (IntPtr)typeof(Il2CppClassPointerStore<>)
.MakeGenericType(new Type[] { type })
.GetField("NativeClassPtr", BF.Public | BF.Static)
.GetValue(null);
s_cppClassPointers.Add(type.AssemblyQualifiedName, il2cppPtr);
return il2cppPtr != IntPtr.Zero;
}
// Extern C++ methods
[DllImport("GameAssembly", CallingConvention = CallingConvention.Cdecl, CharSet = CharSet.Ansi)]
public static extern bool il2cpp_class_is_assignable_from(IntPtr klass, IntPtr oklass);
[DllImport("GameAssembly", CallingConvention = CallingConvention.Cdecl, CharSet = CharSet.Ansi)]
public static extern IntPtr il2cpp_object_get_class(IntPtr obj);
internal static IntPtr s_cppEnumerableClassPtr;
internal static IntPtr s_cppDictionaryClassPtr;
public override bool IsAssignableFrom(Type toAssignTo, Type toAssignFrom)
{
if (toAssignTo.IsAssignableFrom(toAssignFrom))
return true;
if (toAssignTo == typeof(IEnumerable))
{
try
{
if (s_cppEnumerableClassPtr == IntPtr.Zero)
Il2CppTypeNotNull(typeof(Il2CppSystem.Collections.IEnumerable), out s_cppEnumerableClassPtr);
if (s_cppEnumerableClassPtr != IntPtr.Zero
&& Il2CppTypeNotNull(toAssignFrom, out IntPtr assignFromPtr)
&& il2cpp_class_is_assignable_from(s_cppEnumerableClassPtr, assignFromPtr))
{
return true;
}
}
catch { }
}
else if (toAssignTo == typeof(IDictionary))
{
try
{
if (s_cppDictionaryClassPtr == IntPtr.Zero)
if (!Il2CppTypeNotNull(typeof(Il2CppSystem.Collections.IDictionary), out s_cppDictionaryClassPtr))
return false;
if (Il2CppTypeNotNull(toAssignFrom, out IntPtr classPtr))
{
if (il2cpp_class_is_assignable_from(s_cppDictionaryClassPtr, classPtr))
return true;
}
}
catch { }
}
return false;
}
public override bool IsReflectionSupported(Type type)
{
try
{
var gArgs = type.GetGenericArguments();
if (!gArgs.Any())
return true;
foreach (var gType in gArgs)
{
if (!Supported(gType))
return false;
}
return true;
bool Supported(Type t)
{
if (!typeof(Il2CppSystem.Object).IsAssignableFrom(t))
return true;
if (!Il2CppTypeNotNull(t, out IntPtr ptr))
return false;
return CppType.internal_from_handle(IL2CPP.il2cpp_class_get_type(ptr)) is CppType;
}
}
catch
{
return false;
}
}
// Helper for IL2CPP to try to make sure the Unhollowed game assemblies are actually loaded.
internal static void TryLoadGameModules()
{
Instance.LoadModule("Assembly-CSharp");
Instance.LoadModule("Assembly-CSharp-firstpass");
}
public override bool LoadModule(string module)
{
#if ML
var path = Path.Combine("MelonLoader", "Managed", $"{module}.dll");
#else
var path = Path.Combine("BepInEx", "unhollowed", $"{module}.dll");
#endif
return LoadModuleInternal(path);
}
internal static bool LoadModuleInternal(string fullPath)
{
if (!File.Exists(fullPath))
return false;
try
{
Assembly.Load(File.ReadAllBytes(fullPath));
return true;
}
catch (Exception e)
{
Console.WriteLine(e.GetType() + ", " + e.Message);
}
return false;
}
// ~~~~~~~~~~ not used ~~~~~~~~~~~~
// cached il2cpp unbox methods
internal static readonly Dictionary<string, MethodInfo> s_unboxMethods = new Dictionary<string, MethodInfo>();
/// <summary>
/// Attempt to unbox the object to the underlying struct type.
/// </summary>
/// <param name="obj">The object which is a struct underneath.</param>
/// <returns>The struct if successful, otherwise null.</returns>
public static object Unbox(object obj) => Unbox(obj, Instance.GetActualType(obj));
/// <summary>
/// Attempt to unbox the object to the struct type.
/// </summary>
/// <param name="obj">The object which is a struct underneath.</param>
/// <param name="type">The type of the struct you want to unbox to.</param>
/// <returns>The struct if successful, otherwise null.</returns>
public static object Unbox(object obj, Type type)
{
if (!type.IsValueType)
return null;
if (!(obj is Il2CppSystem.Object))
return obj;
var name = type.AssemblyQualifiedName;
if (!s_unboxMethods.ContainsKey(name))
{
s_unboxMethods.Add(name, typeof(Il2CppObjectBase)
.GetMethod("Unbox")
.MakeGenericMethod(type));
}
return s_unboxMethods[name].Invoke(obj, new object[0]);
}
}
}
#endif

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#if CPP
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Threading.Tasks;
using UnhollowerBaseLib;
using UnityEngine;
namespace UnityExplorer.Core.Runtime.Il2Cpp
{
public class Il2CppTextureUtil : TextureUtilProvider
{
public override Texture2D NewTexture2D(int width, int height)
=> new Texture2D((int)width, (int)height, TextureFormat.RGBA32, Texture.GenerateAllMips, false, IntPtr.Zero);
internal delegate void d_Blit2(IntPtr source, IntPtr dest);
public override void Blit(Texture2D tex, RenderTexture rt)
{
var iCall = ICallManager.GetICall<d_Blit2>("UnityEngine.Graphics::Blit2");
iCall.Invoke(tex.Pointer, rt.Pointer);
}
// byte[] ImageConversion.EncodeToPNG(this Texture2D image);
internal delegate IntPtr d_EncodeToPNG(IntPtr tex);
public override byte[] EncodeToPNG(Texture2D tex)
{
var iCall = ICallManager.GetICall<d_EncodeToPNG>("UnityEngine.ImageConversion::EncodeToPNG");
IntPtr ptr = iCall.Invoke(tex.Pointer);
if (ptr == IntPtr.Zero)
return null;
return new Il2CppStructArray<byte>(ptr);
}
// bool ImageConversion.LoadImage(this Texture2D tex, byte[] data, bool markNonReadable);
internal delegate bool d_LoadImage(IntPtr tex, IntPtr data, bool markNonReadable);
public override bool LoadImage(Texture2D tex, byte[] data, bool markNonReadable)
{
var il2cppArray = (Il2CppStructArray<byte>)data;
var iCall = ICallManager.GetICall<d_LoadImage>("UnityEngine.ImageConversion::LoadImage");
return iCall.Invoke(tex.Pointer, il2cppArray.Pointer, markNonReadable);
}
// Sprite Sprite.Create
public override Sprite CreateSprite(Texture2D texture)
{
return CreateSpriteImpl(texture, new Rect(0, 0, texture.width, texture.height), Vector2.zero, 100f, 0u, Vector4.zero);
}
internal delegate IntPtr d_CreateSprite(IntPtr texture, ref Rect rect, ref Vector2 pivot, float pixelsPerUnit,
uint extrude, int meshType, ref Vector4 border, bool generateFallbackPhysicsShape);
public static Sprite CreateSpriteImpl(Texture texture, Rect rect, Vector2 pivot, float pixelsPerUnit, uint extrude, Vector4 border)
{
var iCall = ICallManager.GetICall<d_CreateSprite>("UnityEngine.Sprite::CreateSprite_Injected");
var ptr = iCall.Invoke(texture.Pointer, ref rect, ref pivot, pixelsPerUnit, extrude, 1, ref border, false);
if (ptr == IntPtr.Zero)
return null;
else
return new Sprite(ptr);
}
}
}
#endif

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#if MONO
using System;
using System.Collections.Generic;
using System.Linq;
using System.Reflection;
using System.Text;
using UnityEngine;
using UnityEngine.SceneManagement;
using UnityExplorer.Core;
namespace UnityExplorer.Core.Runtime.Mono
{
public class MonoProvider : RuntimeProvider
{
public override void Initialize()
{
Reflection = new MonoReflection();
TextureUtil = new MonoTextureUtil();
}
public override void SetupEvents()
{
Application.logMessageReceived += ExplorerCore.Instance.OnUnityLog;
//SceneManager.sceneLoaded += ExplorerCore.Instance.OnSceneLoaded1;
//SceneManager.activeSceneChanged += ExplorerCore.Instance.OnSceneLoaded2;
}
public override string LayerToName(int layer)
=> LayerMask.LayerToName(layer);
public override UnityEngine.Object[] FindObjectsOfTypeAll(Type type)
=> Resources.FindObjectsOfTypeAll(type);
private static readonly FieldInfo fi_Scene_handle = typeof(Scene).GetField("m_Handle", ReflectionUtility.CommonFlags);
public override int GetSceneHandle(Scene scene)
{
return (int)fi_Scene_handle.GetValue(scene);
}
public override GameObject[] GetRootGameObjects(Scene scene)
{
return scene.GetRootGameObjects();
}
public override int GetRootCount(Scene scene)
{
return scene.rootCount;
}
}
}
#endif

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#if MONO
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
namespace UnityExplorer.Core.Runtime.Mono
{
public class MonoReflection : ReflectionProvider
{
// Mono doesn't need to explicitly cast things.
public override object Cast(object obj, Type castTo)
=> obj;
// Vanilla GetType is fine for mono
public override Type GetActualType(object obj)
=> obj.GetType();
public override bool IsAssignableFrom(Type toAssignTo, Type toAssignFrom)
=> toAssignTo.IsAssignableFrom(toAssignFrom);
public override bool IsReflectionSupported(Type type)
=> true;
public override bool LoadModule(string module)
=> true;
public override string ProcessTypeNameInString(Type type, string theString, ref string typeName)
=> theString;
}
}
#endif

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#if MONO
using System;
using System.Collections.Generic;
using System.Linq;
using System.Reflection;
using System.Text;
using UnityEngine;
using UnityExplorer.Core;
namespace UnityExplorer.Core.Runtime.Mono
{
public class MonoTextureUtil : TextureUtilProvider
{
public override void Blit(Texture2D tex, RenderTexture rt)
{
Graphics.Blit(tex, rt);
}
public override Sprite CreateSprite(Texture2D texture)
{
return Sprite.Create(texture, new Rect(0, 0, texture.width, texture.height), Vector2.zero);
}
public override bool LoadImage(Texture2D tex, byte[] data, bool markNonReadable)
{
return tex.LoadImage(data, markNonReadable);
}
public override Texture2D NewTexture2D(int width, int height)
{
return new Texture2D(width, height);
}
public override byte[] EncodeToPNG(Texture2D tex)
{
return EncodeToPNGSafe(tex);
}
private static MethodInfo EncodeToPNGMethod => m_encodeToPNGMethod ?? GetEncodeToPNGMethod();
private static MethodInfo m_encodeToPNGMethod;
public static byte[] EncodeToPNGSafe(Texture2D tex)
{
var method = EncodeToPNGMethod;
if (method.IsStatic)
return (byte[])method.Invoke(null, new object[] { tex });
else
return (byte[])method.Invoke(tex, new object[0]);
}
private static MethodInfo GetEncodeToPNGMethod()
{
if (ReflectionUtility.GetTypeByName("UnityEngine.ImageConversion") is Type imageConversion)
return m_encodeToPNGMethod = imageConversion.GetMethod("EncodeToPNG", ReflectionUtility.CommonFlags);
var method = typeof(Texture2D).GetMethod("EncodeToPNG", ReflectionUtility.CommonFlags);
if (method != null)
return m_encodeToPNGMethod = method;
ExplorerCore.Log("ERROR: Cannot get any EncodeToPNG method!");
return null;
}
}
}
#endif

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using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
namespace UnityExplorer.Core.Runtime
{
public abstract class ReflectionProvider
{
public static ReflectionProvider Instance;
public ReflectionProvider()
{
Instance = this;
}
public abstract Type GetActualType(object obj);
public abstract object Cast(object obj, Type castTo);
public abstract bool IsAssignableFrom(Type toAssignTo, Type toAssignFrom);
public abstract bool IsReflectionSupported(Type type);
public abstract string ProcessTypeNameInString(Type type, string theString, ref string typeName);
public abstract bool LoadModule(string module);
}
}

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using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using UnityEngine;
using UnityEngine.SceneManagement;
namespace UnityExplorer.Core.Runtime
{
// Work in progress, this will be used to replace all the "if CPP / if MONO"
// pre-processor directives all over the codebase.
public abstract class RuntimeProvider
{
public static RuntimeProvider Instance;
public ReflectionProvider Reflection;
public TextureUtilProvider TextureUtil;
public RuntimeProvider()
{
Initialize();
SetupEvents();
}
public static void Init() =>
#if CPP
Instance = new Il2Cpp.Il2CppProvider();
#else
Instance = new Mono.MonoProvider();
#endif
public abstract void Initialize();
public abstract void SetupEvents();
// Unity API handlers
public abstract string LayerToName(int layer);
public abstract UnityEngine.Object[] FindObjectsOfTypeAll(Type type);
public abstract int GetSceneHandle(Scene scene);
public abstract GameObject[] GetRootGameObjects(Scene scene);
public abstract int GetRootCount(Scene scene);
}
}

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using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Text;
using UnityEngine;
namespace UnityExplorer.Core.Runtime
{
public abstract class TextureUtilProvider
{
public static TextureUtilProvider Instance;
public TextureUtilProvider()
{
Instance = this;
}
public abstract byte[] EncodeToPNG(Texture2D tex);
public abstract Texture2D NewTexture2D(int width, int height);
public abstract void Blit(Texture2D tex, RenderTexture rt);
public abstract bool LoadImage(Texture2D tex, byte[] data, bool markNonReadable);
public abstract Sprite CreateSprite(Texture2D texture);
public static bool IsReadable(Texture2D tex)
{
try
{
// This will cause an exception if it's not readable.
// Reason for doing it this way is not all Unity versions
// ship with the 'Texture.isReadable' property.
tex.GetPixel(0, 0);
return true;
}
catch
{
return false;
}
}
public static bool LoadImage(Texture2D tex, string filePath, bool markNonReadable)
{
if (!File.Exists(filePath))
return false;
return Instance.LoadImage(tex, File.ReadAllBytes(filePath), markNonReadable);
}
public static Texture2D Copy(Texture2D orig, Rect rect)
{
Color[] pixels;
if (IsReadable(orig))
orig = ForceReadTexture(orig);
pixels = orig.GetPixels((int)rect.x, (int)rect.y, (int)rect.width, (int)rect.height);
Texture2D newTex = Instance.NewTexture2D((int)rect.width, (int)rect.height);
newTex.SetPixels(pixels);
return newTex;
}
public static Texture2D ForceReadTexture(Texture2D tex)
{
try
{
FilterMode origFilter = tex.filterMode;
tex.filterMode = FilterMode.Point;
var rt = RenderTexture.GetTemporary(tex.width, tex.height, 0, RenderTextureFormat.ARGB32);
rt.filterMode = FilterMode.Point;
RenderTexture.active = rt;
Instance.Blit(tex, rt);
var _newTex = new Texture2D(tex.width, tex.height, TextureFormat.ARGB32, false);
_newTex.ReadPixels(new Rect(0, 0, tex.width, tex.height), 0, 0);
_newTex.Apply(false, false);
RenderTexture.active = null;
tex.filterMode = origFilter;
return _newTex;
}
catch (Exception e)
{
ExplorerCore.Log("Exception on ForceReadTexture: " + e.ToString());
return default;
}
}
public static void SaveTextureAsPNG(Texture2D tex, string dir, string name, bool isDTXnmNormal = false)
{
if (!Directory.Exists(dir))
Directory.CreateDirectory(dir);
byte[] data;
string savepath = dir + @"\" + name + ".png";
// Make sure we can EncodeToPNG it.
if (tex.format != TextureFormat.ARGB32 || !IsReadable(tex))
{
tex = ForceReadTexture(tex);
}
if (isDTXnmNormal)
{
tex = DTXnmToRGBA(tex);
tex.Apply(false, false);
}
data = Instance.EncodeToPNG(tex);
if (data == null || !data.Any())
{
ExplorerCore.LogWarning("Couldn't get any data for the texture!");
}
else
{
File.WriteAllBytes(savepath, data);
}
}
// Converts DTXnm-format Normal Map to RGBA-format Normal Map.
public static Texture2D DTXnmToRGBA(Texture2D tex)
{
Color[] colors = tex.GetPixels();
for (int i = 0; i < colors.Length; i++)
{
var c = colors[i];
c.r = c.a * 2 - 1; // red <- alpha
c.g = c.g * 2 - 1; // green is always the same
var rg = new Vector2(c.r, c.g); //this is the red-green vector
c.b = Mathf.Sqrt(1 - Mathf.Clamp01(Vector2.Dot(rg, rg))); //recalculate the blue channel
colors[i] = new Color(
(c.r * 0.5f) + 0.5f,
(c.g * 0.5f) + 0.25f,
(c.b * 0.5f) + 0.5f
);
}
var newtex = new Texture2D(tex.width, tex.height, TextureFormat.ARGB32, false);
newtex.SetPixels(colors);
return newtex;
}
}
}

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using System;
using System.Collections.Generic;
using System.Linq;
using UnityExplorer.UI;
using UnityExplorer.UI.Main;
using UnityExplorer.UI.Reusable;
using UnityEngine;
using UnityEngine.SceneManagement;
using UnityEngine.UI;
using UnityExplorer.Core.Runtime;
using UnityExplorer.UI.Main.Home;
namespace UnityExplorer.Core.Inspectors
{
public class SceneExplorer
{
public static SceneExplorer Instance;
public static SceneExplorerUI UI;
internal static Action OnToggleShow;
public SceneExplorer()
{
Instance = this;
UI = new SceneExplorerUI();
UI.ConstructScenePane();
}
private const float UPDATE_INTERVAL = 1f;
private float m_timeOfLastSceneUpdate;
// private int m_currentSceneHandle = -1;
public static Scene DontDestroyScene => DontDestroyObject.scene;
internal Scene m_currentScene;
internal Scene[] m_currentScenes = new Scene[0];
internal GameObject[] m_allObjects = new GameObject[0];
internal GameObject m_selectedSceneObject;
internal int m_lastCount;
internal static GameObject DontDestroyObject
{
get
{
if (!s_dontDestroyObject)
{
s_dontDestroyObject = new GameObject("DontDestroyMe");
GameObject.DontDestroyOnLoad(s_dontDestroyObject);
}
return s_dontDestroyObject;
}
}
internal static GameObject s_dontDestroyObject;
public void Init()
{
RefreshSceneSelector();
}
public void Update()
{
if (SceneExplorerUI.Hiding || Time.realtimeSinceStartup - m_timeOfLastSceneUpdate < UPDATE_INTERVAL)
{
return;
}
RefreshSceneSelector();
if (!m_selectedSceneObject)
{
if (m_currentScene != default)
{
var rootObjects = RuntimeProvider.Instance.GetRootGameObjects(m_currentScene);
SetSceneObjectList(rootObjects);
}
}
else
{
RefreshSelectedSceneObject();
}
}
private void RefreshSceneSelector()
{
var newNames = new List<string>();
var newScenes = new List<Scene>();
if (m_currentScenes == null)
m_currentScenes = new Scene[0];
bool anyChange = SceneManager.sceneCount != m_currentScenes.Length - 1;
for (int i = 0; i < SceneManager.sceneCount; i++)
{
Scene scene = SceneManager.GetSceneAt(i);
if (scene == default)
continue;
int handle = RuntimeProvider.Instance.GetSceneHandle(scene);
if (!anyChange && !m_currentScenes.Any(it => handle == RuntimeProvider.Instance.GetSceneHandle(it)))
anyChange = true;
newScenes.Add(scene);
newNames.Add(scene.name);
}
if (anyChange)
{
newNames.Add("DontDestroyOnLoad");
newScenes.Add(DontDestroyScene);
m_currentScenes = newScenes.ToArray();
UI.OnActiveScenesChanged(newNames);
SetTargetScene(newScenes[0]);
SearchPage.Instance.OnSceneChange();
}
}
public void SetTargetScene(int index)
=> SetTargetScene(m_currentScenes[index]);
public void SetTargetScene(Scene scene)
{
if (scene == default)
return;
m_currentScene = scene;
var rootObjs = RuntimeProvider.Instance.GetRootGameObjects(scene);
SetSceneObjectList(rootObjs);
m_selectedSceneObject = null;
UI.OnSceneSelected();
}
public void SetSceneObjectParent()
{
if (!m_selectedSceneObject || !m_selectedSceneObject.transform.parent?.gameObject)
{
m_selectedSceneObject = null;
SetTargetScene(m_currentScene);
}
else
{
SetTargetObject(m_selectedSceneObject.transform.parent.gameObject);
}
}
public void SetTargetObject(GameObject obj)
{
if (!obj)
return;
UI.OnGameObjectSelected(obj);
m_selectedSceneObject = obj;
RefreshSelectedSceneObject();
}
private void RefreshSelectedSceneObject()
{
GameObject[] list = new GameObject[m_selectedSceneObject.transform.childCount];
for (int i = 0; i < m_selectedSceneObject.transform.childCount; i++)
{
list[i] = m_selectedSceneObject.transform.GetChild(i).gameObject;
}
SetSceneObjectList(list);
}
private void SetSceneObjectList(GameObject[] objects)
{
m_allObjects = objects;
RefreshSceneObjectList();
}
internal void RefreshSceneObjectList()
{
m_timeOfLastSceneUpdate = Time.realtimeSinceStartup;
UI.RefreshSceneObjectList(m_allObjects, out int newCount);
m_lastCount = newCount;
}
internal static void InspectSelectedGameObject()
{
InspectorManager.Instance.Inspect(Instance.m_selectedSceneObject);
}
internal static void InvokeOnToggleShow()
{
OnToggleShow?.Invoke();
}
}
}

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using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
namespace UnityExplorer.Search
{
internal enum ChildFilter
{
Any,
RootObject,
HasParent
}
}

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using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
namespace UnityExplorer.Search
{
internal enum SceneFilter
{
Any,
Asset,
DontDestroyOnLoad,
Explicit,
}
}

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using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
namespace UnityExplorer.Search
{
internal enum SearchContext
{
UnityObject,
GameObject,
Component,
Custom,
Singleton,
StaticClass
}
}

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using System;
using System.Collections.Generic;
using System.Linq;
using System.Reflection;
using System.Text;
using UnityEngine;
using UnityExplorer.Core;
using UnityExplorer.Core.Runtime;
using UnityExplorer.UI.Main;
namespace UnityExplorer.Search
{
public static class SearchProvider
{
internal static object[] StaticClassSearch(string input)
{
var list = new List<Type>();
var nameFilter = "";
if (!string.IsNullOrEmpty(input))
nameFilter = input.ToLower();
foreach (var asm in AppDomain.CurrentDomain.GetAssemblies())
{
foreach (var type in asm.TryGetTypes().Where(it => it.IsSealed && it.IsAbstract))
{
if (!string.IsNullOrEmpty(nameFilter) && !type.FullName.ToLower().Contains(nameFilter))
continue;
list.Add(type);
}
}
return list.ToArray();
}
internal static string[] s_instanceNames = new string[]
{
"m_instance",
"m_Instance",
"s_instance",
"s_Instance",
"_instance",
"_Instance",
"instance",
"Instance",
"<Instance>k__BackingField",
"<instance>k__BackingField",
};
internal static object[] SingletonSearch(string input)
{
var instances = new List<object>();
var nameFilter = "";
if (!string.IsNullOrEmpty(input))
nameFilter = input.ToLower();
var flags = BindingFlags.Public | BindingFlags.NonPublic | BindingFlags.Static;
foreach (var asm in AppDomain.CurrentDomain.GetAssemblies())
{
// Search all non-static, non-enum classes.
foreach (var type in asm.TryGetTypes().Where(it => !(it.IsSealed && it.IsAbstract) && !it.IsEnum))
{
try
{
if (!string.IsNullOrEmpty(nameFilter) && !type.FullName.ToLower().Contains(nameFilter))
continue;
#if CPP
// Only look for Properties in IL2CPP, not for Mono.
PropertyInfo pi;
foreach (var name in s_instanceNames)
{
pi = type.GetProperty(name, flags);
if (pi != null)
{
var instance = pi.GetValue(null, null);
if (instance != null)
{
instances.Add(instance);
continue;
}
}
}
#endif
// Look for a typical Instance backing field.
FieldInfo fi;
foreach (var name in s_instanceNames)
{
fi = type.GetField(name, flags);
if (fi != null)
{
var instance = fi.GetValue(null);
if (instance != null)
{
instances.Add(instance);
break;
}
}
}
}
catch { }
}
}
return instances.ToArray();
}
internal static object[] UnityObjectSearch(string input, string customTypeInput, SearchContext context,
ChildFilter childFilter, SceneFilter sceneFilter)
{
Type searchType = null;
switch (context)
{
case SearchContext.GameObject:
searchType = typeof(GameObject); break;
case SearchContext.Component:
searchType = typeof(Component); break;
case SearchContext.Custom:
if (string.IsNullOrEmpty(customTypeInput))
{
ExplorerCore.LogWarning("Custom Type input must not be empty!");
return null;
}
if (ReflectionUtility.GetTypeByName(customTypeInput) is Type customType)
if (typeof(UnityEngine.Object).IsAssignableFrom(customType))
searchType = customType;
else
ExplorerCore.LogWarning($"Custom type '{customType.FullName}' is not assignable from UnityEngine.Object!");
else
ExplorerCore.LogWarning($"Could not find a type by the name '{customTypeInput}'!");
break;
default:
searchType = typeof(UnityEngine.Object); break;
}
if (searchType == null)
return null;
var allObjects = RuntimeProvider.Instance.FindObjectsOfTypeAll(searchType);
var results = new List<object>();
// perform filter comparers
string nameFilter = null;
if (!string.IsNullOrEmpty(input))
nameFilter = input.ToLower();
bool canGetGameObject = (sceneFilter != SceneFilter.Any || childFilter != ChildFilter.Any)
&& (context == SearchContext.GameObject || typeof(Component).IsAssignableFrom(searchType));
string sceneFilterString = null;
if (!canGetGameObject)
{
if (context != SearchContext.UnityObject && (sceneFilter != SceneFilter.Any || childFilter != ChildFilter.Any))
ExplorerCore.LogWarning($"Type '{searchType}' cannot have Scene or Child filters applied to it");
}
else
{
if (sceneFilter == SceneFilter.DontDestroyOnLoad)
sceneFilterString = "DontDestroyOnLoad";
else if (sceneFilter == SceneFilter.Explicit)
sceneFilterString = SearchPage.Instance.m_sceneDropdown.options[SearchPage.Instance.m_sceneDropdown.value].text;
}
foreach (var obj in allObjects)
{
// name check
if (!string.IsNullOrEmpty(nameFilter) && !obj.name.ToLower().Contains(nameFilter))
continue;
if (canGetGameObject)
{
#if MONO
var go = context == SearchContext.GameObject
? obj as GameObject
: (obj as Component).gameObject;
#else
var go = context == SearchContext.GameObject
? obj.TryCast<GameObject>()
: obj.TryCast<Component>().gameObject;
#endif
// scene check
if (sceneFilter != SceneFilter.Any)
{
if (!go)
continue;
switch (context)
{
case SearchContext.GameObject:
if (go.scene.name != sceneFilterString)
continue;
break;
case SearchContext.Custom:
case SearchContext.Component:
if (go.scene.name != sceneFilterString)
continue;
break;
}
}
if (childFilter != ChildFilter.Any)
{
if (!go)
continue;
// root object check (no parent)
if (childFilter == ChildFilter.HasParent && !go.transform.parent)
continue;
else if (childFilter == ChildFilter.RootObject && go.transform.parent)
continue;
}
}
results.Add(obj);
}
return results.ToArray();
}
}
}

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//using System.Collections;
//using System.Collections.Generic;
//using UnityExplorer.UI;
//using UnityEngine;
//using System;
//using System.Runtime.InteropServices;
//using System.Text;
//using UnityExplorer.Core.Runtime;
//namespace UnityExplorer.Core.Tests
//{
// internal enum TestByteEnum : byte
// {
// One,
// Two,
// Three,
// TwoFiftyFive = 255,
// }
// public static class StaticTestClass
// {
// public static int StaticProperty => 5;
// public static int StaticField = 69;
// public static List<string> StaticList = new List<string>
// {
// "one",
// "two",
// "three",
// };
// public static void StaticMethod() { }
// }
// public class TestClass
// {
// internal static TestByteEnum testingByte = TestByteEnum.One;
// public string AAALongString = @"1
//2
//3
//4
//5";
// public Vector2 AATestVector2 = new Vector2(1, 2);
// public Vector3 AATestVector3 = new Vector3(1, 2, 3);
// public Vector4 AATestVector4 = new Vector4(1, 2, 3, 4);
// public Rect AATestRect = new Rect(1, 2, 3, 4);
// public Color AATestColor = new Color(0.1f, 0.2f, 0.3f, 0.4f);
// public bool ATestBoolMethod() => false;
// public bool this[int index]
// {
// get => index % 2 == 0;
// set => m_thisBool = value;
// }
// internal bool m_thisBool;
// static int testInt;
// public static List<string> ExceptionList
// {
// get
// {
// testInt++;
// if (testInt % 2 == 0)
// throw new Exception("its even");
// else
// return new List<string> { "one" };
// }
// }
// static bool abool;
// public static bool ATestExceptionBool
// {
// get
// {
// abool = !abool;
// if (!abool)
// throw new Exception("false");
// else
// return true;
// }
// }
// public static string ExceptionString => throw new NotImplementedException();
// public static string ANullString = null;
// public static float ATestFloat = 420.69f;
// public static int ATestInt = -1;
// public static string ATestString = "hello world";
// public static uint ATestUInt = 1u;
// public static byte ATestByte = 255;
// public static ulong AReadonlyUlong = 82934UL;
// public static TestClass Instance => m_instance ?? (m_instance = new TestClass());
// private static TestClass m_instance;
// public object AmbigObject;
// public List<List<List<string>>> ANestedNestedList = new List<List<List<string>>>
// {
// new List<List<string>>
// {
// new List<string>
// {
// "one",
// "two",
// },
// new List<string>
// {
// "three",
// "four"
// }
// },
// new List<List<string>>
// {
// new List<string>
// {
// "five",
// "six"
// }
// }
// };
// public static bool SetOnlyProperty
// {
// set => m_setOnlyProperty = value;
// }
// private static bool m_setOnlyProperty;
// public static bool ReadSetOnlyProperty => m_setOnlyProperty;
// public Texture2D TestTexture;
// public static Sprite TestSprite;
//#if CPP
// public static Il2CppSystem.Collections.Generic.HashSet<string> CppHashSetTest;
// public static Il2CppSystem.Collections.Generic.List<string> CppStringTest;
// public static Il2CppSystem.Collections.IList CppIList;
// //public static Il2CppSystem.Collections.Generic.Dictionary<string, string> CppDictTest;
// //public static Il2CppSystem.Collections.Generic.Dictionary<int, float> CppDictTest2;
//#endif
// public TestClass()
// {
// int a = 0;
// foreach (var list in ANestedNestedList)
// {
// foreach (var list2 in list)
// {
// for (int i = 0; i < 33; i++)
// list2.Add(a++.ToString());
// }
// }
//#if CPP
// //TextureSpriteTest();
// CppHashSetTest = new Il2CppSystem.Collections.Generic.HashSet<string>();
// CppHashSetTest.Add("1");
// CppHashSetTest.Add("2");
// CppHashSetTest.Add("3");
// CppStringTest = new Il2CppSystem.Collections.Generic.List<string>();
// CppStringTest.Add("1");
// CppStringTest.Add("2");
// //CppDictTest = new Il2CppSystem.Collections.Generic.Dictionary<string, string>();
// //CppDictTest.Add("key1", "value1");
// //CppDictTest.Add("key2", "value2");
// //CppDictTest.Add("key3", "value3");
// //CppDictTest2 = new Il2CppSystem.Collections.Generic.Dictionary<int, float>();
// //CppDictTest2.Add(0, 0.5f);
// //CppDictTest2.Add(1, 0.5f);
// //CppDictTest2.Add(2, 0.5f);
//#endif
// }
// //private void TextureSpriteTest()
// //{
// // TestTexture = new Texture2D(32, 32, TextureFormat.ARGB32, false)
// // {
// // name = "TestTexture"
// // };
// // TestSprite = TextureUtilProvider.Instance.CreateSprite(TestTexture);
// // GameObject.DontDestroyOnLoad(TestTexture);
// // GameObject.DontDestroyOnLoad(TestSprite);
// // // test loading a tex from file
// // if (System.IO.File.Exists(@"D:\Downloads\test.png"))
// // {
// // var dataToLoad = System.IO.File.ReadAllBytes(@"D:\Downloads\test.png");
// // ExplorerCore.Log($"Tex load success: {TestTexture.LoadImage(dataToLoad, false)}");
// // }
// //}
// //public static string TestRefInOutGeneric<T>(ref string arg0, in int arg1, out string arg2) where T : Component
// //{
// // arg2 = "this is arg2";
// // return $"T: '{typeof(T).FullName}', ref arg0: '{arg0}', in arg1: '{arg1}', out arg2: '{arg2}'";
// //}
// // test a non-generic dictionary
// public Hashtable TestNonGenericDict()
// {
// return new Hashtable
// {
// { "One", 1 },
// { "Two", 2 },
// { "Three", 3 },
// };
// }
// // test HashSets
// public static HashSet<string> HashSetTest = new HashSet<string>
// {
// "One",
// "Two",
// "Three"
// };
// // Test indexed parameter
// public string this[int arg0, string arg1]
// {
// get
// {
// return $"arg0: {arg0}, arg1: {arg1}";
// }
// }
// // Test basic list
// public static List<string> TestList = new List<string>
// {
// "1",
// "2",
// "3",
// "etc..."
// };
// // Test a nested dictionary
// public static Dictionary<int, Dictionary<string, int>> NestedDictionary = new Dictionary<int, Dictionary<string, int>>
// {
// {
// 1,
// new Dictionary<string, int>
// {
// {
// "Sub 1", 123
// },
// {
// "Sub 2", 456
// },
// }
// },
// {
// 2,
// new Dictionary<string, int>
// {
// {
// "Sub 3", 789
// },
// {
// "Sub 4", 000
// },
// }
// },
// };
// // Test a basic method
// public static Color TestMethod(float r, float g, float b, float a)
// {
// return new Color(r, g, b, a);
// }
// // A method with default arguments
// public static Vector3 TestDefaultArgs(float arg0, float arg1, float arg2 = 5.0f)
// {
// return new Vector3(arg0, arg1, arg2);
// }
// }
//}

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using System.Globalization;
using UnityEngine;
namespace UnityExplorer.Core.Unity
{
public static class ColorHelper
{
/// <summary>
/// Converts Color to 6-digit RGB hex code (without # symbol). Eg, RGBA(1,0,0,1) -> FF0000
/// </summary>
public static string ToHex(this Color color)
{
byte r = (byte)Mathf.Clamp(Mathf.RoundToInt(color.r * 255f), 0, 255);
byte g = (byte)Mathf.Clamp(Mathf.RoundToInt(color.g * 255f), 0, 255);
byte b = (byte)Mathf.Clamp(Mathf.RoundToInt(color.b * 255f), 0, 255);
return $"{r:X2}{g:X2}{b:X2}";
}
/// <summary>
/// Assumes the string is a 6-digit RGB Hex color code, which it will parse into a UnityEngine.Color.
/// Eg, FF0000 -> RGBA(1,0,0,1)
/// </summary>
public static Color ToColor(this string _string)
{
_string = _string.Replace("#", "");
if (_string.Length != 6)
return Color.magenta;
var r = byte.Parse(_string.Substring(0, 2), NumberStyles.HexNumber);
var g = byte.Parse(_string.Substring(2, 2), NumberStyles.HexNumber);
var b = byte.Parse(_string.Substring(4, 2), NumberStyles.HexNumber);
var color = new Color
{
r = (float)(r / (decimal)255),
g = (float)(g / (decimal)255),
b = (float)(b / (decimal)255),
a = 1
};
return color;
}
}
}

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using UnityEngine;
namespace UnityExplorer.Core.Unity
{
public static class UnityHelper
{
private static Camera m_mainCamera;
public static Camera MainCamera
{
get
{
if (!m_mainCamera)
{
m_mainCamera = Camera.main;
}
return m_mainCamera;
}
}
public static bool IsNullOrDestroyed(this object obj, bool suppressWarning = true)
{
var unityObj = obj as Object;
if (obj == null)
{
if (!suppressWarning)
ExplorerCore.LogWarning("The target instance is null!");
return true;
}
else if (obj is Object)
{
if (!unityObj)
{
if (!suppressWarning)
ExplorerCore.LogWarning("The target UnityEngine.Object was destroyed!");
return true;
}
}
return false;
}
public static string ToStringLong(this Vector3 vec)
{
return $"{vec.x:F3}, {vec.y:F3}, {vec.z:F3}";
}
public static string GetTransformPath(this Transform t, bool includeThisName = false)
{
string path = includeThisName ? t.transform.name : "";
while (t.parent != null)
{
t = t.parent;
path = $"{t.name}/{path}";
}
return path;
}
}
}