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+<?xml version="1.0"?>
+<doc>
+ <assembly>
+ <name>0Harmony</name>
+ </assembly>
+ <members>
+ <member name="T:HarmonyLib.DelegateTypeFactory">
+ <summary>A factory to create delegate types</summary>
+ </member>
+ <member name="M:HarmonyLib.DelegateTypeFactory.#ctor">
+ <summary>Default constructor</summary>
+ </member>
+ <member name="M:HarmonyLib.DelegateTypeFactory.CreateDelegateType(System.Reflection.MethodInfo)">
+ <summary>Creates a delegate type for a method</summary>
+ <param name="method">The method</param>
+ <returns>The new delegate type</returns>
+
+ </member>
+ <member name="T:HarmonyLib.GetterHandler`2">
+ <summary>A getter delegate type</summary>
+ <typeparam name="T">Type that getter gets field/property value from</typeparam>
+ <typeparam name="S">Type of the value that getter gets</typeparam>
+ <param name="source">The instance get getter uses</param>
+ <returns>An delegate</returns>
+
+ </member>
+ <member name="T:HarmonyLib.SetterHandler`2">
+ <summary>A setter delegate type</summary>
+ <typeparam name="T">Type that setter sets field/property value for</typeparam>
+ <typeparam name="S">Type of the value that setter sets</typeparam>
+ <param name="source">The instance the setter uses</param>
+ <param name="value">The value the setter uses</param>
+ <returns>An delegate</returns>
+
+ </member>
+ <member name="T:HarmonyLib.InstantiationHandler`1">
+ <summary>A constructor delegate type</summary>
+ <typeparam name="T">Type that constructor creates</typeparam>
+ <returns>An delegate</returns>
+
+ </member>
+ <member name="T:HarmonyLib.FastAccess">
+ <summary>A helper class for fast access to getters and setters</summary>
+ </member>
+ <member name="M:HarmonyLib.FastAccess.CreateInstantiationHandler``1">
+ <summary>Creates an instantiation delegate</summary>
+ <typeparam name="T">Type that constructor creates</typeparam>
+ <returns>The new instantiation delegate</returns>
+
+ </member>
+ <member name="M:HarmonyLib.FastAccess.CreateGetterHandler``2(System.Reflection.PropertyInfo)">
+ <summary>Creates an getter delegate for a property</summary>
+ <typeparam name="T">Type that getter reads property from</typeparam>
+ <typeparam name="S">Type of the property that gets accessed</typeparam>
+ <param name="propertyInfo">The property</param>
+ <returns>The new getter delegate</returns>
+
+ </member>
+ <member name="M:HarmonyLib.FastAccess.CreateGetterHandler``2(System.Reflection.FieldInfo)">
+ <summary>Creates an getter delegate for a field</summary>
+ <typeparam name="T">Type that getter reads field from</typeparam>
+ <typeparam name="S">Type of the field that gets accessed</typeparam>
+ <param name="fieldInfo">The field</param>
+ <returns>The new getter delegate</returns>
+
+ </member>
+ <member name="M:HarmonyLib.FastAccess.CreateFieldGetter``2(System.String[])">
+ <summary>Creates an getter delegate for a field (with a list of possible field names)</summary>
+ <typeparam name="T">Type that getter reads field/property from</typeparam>
+ <typeparam name="S">Type of the field/property that gets accessed</typeparam>
+ <param name="names">A list of possible field names</param>
+ <returns>The new getter delegate</returns>
+
+ </member>
+ <member name="M:HarmonyLib.FastAccess.CreateSetterHandler``2(System.Reflection.PropertyInfo)">
+ <summary>Creates an setter delegate</summary>
+ <typeparam name="T">Type that setter assigns property value to</typeparam>
+ <typeparam name="S">Type of the property that gets assigned</typeparam>
+ <param name="propertyInfo">The property</param>
+ <returns>The new setter delegate</returns>
+
+ </member>
+ <member name="M:HarmonyLib.FastAccess.CreateSetterHandler``2(System.Reflection.FieldInfo)">
+ <summary>Creates an setter delegate for a field</summary>
+ <typeparam name="T">Type that setter assigns field value to</typeparam>
+ <typeparam name="S">Type of the field that gets assigned</typeparam>
+ <param name="fieldInfo">The field</param>
+ <returns>The new getter delegate</returns>
+
+ </member>
+ <member name="T:HarmonyLib.FastInvokeHandler">
+ <summary>A delegate to invoke a method</summary>
+ <param name="target">The instance</param>
+ <param name="parameters">The method parameters</param>
+ <returns>The method result</returns>
+ </member>
+ <member name="T:HarmonyLib.MethodInvoker">
+ <summary>A helper class to invoke method with delegates</summary>
+ </member>
+ <member name="M:HarmonyLib.MethodInvoker.GetHandler(System.Reflection.MethodInfo,System.Boolean)">
+ <summary>Creates a fast invocation handler from a method</summary>
+ <param name="methodInfo">The method to invoke</param>
+ <param name="directBoxValueAccess">Controls if boxed value object is accessed/updated directly</param>
+ <returns>The <see cref="T:HarmonyLib.FastInvokeHandler"/></returns>
+ <remarks>
+ <para>
+ The <c>directBoxValueAccess</c> option controls how value types passed by reference (e.g. ref int, out my_struct) are handled in the arguments array
+ passed to the fast invocation handler.
+ Since the arguments array is an object array, any value types contained within it are actually references to a boxed value object.
+ Like any other object, there can be other references to such boxed value objects, other than the reference within the arguments array.
+ <example>For example,
+ <code>
+ var val = 5;
+ var box = (object)val;
+ var arr = new object[] { box };
+ handler(arr); // for a method with parameter signature: ref/out/in int
+ </code>
+ </example>
+ </para>
+ <para>
+ If <c>directBoxValueAccess</c> is <c>true</c>, the boxed value object is accessed (and potentially updated) directly when the handler is called,
+ such that all references to the boxed object reflect the potentially updated value.
+ In the above example, if the method associated with the handler updates the passed (boxed) value to 10, both <c>box</c> and <c>arr[0]</c>
+ now reflect the value 10. Note that the original <c>val</c> is not updated, since boxing always copies the value into the new boxed value object.
+ </para>
+ <para>
+ If <c>directBoxValueAccess</c> is <c>false</c> (default), the boxed value object in the arguments array is replaced with a "reboxed" value object,
+ such that potential updates to the value are reflected only in the arguments array.
+ In the above example, if the method associated with the handler updates the passed (boxed) value to 10, only <c>arr[0]</c> now reflects the value 10.
+ </para>
+ </remarks>
+ </member>
+ <member name="T:HarmonyLib.Memory">
+ <summary>A low level memory helper</summary>
+
+ </member>
+ <member name="M:HarmonyLib.Memory.MarkForNoInlining(System.Reflection.MethodBase)">
+ <summary>Mark method for no inlining (currently only works on Mono)</summary>
+ <param name="method">The method/constructor to change</param>
+
+ </member>
+ <member name="M:HarmonyLib.Memory.DetourMethod(System.Reflection.MethodBase,System.Reflection.MethodBase)">
+ <summary>Detours a method</summary>
+ <param name="original">The original method/constructor</param>
+ <param name="replacement">The replacement method/constructor</param>
+ <returns>An error string</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Memory.WriteJump(System.Int64,System.Int64)">
+ <summary>Writes a jump to memory</summary>
+ <param name="memory">The memory address</param>
+ <param name="destination">Jump destination</param>
+ <returns>An error string</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Memory.GetMethodStart(System.Reflection.MethodBase,System.Exception@)">
+ <summary>Gets the start of a method in memory</summary>
+ <param name="method">The method/constructor</param>
+ <param name="exception">[out] Details of the exception</param>
+ <returns>The method start address</returns>
+
+ </member>
+ <member name="F:HarmonyLib.MethodPatcher.INSTANCE_PARAM">
+ special parameter names that can be used in prefix and postfix methods
+ </member>
+ <member name="T:HarmonyLib.PatchFunctions">
+ <summary>Patch function helpers</summary>
+ </member>
+ <member name="M:HarmonyLib.PatchFunctions.GetSortedPatchMethods(System.Reflection.MethodBase,HarmonyLib.Patch[],System.Boolean)">
+ <summary>Sorts patch methods by their priority rules</summary>
+ <param name="original">The original method</param>
+ <param name="patches">Patches to sort</param>
+ <param name="debug">Use debug mode</param>
+ <returns>The sorted patch methods</returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchFunctions.UpdateWrapper(System.Reflection.MethodBase,HarmonyLib.PatchInfo)">
+ <summary>Creates new replacement method with the latest patches and detours the original method</summary>
+ <param name="original">The original method</param>
+ <param name="patchInfo">Information describing the patches</param>
+ <returns>The newly created replacement method</returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchSorter.#ctor(HarmonyLib.Patch[],System.Boolean)">
+ <summary>Creates a patch sorter</summary>
+ <param name="patches">Array of patches that will be sorted</param>
+ <param name="debug">Use debugging</param>
+ </member>
+ <member name="M:HarmonyLib.PatchSorter.Sort(System.Reflection.MethodBase)">
+ <summary>Sorts internal PatchSortingWrapper collection and caches the results.
+ After first run the result is provided from the cache.</summary>
+ <param name="original">The original method</param>
+ <returns>The sorted patch methods</returns>
+ </member>
+ <member name="M:HarmonyLib.PatchSorter.ComparePatchLists(HarmonyLib.Patch[])">
+ <summary>Checks if the sorter was created with the same patch list and as a result can be reused to
+ get the sorted order of the patches.</summary>
+ <param name="patches">List of patches to check against</param>
+ <returns>true if equal</returns>
+ </member>
+ <member name="M:HarmonyLib.PatchSorter.CullDependency">
+ <summary>Removes one unresolved dependency from the least important patch.</summary>
+ </member>
+ <member name="M:HarmonyLib.PatchSorter.ProcessWaitingList">
+ <summary>Outputs all unblocked patches from the waiting list to results list</summary>
+ </member>
+ <member name="M:HarmonyLib.PatchSorter.AddNodeToResult(HarmonyLib.PatchSorter.PatchSortingWrapper)">
+ <summary>Adds patch to both results list and handled patches set</summary>
+ <param name="node">Patch to add</param>
+ </member>
+ <member name="T:HarmonyLib.PatchSorter.PatchSortingWrapper">
+ <summary>Wrapper used over the Patch object to allow faster dependency access and
+ dependency removal in case of cyclic dependencies</summary>
+ </member>
+ <member name="M:HarmonyLib.PatchSorter.PatchSortingWrapper.#ctor(HarmonyLib.Patch)">
+ <summary>Create patch wrapper object used for sorting</summary>
+ <param name="patch">Patch to wrap</param>
+ </member>
+ <member name="M:HarmonyLib.PatchSorter.PatchSortingWrapper.CompareTo(System.Object)">
+ <summary>Determines how patches sort</summary>
+ <param name="obj">The other patch</param>
+ <returns>integer to define sort order (-1, 0, 1)</returns>
+ </member>
+ <member name="M:HarmonyLib.PatchSorter.PatchSortingWrapper.Equals(System.Object)">
+ <summary>Determines whether patches are equal</summary>
+ <param name="obj">The other patch</param>
+ <returns>true if equal</returns>
+ </member>
+ <member name="M:HarmonyLib.PatchSorter.PatchSortingWrapper.GetHashCode">
+ <summary>Hash function</summary>
+ <returns>A hash code</returns>
+ </member>
+ <member name="M:HarmonyLib.PatchSorter.PatchSortingWrapper.AddBeforeDependency(System.Collections.Generic.IEnumerable{HarmonyLib.PatchSorter.PatchSortingWrapper})">
+ <summary>Bidirectionally registers Patches as after dependencies</summary>
+ <param name="dependencies">List of dependencies to register</param>
+ </member>
+ <member name="M:HarmonyLib.PatchSorter.PatchSortingWrapper.AddAfterDependency(System.Collections.Generic.IEnumerable{HarmonyLib.PatchSorter.PatchSortingWrapper})">
+ <summary>Bidirectionally registers Patches as before dependencies</summary>
+ <param name="dependencies">List of dependencies to register</param>
+ </member>
+ <member name="M:HarmonyLib.PatchSorter.PatchSortingWrapper.RemoveAfterDependency(HarmonyLib.PatchSorter.PatchSortingWrapper)">
+ <summary>Bidirectionally removes Patch from after dependencies</summary>
+ <param name="afterNode">Patch to remove</param>
+ </member>
+ <member name="M:HarmonyLib.PatchSorter.PatchSortingWrapper.RemoveBeforeDependency(HarmonyLib.PatchSorter.PatchSortingWrapper)">
+ <summary>Bidirectionally removes Patch from before dependencies</summary>
+ <param name="beforeNode">Patch to remove</param>
+ </member>
+ <member name="T:HarmonyLib.MethodType">
+ <summary>Specifies the type of method</summary>
+
+ </member>
+ <member name="F:HarmonyLib.MethodType.Normal">
+ <summary>This is a normal method</summary>
+ </member>
+ <member name="F:HarmonyLib.MethodType.Getter">
+ <summary>This is a getter</summary>
+ </member>
+ <member name="F:HarmonyLib.MethodType.Setter">
+ <summary>This is a setter</summary>
+ </member>
+ <member name="F:HarmonyLib.MethodType.Constructor">
+ <summary>This is a constructor</summary>
+ </member>
+ <member name="F:HarmonyLib.MethodType.StaticConstructor">
+ <summary>This is a static constructor</summary>
+ </member>
+ <member name="T:HarmonyLib.ArgumentType">
+ <summary>Specifies the type of argument</summary>
+
+ </member>
+ <member name="F:HarmonyLib.ArgumentType.Normal">
+ <summary>This is a normal argument</summary>
+ </member>
+ <member name="F:HarmonyLib.ArgumentType.Ref">
+ <summary>This is a reference argument (ref)</summary>
+ </member>
+ <member name="F:HarmonyLib.ArgumentType.Out">
+ <summary>This is an out argument (out)</summary>
+ </member>
+ <member name="F:HarmonyLib.ArgumentType.Pointer">
+ <summary>This is a pointer argument (&amp;)</summary>
+ </member>
+ <member name="T:HarmonyLib.HarmonyPatchType">
+ <summary>Specifies the type of patch</summary>
+
+ </member>
+ <member name="F:HarmonyLib.HarmonyPatchType.All">
+ <summary>Any patch</summary>
+ </member>
+ <member name="F:HarmonyLib.HarmonyPatchType.Prefix">
+ <summary>A prefix patch</summary>
+ </member>
+ <member name="F:HarmonyLib.HarmonyPatchType.Postfix">
+ <summary>A postfix patch</summary>
+ </member>
+ <member name="F:HarmonyLib.HarmonyPatchType.Transpiler">
+ <summary>A transpiler</summary>
+ </member>
+ <member name="F:HarmonyLib.HarmonyPatchType.Finalizer">
+ <summary>A finalizer</summary>
+ </member>
+ <member name="F:HarmonyLib.HarmonyPatchType.ReversePatch">
+ <summary>A reverse patch</summary>
+ </member>
+ <member name="T:HarmonyLib.HarmonyReversePatchType">
+ <summary>Specifies the type of reverse patch</summary>
+
+ </member>
+ <member name="F:HarmonyLib.HarmonyReversePatchType.Original">
+ <summary>Use the unmodified original method (directly from IL)</summary>
+ </member>
+ <member name="F:HarmonyLib.HarmonyReversePatchType.Snapshot">
+ <summary>Use the original as it is right now including previous patches but excluding future ones</summary>
+ </member>
+ <member name="T:HarmonyLib.MethodDispatchType">
+ <summary>Specifies the type of method call dispatching mechanics</summary>
+
+ </member>
+ <member name="F:HarmonyLib.MethodDispatchType.VirtualCall">
+ <summary>Call the method using dynamic dispatching if method is virtual (including overriden)</summary>
+ <remarks>
+ <para>
+ This is the built-in form of late binding (a.k.a. dynamic binding) and is the default dispatching mechanic in C#.
+ This directly corresponds with the <see cref="F:System.Reflection.Emit.OpCodes.Callvirt"/> instruction.
+ </para>
+ <para>
+ For virtual (including overriden) methods, the instance type's most-derived/overriden implementation of the method is called.
+ For non-virtual (including static) methods, same behavior as <see cref="F:HarmonyLib.MethodDispatchType.Call"/>: the exact specified method implementation is called.
+ </para>
+ <para>
+ Note: This is not a fully dynamic dispatch, since non-virtual (including static) methods are still called non-virtually.
+ A fully dynamic dispatch in C# involves using
+ the <see href="https://docs.microsoft.com/en-us/dotnet/csharp/language-reference/builtin-types/reference-types#the-dynamic-type"><c>dynamic</c> type</see>
+ (actually a fully dynamic binding, since even the name and overload resolution happens at runtime), which <see cref="T:HarmonyLib.MethodDispatchType"/> does not support.
+ </para>
+ </remarks>
+ </member>
+ <member name="F:HarmonyLib.MethodDispatchType.Call">
+ <summary>Call the method using static dispatching, regardless of whether method is virtual (including overriden) or non-virtual (including static)</summary>
+ <remarks>
+ <para>
+ a.k.a. non-virtual dispatching, early binding, or static binding.
+ This directly corresponds with the <see cref="F:System.Reflection.Emit.OpCodes.Call"/> instruction.
+ </para>
+ <para>
+ For both virtual (including overriden) and non-virtual (including static) methods, the exact specified method implementation is called, without virtual/override mechanics.
+ </para>
+ </remarks>
+ </member>
+ <member name="T:HarmonyLib.HarmonyAttribute">
+ <summary>The base class for all Harmony annotations (not meant to be used directly)</summary>
+
+ </member>
+ <member name="F:HarmonyLib.HarmonyAttribute.info">
+ <summary>The common information for all attributes</summary>
+ </member>
+ <member name="T:HarmonyLib.HarmonyPatch">
+ <summary>Annotation to define your Harmony patch methods</summary>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyPatch.#ctor">
+ <summary>An empty annotation can be used together with TargetMethod(s)</summary>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyPatch.#ctor(System.Type)">
+ <summary>An annotation that specifies a class to patch</summary>
+ <param name="declaringType">The declaring class/type</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyPatch.#ctor(System.Type,System.Type[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="declaringType">The declaring class/type</param>
+ <param name="argumentTypes">The argument types of the method or constructor to patch</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyPatch.#ctor(System.Type,System.String)">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="declaringType">The declaring class/type</param>
+ <param name="methodName">The name of the method, property or constructor to patch</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyPatch.#ctor(System.Type,System.String,System.Type[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="declaringType">The declaring class/type</param>
+ <param name="methodName">The name of the method, property or constructor to patch</param>
+ <param name="argumentTypes">An array of argument types to target overloads</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyPatch.#ctor(System.Type,System.String,System.Type[],HarmonyLib.ArgumentType[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="declaringType">The declaring class/type</param>
+ <param name="methodName">The name of the method, property or constructor to patch</param>
+ <param name="argumentTypes">An array of argument types to target overloads</param>
+ <param name="argumentVariations">Array of <see cref="T:HarmonyLib.ArgumentType"/></param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyPatch.#ctor(System.Type,HarmonyLib.MethodType)">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="declaringType">The declaring class/type</param>
+ <param name="methodType">The <see cref="T:HarmonyLib.MethodType"/></param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyPatch.#ctor(System.Type,HarmonyLib.MethodType,System.Type[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="declaringType">The declaring class/type</param>
+ <param name="methodType">The <see cref="T:HarmonyLib.MethodType"/></param>
+ <param name="argumentTypes">An array of argument types to target overloads</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyPatch.#ctor(System.Type,HarmonyLib.MethodType,System.Type[],HarmonyLib.ArgumentType[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="declaringType">The declaring class/type</param>
+ <param name="methodType">The <see cref="T:HarmonyLib.MethodType"/></param>
+ <param name="argumentTypes">An array of argument types to target overloads</param>
+ <param name="argumentVariations">Array of <see cref="T:HarmonyLib.ArgumentType"/></param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyPatch.#ctor(System.Type,System.String,HarmonyLib.MethodType)">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="declaringType">The declaring class/type</param>
+ <param name="methodName">The name of the method, property or constructor to patch</param>
+ <param name="methodType">The <see cref="T:HarmonyLib.MethodType"/></param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyPatch.#ctor(System.String)">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="methodName">The name of the method, property or constructor to patch</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyPatch.#ctor(System.String,System.Type[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="methodName">The name of the method, property or constructor to patch</param>
+ <param name="argumentTypes">An array of argument types to target overloads</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyPatch.#ctor(System.String,System.Type[],HarmonyLib.ArgumentType[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="methodName">The name of the method, property or constructor to patch</param>
+ <param name="argumentTypes">An array of argument types to target overloads</param>
+ <param name="argumentVariations">An array of <see cref="T:HarmonyLib.ArgumentType"/></param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyPatch.#ctor(System.String,HarmonyLib.MethodType)">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="methodName">The name of the method, property or constructor to patch</param>
+ <param name="methodType">The <see cref="T:HarmonyLib.MethodType"/></param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyPatch.#ctor(HarmonyLib.MethodType)">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="methodType">The <see cref="T:HarmonyLib.MethodType"/></param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyPatch.#ctor(HarmonyLib.MethodType,System.Type[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="methodType">The <see cref="T:HarmonyLib.MethodType"/></param>
+ <param name="argumentTypes">An array of argument types to target overloads</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyPatch.#ctor(HarmonyLib.MethodType,System.Type[],HarmonyLib.ArgumentType[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="methodType">The <see cref="T:HarmonyLib.MethodType"/></param>
+ <param name="argumentTypes">An array of argument types to target overloads</param>
+ <param name="argumentVariations">An array of <see cref="T:HarmonyLib.ArgumentType"/></param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyPatch.#ctor(System.Type[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="argumentTypes">An array of argument types to target overloads</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyPatch.#ctor(System.Type[],HarmonyLib.ArgumentType[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="argumentTypes">An array of argument types to target overloads</param>
+ <param name="argumentVariations">An array of <see cref="T:HarmonyLib.ArgumentType"/></param>
+
+ </member>
+ <member name="T:HarmonyLib.HarmonyDelegate">
+ <summary>Annotation to define the original method for delegate injection</summary>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyDelegate.#ctor(System.Type)">
+ <summary>An annotation that specifies a class to patch</summary>
+ <param name="declaringType">The declaring class/type</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyDelegate.#ctor(System.Type,System.Type[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="declaringType">The declaring class/type</param>
+ <param name="argumentTypes">The argument types of the method or constructor to patch</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyDelegate.#ctor(System.Type,System.String)">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="declaringType">The declaring class/type</param>
+ <param name="methodName">The name of the method, property or constructor to patch</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyDelegate.#ctor(System.Type,System.String,System.Type[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="declaringType">The declaring class/type</param>
+ <param name="methodName">The name of the method, property or constructor to patch</param>
+ <param name="argumentTypes">An array of argument types to target overloads</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyDelegate.#ctor(System.Type,System.String,System.Type[],HarmonyLib.ArgumentType[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="declaringType">The declaring class/type</param>
+ <param name="methodName">The name of the method, property or constructor to patch</param>
+ <param name="argumentTypes">An array of argument types to target overloads</param>
+ <param name="argumentVariations">Array of <see cref="T:HarmonyLib.ArgumentType"/></param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyDelegate.#ctor(System.Type,HarmonyLib.MethodDispatchType)">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="declaringType">The declaring class/type</param>
+ <param name="methodDispatchType">The <see cref="T:HarmonyLib.MethodDispatchType"/></param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyDelegate.#ctor(System.Type,HarmonyLib.MethodDispatchType,System.Type[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="declaringType">The declaring class/type</param>
+ <param name="methodDispatchType">The <see cref="T:HarmonyLib.MethodDispatchType"/></param>
+ <param name="argumentTypes">An array of argument types to target overloads</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyDelegate.#ctor(System.Type,HarmonyLib.MethodDispatchType,System.Type[],HarmonyLib.ArgumentType[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="declaringType">The declaring class/type</param>
+ <param name="methodDispatchType">The <see cref="T:HarmonyLib.MethodDispatchType"/></param>
+ <param name="argumentTypes">An array of argument types to target overloads</param>
+ <param name="argumentVariations">Array of <see cref="T:HarmonyLib.ArgumentType"/></param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyDelegate.#ctor(System.Type,System.String,HarmonyLib.MethodDispatchType)">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="declaringType">The declaring class/type</param>
+ <param name="methodName">The name of the method, property or constructor to patch</param>
+ <param name="methodDispatchType">The <see cref="T:HarmonyLib.MethodDispatchType"/></param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyDelegate.#ctor(System.String)">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="methodName">The name of the method, property or constructor to patch</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyDelegate.#ctor(System.String,System.Type[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="methodName">The name of the method, property or constructor to patch</param>
+ <param name="argumentTypes">An array of argument types to target overloads</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyDelegate.#ctor(System.String,System.Type[],HarmonyLib.ArgumentType[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="methodName">The name of the method, property or constructor to patch</param>
+ <param name="argumentTypes">An array of argument types to target overloads</param>
+ <param name="argumentVariations">An array of <see cref="T:HarmonyLib.ArgumentType"/></param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyDelegate.#ctor(System.String,HarmonyLib.MethodDispatchType)">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="methodName">The name of the method, property or constructor to patch</param>
+ <param name="methodDispatchType">The <see cref="T:HarmonyLib.MethodDispatchType"/></param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyDelegate.#ctor(HarmonyLib.MethodDispatchType)">
+ <summary>An annotation that specifies call dispatching mechanics for the delegate</summary>
+ <param name="methodDispatchType">The <see cref="T:HarmonyLib.MethodDispatchType"/></param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyDelegate.#ctor(HarmonyLib.MethodDispatchType,System.Type[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="methodDispatchType">The <see cref="T:HarmonyLib.MethodDispatchType"/></param>
+ <param name="argumentTypes">An array of argument types to target overloads</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyDelegate.#ctor(HarmonyLib.MethodDispatchType,System.Type[],HarmonyLib.ArgumentType[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="methodDispatchType">The <see cref="T:HarmonyLib.MethodDispatchType"/></param>
+ <param name="argumentTypes">An array of argument types to target overloads</param>
+ <param name="argumentVariations">An array of <see cref="T:HarmonyLib.ArgumentType"/></param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyDelegate.#ctor(System.Type[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="argumentTypes">An array of argument types to target overloads</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyDelegate.#ctor(System.Type[],HarmonyLib.ArgumentType[])">
+ <summary>An annotation that specifies a method, property or constructor to patch</summary>
+ <param name="argumentTypes">An array of argument types to target overloads</param>
+ <param name="argumentVariations">An array of <see cref="T:HarmonyLib.ArgumentType"/></param>
+
+ </member>
+ <member name="T:HarmonyLib.HarmonyReversePatch">
+ <summary>Annotation to define your standin methods for reverse patching</summary>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyReversePatch.#ctor(HarmonyLib.HarmonyReversePatchType)">
+ <summary>An annotation that specifies the type of reverse patching</summary>
+ <param name="type">The <see cref="T:HarmonyLib.HarmonyReversePatchType"/> of the reverse patch</param>
+
+ </member>
+ <member name="T:HarmonyLib.HarmonyPatchAll">
+ <summary>A Harmony annotation to define that all methods in a class are to be patched</summary>
+
+ </member>
+ <member name="T:HarmonyLib.HarmonyPriority">
+ <summary>A Harmony annotation</summary>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyPriority.#ctor(System.Int32)">
+ <summary>A Harmony annotation to define patch priority</summary>
+ <param name="priority">The priority</param>
+
+ </member>
+ <member name="T:HarmonyLib.HarmonyBefore">
+ <summary>A Harmony annotation</summary>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyBefore.#ctor(System.String[])">
+ <summary>A Harmony annotation to define that a patch comes before another patch</summary>
+ <param name="before">The array of harmony IDs of the other patches</param>
+
+ </member>
+ <member name="T:HarmonyLib.HarmonyAfter">
+ <summary>A Harmony annotation</summary>
+ </member>
+ <member name="M:HarmonyLib.HarmonyAfter.#ctor(System.String[])">
+ <summary>A Harmony annotation to define that a patch comes after another patch</summary>
+ <param name="after">The array of harmony IDs of the other patches</param>
+
+ </member>
+ <member name="T:HarmonyLib.HarmonyDebug">
+ <summary>A Harmony annotation</summary>
+ </member>
+ <member name="M:HarmonyLib.HarmonyDebug.#ctor">
+ <summary>A Harmony annotation to debug a patch (output uses <see cref="T:HarmonyLib.FileLog"/> to log to your Desktop)</summary>
+
+ </member>
+ <member name="T:HarmonyLib.HarmonyPrepare">
+ <summary>Specifies the Prepare function in a patch class</summary>
+
+ </member>
+ <member name="T:HarmonyLib.HarmonyCleanup">
+ <summary>Specifies the Cleanup function in a patch class</summary>
+
+ </member>
+ <member name="T:HarmonyLib.HarmonyTargetMethod">
+ <summary>Specifies the TargetMethod function in a patch class</summary>
+
+ </member>
+ <member name="T:HarmonyLib.HarmonyTargetMethods">
+ <summary>Specifies the TargetMethods function in a patch class</summary>
+
+ </member>
+ <member name="T:HarmonyLib.HarmonyPrefix">
+ <summary>Specifies the Prefix function in a patch class</summary>
+
+ </member>
+ <member name="T:HarmonyLib.HarmonyPostfix">
+ <summary>Specifies the Postfix function in a patch class</summary>
+
+ </member>
+ <member name="T:HarmonyLib.HarmonyTranspiler">
+ <summary>Specifies the Transpiler function in a patch class</summary>
+
+ </member>
+ <member name="T:HarmonyLib.HarmonyFinalizer">
+ <summary>Specifies the Finalizer function in a patch class</summary>
+
+ </member>
+ <member name="T:HarmonyLib.HarmonyArgument">
+ <summary>A Harmony annotation</summary>
+
+ </member>
+ <member name="P:HarmonyLib.HarmonyArgument.OriginalName">
+ <summary>The name of the original argument</summary>
+
+ </member>
+ <member name="P:HarmonyLib.HarmonyArgument.Index">
+ <summary>The index of the original argument</summary>
+
+ </member>
+ <member name="P:HarmonyLib.HarmonyArgument.NewName">
+ <summary>The new name of the original argument</summary>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyArgument.#ctor(System.String)">
+ <summary>An annotation to declare injected arguments by name</summary>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyArgument.#ctor(System.Int32)">
+ <summary>An annotation to declare injected arguments by index</summary>
+ <param name="index">Zero-based index</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyArgument.#ctor(System.String,System.String)">
+ <summary>An annotation to declare injected arguments by renaming them</summary>
+ <param name="originalName">Name of the original argument</param>
+ <param name="newName">New name</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyArgument.#ctor(System.Int32,System.String)">
+ <summary>An annotation to declare injected arguments by index and renaming them</summary>
+ <param name="index">Zero-based index</param>
+ <param name="name">New name</param>
+
+ </member>
+ <member name="T:HarmonyLib.CodeInstruction">
+ <summary>An abstract wrapper around OpCode and their operands. Used by transpilers</summary>
+
+ </member>
+ <member name="F:HarmonyLib.CodeInstruction.opcode">
+ <summary>The opcode</summary>
+
+ </member>
+ <member name="F:HarmonyLib.CodeInstruction.operand">
+ <summary>The operand</summary>
+
+ </member>
+ <member name="F:HarmonyLib.CodeInstruction.labels">
+ <summary>All labels defined on this instruction</summary>
+
+ </member>
+ <member name="F:HarmonyLib.CodeInstruction.blocks">
+ <summary>All exception block boundaries defined on this instruction</summary>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstruction.#ctor(System.Reflection.Emit.OpCode,System.Object)">
+ <summary>Creates a new CodeInstruction with a given opcode and optional operand</summary>
+ <param name="opcode">The opcode</param>
+ <param name="operand">The operand</param>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstruction.#ctor(HarmonyLib.CodeInstruction)">
+ <summary>Create a full copy (including labels and exception blocks) of a CodeInstruction</summary>
+ <param name="instruction">The <see cref="T:HarmonyLib.CodeInstruction"/> to copy</param>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstruction.Clone">
+ <summary>Clones a CodeInstruction and resets its labels and exception blocks</summary>
+ <returns>A lightweight copy of this code instruction</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstruction.Clone(System.Reflection.Emit.OpCode)">
+ <summary>Clones a CodeInstruction, resets labels and exception blocks and sets its opcode</summary>
+ <param name="opcode">The opcode</param>
+ <returns>A copy of this CodeInstruction with a new opcode</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstruction.Clone(System.Object)">
+ <summary>Clones a CodeInstruction, resets labels and exception blocks and sets its operand</summary>
+ <param name="operand">The operand</param>
+ <returns>A copy of this CodeInstruction with a new operand</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstruction.Call(System.Type,System.String,System.Type[],System.Type[])">
+ <summary>Creates a CodeInstruction calling a method (CALL)</summary>
+ <param name="type">The class/type where the method is declared</param>
+ <param name="name">The name of the method (case sensitive)</param>
+ <param name="parameters">Optional parameters to target a specific overload of the method</param>
+ <param name="generics">Optional list of types that define the generic version of the method</param>
+ <returns>A code instruction that calls the method matching the arguments</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstruction.Call(System.String,System.Type[],System.Type[])">
+ <summary>Creates a CodeInstruction calling a method (CALL)</summary>
+ <param name="typeColonMethodname">The target method in the form <c>TypeFullName:MethodName</c>, where the type name matches a form recognized by <a href="https://docs.microsoft.com/en-us/dotnet/api/system.type.gettype">Type.GetType</a> like <c>Some.Namespace.Type</c>.</param>
+ <param name="parameters">Optional parameters to target a specific overload of the method</param>
+ <param name="generics">Optional list of types that define the generic version of the method</param>
+ <returns>A code instruction that calls the method matching the arguments</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstruction.Call(System.Linq.Expressions.Expression{System.Action})">
+ <summary>Creates a CodeInstruction calling a method (CALL)</summary>
+ <param name="expression">The lambda expression using the method</param>
+ <returns></returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstruction.Call``1(System.Linq.Expressions.Expression{System.Action{``0}})">
+ <summary>Creates a CodeInstruction calling a method (CALL)</summary>
+ <param name="expression">The lambda expression using the method</param>
+ <returns></returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstruction.Call``2(System.Linq.Expressions.Expression{System.Func{``0,``1}})">
+ <summary>Creates a CodeInstruction calling a method (CALL)</summary>
+ <param name="expression">The lambda expression using the method</param>
+ <returns></returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstruction.Call(System.Linq.Expressions.LambdaExpression)">
+ <summary>Creates a CodeInstruction calling a method (CALL)</summary>
+ <param name="expression">The lambda expression using the method</param>
+ <returns></returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstruction.LoadField(System.Type,System.String,System.Boolean)">
+ <summary>Creates a CodeInstruction loading a field (LD[S]FLD[A])</summary>
+ <param name="type">The class/type where the field is defined</param>
+ <param name="name">The name of the field (case sensitive)</param>
+ <param name="useAddress">Use address of field</param>
+ <returns></returns>
+ </member>
+ <member name="M:HarmonyLib.CodeInstruction.StoreField(System.Type,System.String)">
+ <summary>Creates a CodeInstruction storing to a field (ST[S]FLD)</summary>
+ <param name="type">The class/type where the field is defined</param>
+ <param name="name">The name of the field (case sensitive)</param>
+ <returns></returns>
+ </member>
+ <member name="M:HarmonyLib.CodeInstruction.ToString">
+ <summary>Returns a string representation of the code instruction</summary>
+ <returns>A string representation of the code instruction</returns>
+
+ </member>
+ <member name="T:HarmonyLib.ExceptionBlockType">
+ <summary>Exception block types</summary>
+
+ </member>
+ <member name="F:HarmonyLib.ExceptionBlockType.BeginExceptionBlock">
+ <summary>The beginning of an exception block</summary>
+
+ </member>
+ <member name="F:HarmonyLib.ExceptionBlockType.BeginCatchBlock">
+ <summary>The beginning of a catch block</summary>
+
+ </member>
+ <member name="F:HarmonyLib.ExceptionBlockType.BeginExceptFilterBlock">
+ <summary>The beginning of an except filter block</summary>
+
+ </member>
+ <member name="F:HarmonyLib.ExceptionBlockType.BeginFaultBlock">
+ <summary>The beginning of a fault block</summary>
+
+ </member>
+ <member name="F:HarmonyLib.ExceptionBlockType.BeginFinallyBlock">
+ <summary>The beginning of a finally block</summary>
+
+ </member>
+ <member name="F:HarmonyLib.ExceptionBlockType.EndExceptionBlock">
+ <summary>The end of an exception block</summary>
+
+ </member>
+ <member name="T:HarmonyLib.ExceptionBlock">
+ <summary>An exception block</summary>
+
+ </member>
+ <member name="F:HarmonyLib.ExceptionBlock.blockType">
+ <summary>Block type</summary>
+
+ </member>
+ <member name="F:HarmonyLib.ExceptionBlock.catchType">
+ <summary>Catch type</summary>
+
+ </member>
+ <member name="M:HarmonyLib.ExceptionBlock.#ctor(HarmonyLib.ExceptionBlockType,System.Type)">
+ <summary>Creates an exception block</summary>
+ <param name="blockType">The <see cref="T:HarmonyLib.ExceptionBlockType"/></param>
+ <param name="catchType">The catch type</param>
+
+ </member>
+ <member name="T:HarmonyLib.Harmony">
+ <summary>The Harmony instance is the main entry to Harmony. After creating one with an unique identifier, it is used to patch and query the current application domain</summary>
+
+ </member>
+ <member name="P:HarmonyLib.Harmony.Id">
+ <summary>The unique identifier</summary>
+
+ </member>
+ <member name="F:HarmonyLib.Harmony.DEBUG">
+ <summary>Set to true before instantiating Harmony to debug Harmony or use an environment variable to set HARMONY_DEBUG to '1' like this: cmd /C "set HARMONY_DEBUG=1 &amp;&amp; game.exe"</summary>
+ <remarks>This is for full debugging. To debug only specific patches, use the <see cref="T:HarmonyLib.HarmonyDebug"/> attribute</remarks>
+
+ </member>
+ <member name="M:HarmonyLib.Harmony.#ctor(System.String)">
+ <summary>Creates a new Harmony instance</summary>
+ <param name="id">A unique identifier (you choose your own)</param>
+ <returns>A Harmony instance</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Harmony.PatchAll">
+ <summary>Searches the current assembly for Harmony annotations and uses them to create patches</summary>
+ <remarks>This method can fail to use the correct assembly when being inlined. It calls StackTrace.GetFrame(1) which can point to the wrong method/assembly. If you are unsure or run into problems, use <code>PatchAll(Assembly.GetExecutingAssembly())</code> instead.</remarks>
+
+ </member>
+ <member name="M:HarmonyLib.Harmony.CreateProcessor(System.Reflection.MethodBase)">
+ <summary>Creates a empty patch processor for an original method</summary>
+ <param name="original">The original method/constructor</param>
+ <returns>A new <see cref="T:HarmonyLib.PatchProcessor"/> instance</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Harmony.CreateClassProcessor(System.Type)">
+ <summary>Creates a patch class processor from an annotated class</summary>
+ <param name="type">The class/type</param>
+ <returns>A new <see cref="T:HarmonyLib.PatchClassProcessor"/> instance</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Harmony.CreateReversePatcher(System.Reflection.MethodBase,HarmonyLib.HarmonyMethod)">
+ <summary>Creates a reverse patcher for one of your stub methods</summary>
+ <param name="original">The original method/constructor</param>
+ <param name="standin">The stand-in stub method as <see cref="T:HarmonyLib.HarmonyMethod"/></param>
+ <returns>A new <see cref="T:HarmonyLib.ReversePatcher"/> instance</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Harmony.PatchAll(System.Reflection.Assembly)">
+ <summary>Searches an assembly for Harmony annotations and uses them to create patches</summary>
+ <param name="assembly">The assembly</param>
+
+ </member>
+ <member name="M:HarmonyLib.Harmony.Patch(System.Reflection.MethodBase,HarmonyLib.HarmonyMethod,HarmonyLib.HarmonyMethod,HarmonyLib.HarmonyMethod,HarmonyLib.HarmonyMethod)">
+ <summary>Creates patches by manually specifying the methods</summary>
+ <param name="original">The original method/constructor</param>
+ <param name="prefix">An optional prefix method wrapped in a <see cref="T:HarmonyLib.HarmonyMethod"/> object</param>
+ <param name="postfix">An optional postfix method wrapped in a <see cref="T:HarmonyLib.HarmonyMethod"/> object</param>
+ <param name="transpiler">An optional transpiler method wrapped in a <see cref="T:HarmonyLib.HarmonyMethod"/> object</param>
+ <param name="finalizer">An optional finalizer method wrapped in a <see cref="T:HarmonyLib.HarmonyMethod"/> object</param>
+ <returns>The replacement method that was created to patch the original method</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Harmony.ReversePatch(System.Reflection.MethodBase,HarmonyLib.HarmonyMethod,System.Reflection.MethodInfo)">
+ <summary>Patches a foreign method onto a stub method of yours and optionally applies transpilers during the process</summary>
+ <param name="original">The original method/constructor you want to duplicate</param>
+ <param name="standin">Your stub method as <see cref="T:HarmonyLib.HarmonyMethod"/> that will become the original. Needs to have the correct signature (either original or whatever your transpilers generates)</param>
+ <param name="transpiler">An optional transpiler as method that will be applied during the process</param>
+ <returns>The replacement method that was created to patch the stub method</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Harmony.UnpatchAll(System.String)">
+ <summary>Unpatches methods by patching them with zero patches. Fully unpatching is not supported. Be careful, unpatching is global</summary>
+ <param name="harmonyID">The optional Harmony ID to restrict unpatching to a specific Harmony instance</param>
+ <remarks>This method could be static if it wasn't for the fact that unpatching creates a new replacement method that contains your harmony ID</remarks>
+
+ </member>
+ <member name="M:HarmonyLib.Harmony.Unpatch(System.Reflection.MethodBase,HarmonyLib.HarmonyPatchType,System.String)">
+ <summary>Unpatches a method by patching it with zero patches. Fully unpatching is not supported. Be careful, unpatching is global</summary>
+ <param name="original">The original method/constructor</param>
+ <param name="type">The <see cref="T:HarmonyLib.HarmonyPatchType"/></param>
+ <param name="harmonyID">The optional Harmony ID to restrict unpatching to a specific Harmony instance</param>
+
+ </member>
+ <member name="M:HarmonyLib.Harmony.Unpatch(System.Reflection.MethodBase,System.Reflection.MethodInfo)">
+ <summary>Unpatches a method by patching it with zero patches. Fully unpatching is not supported. Be careful, unpatching is global</summary>
+ <param name="original">The original method/constructor</param>
+ <param name="patch">The patch method as method to remove</param>
+
+ </member>
+ <member name="M:HarmonyLib.Harmony.HasAnyPatches(System.String)">
+ <summary>Test for patches from a specific Harmony ID</summary>
+ <param name="harmonyID">The Harmony ID</param>
+ <returns>True if patches for this ID exist</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Harmony.GetPatchInfo(System.Reflection.MethodBase)">
+ <summary>Gets patch information for a given original method</summary>
+ <param name="method">The original method/constructor</param>
+ <returns>The patch information as <see cref="T:HarmonyLib.Patches"/></returns>
+
+ </member>
+ <member name="M:HarmonyLib.Harmony.GetPatchedMethods">
+ <summary>Gets the methods this instance has patched</summary>
+ <returns>An enumeration of original methods/constructors</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Harmony.GetAllPatchedMethods">
+ <summary>Gets all patched original methods in the appdomain</summary>
+ <returns>An enumeration of patched original methods/constructors</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Harmony.GetOriginalMethod(System.Reflection.MethodInfo)">
+ <summary>Gets the original method from a given replacement method</summary>
+ <param name="replacement">A replacement method, for example from a stacktrace</param>
+ <returns>The original method/constructor or <c>null</c> if not found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Harmony.GetMethodFromStackframe(System.Diagnostics.StackFrame)">
+ <summary>Tries to get the method from a stackframe including dynamic replacement methods</summary>
+ <param name="frame">The <see cref="T:System.Diagnostics.StackFrame"/></param>
+ <returns>For normal frames, <c>frame.GetMethod()</c> is returned. For frames containing patched methods, the replacement method is returned or <c>null</c> if no method can be found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Harmony.VersionInfo(System.Version@)">
+ <summary>Gets Harmony version for all active Harmony instances</summary>
+ <param name="currentVersion">[out] The current Harmony version</param>
+ <returns>A dictionary containing assembly versions keyed by Harmony IDs</returns>
+
+ </member>
+ <member name="T:HarmonyLib.HarmonyException">
+ <summary>Under Mono, HarmonyException wraps IL compile errors with detailed information about the failure</summary>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyException.#ctor(System.Runtime.Serialization.SerializationInfo,System.Runtime.Serialization.StreamingContext)">
+ <summary>Default serialization constructor (not implemented)</summary>
+ <param name="serializationInfo">The info</param>
+ <param name="streamingContext">The context</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyException.GetInstructionsWithOffsets">
+ <summary>Get a list of IL instructions in pairs of offset+code</summary>
+ <returns>A list of key/value pairs which represent an offset and the code at that offset</returns>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyException.GetInstructions">
+ <summary>Get a list of IL instructions without offsets</summary>
+ <returns>A list of <see cref="T:HarmonyLib.CodeInstruction"/></returns>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyException.GetErrorOffset">
+ <summary>Get the error offset of the errornous IL instruction</summary>
+ <returns>The offset</returns>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyException.GetErrorIndex">
+ <summary>Get the index of the errornous IL instruction</summary>
+ <returns>The index into the list of instructions or -1 if not found</returns>
+
+ </member>
+ <member name="T:HarmonyLib.HarmonyMethod">
+ <summary>A wrapper around a method to use it as a patch (for example a Prefix)</summary>
+
+ </member>
+ <member name="F:HarmonyLib.HarmonyMethod.method">
+ <summary>The original method</summary>
+
+ </member>
+ <member name="F:HarmonyLib.HarmonyMethod.declaringType">
+ <summary>Class/type declaring this patch</summary>
+
+ </member>
+ <member name="F:HarmonyLib.HarmonyMethod.methodName">
+ <summary>Patch method name</summary>
+
+ </member>
+ <member name="F:HarmonyLib.HarmonyMethod.methodType">
+ <summary>Optional patch <see cref="T:HarmonyLib.MethodType"/></summary>
+
+ </member>
+ <member name="F:HarmonyLib.HarmonyMethod.argumentTypes">
+ <summary>Array of argument types of the patch method</summary>
+
+ </member>
+ <member name="F:HarmonyLib.HarmonyMethod.priority">
+ <summary><see cref="T:HarmonyLib.Priority"/> of the patch</summary>
+
+ </member>
+ <member name="F:HarmonyLib.HarmonyMethod.before">
+ <summary>Install this patch before patches with these Harmony IDs</summary>
+
+ </member>
+ <member name="F:HarmonyLib.HarmonyMethod.after">
+ <summary>Install this patch after patches with these Harmony IDs</summary>
+
+ </member>
+ <member name="F:HarmonyLib.HarmonyMethod.reversePatchType">
+ <summary>Reverse patch type, see <see cref="T:HarmonyLib.HarmonyReversePatchType"/></summary>
+
+ </member>
+ <member name="F:HarmonyLib.HarmonyMethod.debug">
+ <summary>Create debug output for this patch</summary>
+
+ </member>
+ <member name="F:HarmonyLib.HarmonyMethod.nonVirtualDelegate">
+ <summary>Whether to use <see cref="F:HarmonyLib.MethodDispatchType.Call"/> (<c>true</c>) or <see cref="F:HarmonyLib.MethodDispatchType.VirtualCall"/> (<c>false</c>) mechanics
+ for <see cref="T:HarmonyLib.HarmonyDelegate"/>-attributed delegate</summary>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyMethod.#ctor">
+ <summary>Default constructor</summary>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyMethod.#ctor(System.Reflection.MethodInfo)">
+ <summary>Creates a patch from a given method</summary>
+ <param name="method">The original method</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyMethod.#ctor(System.Reflection.MethodInfo,System.Int32,System.String[],System.String[],System.Nullable{System.Boolean})">
+ <summary>Creates a patch from a given method</summary>
+ <param name="method">The original method</param>
+ <param name="priority">The patch <see cref="T:HarmonyLib.Priority"/></param>
+ <param name="before">A list of harmony IDs that should come after this patch</param>
+ <param name="after">A list of harmony IDs that should come before this patch</param>
+ <param name="debug">Set to true to generate debug output</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyMethod.#ctor(System.Type,System.String,System.Type[])">
+ <summary>Creates a patch from a given method</summary>
+ <param name="methodType">The patch class/type</param>
+ <param name="methodName">The patch method name</param>
+ <param name="argumentTypes">The optional argument types of the patch method (for overloaded methods)</param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyMethod.HarmonyFields">
+ <summary>Gets the names of all internal patch info fields</summary>
+ <returns>A list of field names</returns>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyMethod.Merge(System.Collections.Generic.List{HarmonyLib.HarmonyMethod})">
+ <summary>Merges annotations</summary>
+ <param name="attributes">The list of <see cref="T:HarmonyLib.HarmonyMethod"/> to merge</param>
+ <returns>The merged <see cref="T:HarmonyLib.HarmonyMethod"/></returns>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyMethod.ToString">
+ <summary>Returns a string that represents the annotation</summary>
+ <returns>A string representation</returns>
+
+ </member>
+ <member name="T:HarmonyLib.HarmonyMethodExtensions">
+ <summary>Annotation extensions</summary>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyMethodExtensions.CopyTo(HarmonyLib.HarmonyMethod,HarmonyLib.HarmonyMethod)">
+ <summary>Copies annotation information</summary>
+ <param name="from">The source <see cref="T:HarmonyLib.HarmonyMethod"/></param>
+ <param name="to">The destination <see cref="T:HarmonyLib.HarmonyMethod"/></param>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyMethodExtensions.Clone(HarmonyLib.HarmonyMethod)">
+ <summary>Clones an annotation</summary>
+ <param name="original">The <see cref="T:HarmonyLib.HarmonyMethod"/> to clone</param>
+ <returns>A copied <see cref="T:HarmonyLib.HarmonyMethod"/></returns>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyMethodExtensions.Merge(HarmonyLib.HarmonyMethod,HarmonyLib.HarmonyMethod)">
+ <summary>Merges annotations</summary>
+ <param name="master">The master <see cref="T:HarmonyLib.HarmonyMethod"/></param>
+ <param name="detail">The detail <see cref="T:HarmonyLib.HarmonyMethod"/></param>
+ <returns>A new, merged <see cref="T:HarmonyLib.HarmonyMethod"/></returns>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyMethodExtensions.GetFromType(System.Type)">
+ <summary>Gets all annotations on a class/type</summary>
+ <param name="type">The class/type</param>
+ <returns>A list of all <see cref="T:HarmonyLib.HarmonyMethod"/></returns>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyMethodExtensions.GetMergedFromType(System.Type)">
+ <summary>Gets merged annotations on a class/type</summary>
+ <param name="type">The class/type</param>
+ <returns>The merged <see cref="T:HarmonyLib.HarmonyMethod"/></returns>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyMethodExtensions.GetFromMethod(System.Reflection.MethodBase)">
+ <summary>Gets all annotations on a method</summary>
+ <param name="method">The method/constructor</param>
+ <returns>A list of <see cref="T:HarmonyLib.HarmonyMethod"/></returns>
+
+ </member>
+ <member name="M:HarmonyLib.HarmonyMethodExtensions.GetMergedFromMethod(System.Reflection.MethodBase)">
+ <summary>Gets merged annotations on a method</summary>
+ <param name="method">The method/constructor</param>
+ <returns>The merged <see cref="T:HarmonyLib.HarmonyMethod"/></returns>
+
+ </member>
+ <member name="T:HarmonyLib.InlineSignature">
+ <summary>
+ A mutable representation of an inline signature, similar to Mono.Cecil's CallSite.
+ Used by the calli instruction, can be used by transpilers
+ </summary>
+
+ </member>
+ <member name="P:HarmonyLib.InlineSignature.HasThis">
+ <summary>See <see cref="F:System.Reflection.CallingConventions.HasThis"/></summary>
+
+ </member>
+ <member name="P:HarmonyLib.InlineSignature.ExplicitThis">
+ <summary>See <see cref="F:System.Reflection.CallingConventions.ExplicitThis"/></summary>
+
+ </member>
+ <member name="P:HarmonyLib.InlineSignature.CallingConvention">
+ <summary>See <see cref="T:System.Runtime.InteropServices.CallingConvention"/></summary>
+
+ </member>
+ <member name="P:HarmonyLib.InlineSignature.Parameters">
+ <summary>The list of all parameter types or function pointer signatures received by the call site</summary>
+
+ </member>
+ <member name="P:HarmonyLib.InlineSignature.ReturnType">
+ <summary>The return type or function pointer signature returned by the call site</summary>
+
+ </member>
+ <member name="M:HarmonyLib.InlineSignature.ToString">
+ <summary>Returns a string representation of the inline signature</summary>
+ <returns>A string representation of the inline signature</returns>
+
+ </member>
+ <member name="T:HarmonyLib.InlineSignature.ModifierType">
+ <summary>
+ A mutable representation of a parameter type with an attached type modifier,
+ similar to Mono.Cecil's OptionalModifierType / RequiredModifierType and C#'s modopt / modreq
+ </summary>
+
+ </member>
+ <member name="F:HarmonyLib.InlineSignature.ModifierType.IsOptional">
+ <summary>Whether this is a modopt (optional modifier type) or a modreq (required modifier type)</summary>
+
+ </member>
+ <member name="F:HarmonyLib.InlineSignature.ModifierType.Modifier">
+ <summary>The modifier type attached to the parameter type</summary>
+
+ </member>
+ <member name="F:HarmonyLib.InlineSignature.ModifierType.Type">
+ <summary>The modified parameter type</summary>
+
+ </member>
+ <member name="M:HarmonyLib.InlineSignature.ModifierType.ToString">
+ <summary>Returns a string representation of the modifier type</summary>
+ <returns>A string representation of the modifier type</returns>
+
+ </member>
+ <member name="T:HarmonyLib.PatchInfoSerialization">
+ <summary>Patch serialization</summary>
+
+ </member>
+ <member name="M:HarmonyLib.PatchInfoSerialization.Binder.BindToType(System.String,System.String)">
+ <summary>Control the binding of a serialized object to a type</summary>
+ <param name="assemblyName">Specifies the assembly name of the serialized object</param>
+ <param name="typeName">Specifies the type name of the serialized object</param>
+ <returns>The type of the object the formatter creates a new instance of</returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchInfoSerialization.Serialize(HarmonyLib.PatchInfo)">
+ <summary>Serializes a patch info</summary>
+ <param name="patchInfo">The <see cref="T:HarmonyLib.PatchInfo"/></param>
+ <returns>The serialized data</returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchInfoSerialization.Deserialize(System.Byte[])">
+ <summary>Deserialize a patch info</summary>
+ <param name="bytes">The serialized data</param>
+ <returns>A <see cref="T:HarmonyLib.PatchInfo"/></returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchInfoSerialization.PriorityComparer(System.Object,System.Int32,System.Int32)">
+ <summary>Compare function to sort patch priorities</summary>
+ <param name="obj">The patch</param>
+ <param name="index">Zero-based index</param>
+ <param name="priority">The priority</param>
+ <returns>A standard sort integer (-1, 0, 1)</returns>
+
+ </member>
+ <member name="T:HarmonyLib.PatchInfo">
+ <summary>Serializable patch information</summary>
+
+ </member>
+ <member name="F:HarmonyLib.PatchInfo.prefixes">
+ <summary>Prefixes as an array of <see cref="T:HarmonyLib.Patch"/></summary>
+
+ </member>
+ <member name="F:HarmonyLib.PatchInfo.postfixes">
+ <summary>Postfixes as an array of <see cref="T:HarmonyLib.Patch"/></summary>
+
+ </member>
+ <member name="F:HarmonyLib.PatchInfo.transpilers">
+ <summary>Transpilers as an array of <see cref="T:HarmonyLib.Patch"/></summary>
+
+ </member>
+ <member name="F:HarmonyLib.PatchInfo.finalizers">
+ <summary>Finalizers as an array of <see cref="T:HarmonyLib.Patch"/></summary>
+
+ </member>
+ <member name="P:HarmonyLib.PatchInfo.Debugging">
+ <summary>Returns if any of the patches wants debugging turned on</summary>
+
+ </member>
+ <member name="M:HarmonyLib.PatchInfo.AddPrefixes(System.String,HarmonyLib.HarmonyMethod[])">
+ <summary>Adds prefixes</summary>
+ <param name="owner">An owner (Harmony ID)</param>
+ <param name="methods">The patch methods</param>
+
+ </member>
+ <member name="M:HarmonyLib.PatchInfo.AddPrefix(System.Reflection.MethodInfo,System.String,System.Int32,System.String[],System.String[],System.Boolean)">
+ <summary>Adds a prefix</summary>
+ </member>
+ <member name="M:HarmonyLib.PatchInfo.RemovePrefix(System.String)">
+ <summary>Removes prefixes</summary>
+ <param name="owner">The owner of the prefixes, or <c>*</c> for all</param>
+
+ </member>
+ <member name="M:HarmonyLib.PatchInfo.AddPostfixes(System.String,HarmonyLib.HarmonyMethod[])">
+ <summary>Adds postfixes</summary>
+ <param name="owner">An owner (Harmony ID)</param>
+ <param name="methods">The patch methods</param>
+
+ </member>
+ <member name="M:HarmonyLib.PatchInfo.AddPostfix(System.Reflection.MethodInfo,System.String,System.Int32,System.String[],System.String[],System.Boolean)">
+ <summary>Adds a postfix</summary>
+ </member>
+ <member name="M:HarmonyLib.PatchInfo.RemovePostfix(System.String)">
+ <summary>Removes postfixes</summary>
+ <param name="owner">The owner of the postfixes, or <c>*</c> for all</param>
+
+ </member>
+ <member name="M:HarmonyLib.PatchInfo.AddTranspilers(System.String,HarmonyLib.HarmonyMethod[])">
+ <summary>Adds transpilers</summary>
+ <param name="owner">An owner (Harmony ID)</param>
+ <param name="methods">The patch methods</param>
+
+ </member>
+ <member name="M:HarmonyLib.PatchInfo.AddTranspiler(System.Reflection.MethodInfo,System.String,System.Int32,System.String[],System.String[],System.Boolean)">
+ <summary>Adds a transpiler</summary>
+ </member>
+ <member name="M:HarmonyLib.PatchInfo.RemoveTranspiler(System.String)">
+ <summary>Removes transpilers</summary>
+ <param name="owner">The owner of the transpilers, or <c>*</c> for all</param>
+
+ </member>
+ <member name="M:HarmonyLib.PatchInfo.AddFinalizers(System.String,HarmonyLib.HarmonyMethod[])">
+ <summary>Adds finalizers</summary>
+ <param name="owner">An owner (Harmony ID)</param>
+ <param name="methods">The patch methods</param>
+
+ </member>
+ <member name="M:HarmonyLib.PatchInfo.AddFinalizer(System.Reflection.MethodInfo,System.String,System.Int32,System.String[],System.String[],System.Boolean)">
+ <summary>Adds a finalizer</summary>
+ </member>
+ <member name="M:HarmonyLib.PatchInfo.RemoveFinalizer(System.String)">
+ <summary>Removes finalizers</summary>
+ <param name="owner">The owner of the finalizers, or <c>*</c> for all</param>
+
+ </member>
+ <member name="M:HarmonyLib.PatchInfo.RemovePatch(System.Reflection.MethodInfo)">
+ <summary>Removes a patch using its method</summary>
+ <param name="patch">The method of the patch to remove</param>
+
+ </member>
+ <member name="M:HarmonyLib.PatchInfo.Add(System.String,HarmonyLib.HarmonyMethod[],HarmonyLib.Patch[])">
+ <summary>Gets a concatenated list of patches</summary>
+ <param name="owner">The Harmony instance ID adding the new patches</param>
+ <param name="add">The patches to add</param>
+ <param name="current">The current patches</param>
+
+ </member>
+ <member name="M:HarmonyLib.PatchInfo.Remove(System.String,HarmonyLib.Patch[])">
+ <summary>Gets a list of patches with any from the given owner removed</summary>
+ <param name="owner">The owner of the methods, or <c>*</c> for all</param>
+ <param name="current">The current patches</param>
+
+ </member>
+ <member name="T:HarmonyLib.Patch">
+ <summary>A serializable patch</summary>
+
+ </member>
+ <member name="F:HarmonyLib.Patch.index">
+ <summary>Zero-based index</summary>
+
+ </member>
+ <member name="F:HarmonyLib.Patch.owner">
+ <summary>The owner (Harmony ID)</summary>
+
+ </member>
+ <member name="F:HarmonyLib.Patch.priority">
+ <summary>The priority, see <see cref="T:HarmonyLib.Priority"/></summary>
+
+ </member>
+ <member name="F:HarmonyLib.Patch.before">
+ <summary>Keep this patch before the patches indicated in the list of Harmony IDs</summary>
+
+ </member>
+ <member name="F:HarmonyLib.Patch.after">
+ <summary>Keep this patch after the patches indicated in the list of Harmony IDs</summary>
+
+ </member>
+ <member name="F:HarmonyLib.Patch.debug">
+ <summary>A flag that will log the replacement method via <see cref="T:HarmonyLib.FileLog"/> every time this patch is used to build the replacement, even in the future</summary>
+
+ </member>
+ <member name="P:HarmonyLib.Patch.PatchMethod">
+ <summary>The method of the static patch method</summary>
+
+ </member>
+ <member name="M:HarmonyLib.Patch.#ctor(System.Reflection.MethodInfo,System.Int32,System.String,System.Int32,System.String[],System.String[],System.Boolean)">
+ <summary>Creates a patch</summary>
+ <param name="patch">The method of the patch</param>
+ <param name="index">Zero-based index</param>
+ <param name="owner">An owner (Harmony ID)</param>
+ <param name="priority">The priority, see <see cref="T:HarmonyLib.Priority"/></param>
+ <param name="before">A list of Harmony IDs for patches that should run after this patch</param>
+ <param name="after">A list of Harmony IDs for patches that should run before this patch</param>
+ <param name="debug">A flag that will log the replacement method via <see cref="T:HarmonyLib.FileLog"/> every time this patch is used to build the replacement, even in the future</param>
+
+ </member>
+ <member name="M:HarmonyLib.Patch.#ctor(HarmonyLib.HarmonyMethod,System.Int32,System.String)">
+ <summary>Creates a patch</summary>
+ <param name="method">The method of the patch</param>
+ <param name="index">Zero-based index</param>
+ <param name="owner">An owner (Harmony ID)</param>
+ </member>
+ <member name="M:HarmonyLib.Patch.GetMethod(System.Reflection.MethodBase)">
+ <summary>Get the patch method or a DynamicMethod if original patch method is a patch factory</summary>
+ <param name="original">The original method/constructor</param>
+ <returns>The method of the patch</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Patch.Equals(System.Object)">
+ <summary>Determines whether patches are equal</summary>
+ <param name="obj">The other patch</param>
+ <returns>true if equal</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Patch.CompareTo(System.Object)">
+ <summary>Determines how patches sort</summary>
+ <param name="obj">The other patch</param>
+ <returns>integer to define sort order (-1, 0, 1)</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Patch.GetHashCode">
+ <summary>Hash function</summary>
+ <returns>A hash code</returns>
+
+ </member>
+ <member name="T:HarmonyLib.PatchClassProcessor">
+ <summary>A PatchClassProcessor used to turn <see cref="T:HarmonyLib.HarmonyAttribute"/> on a class/type into patches</summary>
+
+ </member>
+ <member name="M:HarmonyLib.PatchClassProcessor.#ctor(HarmonyLib.Harmony,System.Type)">
+ <summary>Creates a patch class processor by pointing out a class. Similar to PatchAll() but without searching through all classes.</summary>
+ <param name="instance">The Harmony instance</param>
+ <param name="type">The class to process (need to have at least a [HarmonyPatch] attribute)</param>
+
+ </member>
+ <member name="M:HarmonyLib.PatchClassProcessor.Patch">
+ <summary>Applies the patches</summary>
+ <returns>A list of all created replacement methods or null if patch class is not annotated</returns>
+
+ </member>
+ <member name="T:HarmonyLib.Patches">
+ <summary>A group of patches</summary>
+
+ </member>
+ <member name="F:HarmonyLib.Patches.Prefixes">
+ <summary>A collection of prefix <see cref="T:HarmonyLib.Patch"/></summary>
+
+ </member>
+ <member name="F:HarmonyLib.Patches.Postfixes">
+ <summary>A collection of postfix <see cref="T:HarmonyLib.Patch"/></summary>
+
+ </member>
+ <member name="F:HarmonyLib.Patches.Transpilers">
+ <summary>A collection of transpiler <see cref="T:HarmonyLib.Patch"/></summary>
+
+ </member>
+ <member name="F:HarmonyLib.Patches.Finalizers">
+ <summary>A collection of finalizer <see cref="T:HarmonyLib.Patch"/></summary>
+
+ </member>
+ <member name="P:HarmonyLib.Patches.Owners">
+ <summary>Gets all owners (Harmony IDs) or all known patches</summary>
+ <value>The patch owners</value>
+
+ </member>
+ <member name="M:HarmonyLib.Patches.#ctor(HarmonyLib.Patch[],HarmonyLib.Patch[],HarmonyLib.Patch[],HarmonyLib.Patch[])">
+ <summary>Creates a group of patches</summary>
+ <param name="prefixes">An array of prefixes as <see cref="T:HarmonyLib.Patch"/></param>
+ <param name="postfixes">An array of postfixes as <see cref="T:HarmonyLib.Patch"/></param>
+ <param name="transpilers">An array of transpileres as <see cref="T:HarmonyLib.Patch"/></param>
+ <param name="finalizers">An array of finalizeres as <see cref="T:HarmonyLib.Patch"/></param>
+
+ </member>
+ <member name="T:HarmonyLib.PatchProcessor">
+ <summary>A PatchProcessor handles patches on a method/constructor</summary>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.#ctor(HarmonyLib.Harmony,System.Reflection.MethodBase)">
+ <summary>Creates an empty patch processor</summary>
+ <param name="instance">The Harmony instance</param>
+ <param name="original">The original method/constructor</param>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.AddPrefix(HarmonyLib.HarmonyMethod)">
+ <summary>Adds a prefix</summary>
+ <param name="prefix">The prefix as a <see cref="T:HarmonyLib.HarmonyMethod"/></param>
+ <returns>A <see cref="T:HarmonyLib.PatchProcessor"/> for chaining calls</returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.AddPrefix(System.Reflection.MethodInfo)">
+ <summary>Adds a prefix</summary>
+ <param name="fixMethod">The prefix method</param>
+ <returns>A <see cref="T:HarmonyLib.PatchProcessor"/> for chaining calls</returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.AddPostfix(HarmonyLib.HarmonyMethod)">
+ <summary>Adds a postfix</summary>
+ <param name="postfix">The postfix as a <see cref="T:HarmonyLib.HarmonyMethod"/></param>
+ <returns>A <see cref="T:HarmonyLib.PatchProcessor"/> for chaining calls</returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.AddPostfix(System.Reflection.MethodInfo)">
+ <summary>Adds a postfix</summary>
+ <param name="fixMethod">The postfix method</param>
+ <returns>A <see cref="T:HarmonyLib.PatchProcessor"/> for chaining calls</returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.AddTranspiler(HarmonyLib.HarmonyMethod)">
+ <summary>Adds a transpiler</summary>
+ <param name="transpiler">The transpiler as a <see cref="T:HarmonyLib.HarmonyMethod"/></param>
+ <returns>A <see cref="T:HarmonyLib.PatchProcessor"/> for chaining calls</returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.AddTranspiler(System.Reflection.MethodInfo)">
+ <summary>Adds a transpiler</summary>
+ <param name="fixMethod">The transpiler method</param>
+ <returns>A <see cref="T:HarmonyLib.PatchProcessor"/> for chaining calls</returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.AddFinalizer(HarmonyLib.HarmonyMethod)">
+ <summary>Adds a finalizer</summary>
+ <param name="finalizer">The finalizer as a <see cref="T:HarmonyLib.HarmonyMethod"/></param>
+ <returns>A <see cref="T:HarmonyLib.PatchProcessor"/> for chaining calls</returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.AddFinalizer(System.Reflection.MethodInfo)">
+ <summary>Adds a finalizer</summary>
+ <param name="fixMethod">The finalizer method</param>
+ <returns>A <see cref="T:HarmonyLib.PatchProcessor"/> for chaining calls</returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.GetAllPatchedMethods">
+ <summary>Gets all patched original methods in the appdomain</summary>
+ <returns>An enumeration of patched method/constructor</returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.Patch">
+ <summary>Applies all registered patches</summary>
+ <returns>The generated replacement method</returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.Unpatch(HarmonyLib.HarmonyPatchType,System.String)">
+ <summary>Unpatches patches of a given type and/or Harmony ID</summary>
+ <param name="type">The <see cref="T:HarmonyLib.HarmonyPatchType"/> patch type</param>
+ <param name="harmonyID">Harmony ID or <c>*</c> for any</param>
+ <returns>A <see cref="T:HarmonyLib.PatchProcessor"/> for chaining calls</returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.Unpatch(System.Reflection.MethodInfo)">
+ <summary>Unpatches a specific patch</summary>
+ <param name="patch">The method of the patch</param>
+ <returns>A <see cref="T:HarmonyLib.PatchProcessor"/> for chaining calls</returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.GetPatchInfo(System.Reflection.MethodBase)">
+ <summary>Gets patch information on an original</summary>
+ <param name="method">The original method/constructor</param>
+ <returns>The patch information as <see cref="T:HarmonyLib.Patches"/></returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.GetSortedPatchMethods(System.Reflection.MethodBase,HarmonyLib.Patch[])">
+ <summary>Sort patch methods by their priority rules</summary>
+ <param name="original">The original method</param>
+ <param name="patches">Patches to sort</param>
+ <returns>The sorted patch methods</returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.VersionInfo(System.Version@)">
+ <summary>Gets Harmony version for all active Harmony instances</summary>
+ <param name="currentVersion">[out] The current Harmony version</param>
+ <returns>A dictionary containing assembly version keyed by Harmony ID</returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.CreateILGenerator">
+ <summary>Creates a new empty <see cref="T:System.Reflection.Emit.ILGenerator">generator</see> to use when reading method bodies</summary>
+ <returns>A new <see cref="T:System.Reflection.Emit.ILGenerator"/></returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.CreateILGenerator(System.Reflection.MethodBase)">
+ <summary>Creates a new <see cref="T:System.Reflection.Emit.ILGenerator">generator</see> matching the method/constructor to use when reading method bodies</summary>
+ <param name="original">The original method/constructor to copy method information from</param>
+ <returns>A new <see cref="T:System.Reflection.Emit.ILGenerator"/></returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.GetOriginalInstructions(System.Reflection.MethodBase,System.Reflection.Emit.ILGenerator)">
+ <summary>Returns the methods unmodified list of code instructions</summary>
+ <param name="original">The original method/constructor</param>
+ <param name="generator">Optionally an existing generator that will be used to create all local variables and labels contained in the result (if not specified, an internal generator is used)</param>
+ <returns>A list containing all the original <see cref="T:HarmonyLib.CodeInstruction"/></returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.GetOriginalInstructions(System.Reflection.MethodBase,System.Reflection.Emit.ILGenerator@)">
+ <summary>Returns the methods unmodified list of code instructions</summary>
+ <param name="original">The original method/constructor</param>
+ <param name="generator">A new generator that now contains all local variables and labels contained in the result</param>
+ <returns>A list containing all the original <see cref="T:HarmonyLib.CodeInstruction"/></returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.GetCurrentInstructions(System.Reflection.MethodBase,System.Int32,System.Reflection.Emit.ILGenerator)">
+ <summary>Returns the methods current list of code instructions after all existing transpilers have been applied</summary>
+ <param name="original">The original method/constructor</param>
+ <param name="maxTranspilers">Apply only the first count of transpilers</param>
+ <param name="generator">Optionally an existing generator that will be used to create all local variables and labels contained in the result (if not specified, an internal generator is used)</param>
+ <returns>A list of <see cref="T:HarmonyLib.CodeInstruction"/></returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.GetCurrentInstructions(System.Reflection.MethodBase,System.Reflection.Emit.ILGenerator@,System.Int32)">
+ <summary>Returns the methods current list of code instructions after all existing transpilers have been applied</summary>
+ <param name="original">The original method/constructor</param>
+ <param name="generator">A new generator that now contains all local variables and labels contained in the result</param>
+ <param name="maxTranspilers">Apply only the first count of transpilers</param>
+ <returns>A list of <see cref="T:HarmonyLib.CodeInstruction"/></returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.ReadMethodBody(System.Reflection.MethodBase)">
+ <summary>A low level way to read the body of a method. Used for quick searching in methods</summary>
+ <param name="method">The original method</param>
+ <returns>All instructions as opcode/operand pairs</returns>
+
+ </member>
+ <member name="M:HarmonyLib.PatchProcessor.ReadMethodBody(System.Reflection.MethodBase,System.Reflection.Emit.ILGenerator)">
+ <summary>A low level way to read the body of a method. Used for quick searching in methods</summary>
+ <param name="method">The original method</param>
+ <param name="generator">An existing generator that will be used to create all local variables and labels contained in the result</param>
+ <returns>All instructions as opcode/operand pairs</returns>
+
+ </member>
+ <member name="T:HarmonyLib.Priority">
+ <summary>A patch priority</summary>
+
+ </member>
+ <member name="F:HarmonyLib.Priority.Last">
+ <summary>Patch last</summary>
+
+ </member>
+ <member name="F:HarmonyLib.Priority.VeryLow">
+ <summary>Patch with very low priority</summary>
+
+ </member>
+ <member name="F:HarmonyLib.Priority.Low">
+ <summary>Patch with low priority</summary>
+
+ </member>
+ <member name="F:HarmonyLib.Priority.LowerThanNormal">
+ <summary>Patch with lower than normal priority</summary>
+
+ </member>
+ <member name="F:HarmonyLib.Priority.Normal">
+ <summary>Patch with normal priority</summary>
+
+ </member>
+ <member name="F:HarmonyLib.Priority.HigherThanNormal">
+ <summary>Patch with higher than normal priority</summary>
+
+ </member>
+ <member name="F:HarmonyLib.Priority.High">
+ <summary>Patch with high priority</summary>
+
+ </member>
+ <member name="F:HarmonyLib.Priority.VeryHigh">
+ <summary>Patch with very high priority</summary>
+
+ </member>
+ <member name="F:HarmonyLib.Priority.First">
+ <summary>Patch first</summary>
+
+ </member>
+ <member name="T:HarmonyLib.ReversePatcher">
+ <summary>A reverse patcher</summary>
+
+ </member>
+ <member name="M:HarmonyLib.ReversePatcher.#ctor(HarmonyLib.Harmony,System.Reflection.MethodBase,HarmonyLib.HarmonyMethod)">
+ <summary>Creates a reverse patcher</summary>
+ <param name="instance">The Harmony instance</param>
+ <param name="original">The original method/constructor</param>
+ <param name="standin">Your stand-in stub method as <see cref="T:HarmonyLib.HarmonyMethod"/></param>
+
+ </member>
+ <member name="M:HarmonyLib.ReversePatcher.Patch(HarmonyLib.HarmonyReversePatchType)">
+ <summary>Applies the patch</summary>
+ <param name="type">The type of patch, see <see cref="T:HarmonyLib.HarmonyReversePatchType"/></param>
+ <returns>The generated replacement method</returns>
+
+ </member>
+ <member name="T:HarmonyLib.Transpilers">
+ <summary>A collection of commonly used transpilers</summary>
+
+ </member>
+ <member name="M:HarmonyLib.Transpilers.MethodReplacer(System.Collections.Generic.IEnumerable{HarmonyLib.CodeInstruction},System.Reflection.MethodBase,System.Reflection.MethodBase)">
+ <summary>A transpiler that replaces all occurrences of a given method with another one using the same signature</summary>
+ <param name="instructions">The enumeration of <see cref="T:HarmonyLib.CodeInstruction"/> to act on</param>
+ <param name="from">Method or constructor to search for</param>
+ <param name="to">Method or constructor to replace with</param>
+ <returns>Modified enumeration of <see cref="T:HarmonyLib.CodeInstruction"/></returns>
+
+ </member>
+ <member name="M:HarmonyLib.Transpilers.Manipulator(System.Collections.Generic.IEnumerable{HarmonyLib.CodeInstruction},System.Func{HarmonyLib.CodeInstruction,System.Boolean},System.Action{HarmonyLib.CodeInstruction})">
+ <summary>A transpiler that alters instructions that match a predicate by calling an action</summary>
+ <param name="instructions">The enumeration of <see cref="T:HarmonyLib.CodeInstruction"/> to act on</param>
+ <param name="predicate">A predicate selecting the instructions to change</param>
+ <param name="action">An action to apply to matching instructions</param>
+ <returns>Modified enumeration of <see cref="T:HarmonyLib.CodeInstruction"/></returns>
+
+ </member>
+ <member name="M:HarmonyLib.Transpilers.DebugLogger(System.Collections.Generic.IEnumerable{HarmonyLib.CodeInstruction},System.String)">
+ <summary>A transpiler that logs a text at the beginning of the method</summary>
+ <param name="instructions">The instructions to act on</param>
+ <param name="text">The log text</param>
+ <returns>Modified enumeration of <see cref="T:HarmonyLib.CodeInstruction"/></returns>
+
+ </member>
+ <member name="T:HarmonyLib.AccessTools">
+ <summary>A helper class for reflection related functions</summary>
+
+ </member>
+ <member name="F:HarmonyLib.AccessTools.all">
+ <summary>Shortcut for <see cref="T:System.Reflection.BindingFlags"/> to simplify the use of reflections and make it work for any access level</summary>
+
+ </member>
+ <member name="F:HarmonyLib.AccessTools.allDeclared">
+ <summary>Shortcut for <see cref="T:System.Reflection.BindingFlags"/> to simplify the use of reflections and make it work for any access level but only within the current type</summary>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.AllAssemblies">
+ <summary>Enumerates all assemblies in the current app domain, excluding visual studio assemblies</summary>
+ <returns>An enumeration of <see cref="T:System.Reflection.Assembly"/></returns>
+ </member>
+ <member name="M:HarmonyLib.AccessTools.TypeByName(System.String)">
+ <summary>Gets a type by name. Prefers a full name with namespace but falls back to the first type matching the name otherwise</summary>
+ <param name="name">The name</param>
+ <returns>A type or null if not found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.GetTypesFromAssembly(System.Reflection.Assembly)">
+ <summary>Gets all successfully loaded types from a given assembly</summary>
+ <param name="assembly">The assembly</param>
+ <returns>An array of types</returns>
+ <remarks>
+ This calls and returns <see cref="M:System.Reflection.Assembly.GetTypes"/>, while catching any thrown <see cref="T:System.Reflection.ReflectionTypeLoadException"/>.
+ If such an exception is thrown, returns the successfully loaded types (<see cref="P:System.Reflection.ReflectionTypeLoadException.Types"/>,
+ filtered for non-null values).
+ </remarks>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.AllTypes">
+ <summary>Enumerates all successfully loaded types in the current app domain, excluding visual studio assemblies</summary>
+ <returns>An enumeration of all <see cref="T:System.Type"/> in all assemblies, excluding visual studio assemblies</returns>
+ </member>
+ <member name="M:HarmonyLib.AccessTools.FindIncludingBaseTypes``1(System.Type,System.Func{System.Type,``0})">
+ <summary>Applies a function going up the type hierarchy and stops at the first non-<c>null</c> result</summary>
+ <typeparam name="T">Result type of func()</typeparam>
+ <param name="type">The class/type to start with</param>
+ <param name="func">The evaluation function returning T</param>
+ <returns>The first non-<c>null</c> result, or <c>null</c> if no match</returns>
+ <remarks>
+ The type hierarchy of a class or value type (including struct) does NOT include implemented interfaces,
+ and the type hierarchy of an interface is only itself (regardless of whether that interface implements other interfaces).
+ The top-most type in the type hierarchy of all non-interface types (including value types) is <see cref="T:System.Object"/>.
+ </remarks>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.FindIncludingInnerTypes``1(System.Type,System.Func{System.Type,``0})">
+ <summary>Applies a function going into inner types and stops at the first non-<c>null</c> result</summary>
+ <typeparam name="T">Generic type parameter</typeparam>
+ <param name="type">The class/type to start with</param>
+ <param name="func">The evaluation function returning T</param>
+ <returns>The first non-<c>null</c> result, or <c>null</c> if no match</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.DeclaredField(System.Type,System.String)">
+ <summary>Gets the reflection information for a directly declared field</summary>
+ <param name="type">The class/type where the field is defined</param>
+ <param name="name">The name of the field</param>
+ <returns>A field or null when type/name is null or when the field cannot be found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.Field(System.Type,System.String)">
+ <summary>Gets the reflection information for a field by searching the type and all its super types</summary>
+ <param name="type">The class/type where the field is defined</param>
+ <param name="name">The name of the field (case sensitive)</param>
+ <returns>A field or null when type/name is null or when the field cannot be found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.DeclaredField(System.Type,System.Int32)">
+ <summary>Gets the reflection information for a field</summary>
+ <param name="type">The class/type where the field is declared</param>
+ <param name="idx">The zero-based index of the field inside the class definition</param>
+ <returns>A field or null when type is null or when the field cannot be found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.DeclaredProperty(System.Type,System.String)">
+ <summary>Gets the reflection information for a directly declared property</summary>
+ <param name="type">The class/type where the property is declared</param>
+ <param name="name">The name of the property (case sensitive)</param>
+ <returns>A property or null when type/name is null or when the property cannot be found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.DeclaredPropertyGetter(System.Type,System.String)">
+ <summary>Gets the reflection information for the getter method of a directly declared property</summary>
+ <param name="type">The class/type where the property is declared</param>
+ <param name="name">The name of the property (case sensitive)</param>
+ <returns>A method or null when type/name is null or when the property cannot be found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.DeclaredPropertySetter(System.Type,System.String)">
+ <summary>Gets the reflection information for the setter method of a directly declared property</summary>
+ <param name="type">The class/type where the property is declared</param>
+ <param name="name">The name of the property (case sensitive)</param>
+ <returns>A method or null when type/name is null or when the property cannot be found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.Property(System.Type,System.String)">
+ <summary>Gets the reflection information for a property by searching the type and all its super types</summary>
+ <param name="type">The class/type</param>
+ <param name="name">The name</param>
+ <returns>A property or null when type/name is null or when the property cannot be found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.PropertyGetter(System.Type,System.String)">
+ <summary>Gets the reflection information for the getter method of a property by searching the type and all its super types</summary>
+ <param name="type">The class/type</param>
+ <param name="name">The name</param>
+ <returns>A method or null when type/name is null or when the property cannot be found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.PropertySetter(System.Type,System.String)">
+ <summary>Gets the reflection information for the setter method of a property by searching the type and all its super types</summary>
+ <param name="type">The class/type</param>
+ <param name="name">The name</param>
+ <returns>A method or null when type/name is null or when the property cannot be found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.DeclaredMethod(System.Type,System.String,System.Type[],System.Type[])">
+ <summary>Gets the reflection information for a directly declared method</summary>
+ <param name="type">The class/type where the method is declared</param>
+ <param name="name">The name of the method (case sensitive)</param>
+ <param name="parameters">Optional parameters to target a specific overload of the method</param>
+ <param name="generics">Optional list of types that define the generic version of the method</param>
+ <returns>A method or null when type/name is null or when the method cannot be found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.Method(System.Type,System.String,System.Type[],System.Type[])">
+ <summary>Gets the reflection information for a method by searching the type and all its super types</summary>
+ <param name="type">The class/type where the method is declared</param>
+ <param name="name">The name of the method (case sensitive)</param>
+ <param name="parameters">Optional parameters to target a specific overload of the method</param>
+ <param name="generics">Optional list of types that define the generic version of the method</param>
+ <returns>A method or null when type/name is null or when the method cannot be found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.Method(System.String,System.Type[],System.Type[])">
+ <summary>Gets the reflection information for a method by searching the type and all its super types</summary>
+ <param name="typeColonMethodname">The target method in the form <c>TypeFullName:MethodName</c>, where the type name matches a form recognized by <a href="https://docs.microsoft.com/en-us/dotnet/api/system.type.gettype">Type.GetType</a> like <c>Some.Namespace.Type</c>.</param>
+ <param name="parameters">Optional parameters to target a specific overload of the method</param>
+ <param name="generics">Optional list of types that define the generic version of the method</param>
+ <returns>A method or null when type/name is null or when the method cannot be found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.GetMethodNames(System.Type)">
+ <summary>Gets the names of all method that are declared in a type</summary>
+ <param name="type">The declaring class/type</param>
+ <returns>A list of method names</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.GetMethodNames(System.Object)">
+ <summary>Gets the names of all method that are declared in the type of the instance</summary>
+ <param name="instance">An instance of the type to search in</param>
+ <returns>A list of method names</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.GetFieldNames(System.Type)">
+ <summary>Gets the names of all fields that are declared in a type</summary>
+ <param name="type">The declaring class/type</param>
+ <returns>A list of field names</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.GetFieldNames(System.Object)">
+ <summary>Gets the names of all fields that are declared in the type of the instance</summary>
+ <param name="instance">An instance of the type to search in</param>
+ <returns>A list of field names</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.GetPropertyNames(System.Type)">
+ <summary>Gets the names of all properties that are declared in a type</summary>
+ <param name="type">The declaring class/type</param>
+ <returns>A list of property names</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.GetPropertyNames(System.Object)">
+ <summary>Gets the names of all properties that are declared in the type of the instance</summary>
+ <param name="instance">An instance of the type to search in</param>
+ <returns>A list of property names</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.GetUnderlyingType(System.Reflection.MemberInfo)">
+ <summary>Gets the type of any class member of</summary>
+ <param name="member">A member</param>
+ <returns>The class/type of this member</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.IsDeclaredMember``1(``0)">
+ <summary>Test if a class member is actually an concrete implementation</summary>
+ <param name="member">A member</param>
+ <returns>True if the member is a declared</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.GetDeclaredMember``1(``0)">
+ <summary>Gets the real implementation of a class member</summary>
+ <param name="member">A member</param>
+ <returns>The member itself if its declared. Otherwise the member that is actually implemented in some base type</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.DeclaredConstructor(System.Type,System.Type[],System.Boolean)">
+ <summary>Gets the reflection information for a directly declared constructor</summary>
+ <param name="type">The class/type where the constructor is declared</param>
+ <param name="parameters">Optional parameters to target a specific overload of the constructor</param>
+ <param name="searchForStatic">Optional parameters to only consider static constructors</param>
+ <returns>A constructor info or null when type is null or when the constructor cannot be found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.Constructor(System.Type,System.Type[],System.Boolean)">
+ <summary>Gets the reflection information for a constructor by searching the type and all its super types</summary>
+ <param name="type">The class/type where the constructor is declared</param>
+ <param name="parameters">Optional parameters to target a specific overload of the method</param>
+ <param name="searchForStatic">Optional parameters to only consider static constructors</param>
+ <returns>A constructor info or null when type is null or when the method cannot be found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.GetDeclaredConstructors(System.Type,System.Nullable{System.Boolean})">
+ <summary>Gets reflection information for all declared constructors</summary>
+ <param name="type">The class/type where the constructors are declared</param>
+ <param name="searchForStatic">Optional parameters to only consider static constructors</param>
+ <returns>A list of constructor infos</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.GetDeclaredMethods(System.Type)">
+ <summary>Gets reflection information for all declared methods</summary>
+ <param name="type">The class/type where the methods are declared</param>
+ <returns>A list of methods</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.GetDeclaredProperties(System.Type)">
+ <summary>Gets reflection information for all declared properties</summary>
+ <param name="type">The class/type where the properties are declared</param>
+ <returns>A list of properties</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.GetDeclaredFields(System.Type)">
+ <summary>Gets reflection information for all declared fields</summary>
+ <param name="type">The class/type where the fields are declared</param>
+ <returns>A list of fields</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.GetReturnedType(System.Reflection.MethodBase)">
+ <summary>Gets the return type of a method or constructor</summary>
+ <param name="methodOrConstructor">The method/constructor</param>
+ <returns>The return type</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.Inner(System.Type,System.String)">
+ <summary>Given a type, returns the first inner type matching a recursive search by name</summary>
+ <param name="type">The class/type to start searching at</param>
+ <param name="name">The name of the inner type (case sensitive)</param>
+ <returns>The inner type or null if type/name is null or if a type with that name cannot be found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.FirstInner(System.Type,System.Func{System.Type,System.Boolean})">
+ <summary>Given a type, returns the first inner type matching a recursive search with a predicate</summary>
+ <param name="type">The class/type to start searching at</param>
+ <param name="predicate">The predicate to search with</param>
+ <returns>The inner type or null if type/predicate is null or if a type with that name cannot be found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.FirstMethod(System.Type,System.Func{System.Reflection.MethodInfo,System.Boolean})">
+ <summary>Given a type, returns the first method matching a predicate</summary>
+ <param name="type">The class/type to start searching at</param>
+ <param name="predicate">The predicate to search with</param>
+ <returns>The method or null if type/predicate is null or if a type with that name cannot be found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.FirstConstructor(System.Type,System.Func{System.Reflection.ConstructorInfo,System.Boolean})">
+ <summary>Given a type, returns the first constructor matching a predicate</summary>
+ <param name="type">The class/type to start searching at</param>
+ <param name="predicate">The predicate to search with</param>
+ <returns>The constructor info or null if type/predicate is null or if a type with that name cannot be found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.FirstProperty(System.Type,System.Func{System.Reflection.PropertyInfo,System.Boolean})">
+ <summary>Given a type, returns the first property matching a predicate</summary>
+ <param name="type">The class/type to start searching at</param>
+ <param name="predicate">The predicate to search with</param>
+ <returns>The property or null if type/predicate is null or if a type with that name cannot be found</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.GetTypes(System.Object[])">
+ <summary>Returns an array containing the type of each object in the given array</summary>
+ <param name="parameters">An array of objects</param>
+ <returns>An array of types or an empty array if parameters is null (if an object is null, the type for it will be object)</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.ActualParameters(System.Reflection.MethodBase,System.Object[])">
+ <summary>Creates an array of input parameters for a given method and a given set of potential inputs</summary>
+ <param name="method">The method/constructor you are planing to call</param>
+ <param name="inputs"> The possible input parameters in any order</param>
+ <returns>An object array matching the method signature</returns>
+
+ </member>
+ <member name="T:HarmonyLib.AccessTools.FieldRef`2">
+ <summary>A readable/assignable reference delegate to an instance field of a class or static field (NOT an instance field of a struct)</summary>
+ <typeparam name="T">
+ An arbitrary type if the field is static; otherwise the class that defines the field, or a parent class (including <see cref="T:System.Object"/>),
+ implemented interface, or derived class of this type
+ </typeparam>
+ <typeparam name="F">
+ The type of the field; or if the field's type is a reference type (a class or interface, NOT a struct or other value type),
+ a type that <see cref="M:System.Type.IsAssignableFrom(System.Type)">is assignable from</see> that type; or if the field's type is an enum type,
+ either that type or the underlying integral type of that enum type
+ </typeparam>
+ <param name="instance">The runtime instance to access the field (ignored and can be omitted for static fields)</param>
+ <returns>A readable/assignable reference to the field</returns>
+ <exception cref="T:System.NullReferenceException">Null instance passed to a non-static field ref delegate</exception>
+ <exception cref="T:System.InvalidCastException">
+ Instance of invalid type passed to a non-static field ref delegate
+ (this can happen if <typeparamref name="T"/> is a parent class or interface of the field's declaring type)
+ </exception>
+ <remarks>
+ <para>
+ This delegate cannot be used for instance fields of structs, since a struct instance passed to the delegate would be passed by
+ value and thus would be a copy that only exists within the delegate's invocation. This is fine for a readonly reference,
+ but makes assignment futile. Use <see cref="T:HarmonyLib.AccessTools.StructFieldRef`2"/> instead.
+ </para>
+ <para>
+ Note that <typeparamref name="T"/> is not required to be the field's declaring type. It can be a parent class (including <see cref="T:System.Object"/>),
+ implemented interface, or a derived class of the field's declaring type ("<c>instanceOfT is FieldDeclaringType</c>" must be possible).
+ Specifically, <typeparamref name="F"/> must be <see cref="M:System.Type.IsAssignableFrom(System.Type)">assignable from</see> OR to the field's declaring type.
+ Technically, this allows <c>Nullable</c>, although <c>Nullable</c> is only relevant for structs, and since only static fields of structs
+ are allowed for this delegate, and the instance passed to such a delegate is ignored, this hardly matters.
+ </para>
+ <para>
+ Similarly, <typeparamref name="F"/> is not required to be the field's field type, unless that type is a non-enum value type.
+ It can be a parent class (including <c>object</c>) or implemented interface of the field's field type. It cannot be a derived class.
+ This variance is not allowed for value types, since that would require boxing/unboxing, which is not allowed for ref values.
+ Special case for enum types: <typeparamref name="F"/> can also be the underlying integral type of the enum type.
+ Specifically, for reference types, <typeparamref name="F"/> must be <see cref="M:System.Type.IsAssignableFrom(System.Type)">assignable from</see>
+ the field's field type; for non-enum value types, <typeparamref name="F"/> must be exactly the field's field type; for enum types,
+ <typeparamref name="F"/> must be either the field's field type or the underyling integral type of that field type.
+ </para>
+ <para>
+ This delegate supports static fields, even those defined in structs, for legacy reasons.
+ For such static fields, <typeparamref name="T"/> is effectively ignored.
+ Consider using <see cref="T:HarmonyLib.AccessTools.FieldRef`1"/> (and <c>StaticFieldRefAccess</c> methods that return it) instead for static fields.
+ </para>
+ </remarks>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.FieldRefAccess``2(System.String)">
+ <summary>Creates a field reference delegate for an instance field of a class</summary>
+ <typeparam name="T">The class that defines the instance field, or derived class of this type</typeparam>
+ <typeparam name="F">
+ The type of the field; or if the field's type is a reference type (a class or interface, NOT a struct or other value type),
+ a type that <see cref="M:System.Type.IsAssignableFrom(System.Type)">is assignable from</see> that type; or if the field's type is an enum type,
+ either that type or the underlying integral type of that enum type
+ </typeparam>
+ <param name="fieldName">The name of the field</param>
+ <returns>A readable/assignable <see cref="T:HarmonyLib.AccessTools.FieldRef`2"/> delegate</returns>
+ <remarks>
+ <para>
+ For backwards compatibility, there is no class constraint on <typeparamref name="T"/>.
+ Instead, the non-value-type check is done at runtime within the method.
+ </para>
+ </remarks>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.FieldRefAccess``2(``0,System.String)">
+ <summary>Creates an instance field reference for a specific instance of a class</summary>
+ <typeparam name="T">The class that defines the instance field, or derived class of this type</typeparam>
+ <typeparam name="F">
+ The type of the field; or if the field's type is a reference type (a class or interface, NOT a struct or other value type),
+ a type that <see cref="M:System.Type.IsAssignableFrom(System.Type)">is assignable from</see> that type; or if the field's type is an enum type,
+ either that type or the underlying integral type of that enum type
+ </typeparam>
+ <param name="instance">The instance</param>
+ <param name="fieldName">The name of the field</param>
+ <returns>A readable/assignable reference to the field</returns>
+ <remarks>
+ <para>
+ This method is meant for one-off access to a field's value for a single instance.
+ If you need to access a field's value for potentially multiple instances, use <see cref="M:HarmonyLib.AccessTools.FieldRefAccess``2(System.String)"/> instead.
+ <c>FieldRefAccess&lt;T, F&gt;(instance, fieldName)</c> is functionally equivalent to <c>FieldRefAccess&lt;T, F&gt;(fieldName)(instance)</c>.
+ </para>
+ <para>
+ For backwards compatibility, there is no class constraint on <typeparamref name="T"/>.
+ Instead, the non-value-type check is done at runtime within the method.
+ </para>
+ </remarks>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.FieldRefAccess``1(System.Type,System.String)">
+ <summary>Creates a field reference delegate for an instance field of a class or static field (NOT an instance field of a struct)</summary>
+ <typeparam name="F">
+ The type of the field; or if the field's type is a reference type (a class or interface, NOT a struct or other value type),
+ a type that <see cref="M:System.Type.IsAssignableFrom(System.Type)">is assignable from</see> that type; or if the field's type is an enum type,
+ either that type or the underlying integral type of that enum type
+ </typeparam>
+ <param name="type">
+ The type that defines the field, or derived class of this type; must not be a struct type unless the field is static
+ </param>
+ <param name="fieldName">The name of the field</param>
+ <returns>
+ A readable/assignable <see cref="T:HarmonyLib.AccessTools.FieldRef`2"/> delegate with <c>T=object</c>
+ (for static fields, the <c>instance</c> delegate parameter is ignored)
+ </returns>
+ <remarks>
+ <para>
+ This method is meant for cases where the given type is only known at runtime and thus can't be used as a type parameter <c>T</c>
+ in e.g. <see cref="M:HarmonyLib.AccessTools.FieldRefAccess``2(System.String)"/>.
+ </para>
+ <para>
+ This method supports static fields, even those defined in structs, for legacy reasons.
+ Consider using <see cref="M:HarmonyLib.AccessTools.StaticFieldRefAccess``1(System.Type,System.String)"/> (and other overloads) instead for static fields.
+ </para>
+ </remarks>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.FieldRefAccess``2(System.Reflection.FieldInfo)">
+ <summary>Creates a field reference delegate for an instance field of a class or static field (NOT an instance field of a struct)</summary>
+ <typeparam name="T">
+ An arbitrary type if the field is static; otherwise the class that defines the field, or a parent class (including <see cref="T:System.Object"/>),
+ implemented interface, or derived class of this type ("<c>instanceOfT is FieldDeclaringType</c>" must be possible)
+ </typeparam>
+ <typeparam name="F">
+ The type of the field; or if the field's type is a reference type (a class or interface, NOT a struct or other value type),
+ a type that <see cref="M:System.Type.IsAssignableFrom(System.Type)">is assignable from</see> that type; or if the field's type is an enum type,
+ either that type or the underlying integral type of that enum type
+ </typeparam>
+ <param name="fieldInfo">The field</param>
+ <returns>A readable/assignable <see cref="T:HarmonyLib.AccessTools.FieldRef`2"/> delegate</returns>
+ <remarks>
+ <para>
+ This method is meant for cases where the field has already been obtained, avoiding the field searching cost in
+ e.g. <see cref="M:HarmonyLib.AccessTools.FieldRefAccess``2(System.String)"/>.
+ </para>
+ <para>
+ This method supports static fields, even those defined in structs, for legacy reasons.
+ For such static fields, <typeparamref name="T"/> is effectively ignored.
+ Consider using <see cref="M:HarmonyLib.AccessTools.StaticFieldRefAccess``2(System.Reflection.FieldInfo)"/> (and other overloads) instead for static fields.
+ </para>
+ <para>
+ For backwards compatibility, there is no class constraint on <typeparamref name="T"/>.
+ Instead, the non-value-type check is done at runtime within the method.
+ </para>
+ </remarks>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.FieldRefAccess``2(``0,System.Reflection.FieldInfo)">
+ <summary>Creates a field reference for an instance field of a class</summary>
+ <typeparam name="T">
+ The type that defines the field; or a parent class (including <see cref="T:System.Object"/>), implemented interface, or derived class of this type
+ ("<c>instanceOfT is FieldDeclaringType</c>" must be possible)
+ </typeparam>
+ <typeparam name="F">
+ The type of the field; or if the field's type is a reference type (a class or interface, NOT a struct or other value type),
+ a type that <see cref="M:System.Type.IsAssignableFrom(System.Type)">is assignable from</see> that type; or if the field's type is an enum type,
+ either that type or the underlying integral type of that enum type
+ </typeparam>
+ <param name="instance">The instance</param>
+ <param name="fieldInfo">The field</param>
+ <returns>A readable/assignable reference to the field</returns>
+ <remarks>
+ <para>
+ This method is meant for one-off access to a field's value for a single instance and where the field has already been obtained.
+ If you need to access a field's value for potentially multiple instances, use <see cref="M:HarmonyLib.AccessTools.FieldRefAccess``2(System.Reflection.FieldInfo)"/> instead.
+ <c>FieldRefAccess&lt;T, F&gt;(instance, fieldInfo)</c> is functionally equivalent to <c>FieldRefAccess&lt;T, F&gt;(fieldInfo)(instance)</c>.
+ </para>
+ <para>
+ For backwards compatibility, there is no class constraint on <typeparamref name="T"/>.
+ Instead, the non-value-type check is done at runtime within the method.
+ </para>
+ </remarks>
+
+ </member>
+ <member name="T:HarmonyLib.AccessTools.StructFieldRef`2">
+ <summary>A readable/assignable reference delegate to an instance field of a struct</summary>
+ <typeparam name="T">The struct that defines the instance field</typeparam>
+ <typeparam name="F">
+ The type of the field; or if the field's type is a reference type (a class or interface, NOT a struct or other value type),
+ a type that <see cref="M:System.Type.IsAssignableFrom(System.Type)">is assignable from</see> that type; or if the field's type is an enum type,
+ either that type or the underlying integral type of that enum type
+ </typeparam>
+ <param name="instance">A reference to the runtime instance to access the field</param>
+ <returns>A readable/assignable reference to the field</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.StructFieldRefAccess``2(System.String)">
+ <summary>Creates a field reference delegate for an instance field of a struct</summary>
+ <typeparam name="T">The struct that defines the instance field</typeparam>
+ <typeparam name="F">
+ The type of the field; or if the field's type is a reference type (a class or interface, NOT a struct or other value type),
+ a type that <see cref="M:System.Type.IsAssignableFrom(System.Type)">is assignable from</see> that type; or if the field's type is an enum type,
+ either that type or the underlying integral type of that enum type
+ </typeparam>
+ <param name="fieldName">The name of the field</param>
+ <returns>A readable/assignable <see cref="T:HarmonyLib.AccessTools.StructFieldRef`2"/> delegate</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.StructFieldRefAccess``2(``0@,System.String)">
+ <summary>Creates an instance field reference for a specific instance of a struct</summary>
+ <typeparam name="T">The struct that defines the instance field</typeparam>
+ <typeparam name="F">
+ The type of the field; or if the field's type is a reference type (a class or interface, NOT a struct or other value type),
+ a type that <see cref="M:System.Type.IsAssignableFrom(System.Type)">is assignable from</see> that type; or if the field's type is an enum type,
+ either that type or the underlying integral type of that enum type
+ </typeparam>
+ <param name="instance">The instance</param>
+ <param name="fieldName">The name of the field</param>
+ <returns>A readable/assignable reference to the field</returns>
+ <remarks>
+ <para>
+ This method is meant for one-off access to a field's value for a single instance.
+ If you need to access a field's value for potentially multiple instances, use <see cref="M:HarmonyLib.AccessTools.StructFieldRefAccess``2(System.String)"/> instead.
+ <c>StructFieldRefAccess&lt;T, F&gt;(ref instance, fieldName)</c> is functionally equivalent to <c>StructFieldRefAccess&lt;T, F&gt;(fieldName)(ref instance)</c>.
+ </para>
+ </remarks>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.StructFieldRefAccess``2(System.Reflection.FieldInfo)">
+ <summary>Creates a field reference delegate for an instance field of a struct</summary>
+ <typeparam name="T">The struct that defines the instance field</typeparam>
+ <typeparam name="F">
+ The type of the field; or if the field's type is a reference type (a class or interface, NOT a struct or other value type),
+ a type that <see cref="M:System.Type.IsAssignableFrom(System.Type)">is assignable from</see> that type; or if the field's type is an enum type,
+ either that type or the underlying integral type of that enum type
+ </typeparam>
+ <param name="fieldInfo">The field</param>
+ <returns>A readable/assignable <see cref="T:HarmonyLib.AccessTools.StructFieldRef`2"/> delegate</returns>
+ <remarks>
+ <para>
+ This method is meant for cases where the field has already been obtained, avoiding the field searching cost in
+ e.g. <see cref="M:HarmonyLib.AccessTools.StructFieldRefAccess``2(System.String)"/>.
+ </para>
+ </remarks>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.StructFieldRefAccess``2(``0@,System.Reflection.FieldInfo)">
+ <summary>Creates a field reference for an instance field of a struct</summary>
+ <typeparam name="T">The struct that defines the instance field</typeparam>
+ <typeparam name="F">
+ The type of the field; or if the field's type is a reference type (a class or interface, NOT a struct or other value type),
+ a type that <see cref="M:System.Type.IsAssignableFrom(System.Type)">is assignable from</see> that type; or if the field's type is an enum type,
+ either that type or the underlying integral type of that enum type
+ </typeparam>
+ <param name="instance">The instance</param>
+ <param name="fieldInfo">The field</param>
+ <returns>A readable/assignable reference to the field</returns>
+ <remarks>
+ <para>
+ This method is meant for one-off access to a field's value for a single instance and where the field has already been obtained.
+ If you need to access a field's value for potentially multiple instances, use <see cref="M:HarmonyLib.AccessTools.StructFieldRefAccess``2(System.Reflection.FieldInfo)"/> instead.
+ <c>StructFieldRefAccess&lt;T, F&gt;(ref instance, fieldInfo)</c> is functionally equivalent to <c>StructFieldRefAccess&lt;T, F&gt;(fieldInfo)(ref instance)</c>.
+ </para>
+ </remarks>
+
+ </member>
+ <member name="T:HarmonyLib.AccessTools.FieldRef`1">
+ <summary>A readable/assignable reference delegate to a static field</summary>
+ <typeparam name="F">
+ The type of the field; or if the field's type is a reference type (a class or interface, NOT a struct or other value type),
+ a type that <see cref="M:System.Type.IsAssignableFrom(System.Type)">is assignable from</see> that type; or if the field's type is an enum type,
+ either that type or the underlying integral type of that enum type
+ </typeparam>
+ <returns>A readable/assignable reference to the field</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.StaticFieldRefAccess``2(System.String)">
+ <summary>Creates a static field reference</summary>
+ <typeparam name="T">The type (can be class or struct) the field is defined in</typeparam>
+ <typeparam name="F">
+ The type of the field; or if the field's type is a reference type (a class or interface, NOT a struct or other value type),
+ a type that <see cref="M:System.Type.IsAssignableFrom(System.Type)">is assignable from</see> that type; or if the field's type is an enum type,
+ either that type or the underlying integral type of that enum type
+ </typeparam>
+ <param name="fieldName">The name of the field</param>
+ <returns>A readable/assignable reference to the field</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.StaticFieldRefAccess``1(System.Type,System.String)">
+ <summary>Creates a static field reference</summary>
+ <typeparam name="F">
+ The type of the field; or if the field's type is a reference type (a class or interface, NOT a struct or other value type),
+ a type that <see cref="M:System.Type.IsAssignableFrom(System.Type)">is assignable from</see> that type; or if the field's type is an enum type,
+ either that type or the underlying integral type of that enum type
+ </typeparam>
+ <param name="type">The type (can be class or struct) the field is defined in</param>
+ <param name="fieldName">The name of the field</param>
+ <returns>A readable/assignable reference to the field</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.StaticFieldRefAccess``2(System.Reflection.FieldInfo)">
+ <summary>Creates a static field reference</summary>
+ <typeparam name="T">An arbitrary type (by convention, the type the field is defined in)</typeparam>
+ <typeparam name="F">
+ The type of the field; or if the field's type is a reference type (a class or interface, NOT a struct or other value type),
+ a type that <see cref="M:System.Type.IsAssignableFrom(System.Type)">is assignable from</see> that type; or if the field's type is an enum type,
+ either that type or the underlying integral type of that enum type
+ </typeparam>
+ <param name="fieldInfo">The field</param>
+ <returns>A readable/assignable reference to the field</returns>
+ <remarks>
+ The type parameter <typeparamref name="T"/> is only used in exception messaging and to distinguish between this method overload
+ and the <see cref="M:HarmonyLib.AccessTools.StaticFieldRefAccess``1(System.Reflection.FieldInfo)"/> overload (which returns a <see cref="T:HarmonyLib.AccessTools.FieldRef`1"/> rather than a reference).
+ </remarks>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.StaticFieldRefAccess``1(System.Reflection.FieldInfo)">
+ <summary>Creates a static field reference delegate</summary>
+ <typeparam name="F">
+ The type of the field; or if the field's type is a reference type (a class or interface, NOT a struct or other value type),
+ a type that <see cref="M:System.Type.IsAssignableFrom(System.Type)">is assignable from</see> that type; or if the field's type is an enum type,
+ either that type or the underlying integral type of that enum type
+ </typeparam>
+ <param name="fieldInfo">The field</param>
+ <returns>A readable/assignable <see cref="T:HarmonyLib.AccessTools.FieldRef`1"/> delegate</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.MethodDelegate``1(System.Reflection.MethodInfo,System.Object,System.Boolean)">
+ <summary>Creates a delegate to a given method</summary>
+ <typeparam name="DelegateType">The delegate Type</typeparam>
+ <param name="method">The method to create a delegate from.</param>
+ <param name="instance">
+ Only applies for instance methods. If <c>null</c> (default), returned delegate is an open (a.k.a. unbound) instance delegate
+ where an instance is supplied as the first argument to the delegate invocation; else, delegate is a closed (a.k.a. bound)
+ instance delegate where the delegate invocation always applies to the given <paramref name="instance"/>.
+ </param>
+ <param name="virtualCall">
+ Only applies for instance methods. If <c>true</c> (default) and <paramref name="method"/> is virtual, invocation of the delegate
+ calls the instance method virtually (the instance type's most-derived/overriden implementation of the method is called);
+ else, invocation of the delegate calls the exact specified <paramref name="method"/> (this is useful for calling base class methods)
+ Note: if <c>false</c> and <paramref name="method"/> is an interface method, an ArgumentException is thrown.
+ </param>
+ <returns>A delegate of given <typeparamref name="DelegateType"/> to given <paramref name="method"/></returns>
+ <remarks>
+ <para>
+ Delegate invocation is more performant and more convenient to use than <see cref="M:System.Reflection.MethodBase.Invoke(System.Object,System.Object[])"/>
+ at a one-time setup cost.
+ </para>
+ <para>
+ Works for both type of static and instance methods, both open and closed (a.k.a. unbound and bound) instance methods,
+ and both class and struct methods.
+ </para>
+ </remarks>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.HarmonyDelegate``1(System.Object)">
+ <summary>Creates a delegate for a given delegate definition, attributed with [<see cref="T:HarmonyLib.HarmonyDelegate"/>]</summary>
+ <typeparam name="DelegateType">The delegate Type, attributed with [<see cref="T:HarmonyLib.HarmonyDelegate"/>]</typeparam>
+ <param name="instance">
+ Only applies for instance methods. If <c>null</c> (default), returned delegate is an open (a.k.a. unbound) instance delegate
+ where an instance is supplied as the first argument to the delegate invocation; else, delegate is a closed (a.k.a. bound)
+ instance delegate where the delegate invocation always applies to the given <paramref name="instance"/>.
+ </param>
+ <returns>A delegate of given <typeparamref name="DelegateType"/> to the method specified via [<see cref="T:HarmonyLib.HarmonyDelegate"/>]
+ attributes on <typeparamref name="DelegateType"/></returns>
+ <remarks>
+ This calls <see cref="M:HarmonyLib.AccessTools.MethodDelegate``1(System.Reflection.MethodInfo,System.Object,System.Boolean)"/> with the <c>method</c> and <c>virtualCall</c> arguments
+ determined from the [<see cref="T:HarmonyLib.HarmonyDelegate"/>] attributes on <typeparamref name="DelegateType"/>,
+ and the given <paramref name="instance"/> (for closed instance delegates).
+ </remarks>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.GetOutsideCaller">
+ <summary>Returns who called the current method</summary>
+ <returns>The calling method/constructor (excluding the caller)</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.RethrowException(System.Exception)">
+ <summary>Rethrows an exception while preserving its stack trace (throw statement typically clobbers existing stack traces)</summary>
+ <param name="exception">The exception to rethrow</param>
+
+ </member>
+ <member name="P:HarmonyLib.AccessTools.IsMonoRuntime">
+ <summary>True if the current runtime is based on Mono, false otherwise (.NET)</summary>
+
+ </member>
+ <member name="P:HarmonyLib.AccessTools.IsNetFrameworkRuntime">
+ <summary>True if the current runtime is .NET Framework, false otherwise (.NET Core or Mono, although latter isn't guaranteed)</summary>
+
+ </member>
+ <member name="P:HarmonyLib.AccessTools.IsNetCoreRuntime">
+ <summary>True if the current runtime is .NET Core, false otherwise (Mono or .NET Framework)</summary>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.ThrowMissingMemberException(System.Type,System.String[])">
+ <summary>Throws a missing member runtime exception</summary>
+ <param name="type">The type that is involved</param>
+ <param name="names">A list of names</param>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.GetDefaultValue(System.Type)">
+ <summary>Gets default value for a specific type</summary>
+ <param name="type">The class/type</param>
+ <returns>The default value</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.CreateInstance(System.Type)">
+ <summary>Creates an (possibly uninitialized) instance of a given type</summary>
+ <param name="type">The class/type</param>
+ <returns>The new instance</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.CreateInstance``1">
+ <summary>Creates an (possibly uninitialized) instance of a given type</summary>
+ <typeparam name="T">The class/type</typeparam>
+ <returns>The new instance</returns>
+
+ </member>
+ <member name="F:HarmonyLib.AccessTools.addHandlerCache">
+ <summary>
+ A cache for the <see cref="M:System.Collections.Generic.ICollection`1.Add(`0)"/> or similar Add methods for different types.
+ </summary>
+ </member>
+ <member name="M:HarmonyLib.AccessTools.MakeDeepCopy``1(System.Object)">
+ <summary>Makes a deep copy of any object</summary>
+ <typeparam name="T">The type of the instance that should be created; for legacy reasons, this must be a class or interface</typeparam>
+ <param name="source">The original object</param>
+ <returns>A copy of the original object but of type T</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.MakeDeepCopy``1(System.Object,``0@,System.Func{System.String,HarmonyLib.Traverse,HarmonyLib.Traverse,System.Object},System.String)">
+ <summary>Makes a deep copy of any object</summary>
+ <typeparam name="T">The type of the instance that should be created</typeparam>
+ <param name="source">The original object</param>
+ <param name="result">[out] The copy of the original object</param>
+ <param name="processor">Optional value transformation function (taking a field name and src/dst <see cref="T:HarmonyLib.Traverse"/> instances)</param>
+ <param name="pathRoot">The optional path root to start with</param>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.MakeDeepCopy(System.Object,System.Type,System.Func{System.String,HarmonyLib.Traverse,HarmonyLib.Traverse,System.Object},System.String)">
+ <summary>Makes a deep copy of any object</summary>
+ <param name="source">The original object</param>
+ <param name="resultType">The type of the instance that should be created</param>
+ <param name="processor">Optional value transformation function (taking a field name and src/dst <see cref="T:HarmonyLib.Traverse"/> instances)</param>
+ <param name="pathRoot">The optional path root to start with</param>
+ <returns>The copy of the original object</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.IsStruct(System.Type)">
+ <summary>Tests if a type is a struct</summary>
+ <param name="type">The type</param>
+ <returns>True if the type is a struct</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.IsClass(System.Type)">
+ <summary>Tests if a type is a class</summary>
+ <param name="type">The type</param>
+ <returns>True if the type is a class</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.IsValue(System.Type)">
+ <summary>Tests if a type is a value type</summary>
+ <param name="type">The type</param>
+ <returns>True if the type is a value type</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.IsInteger(System.Type)">
+ <summary>Tests if a type is an integer type</summary>
+ <param name="type">The type</param>
+ <returns>True if the type represents some integer</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.IsFloatingPoint(System.Type)">
+ <summary>Tests if a type is a floating point type</summary>
+ <param name="type">The type</param>
+ <returns>True if the type represents some floating point</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.IsNumber(System.Type)">
+ <summary>Tests if a type is a numerical type</summary>
+ <param name="type">The type</param>
+ <returns>True if the type represents some number</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.IsVoid(System.Type)">
+ <summary>Tests if a type is void</summary>
+ <param name="type">The type</param>
+ <returns>True if the type is void</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.IsOfNullableType``1(``0)">
+ <summary>Test whether an instance is of a nullable type</summary>
+ <typeparam name="T">Type of instance</typeparam>
+ <param name="instance">An instance to test</param>
+ <returns>True if instance is of nullable type, false if not</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.IsStatic(System.Reflection.MemberInfo)">
+ <summary>Tests whether a type or member is static, as defined in C#</summary>
+ <param name="member">The type or member</param>
+ <returns>True if the type or member is static</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.IsStatic(System.Type)">
+ <summary>Tests whether a type is static, as defined in C#</summary>
+ <param name="type">The type</param>
+ <returns>True if the type is static</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.IsStatic(System.Reflection.PropertyInfo)">
+ <summary>Tests whether a property is static, as defined in C#</summary>
+ <param name="propertyInfo">The property</param>
+ <returns>True if the property is static</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.IsStatic(System.Reflection.EventInfo)">
+ <summary>Tests whether an event is static, as defined in C#</summary>
+ <param name="eventInfo">The event</param>
+ <returns>True if the event is static</returns>
+
+ </member>
+ <member name="M:HarmonyLib.AccessTools.CombinedHashCode(System.Collections.Generic.IEnumerable{System.Object})">
+ <summary>Calculates a combined hash code for an enumeration of objects</summary>
+ <param name="objects">The objects</param>
+ <returns>The hash code</returns>
+
+ </member>
+ <member name="T:HarmonyLib.GeneralExtensions">
+ <summary>General extensions for common cases</summary>
+
+ </member>
+ <member name="M:HarmonyLib.GeneralExtensions.Join``1(System.Collections.Generic.IEnumerable{``0},System.Func{``0,System.String},System.String)">
+ <summary>Joins an enumeration with a value converter and a delimiter to a string</summary>
+ <typeparam name="T">The inner type of the enumeration</typeparam>
+ <param name="enumeration">The enumeration</param>
+ <param name="converter">An optional value converter (from T to string)</param>
+ <param name="delimiter">An optional delimiter</param>
+ <returns>The values joined into a string</returns>
+
+ </member>
+ <member name="M:HarmonyLib.GeneralExtensions.Description(System.Type[])">
+ <summary>Converts an array of types (for example methods arguments) into a human readable form</summary>
+ <param name="parameters">The array of types</param>
+ <returns>A human readable description including brackets</returns>
+
+ </member>
+ <member name="M:HarmonyLib.GeneralExtensions.FullDescription(System.Type)">
+ <summary>A full description of a type</summary>
+ <param name="type">The type</param>
+ <returns>A human readable description</returns>
+
+ </member>
+ <member name="M:HarmonyLib.GeneralExtensions.FullDescription(System.Reflection.MethodBase)">
+ <summary>A a full description of a method or a constructor without assembly details but with generics</summary>
+ <param name="member">The method/constructor</param>
+ <returns>A human readable description</returns>
+
+ </member>
+ <member name="M:HarmonyLib.GeneralExtensions.Types(System.Reflection.ParameterInfo[])">
+ <summary>A helper converting parameter infos to types</summary>
+ <param name="pinfo">The array of parameter infos</param>
+ <returns>An array of types</returns>
+
+ </member>
+ <member name="M:HarmonyLib.GeneralExtensions.GetValueSafe``2(System.Collections.Generic.Dictionary{``0,``1},``0)">
+ <summary>A helper to access a value via key from a dictionary</summary>
+ <typeparam name="S">The key type</typeparam>
+ <typeparam name="T">The value type</typeparam>
+ <param name="dictionary">The dictionary</param>
+ <param name="key">The key</param>
+ <returns>The value for the key or the default value (of T) if that key does not exist</returns>
+
+ </member>
+ <member name="M:HarmonyLib.GeneralExtensions.GetTypedValue``1(System.Collections.Generic.Dictionary{System.String,System.Object},System.String)">
+ <summary>A helper to access a value via key from a dictionary with extra casting</summary>
+ <typeparam name="T">The value type</typeparam>
+ <param name="dictionary">The dictionary</param>
+ <param name="key">The key</param>
+ <returns>The value for the key or the default value (of T) if that key does not exist or cannot be cast to T</returns>
+
+ </member>
+ <member name="M:HarmonyLib.GeneralExtensions.ToLiteral(System.String,System.String)">
+ <summary>Escapes Unicode and ASCII non printable characters</summary>
+ <param name="input">The string to convert</param>
+ <param name="quoteChar">The string to convert</param>
+ <returns>A string literal surrounded by <paramref name="quoteChar"/></returns>
+
+ </member>
+ <member name="T:HarmonyLib.CodeInstructionExtensions">
+ <summary>Extensions for <see cref="T:HarmonyLib.CodeInstruction"/></summary>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.OperandIs(HarmonyLib.CodeInstruction,System.Object)">
+ <summary>Shortcut for testing whether the operand is equal to a non-null value</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <param name="value">The value</param>
+ <returns>True if the operand has the same type and is equal to the value</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.OperandIs(HarmonyLib.CodeInstruction,System.Reflection.MemberInfo)">
+ <summary>Shortcut for testing whether the operand is equal to a non-null value</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <param name="value">The <see cref="T:System.Reflection.MemberInfo"/> value</param>
+ <returns>True if the operand is equal to the value</returns>
+ <remarks>This is an optimized version of <see cref="M:HarmonyLib.CodeInstructionExtensions.OperandIs(HarmonyLib.CodeInstruction,System.Object)"/> for <see cref="T:System.Reflection.MemberInfo"/></remarks>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.Is(HarmonyLib.CodeInstruction,System.Reflection.Emit.OpCode,System.Object)">
+ <summary>Shortcut for <code>code.opcode == opcode &amp;&amp; code.OperandIs(operand)</code></summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <param name="opcode">The <see cref="T:System.Reflection.Emit.OpCode"/></param>
+ <param name="operand">The operand value</param>
+ <returns>True if the opcode is equal to the given opcode and the operand has the same type and is equal to the given operand</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.Is(HarmonyLib.CodeInstruction,System.Reflection.Emit.OpCode,System.Reflection.MemberInfo)">
+ <summary>Shortcut for <code>code.opcode == opcode &amp;&amp; code.OperandIs(operand)</code></summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <param name="opcode">The <see cref="T:System.Reflection.Emit.OpCode"/></param>
+ <param name="operand">The <see cref="T:System.Reflection.MemberInfo"/> operand value</param>
+ <returns>True if the opcode is equal to the given opcode and the operand is equal to the given operand</returns>
+ <remarks>This is an optimized version of <see cref="M:HarmonyLib.CodeInstructionExtensions.Is(HarmonyLib.CodeInstruction,System.Reflection.Emit.OpCode,System.Object)"/> for <see cref="T:System.Reflection.MemberInfo"/></remarks>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.IsLdarg(HarmonyLib.CodeInstruction,System.Nullable{System.Int32})">
+ <summary>Tests for any form of Ldarg*</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <param name="n">The (optional) index</param>
+ <returns>True if it matches one of the variations</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.IsLdarga(HarmonyLib.CodeInstruction,System.Nullable{System.Int32})">
+ <summary>Tests for Ldarga/Ldarga_S</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <param name="n">The (optional) index</param>
+ <returns>True if it matches one of the variations</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.IsStarg(HarmonyLib.CodeInstruction,System.Nullable{System.Int32})">
+ <summary>Tests for Starg/Starg_S</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <param name="n">The (optional) index</param>
+ <returns>True if it matches one of the variations</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.IsLdloc(HarmonyLib.CodeInstruction,System.Reflection.Emit.LocalBuilder)">
+ <summary>Tests for any form of Ldloc*</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <param name="variable">The optional local variable</param>
+ <returns>True if it matches one of the variations</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.IsStloc(HarmonyLib.CodeInstruction,System.Reflection.Emit.LocalBuilder)">
+ <summary>Tests for any form of Stloc*</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <param name="variable">The optional local variable</param>
+ <returns>True if it matches one of the variations</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.Branches(HarmonyLib.CodeInstruction,System.Nullable{System.Reflection.Emit.Label}@)">
+ <summary>Tests if the code instruction branches</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <param name="label">The label if the instruction is a branch operation or <see langword="null"/> if not</param>
+ <returns>True if the instruction branches</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.Calls(HarmonyLib.CodeInstruction,System.Reflection.MethodInfo)">
+ <summary>Tests if the code instruction calls the method/constructor</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <param name="method">The method</param>
+ <returns>True if the instruction calls the method or constructor</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.LoadsConstant(HarmonyLib.CodeInstruction)">
+ <summary>Tests if the code instruction loads a constant</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <returns>True if the instruction loads a constant</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.LoadsConstant(HarmonyLib.CodeInstruction,System.Int64)">
+ <summary>Tests if the code instruction loads an integer constant</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <param name="number">The integer constant</param>
+ <returns>True if the instruction loads the constant</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.LoadsConstant(HarmonyLib.CodeInstruction,System.Double)">
+ <summary>Tests if the code instruction loads a floating point constant</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <param name="number">The floating point constant</param>
+ <returns>True if the instruction loads the constant</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.LoadsConstant(HarmonyLib.CodeInstruction,System.Enum)">
+ <summary>Tests if the code instruction loads an enum constant</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <param name="e">The enum</param>
+ <returns>True if the instruction loads the constant</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.LoadsField(HarmonyLib.CodeInstruction,System.Reflection.FieldInfo,System.Boolean)">
+ <summary>Tests if the code instruction loads a field</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <param name="field">The field</param>
+ <param name="byAddress">Set to true if the address of the field is loaded</param>
+ <returns>True if the instruction loads the field</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.StoresField(HarmonyLib.CodeInstruction,System.Reflection.FieldInfo)">
+ <summary>Tests if the code instruction stores a field</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <param name="field">The field</param>
+ <returns>True if the instruction stores this field</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.WithLabels(HarmonyLib.CodeInstruction,System.Reflection.Emit.Label[])">
+ <summary>Adds labels to the code instruction and return it</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <param name="labels">One or several <see cref="T:System.Reflection.Emit.Label"/> to add</param>
+ <returns>The same code instruction</returns>
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.WithLabels(HarmonyLib.CodeInstruction,System.Collections.Generic.IEnumerable{System.Reflection.Emit.Label})">
+ <summary>Adds labels to the code instruction and return it</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <param name="labels">An enumeration of <see cref="T:System.Reflection.Emit.Label"/></param>
+ <returns>The same code instruction</returns>
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.ExtractLabels(HarmonyLib.CodeInstruction)">
+ <summary>Extracts all labels from the code instruction and returns them</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <returns>A list of <see cref="T:System.Reflection.Emit.Label"/></returns>
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.MoveLabelsTo(HarmonyLib.CodeInstruction,HarmonyLib.CodeInstruction)">
+ <summary>Moves all labels from the code instruction to a different one</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/> to move the labels from</param>
+ <param name="other">The <see cref="T:HarmonyLib.CodeInstruction"/> to move the labels to</param>
+ <returns>The code instruction labels were moved from (now empty)</returns>
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.MoveLabelsFrom(HarmonyLib.CodeInstruction,HarmonyLib.CodeInstruction)">
+ <summary>Moves all labels from a different code instruction to the current one</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/> to move the labels from</param>
+ <param name="other">The <see cref="T:HarmonyLib.CodeInstruction"/> to move the labels to</param>
+ <returns>The code instruction that received the labels</returns>
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.WithBlocks(HarmonyLib.CodeInstruction,HarmonyLib.ExceptionBlock[])">
+ <summary>Adds ExceptionBlocks to the code instruction and return it</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <param name="blocks">One or several <see cref="T:HarmonyLib.ExceptionBlock"/> to add</param>
+ <returns>The same code instruction</returns>
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.WithBlocks(HarmonyLib.CodeInstruction,System.Collections.Generic.IEnumerable{HarmonyLib.ExceptionBlock})">
+ <summary>Adds ExceptionBlocks to the code instruction and return it</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <param name="blocks">An enumeration of <see cref="T:HarmonyLib.ExceptionBlock"/></param>
+ <returns>The same code instruction</returns>
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.ExtractBlocks(HarmonyLib.CodeInstruction)">
+ <summary>Extracts all ExceptionBlocks from the code instruction and returns them</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/></param>
+ <returns>A list of <see cref="T:HarmonyLib.ExceptionBlock"/></returns>
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.MoveBlocksTo(HarmonyLib.CodeInstruction,HarmonyLib.CodeInstruction)">
+ <summary>Moves all ExceptionBlocks from the code instruction to a different one</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/> to move the ExceptionBlocks from</param>
+ <param name="other">The <see cref="T:HarmonyLib.CodeInstruction"/> to move the ExceptionBlocks to</param>
+ <returns>The code instruction blocks were moved from (now empty)</returns>
+ </member>
+ <member name="M:HarmonyLib.CodeInstructionExtensions.MoveBlocksFrom(HarmonyLib.CodeInstruction,HarmonyLib.CodeInstruction)">
+ <summary>Moves all ExceptionBlocks from a different code instruction to the current one</summary>
+ <param name="code">The <see cref="T:HarmonyLib.CodeInstruction"/> to move the ExceptionBlocks from</param>
+ <param name="other">The <see cref="T:HarmonyLib.CodeInstruction"/> to move the ExceptionBlocks to</param>
+ <returns>The code instruction that received the blocks</returns>
+ </member>
+ <member name="T:HarmonyLib.CollectionExtensions">
+ <summary>General extensions for collections</summary>
+
+ </member>
+ <member name="M:HarmonyLib.CollectionExtensions.Do``1(System.Collections.Generic.IEnumerable{``0},System.Action{``0})">
+ <summary>A simple way to execute code for every element in a collection</summary>
+ <typeparam name="T">The inner type of the collection</typeparam>
+ <param name="sequence">The collection</param>
+ <param name="action">The action to execute</param>
+
+ </member>
+ <member name="M:HarmonyLib.CollectionExtensions.DoIf``1(System.Collections.Generic.IEnumerable{``0},System.Func{``0,System.Boolean},System.Action{``0})">
+ <summary>A simple way to execute code for elements in a collection matching a condition</summary>
+ <typeparam name="T">The inner type of the collection</typeparam>
+ <param name="sequence">The collection</param>
+ <param name="condition">The predicate</param>
+ <param name="action">The action to execute</param>
+
+ </member>
+ <member name="M:HarmonyLib.CollectionExtensions.AddItem``1(System.Collections.Generic.IEnumerable{``0},``0)">
+ <summary>A helper to add an item to a collection</summary>
+ <typeparam name="T">The inner type of the collection</typeparam>
+ <param name="sequence">The collection</param>
+ <param name="item">The item to add</param>
+ <returns>The collection containing the item</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CollectionExtensions.AddToArray``1(``0[],``0)">
+ <summary>A helper to add an item to an array</summary>
+ <typeparam name="T">The inner type of the collection</typeparam>
+ <param name="sequence">The array</param>
+ <param name="item">The item to add</param>
+ <returns>The array containing the item</returns>
+
+ </member>
+ <member name="M:HarmonyLib.CollectionExtensions.AddRangeToArray``1(``0[],``0[])">
+ <summary>A helper to add items to an array</summary>
+ <typeparam name="T">The inner type of the collection</typeparam>
+ <param name="sequence">The array</param>
+ <param name="items">The items to add</param>
+ <returns>The array containing the items</returns>
+
+ </member>
+ <member name="T:HarmonyLib.MethodBaseExtensions">
+ <summary>General extensions for collections</summary>
+
+ </member>
+ <member name="M:HarmonyLib.MethodBaseExtensions.HasMethodBody(System.Reflection.MethodBase)">
+ <summary>Tests a class member if it has an IL method body (external methods for example don't have a body)</summary>
+ <param name="member">The member to test</param>
+ <returns>Returns true if the member has an IL body or false if not</returns>
+ </member>
+ <member name="T:HarmonyLib.FileLog">
+ <summary>A file log for debugging</summary>
+
+ </member>
+ <member name="F:HarmonyLib.FileLog.logPath">
+ <summary>Full pathname of the log file, defaults to a file called <c>harmony.log.txt</c> on your Desktop</summary>
+
+ </member>
+ <member name="F:HarmonyLib.FileLog.indentChar">
+ <summary>The indent character. The default is <c>tab</c></summary>
+
+ </member>
+ <member name="F:HarmonyLib.FileLog.indentLevel">
+ <summary>The current indent level</summary>
+
+ </member>
+ <member name="M:HarmonyLib.FileLog.ChangeIndent(System.Int32)">
+ <summary>Changes the indentation level</summary>
+ <param name="delta">The value to add to the indentation level</param>
+
+ </member>
+ <member name="M:HarmonyLib.FileLog.LogBuffered(System.String)">
+ <summary>Log a string in a buffered way. Use this method only if you are sure that FlushBuffer will be called
+ or else logging information is incomplete in case of a crash</summary>
+ <param name="str">The string to log</param>
+
+ </member>
+ <member name="M:HarmonyLib.FileLog.LogBuffered(System.Collections.Generic.List{System.String})">
+ <summary>Logs a list of string in a buffered way. Use this method only if you are sure that FlushBuffer will be called
+ or else logging information is incomplete in case of a crash</summary>
+ <param name="strings">A list of strings to log (they will not be re-indented)</param>
+
+ </member>
+ <member name="M:HarmonyLib.FileLog.GetBuffer(System.Boolean)">
+ <summary>Returns the log buffer and optionally empties it</summary>
+ <param name="clear">True to empty the buffer</param>
+ <returns>The buffer.</returns>
+
+ </member>
+ <member name="M:HarmonyLib.FileLog.SetBuffer(System.Collections.Generic.List{System.String})">
+ <summary>Replaces the buffer with new lines</summary>
+ <param name="buffer">The lines to store</param>
+
+ </member>
+ <member name="M:HarmonyLib.FileLog.FlushBuffer">
+ <summary>Flushes the log buffer to disk (use in combination with LogBuffered)</summary>
+
+ </member>
+ <member name="M:HarmonyLib.FileLog.Log(System.String)">
+ <summary>Log a string directly to disk. Slower method that prevents missing information in case of a crash</summary>
+ <param name="str">The string to log.</param>
+
+ </member>
+ <member name="M:HarmonyLib.FileLog.Reset">
+ <summary>Resets and deletes the log</summary>
+
+ </member>
+ <member name="M:HarmonyLib.FileLog.LogBytes(System.Int64,System.Int32)">
+ <summary>Logs some bytes as hex values</summary>
+ <param name="ptr">The pointer to some memory</param>
+ <param name="len">The length of bytes to log</param>
+
+ </member>
+ <member name="T:HarmonyLib.SymbolExtensions">
+ <summary>A helper class to retrieve reflection info for non-private methods</summary>
+
+ </member>
+ <member name="M:HarmonyLib.SymbolExtensions.GetMethodInfo(System.Linq.Expressions.Expression{System.Action})">
+ <summary>Given a lambda expression that calls a method, returns the method info</summary>
+ <param name="expression">The lambda expression using the method</param>
+ <returns>The method in the lambda expression</returns>
+
+ </member>
+ <member name="M:HarmonyLib.SymbolExtensions.GetMethodInfo``1(System.Linq.Expressions.Expression{System.Action{``0}})">
+ <summary>Given a lambda expression that calls a method, returns the method info</summary>
+ <typeparam name="T">The generic type</typeparam>
+ <param name="expression">The lambda expression using the method</param>
+ <returns>The method in the lambda expression</returns>
+
+ </member>
+ <member name="M:HarmonyLib.SymbolExtensions.GetMethodInfo``2(System.Linq.Expressions.Expression{System.Func{``0,``1}})">
+ <summary>Given a lambda expression that calls a method, returns the method info</summary>
+ <typeparam name="T">The generic type</typeparam>
+ <typeparam name="TResult">The generic result type</typeparam>
+ <param name="expression">The lambda expression using the method</param>
+ <returns>The method in the lambda expression</returns>
+
+ </member>
+ <member name="M:HarmonyLib.SymbolExtensions.GetMethodInfo(System.Linq.Expressions.LambdaExpression)">
+ <summary>Given a lambda expression that calls a method, returns the method info</summary>
+ <param name="expression">The lambda expression using the method</param>
+ <returns>The method in the lambda expression</returns>
+
+ </member>
+ <member name="T:HarmonyLib.Traverse`1">
+ <summary>A reflection helper to read and write private elements</summary>
+ <typeparam name="T">The result type defined by GetValue()</typeparam>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse`1.#ctor(HarmonyLib.Traverse)">
+ <summary>Creates a traverse instance from an existing instance</summary>
+ <param name="traverse">The existing <see cref="T:HarmonyLib.Traverse"/> instance</param>
+
+ </member>
+ <member name="P:HarmonyLib.Traverse`1.Value">
+ <summary>Gets/Sets the current value</summary>
+ <value>The value to read or write</value>
+
+ </member>
+ <member name="T:HarmonyLib.Traverse">
+ <summary>A reflection helper to read and write private elements</summary>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.Create(System.Type)">
+ <summary>Creates a new traverse instance from a class/type</summary>
+ <param name="type">The class/type</param>
+ <returns>A <see cref="T:HarmonyLib.Traverse"/> instance</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.Create``1">
+ <summary>Creates a new traverse instance from a class T</summary>
+ <typeparam name="T">The class</typeparam>
+ <returns>A <see cref="T:HarmonyLib.Traverse"/> instance</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.Create(System.Object)">
+ <summary>Creates a new traverse instance from an instance</summary>
+ <param name="root">The object</param>
+ <returns>A <see cref="T:HarmonyLib.Traverse"/> instance</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.CreateWithType(System.String)">
+ <summary>Creates a new traverse instance from a named type</summary>
+ <param name="name">The type name, for format see <see cref="M:HarmonyLib.AccessTools.TypeByName(System.String)"/></param>
+ <returns>A <see cref="T:HarmonyLib.Traverse"/> instance</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.#ctor">
+ <summary>Creates a new and empty traverse instance</summary>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.#ctor(System.Type)">
+ <summary>Creates a new traverse instance from a class/type</summary>
+ <param name="type">The class/type</param>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.#ctor(System.Object)">
+ <summary>Creates a new traverse instance from an instance</summary>
+ <param name="root">The object</param>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.GetValue">
+ <summary>Gets the current value</summary>
+ <value>The value</value>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.GetValue``1">
+ <summary>Gets the current value</summary>
+ <typeparam name="T">The type of the value</typeparam>
+ <value>The value</value>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.GetValue(System.Object[])">
+ <summary>Invokes the current method with arguments and returns the result</summary>
+ <param name="arguments">The method arguments</param>
+ <value>The value returned by the method</value>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.GetValue``1(System.Object[])">
+ <summary>Invokes the current method with arguments and returns the result</summary>
+ <typeparam name="T">The type of the value</typeparam>
+ <param name="arguments">The method arguments</param>
+ <value>The value returned by the method</value>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.SetValue(System.Object)">
+ <summary>Sets a value of the current field or property</summary>
+ <param name="value">The value</param>
+ <returns>The same traverse instance</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.GetValueType">
+ <summary>Gets the type of the current field or property</summary>
+ <returns>The type</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.Type(System.String)">
+ <summary>Moves the current traverse instance to a inner type</summary>
+ <param name="name">The type name</param>
+ <returns>A traverse instance</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.Field(System.String)">
+ <summary>Moves the current traverse instance to a field</summary>
+ <param name="name">The type name</param>
+ <returns>A traverse instance</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.Field``1(System.String)">
+ <summary>Moves the current traverse instance to a field</summary>
+ <typeparam name="T">The type of the field</typeparam>
+ <param name="name">The type name</param>
+ <returns>A traverse instance</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.Fields">
+ <summary>Gets all fields of the current type</summary>
+ <returns>A list of field names</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.Property(System.String,System.Object[])">
+ <summary>Moves the current traverse instance to a property</summary>
+ <param name="name">The type name</param>
+ <param name="index">Optional property index</param>
+ <returns>A traverse instance</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.Property``1(System.String,System.Object[])">
+ <summary>Moves the current traverse instance to a field</summary>
+ <typeparam name="T">The type of the property</typeparam>
+ <param name="name">The type name</param>
+ <param name="index">Optional property index</param>
+ <returns>A traverse instance</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.Properties">
+ <summary>Gets all properties of the current type</summary>
+ <returns>A list of property names</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.Method(System.String,System.Object[])">
+ <summary>Moves the current traverse instance to a method</summary>
+ <param name="name">The name of the method</param>
+ <param name="arguments">The arguments defining the argument types of the method overload</param>
+ <returns>A traverse instance</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.Method(System.String,System.Type[],System.Object[])">
+ <summary>Moves the current traverse instance to a method</summary>
+ <param name="name">The name of the method</param>
+ <param name="paramTypes">The argument types of the method</param>
+ <param name="arguments">The arguments for the method</param>
+ <returns>A traverse instance</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.Methods">
+ <summary>Gets all methods of the current type</summary>
+ <returns>A list of method names</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.FieldExists">
+ <summary>Checks if the current traverse instance is for a field</summary>
+ <returns>True if its a field</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.PropertyExists">
+ <summary>Checks if the current traverse instance is for a property</summary>
+ <returns>True if its a property</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.MethodExists">
+ <summary>Checks if the current traverse instance is for a method</summary>
+ <returns>True if its a method</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.TypeExists">
+ <summary>Checks if the current traverse instance is for a type</summary>
+ <returns>True if its a type</returns>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.IterateFields(System.Object,System.Action{HarmonyLib.Traverse})">
+ <summary>Iterates over all fields of the current type and executes a traverse action</summary>
+ <param name="source">Original object</param>
+ <param name="action">The action receiving a <see cref="T:HarmonyLib.Traverse"/> instance for each field</param>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.IterateFields(System.Object,System.Object,System.Action{HarmonyLib.Traverse,HarmonyLib.Traverse})">
+ <summary>Iterates over all fields of the current type and executes a traverse action</summary>
+ <param name="source">Original object</param>
+ <param name="target">Target object</param>
+ <param name="action">The action receiving a pair of <see cref="T:HarmonyLib.Traverse"/> instances for each field pair</param>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.IterateFields(System.Object,System.Object,System.Action{System.String,HarmonyLib.Traverse,HarmonyLib.Traverse})">
+ <summary>Iterates over all fields of the current type and executes a traverse action</summary>
+ <param name="source">Original object</param>
+ <param name="target">Target object</param>
+ <param name="action">The action receiving a dot path representing the field pair and the <see cref="T:HarmonyLib.Traverse"/> instances</param>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.IterateProperties(System.Object,System.Action{HarmonyLib.Traverse})">
+ <summary>Iterates over all properties of the current type and executes a traverse action</summary>
+ <param name="source">Original object</param>
+ <param name="action">The action receiving a <see cref="T:HarmonyLib.Traverse"/> instance for each property</param>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.IterateProperties(System.Object,System.Object,System.Action{HarmonyLib.Traverse,HarmonyLib.Traverse})">
+ <summary>Iterates over all properties of the current type and executes a traverse action</summary>
+ <param name="source">Original object</param>
+ <param name="target">Target object</param>
+ <param name="action">The action receiving a pair of <see cref="T:HarmonyLib.Traverse"/> instances for each property pair</param>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.IterateProperties(System.Object,System.Object,System.Action{System.String,HarmonyLib.Traverse,HarmonyLib.Traverse})">
+ <summary>Iterates over all properties of the current type and executes a traverse action</summary>
+ <param name="source">Original object</param>
+ <param name="target">Target object</param>
+ <param name="action">The action receiving a dot path representing the property pair and the <see cref="T:HarmonyLib.Traverse"/> instances</param>
+
+ </member>
+ <member name="F:HarmonyLib.Traverse.CopyFields">
+ <summary>A default field action that copies fields to fields</summary>
+
+ </member>
+ <member name="M:HarmonyLib.Traverse.ToString">
+ <summary>Returns a string that represents the current traverse</summary>
+ <returns>A string representation</returns>
+
+ </member>
+ </members>
+</doc>