AnimTestbed/3rdparty/imgui-node-editor/imgui_node_editor_internal.h

//Disable a bunch of warnings for now
#ifndef _MSC_VER
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wshadow"
#pragma GCC diagnostic ignored "-Wunused-parameter"
#endif

//------------------------------------------------------------------------------
// VERSION 0.9.1
//
// LICENSE
//   This software is dual-licensed to the public domain and under the following
//   license: you are granted a perpetual, irrevocable license to copy, modify,
//   publish, and distribute this file as you see fit.
//
// CREDITS
//   Written by Michal Cichon
//------------------------------------------------------------------------------
# ifndef __IMGUI_NODE_EDITOR_INTERNAL_H__
# define __IMGUI_NODE_EDITOR_INTERNAL_H__
# pragma once


//------------------------------------------------------------------------------
# include "imgui_node_editor.h"


//------------------------------------------------------------------------------
# include <imgui.h>
# define IMGUI_DEFINE_MATH_OPERATORS
# include <imgui_internal.h>
# include "imgui_extra_math.h"
# include "imgui_bezier_math.h"
# include "imgui_canvas.h"

# include "crude_json.h"

# include <vector>
# include <string>


//------------------------------------------------------------------------------
namespace ax {
namespace NodeEditor {
namespace Detail {


//------------------------------------------------------------------------------
namespace ed = ax::NodeEditor::Detail;
namespace json = crude_json;


//------------------------------------------------------------------------------
using std::vector;
using std::string;


//------------------------------------------------------------------------------
void Log(const char* fmt, ...);


//------------------------------------------------------------------------------
//inline ImRect ToRect(const ax::rectf& rect);
//inline ImRect ToRect(const ax::rect& rect);
inline ImRect ImGui_GetItemRect();
inline ImVec2 ImGui_GetMouseClickPos(ImGuiMouseButton buttonIndex);


//------------------------------------------------------------------------------
// https://stackoverflow.com/a/36079786
# define DECLARE_HAS_MEMBER(__trait_name__, __member_name__)                         \
                                                                                     \
    template <typename __boost_has_member_T__>                                       \
    class __trait_name__                                                             \
    {                                                                                \
        using check_type = ::std::remove_const_t<__boost_has_member_T__>;            \
        struct no_type {char x[2];};                                                 \
        using  yes_type = char;                                                      \
                                                                                     \
        struct  base { void __member_name__() {}};                                   \
        struct mixin : public base, public check_type {};                            \
                                                                                     \
        template <void (base::*)()> struct aux {};                                   \
                                                                                     \
        template <typename U> static no_type  test(aux<&U::__member_name__>*);       \
        template <typename U> static yes_type test(...);                             \
                                                                                     \
        public:                                                                      \
                                                                                     \
        static constexpr bool value = (sizeof(yes_type) == sizeof(test<mixin>(0)));  \
    }

DECLARE_HAS_MEMBER(HasFringeScale, _FringeScale);

# undef DECLARE_HAS_MEMBER

struct FringeScaleRef
{
    // Overload is present when ImDrawList does have _FringeScale member variable.
    template <typename T>
    static float& Get(typename std::enable_if<HasFringeScale<T>::value, T>::type* drawList)
    {
        return drawList->_FringeScale;
    }

    // Overload is present when ImDrawList does not have _FringeScale member variable.
    template <typename T>
    static float& Get(typename std::enable_if<!HasFringeScale<T>::value, T>::type*)
    {
        static float placeholder = 1.0f;
        return placeholder;
    }
};

static inline float& ImFringeScaleRef(ImDrawList* drawList)
{
    return FringeScaleRef::Get<ImDrawList>(drawList);
}

struct FringeScaleScope
{

    FringeScaleScope(float scale)
        : m_LastFringeScale(ImFringeScaleRef(ImGui::GetWindowDrawList()))
    {
        ImFringeScaleRef(ImGui::GetWindowDrawList()) = scale;
    }

    ~FringeScaleScope()
    {
        ImFringeScaleRef(ImGui::GetWindowDrawList()) = m_LastFringeScale;
    }

private:
    float m_LastFringeScale;
};


//------------------------------------------------------------------------------
enum class ObjectType
{
    None,
    Node,
    Link,
    Pin
};

using ax::NodeEditor::PinKind;
using ax::NodeEditor::StyleColor;
using ax::NodeEditor::StyleVar;
using ax::NodeEditor::SaveReasonFlags;

using ax::NodeEditor::NodeId;
using ax::NodeEditor::PinId;
using ax::NodeEditor::LinkId;

struct ObjectId final: Details::SafePointerType<ObjectId>
{
    using Super = Details::SafePointerType<ObjectId>;
    using Super::Super;

    ObjectId():                  Super(Invalid),              m_Type(ObjectType::None)   {}
    ObjectId(PinId  pinId):      Super(pinId.AsPointer()),    m_Type(ObjectType::Pin)    {}
    ObjectId(NodeId nodeId):     Super(nodeId.AsPointer()),   m_Type(ObjectType::Node)   {}
    ObjectId(LinkId linkId):     Super(linkId.AsPointer()),   m_Type(ObjectType::Link)   {}

    explicit operator PinId()    const { return AsPinId();    }
    explicit operator NodeId()   const { return AsNodeId();   }
    explicit operator LinkId()   const { return AsLinkId();   }

    PinId    AsPinId()    const { IM_ASSERT(IsPinId());    return PinId(AsPointer());    }
    NodeId   AsNodeId()   const { IM_ASSERT(IsNodeId());   return NodeId(AsPointer());   }
    LinkId   AsLinkId()   const { IM_ASSERT(IsLinkId());   return LinkId(AsPointer());   }

    bool IsPinId()    const { return m_Type == ObjectType::Pin;    }
    bool IsNodeId()   const { return m_Type == ObjectType::Node;   }
    bool IsLinkId()   const { return m_Type == ObjectType::Link;   }

    ObjectType Type() const { return m_Type; }

private:
    ObjectType m_Type;
};

struct EditorContext;

struct Node;
struct Pin;
struct Link;

template <typename T, typename Id = typename T::IdType>
struct ObjectWrapper
{
    Id   m_ID;
    T*   m_Object;

          T* operator->()        { return m_Object; }
    const T* operator->() const  { return m_Object; }

    operator T*()             { return m_Object; }
    operator const T*() const { return m_Object; }

    bool operator<(const ObjectWrapper& rhs) const
    {
        return m_ID.AsPointer() < rhs.m_ID.AsPointer();
    }
};

struct Object
{
    enum DrawFlags
    {
        None     = 0,
        Hovered  = 1,
        Selected = 2,
        Highlighted = 4,
    };

    inline friend DrawFlags operator|(DrawFlags lhs, DrawFlags rhs)  { return static_cast<DrawFlags>(static_cast<int>(lhs) | static_cast<int>(rhs)); }
    inline friend DrawFlags operator&(DrawFlags lhs, DrawFlags rhs)  { return static_cast<DrawFlags>(static_cast<int>(lhs) & static_cast<int>(rhs)); }
    inline friend DrawFlags& operator|=(DrawFlags& lhs, DrawFlags rhs) { lhs = lhs | rhs; return lhs; }
    inline friend DrawFlags& operator&=(DrawFlags& lhs, DrawFlags rhs) { lhs = lhs & rhs; return lhs; }

    EditorContext* const Editor;

    bool    m_IsLive;
    bool    m_IsSelected;
    bool    m_DeleteOnNewFrame;

    Object(EditorContext* editor)
        : Editor(editor)
        , m_IsLive(true)
        , m_IsSelected(false)
        , m_DeleteOnNewFrame(false)
    {
    }

    virtual ~Object() = default;

    virtual ObjectId ID() = 0;

    bool IsVisible() const
    {
        if (!m_IsLive)
            return false;

        const auto bounds = GetBounds();

        return ImGui::IsRectVisible(bounds.Min, bounds.Max);
    }

    virtual void Reset() { m_IsLive = false; }

    virtual void Draw(ImDrawList* drawList, DrawFlags flags = None) = 0;

    virtual bool AcceptDrag() { return false; }
    virtual void UpdateDrag(const ImVec2& offset) { IM_UNUSED(offset); }
    virtual bool EndDrag() { return false; }
    virtual ImVec2 DragStartLocation() { return GetBounds().Min; }

    virtual bool IsDraggable() { bool result = AcceptDrag(); EndDrag(); return result; }
    virtual bool IsSelectable() { return false; }

    virtual bool TestHit(const ImVec2& point, float extraThickness = 0.0f) const
    {
        if (!m_IsLive)
            return false;

        auto bounds = GetBounds();
        if (extraThickness > 0)
            bounds.Expand(extraThickness);

        return bounds.Contains(point);
    }

    virtual bool TestHit(const ImRect& rect, bool allowIntersect = true) const
    {
        if (!m_IsLive)
            return false;

        const auto bounds = GetBounds();

        return !ImRect_IsEmpty(bounds) && (allowIntersect ? bounds.Overlaps(rect) : rect.Contains(bounds));
    }

    virtual ImRect GetBounds() const = 0;

    virtual Node*  AsNode()  { return nullptr; }
    virtual Pin*   AsPin()   { return nullptr; }
    virtual Link*  AsLink()  { return nullptr; }
};

struct Pin final: Object
{
    using IdType = PinId;

    PinId   m_ID;
    PinKind m_Kind;
    Node*   m_Node;
    ImRect  m_Bounds;
    ImRect  m_Pivot;
    Pin*    m_PreviousPin;
    ImU32   m_Color;
    ImU32   m_BorderColor;
    float   m_BorderWidth;
    float   m_Rounding;
    int     m_Corners;
    ImVec2  m_Dir;
    float   m_Strength;
    float   m_Radius;
    float   m_ArrowSize;
    float   m_ArrowWidth;
    bool    m_SnapLinkToDir;
    bool    m_HasConnection;
    bool    m_HadConnection;

    Pin(EditorContext* editor, PinId id, PinKind kind)
        : Object(editor)
        , m_ID(id)
        , m_Kind(kind)
        , m_Node(nullptr)
        , m_Bounds()
        , m_PreviousPin(nullptr)
        , m_Color(IM_COL32_WHITE)
        , m_BorderColor(IM_COL32_BLACK)
        , m_BorderWidth(0)
        , m_Rounding(0)
        , m_Corners(0)
        , m_Dir(0, 0)
        , m_Strength(0)
        , m_Radius(0)
        , m_ArrowSize(0)
        , m_ArrowWidth(0)
        , m_SnapLinkToDir(true)
        , m_HasConnection(false)
        , m_HadConnection(false)
    {
    }

    virtual ObjectId ID() override { return m_ID; }

    virtual void Reset() override final
    {
        m_HadConnection = m_HasConnection && m_IsLive;
        m_HasConnection = false;

        Object::Reset();
    }

    virtual void Draw(ImDrawList* drawList, DrawFlags flags = None) override final;

    ImVec2 GetClosestPoint(const ImVec2& p) const;
    ImLine GetClosestLine(const Pin* pin) const;

    virtual ImRect GetBounds() const override final { return m_Bounds; }

    virtual Pin* AsPin() override final { return this; }
};

enum class NodeType
{
    Node,
    Group
};

enum class NodeRegion : uint8_t
{
    None        = 0x00,
    Top         = 0x01,
    Bottom      = 0x02,
    Left        = 0x04,
    Right       = 0x08,
    Center      = 0x10,
    Header      = 0x20,
    TopLeft     = Top | Left,
    TopRight    = Top | Right,
    BottomLeft  = Bottom | Left,
    BottomRight = Bottom | Right,
};

inline NodeRegion operator |(NodeRegion lhs, NodeRegion rhs) { return static_cast<NodeRegion>(static_cast<uint8_t>(lhs) | static_cast<uint8_t>(rhs)); }
inline NodeRegion operator &(NodeRegion lhs, NodeRegion rhs) { return static_cast<NodeRegion>(static_cast<uint8_t>(lhs) & static_cast<uint8_t>(rhs)); }


struct Node final: Object
{
    using IdType = NodeId;

    NodeId   m_ID;
    NodeType m_Type;
    ImRect   m_Bounds;
    float    m_ZPosition;
    int      m_Channel;
    Pin*     m_LastPin;
    ImVec2   m_DragStart;

    ImU32    m_Color;
    ImU32    m_BorderColor;
    float    m_BorderWidth;
    float    m_Rounding;

    ImU32    m_GroupColor;
    ImU32    m_GroupBorderColor;
    float    m_GroupBorderWidth;
    float    m_GroupRounding;
    ImRect   m_GroupBounds;

    bool     m_HighlightConnectedLinks;

    bool     m_RestoreState;
    bool     m_CenterOnScreen;

    Node(EditorContext* editor, NodeId id)
        : Object(editor)
        , m_ID(id)
        , m_Type(NodeType::Node)
        , m_Bounds()
        , m_ZPosition(0.0f)
        , m_Channel(0)
        , m_LastPin(nullptr)
        , m_DragStart()
        , m_Color(IM_COL32_WHITE)
        , m_BorderColor(IM_COL32_BLACK)
        , m_BorderWidth(0)
        , m_Rounding(0)
        , m_GroupBounds()
        , m_HighlightConnectedLinks(false)
        , m_RestoreState(false)
        , m_CenterOnScreen(false)
    {
    }

    virtual ObjectId ID() override { return m_ID; }

    bool AcceptDrag() override;
    void UpdateDrag(const ImVec2& offset) override;
    bool EndDrag() override; // return true, when changed
    ImVec2 DragStartLocation() override { return m_DragStart; }

    virtual bool IsSelectable() override { return true; }

    virtual void Draw(ImDrawList* drawList, DrawFlags flags = None) override final;
    void DrawBorder(ImDrawList* drawList, ImU32 color, float thickness = 1.0f);

    void GetGroupedNodes(std::vector<Node*>& result, bool append = false);

    void CenterOnScreenInNextFrame() { m_CenterOnScreen = true; }

    ImRect GetRegionBounds(NodeRegion region) const;
    NodeRegion GetRegion(const ImVec2& point) const;

    virtual ImRect GetBounds() const override final { return m_Bounds; }

    virtual Node* AsNode() override final { return this; }
};

struct Link final: Object
{
    using IdType = LinkId;

    LinkId m_ID;
    Pin*   m_StartPin;
    Pin*   m_EndPin;
    ImU32  m_Color;
    ImU32  m_HighlightColor;
    float  m_Thickness;
    ImVec2 m_Start;
    ImVec2 m_End;

    Link(EditorContext* editor, LinkId id)
        : Object(editor)
        , m_ID(id)
        , m_StartPin(nullptr)
        , m_EndPin(nullptr)
        , m_Color(IM_COL32_WHITE)
        , m_Thickness(1.0f)
    {
    }

    virtual ObjectId ID() override { return m_ID; }

    virtual bool IsSelectable() override { return true; }

    virtual void Draw(ImDrawList* drawList, DrawFlags flags = None) override final;
    void Draw(ImDrawList* drawList, ImU32 color, float extraThickness = 0.0f) const;

    void UpdateEndpoints();

    ImCubicBezierPoints GetCurve() const;

    virtual bool TestHit(const ImVec2& point, float extraThickness = 0.0f) const override final;
    virtual bool TestHit(const ImRect& rect, bool allowIntersect = true) const override final;

    virtual ImRect GetBounds() const override final;

    virtual Link* AsLink() override final { return this; }
};

struct NodeSettings
{
    NodeId m_ID;
    ImVec2 m_Location;
    ImVec2 m_Size;
    ImVec2 m_GroupSize;
    bool   m_WasUsed;

    bool            m_Saved;
    bool            m_IsDirty;
    SaveReasonFlags m_DirtyReason;

    NodeSettings(NodeId id)
        : m_ID(id)
        , m_Location(0, 0)
        , m_Size(0, 0)
        , m_GroupSize(0, 0)
        , m_WasUsed(false)
        , m_Saved(false)
        , m_IsDirty(false)
        , m_DirtyReason(SaveReasonFlags::None)
    {
    }

    void ClearDirty();
    void MakeDirty(SaveReasonFlags reason);

    json::value Serialize();

    static bool Parse(const std::string& string, NodeSettings& settings);
    static bool Parse(const json::value& data, NodeSettings& result);
};

struct Settings
{
    bool                 m_IsDirty;
    SaveReasonFlags      m_DirtyReason;

    vector<NodeSettings> m_Nodes;
    vector<ObjectId>     m_Selection;
    ImVec2               m_ViewScroll;
    float                m_ViewZoom;
    ImRect               m_VisibleRect;

    Settings()
        : m_IsDirty(false)
        , m_DirtyReason(SaveReasonFlags::None)
        , m_ViewScroll(0, 0)
        , m_ViewZoom(1.0f)
        , m_VisibleRect()
    {
    }

    NodeSettings* AddNode(NodeId id);
    NodeSettings* FindNode(NodeId id);
    void RemoveNode(NodeId id);

    void ClearDirty(Node* node = nullptr);
    void MakeDirty(SaveReasonFlags reason, Node* node = nullptr);

    std::string Serialize();

    static bool Parse(const std::string& string, Settings& settings);
};

struct Control
{
    Object* HotObject;
    Object* ActiveObject;
    Object* ClickedObject;
    Object* DoubleClickedObject;
    Node*   HotNode;
    Node*   ActiveNode;
    Node*   ClickedNode;
    Node*   DoubleClickedNode;
    Pin*    HotPin;
    Pin*    ActivePin;
    Pin*    ClickedPin;
    Pin*    DoubleClickedPin;
    Link*   HotLink;
    Link*   ActiveLink;
    Link*   ClickedLink;
    Link*   DoubleClickedLink;
    bool    BackgroundHot;
    bool    BackgroundActive;
    int     BackgroundClickButtonIndex;
    int     BackgroundDoubleClickButtonIndex;

    Control()
        : Control(nullptr, nullptr, nullptr, nullptr, false, false, -1, -1)
    {
    }

    Control(Object* hotObject, Object* activeObject, Object* clickedObject, Object* doubleClickedObject,
        bool backgroundHot, bool backgroundActive, int backgroundClickButtonIndex, int backgroundDoubleClickButtonIndex)
        : HotObject(hotObject)
        , ActiveObject(activeObject)
        , ClickedObject(clickedObject)
        , DoubleClickedObject(doubleClickedObject)
        , HotNode(nullptr)
        , ActiveNode(nullptr)
        , ClickedNode(nullptr)
        , DoubleClickedNode(nullptr)
        , HotPin(nullptr)
        , ActivePin(nullptr)
        , ClickedPin(nullptr)
        , DoubleClickedPin(nullptr)
        , HotLink(nullptr)
        , ActiveLink(nullptr)
        , ClickedLink(nullptr)
        , DoubleClickedLink(nullptr)
        , BackgroundHot(backgroundHot)
        , BackgroundActive(backgroundActive)
        , BackgroundClickButtonIndex(backgroundClickButtonIndex)
        , BackgroundDoubleClickButtonIndex(backgroundDoubleClickButtonIndex)
    {
        if (hotObject)
        {
            HotNode  = hotObject->AsNode();
            HotPin   = hotObject->AsPin();
            HotLink  = hotObject->AsLink();

            if (HotPin)
                HotNode = HotPin->m_Node;
        }

        if (activeObject)
        {
            ActiveNode  = activeObject->AsNode();
            ActivePin   = activeObject->AsPin();
            ActiveLink  = activeObject->AsLink();
        }

        if (clickedObject)
        {
            ClickedNode  = clickedObject->AsNode();
            ClickedPin   = clickedObject->AsPin();
            ClickedLink  = clickedObject->AsLink();
        }

        if (doubleClickedObject)
        {
            DoubleClickedNode = doubleClickedObject->AsNode();
            DoubleClickedPin  = doubleClickedObject->AsPin();
            DoubleClickedLink = doubleClickedObject->AsLink();
        }
    }
};

struct NavigateAction;
struct SizeAction;
struct DragAction;
struct SelectAction;
struct CreateItemAction;
struct DeleteItemsAction;
struct ContextMenuAction;
struct ShortcutAction;

struct AnimationController;
struct FlowAnimationController;

struct Animation
{
    enum State
    {
        Playing,
        Stopped
    };

    EditorContext*  Editor;
    State           m_State;
    float           m_Time;
    float           m_Duration;

    Animation(EditorContext* editor);
    virtual ~Animation();

    void Play(float duration);
    void Stop();
    void Finish();
    void Update();

    bool IsPlaying() const { return m_State == Playing; }

    float GetProgress() const { return m_Time / m_Duration; }

protected:
    virtual void OnPlay() {}
    virtual void OnFinish() {}
    virtual void OnStop() {}

    virtual void OnUpdate(float progress) { IM_UNUSED(progress); }
};

struct NavigateAnimation final: Animation
{
    NavigateAction& Action;
    ImRect      m_Start;
    ImRect      m_Target;

    NavigateAnimation(EditorContext* editor, NavigateAction& scrollAction);

    void NavigateTo(const ImRect& target, float duration);

private:
    void OnUpdate(float progress) override final;
    void OnStop() override final;
    void OnFinish() override final;
};

struct FlowAnimation final: Animation
{
    FlowAnimationController* Controller;
    Link* m_Link;
    float m_Speed;
    float m_MarkerDistance;
    float m_Offset;

    FlowAnimation(FlowAnimationController* controller);

    void Flow(Link* link, float markerDistance, float speed, float duration);

    void Draw(ImDrawList* drawList);

private:
    struct CurvePoint
    {
        float  Distance;
        ImVec2 Point;
    };

    ImVec2 m_LastStart;
    ImVec2 m_LastEnd;
    float  m_PathLength;
    vector<CurvePoint> m_Path;

    bool IsLinkValid() const;
    bool IsPathValid() const;
    void UpdatePath();
    void ClearPath();

    ImVec2 SamplePath(float distance) const;

    void OnUpdate(float progress) override final;
    void OnStop() override final;
};

struct AnimationController
{
    EditorContext* Editor;

    AnimationController(EditorContext* editor)
        : Editor(editor)
    {
    }

    virtual ~AnimationController()
    {
    }

    virtual void Draw(ImDrawList* drawList)
    {
        IM_UNUSED(drawList);
    }
};

struct FlowAnimationController final : AnimationController
{
    FlowAnimationController(EditorContext* editor);
    virtual ~FlowAnimationController();

    void Flow(Link* link, FlowDirection direction = FlowDirection::Forward);

    virtual void Draw(ImDrawList* drawList) override final;

    void Release(FlowAnimation* animation);

private:
    FlowAnimation* GetOrCreate(Link* link);

    vector<FlowAnimation*> m_Animations;
    vector<FlowAnimation*> m_FreePool;
};

struct EditorAction
{
    enum AcceptResult { False, True, Possible };

    EditorAction(EditorContext* editor)
        : Editor(editor)
    {
    }

    virtual ~EditorAction() {}

    virtual const char* GetName() const = 0;

    virtual AcceptResult Accept(const Control& control) = 0;
    virtual bool Process(const Control& control) = 0;
    virtual void Reject() {} // celled when Accept return 'Possible' and was rejected

    virtual ImGuiMouseCursor GetCursor() { return ImGuiMouseCursor_Arrow; }

    virtual bool IsDragging() { return false; }

    virtual void ShowMetrics() {}

    virtual NavigateAction*     AsNavigate()     { return nullptr; }
    virtual SizeAction*         AsSize()         { return nullptr; }
    virtual DragAction*         AsDrag()         { return nullptr; }
    virtual SelectAction*       AsSelect()       { return nullptr; }
    virtual CreateItemAction*   AsCreateItem()   { return nullptr; }
    virtual DeleteItemsAction*  AsDeleteItems()  { return nullptr; }
    virtual ContextMenuAction*  AsContextMenu()  { return nullptr; }
    virtual ShortcutAction* AsCutCopyPaste() { return nullptr; }

    EditorContext* Editor;
};

struct NavigateAction final: EditorAction
{
    enum class ZoomMode
    {
        None,
        Exact,
        WithMargin
    };

    enum class NavigationReason
    {
        Unknown,
        MouseZoom,
        Selection,
        Object,
        Content,
        Edge
    };

    bool            m_IsActive;
    float           m_Zoom;
    ImRect          m_VisibleRect;
    ImVec2          m_Scroll;
    ImVec2          m_ScrollStart;
    ImVec2          m_ScrollDelta;

    NavigateAction(EditorContext* editor, ImGuiEx::Canvas& canvas);

    virtual const char* GetName() const override final { return "Navigate"; }

    virtual AcceptResult Accept(const Control& control) override final;
    virtual bool Process(const Control& control) override final;

    virtual void ShowMetrics() override final;

    virtual NavigateAction* AsNavigate() override final { return this; }

    void NavigateTo(const ImRect& bounds, ZoomMode zoomMode, float duration = -1.0f, NavigationReason reason = NavigationReason::Unknown);
    void StopNavigation();
    void FinishNavigation();

    bool MoveOverEdge(const ImVec2& canvasSize);
    void StopMoveOverEdge();
    bool IsMovingOverEdge() const { return m_MovingOverEdge; }
    ImVec2 GetMoveScreenOffset() const { return m_MoveScreenOffset; }

    void SetWindow(ImVec2 position, ImVec2 size);
    ImVec2 GetWindowScreenPos() const { return m_WindowScreenPos; };
    ImVec2 GetWindowScreenSize() const { return m_WindowScreenSize; };

    ImGuiEx::CanvasView GetView() const;
    ImVec2 GetViewOrigin() const;
    float GetViewScale() const;

    void SetViewRect(const ImRect& rect);
    ImRect GetViewRect() const;

private:
    ImGuiEx::Canvas&   m_Canvas;
    ImVec2             m_WindowScreenPos;
    ImVec2             m_WindowScreenSize;

    NavigateAnimation  m_Animation;
    NavigationReason   m_Reason;
    uint64_t           m_LastSelectionId;
    Object*            m_LastObject;
    bool               m_MovingOverEdge;
    ImVec2             m_MoveScreenOffset;

    const float*       m_ZoomLevels;
    int                m_ZoomLevelCount;

    bool HandleZoom(const Control& control);

    void NavigateTo(const ImRect& target, float duration = -1.0f, NavigationReason reason = NavigationReason::Unknown);

    float MatchZoom(int steps, float fallbackZoom);
    int MatchZoomIndex(int direction);

    static const float s_DefaultZoomLevels[];
    static const int   s_DefaultZoomLevelCount;
};

struct SizeAction final: EditorAction
{
    bool  m_IsActive;
    bool  m_Clean;
    Node* m_SizedNode;

    SizeAction(EditorContext* editor);

    virtual const char* GetName() const override final { return "Size"; }

    virtual AcceptResult Accept(const Control& control) override final;
    virtual bool Process(const Control& control) override final;

    virtual ImGuiMouseCursor GetCursor() override final { return m_Cursor; }

    virtual void ShowMetrics() override final;

    virtual SizeAction* AsSize() override final { return this; }

    virtual bool IsDragging() override final { return m_IsActive; }

    const ImRect& GetStartGroupBounds() const { return m_StartGroupBounds; }

private:
    NodeRegion GetRegion(Node* node);
    ImGuiMouseCursor ChooseCursor(NodeRegion region);

    ImRect           m_StartBounds;
    ImRect           m_StartGroupBounds;
    ImVec2           m_LastSize;
    ImVec2           m_MinimumSize;
    ImVec2           m_LastDragOffset;
    ed::NodeRegion   m_Pivot;
    ImGuiMouseCursor m_Cursor;
};

struct DragAction final: EditorAction
{
    bool            m_IsActive;
    bool            m_Clear;
    Object*         m_DraggedObject;
    vector<Object*> m_Objects;

    DragAction(EditorContext* editor);

    virtual const char* GetName() const override final { return "Drag"; }

    virtual AcceptResult Accept(const Control& control) override final;
    virtual bool Process(const Control& control) override final;

    virtual ImGuiMouseCursor GetCursor() override final { return ImGuiMouseCursor_ResizeAll; }

    virtual bool IsDragging() override final { return m_IsActive; }

    virtual void ShowMetrics() override final;

    virtual DragAction* AsDrag() override final { return this; }
};

struct SelectAction final: EditorAction
{
    bool            m_IsActive;

    bool            m_SelectGroups;
    bool            m_SelectLinkMode;
    bool            m_CommitSelection;
    ImVec2          m_StartPoint;
    ImVec2          m_EndPoint;
    vector<Object*> m_CandidateObjects;
    vector<Object*> m_SelectedObjectsAtStart;

    Animation       m_Animation;

    SelectAction(EditorContext* editor);

    virtual const char* GetName() const override final { return "Select"; }

    virtual AcceptResult Accept(const Control& control) override final;
    virtual bool Process(const Control& control) override final;

    virtual void ShowMetrics() override final;

    virtual bool IsDragging() override final { return m_IsActive; }

    virtual SelectAction* AsSelect() override final { return this; }

    void Draw(ImDrawList* drawList);
};

struct ContextMenuAction final: EditorAction
{
    enum Menu { None, Node, Pin, Link, Background };

    Menu m_CandidateMenu;
    Menu m_CurrentMenu;
    ObjectId m_ContextId;

    ContextMenuAction(EditorContext* editor);

    virtual const char* GetName() const override final { return "Context Menu"; }

    virtual AcceptResult Accept(const Control& control) override final;
    virtual bool Process(const Control& control) override final;
    virtual void Reject() override final;

    virtual void ShowMetrics() override final;

    virtual ContextMenuAction* AsContextMenu() override final { return this; }

    bool ShowNodeContextMenu(NodeId* nodeId);
    bool ShowPinContextMenu(PinId* pinId);
    bool ShowLinkContextMenu(LinkId* linkId);
    bool ShowBackgroundContextMenu();
};

struct ShortcutAction final: EditorAction
{
    enum Action { None, Cut, Copy, Paste, Duplicate, CreateNode };

    bool            m_IsActive;
    bool            m_InAction;
    Action          m_CurrentAction;
    vector<Object*> m_Context;

    ShortcutAction(EditorContext* editor);

    virtual const char* GetName() const override final { return "Shortcut"; }

    virtual AcceptResult Accept(const Control& control) override final;
    virtual bool Process(const Control& control) override final;
    virtual void Reject() override final;

    virtual void ShowMetrics() override final;

    virtual ShortcutAction* AsCutCopyPaste() override final { return this; }

    bool Begin();
    void End();

    bool AcceptCut();
    bool AcceptCopy();
    bool AcceptPaste();
    bool AcceptDuplicate();
    bool AcceptCreateNode();
};

struct CreateItemAction final : EditorAction
{
    enum Stage
    {
        None,
        Possible,
        Create
    };

    enum Action
    {
        Unknown,
        UserReject,
        UserAccept
    };

    enum Type
    {
        NoItem,
        Node,
        Link
    };

    enum Result
    {
        True,
        False,
        Indeterminate
    };

    bool      m_InActive;
    Stage     m_NextStage;

    Stage     m_CurrentStage;
    Type      m_ItemType;
    Action    m_UserAction;
    ImU32     m_LinkColor;
    float     m_LinkThickness;
    Pin*      m_LinkStart;
    Pin*      m_LinkEnd;

    bool      m_IsActive;
    Pin*      m_DraggedPin;

    int       m_LastChannel = -1;


    CreateItemAction(EditorContext* editor);

    virtual const char* GetName() const override final { return "Create Item"; }

    virtual AcceptResult Accept(const Control& control) override final;
    virtual bool Process(const Control& control) override final;

    virtual ImGuiMouseCursor GetCursor() override final { return ImGuiMouseCursor_Arrow; }

    virtual void ShowMetrics() override final;

    virtual bool IsDragging() override final { return m_IsActive; }

    virtual CreateItemAction* AsCreateItem() override final { return this; }

    void SetStyle(ImU32 color, float thickness);

    bool Begin();
    void End();

    Result RejectItem();
    Result AcceptItem();

    Result QueryLink(PinId* startId, PinId* endId);
    Result QueryNode(PinId* pinId);

private:
    bool m_IsInGlobalSpace;

    void DragStart(Pin* startPin);
    void DragEnd();
    void DropPin(Pin* endPin);
    void DropNode();
    void DropNothing();
};

struct DeleteItemsAction final: EditorAction
{
    bool    m_IsActive;
    bool    m_InInteraction;

    DeleteItemsAction(EditorContext* editor);

    virtual const char* GetName() const override final { return "Delete Items"; }

    virtual AcceptResult Accept(const Control& control) override final;
    virtual bool Process(const Control& control) override final;

    virtual void ShowMetrics() override final;

    virtual DeleteItemsAction* AsDeleteItems() override final { return this; }

    bool Add(Object* object);

    bool Begin();
    void End();

    bool QueryLink(LinkId* linkId, PinId* startId = nullptr, PinId* endId = nullptr);
    bool QueryNode(NodeId* nodeId);

    bool AcceptItem(bool deleteDependencies);
    void RejectItem();

private:
    enum IteratorType { Unknown, Link, Node };
    enum UserAction { Undetermined, Accepted, Rejected };

    void DeleteDeadLinks(NodeId nodeId);
    void DeleteDeadPins(NodeId nodeId);

    bool QueryItem(ObjectId* itemId, IteratorType itemType);
    void RemoveItem(bool deleteDependencies);
    Object* DropCurrentItem();

    vector<Object*> m_ManuallyDeletedObjects;

    IteratorType    m_CurrentItemType;
    UserAction      m_UserAction;
    vector<Object*> m_CandidateObjects;
    int             m_CandidateItemIndex;
};

struct NodeBuilder
{
    EditorContext* const Editor;

    Node* m_CurrentNode;
    Pin*  m_CurrentPin;

    ImRect m_NodeRect;

    ImRect m_PivotRect;
    ImVec2 m_PivotAlignment;
    ImVec2 m_PivotSize;
    ImVec2 m_PivotScale;
    bool   m_ResolvePinRect;
    bool   m_ResolvePivot;

    ImRect m_GroupBounds;
    bool   m_IsGroup;

    ImDrawListSplitter m_Splitter;
    ImDrawListSplitter m_PinSplitter;

    NodeBuilder(EditorContext* editor);
    ~NodeBuilder();

    void Begin(NodeId nodeId);
    void End();

    void BeginPin(PinId pinId, PinKind kind);
    void EndPin();

    void PinRect(const ImVec2& a, const ImVec2& b);
    void PinPivotRect(const ImVec2& a, const ImVec2& b);
    void PinPivotSize(const ImVec2& size);
    void PinPivotScale(const ImVec2& scale);
    void PinPivotAlignment(const ImVec2& alignment);

    void Group(const ImVec2& size);

    ImDrawList* GetUserBackgroundDrawList() const;
    ImDrawList* GetUserBackgroundDrawList(Node* node) const;
};

struct HintBuilder
{
    EditorContext* const Editor;
    bool  m_IsActive;
    Node* m_CurrentNode;
    float m_LastFringe = 1.0f;
    int   m_LastChannel = 0;

    HintBuilder(EditorContext* editor);

    bool Begin(NodeId nodeId);
    void End();

    ImVec2 GetGroupMin();
    ImVec2 GetGroupMax();

    ImDrawList* GetForegroundDrawList();
    ImDrawList* GetBackgroundDrawList();
};

struct Style: ax::NodeEditor::Style
{
    void PushColor(StyleColor colorIndex, const ImVec4& color);
    void PopColor(int count = 1);

    void PushVar(StyleVar varIndex, float value);
    void PushVar(StyleVar varIndex, const ImVec2& value);
    void PushVar(StyleVar varIndex, const ImVec4& value);
    void PopVar(int count = 1);

    const char* GetColorName(StyleColor colorIndex) const;

private:
    struct ColorModifier
    {
        StyleColor  Index;
        ImVec4      Value;
    };

    struct VarModifier
    {
        StyleVar Index;
        ImVec4   Value;
    };

    float* GetVarFloatAddr(StyleVar idx);
    ImVec2* GetVarVec2Addr(StyleVar idx);
    ImVec4* GetVarVec4Addr(StyleVar idx);

    vector<ColorModifier>   m_ColorStack;
    vector<VarModifier>     m_VarStack;
};

struct Config: ax::NodeEditor::Config
{
    Config(const ax::NodeEditor::Config* config);

    std::string Load();
    std::string LoadNode(NodeId nodeId);

    void BeginSave();
    bool Save(const std::string& data, SaveReasonFlags flags);
    bool SaveNode(NodeId nodeId, const std::string& data, SaveReasonFlags flags);
    void EndSave();
};

enum class SuspendFlags : uint8_t
{
    None = 0,
    KeepSplitter = 1
};

inline SuspendFlags operator |(SuspendFlags lhs, SuspendFlags rhs) { return static_cast<SuspendFlags>(static_cast<uint8_t>(lhs) | static_cast<uint8_t>(rhs)); }
inline SuspendFlags operator &(SuspendFlags lhs, SuspendFlags rhs) { return static_cast<SuspendFlags>(static_cast<uint8_t>(lhs) & static_cast<uint8_t>(rhs)); }


struct EditorContext
{
    EditorContext(const ax::NodeEditor::Config* config = nullptr);
    ~EditorContext();

    const Config& GetConfig() const { return m_Config; }

    Style& GetStyle() { return m_Style; }

    void Begin(const char* id, const ImVec2& size = ImVec2(0, 0));
    void End();

    bool DoLink(LinkId id, PinId startPinId, PinId endPinId, ImU32 color, float thickness);


    NodeBuilder& GetNodeBuilder() { return m_NodeBuilder; }
    HintBuilder& GetHintBuilder() { return m_HintBuilder; }

    EditorAction* GetCurrentAction() { return m_CurrentAction; }

    CreateItemAction& GetItemCreator() { return m_CreateItemAction; }
    DeleteItemsAction& GetItemDeleter() { return m_DeleteItemsAction; }
    ContextMenuAction& GetContextMenu() { return m_ContextMenuAction; }
    ShortcutAction& GetShortcut() { return m_ShortcutAction; }

    const ImGuiEx::CanvasView& GetView() const { return m_Canvas.View(); }
    const ImRect& GetViewRect() const { return m_Canvas.ViewRect(); }
    const ImRect& GetRect() const { return m_Canvas.Rect(); }

    void SetNodePosition(NodeId nodeId, const ImVec2& screenPosition);
    void SetGroupSize(NodeId nodeId, const ImVec2& size);
    ImVec2 GetNodePosition(NodeId nodeId);
    ImVec2 GetNodeSize(NodeId nodeId);

    void SetNodeZPosition(NodeId nodeId, float z);
    float GetNodeZPosition(NodeId nodeId);

    void MarkNodeToRestoreState(Node* node);
    void UpdateNodeState(Node* node);

    void RemoveSettings(Object* object);

    void ClearSelection();
    void SelectObject(Object* object);
    void DeselectObject(Object* object);
    void SetSelectedObject(Object* object);
    void ToggleObjectSelection(Object* object);
    bool IsSelected(Object* object);
    const vector<Object*>& GetSelectedObjects();
    bool IsAnyNodeSelected();
    bool IsAnyLinkSelected();
    bool HasSelectionChanged();
    uint64_t GetSelectionId() const { return m_SelectionId; }

    Node* FindNodeAt(const ImVec2& p);
    void FindNodesInRect(const ImRect& r, vector<Node*>& result, bool append = false, bool includeIntersecting = true);
    void FindLinksInRect(const ImRect& r, vector<Link*>& result, bool append = false);

    bool HasAnyLinks(NodeId nodeId) const;
    bool HasAnyLinks(PinId pinId) const;

    int BreakLinks(NodeId nodeId);
    int BreakLinks(PinId pinId);

    void FindLinksForNode(NodeId nodeId, vector<Link*>& result, bool add = false);

    bool PinHadAnyLinks(PinId pinId);

    ImVec2 ToCanvas(const ImVec2& point) const { return m_Canvas.ToLocal(point); }
    ImVec2 ToScreen(const ImVec2& point) const { return m_Canvas.FromLocal(point); }

    void NotifyLinkDeleted(Link* link);

    void Suspend(SuspendFlags flags = SuspendFlags::None);
    void Resume(SuspendFlags flags = SuspendFlags::None);
    bool IsSuspended();

    bool IsFocused();
    bool IsHovered() const;
    bool IsHoveredWithoutOverlapp() const;
    bool CanAcceptUserInput() const;

    void MakeDirty(SaveReasonFlags reason);
    void MakeDirty(SaveReasonFlags reason, Node* node);

    int CountLiveNodes() const;
    int CountLivePins() const;
    int CountLiveLinks() const;

    Pin*    CreatePin(PinId id, PinKind kind);
    Node*   CreateNode(NodeId id);
    Link*   CreateLink(LinkId id);

    Node*   FindNode(NodeId id);
    Pin*    FindPin(PinId id);
    Link*   FindLink(LinkId id);
    Object* FindObject(ObjectId id);

    Node*  GetNode(NodeId id);
    Pin*   GetPin(PinId id, PinKind kind);
    Link*  GetLink(LinkId id);

    Link* FindLinkAt(const ImVec2& p);

    template <typename T>
    ImRect GetBounds(const std::vector<T*>& objects)
    {
        ImRect bounds(FLT_MAX, FLT_MAX, -FLT_MAX, -FLT_MAX);

        for (auto object : objects)
            if (object->m_IsLive)
                bounds.Add(object->GetBounds());

        if (ImRect_IsEmpty(bounds))
            bounds = ImRect();

        return bounds;
    }

    template <typename T>
    ImRect GetBounds(const std::vector<ObjectWrapper<T>>& objects)
    {
        ImRect bounds(FLT_MAX, FLT_MAX, -FLT_MAX, -FLT_MAX);

        for (auto object : objects)
            if (object.m_Object->m_IsLive)
                bounds.Add(object.m_Object->GetBounds());

        if (ImRect_IsEmpty(bounds))
            bounds = ImRect();

        return bounds;
    }

    ImRect GetSelectionBounds() { return GetBounds(m_SelectedObjects); }
    ImRect GetContentBounds() { return GetBounds(m_Nodes); }

    ImU32 GetColor(StyleColor colorIndex) const;
    ImU32 GetColor(StyleColor colorIndex, float alpha) const;

    int GetNodeIds(NodeId* nodes, int size) const;

    void NavigateTo(const ImRect& bounds, bool zoomIn = false, float duration = -1)
    {
        auto zoomMode = zoomIn ? NavigateAction::ZoomMode::WithMargin : NavigateAction::ZoomMode::None;
        m_NavigateAction.NavigateTo(bounds, zoomMode, duration);
    }

    void RegisterAnimation(Animation* animation);
    void UnregisterAnimation(Animation* animation);

    void Flow(Link* link, FlowDirection direction);

    void SetUserContext(bool globalSpace = false);

    void EnableShortcuts(bool enable);
    bool AreShortcutsEnabled();

    NodeId GetHoveredNode()            const { return m_HoveredNode;             }
    PinId  GetHoveredPin()             const { return m_HoveredPin;              }
    LinkId GetHoveredLink()            const { return m_HoveredLink;             }
    NodeId GetDoubleClickedNode()      const { return m_DoubleClickedNode;       }
    PinId  GetDoubleClickedPin()       const { return m_DoubleClickedPin;        }
    LinkId GetDoubleClickedLink()      const { return m_DoubleClickedLink;       }
    bool   IsBackgroundClicked()                           const { return m_BackgroundClickButtonIndex >= 0; }
    bool   IsBackgroundDoubleClicked()                     const { return m_BackgroundDoubleClickButtonIndex >= 0; }
    ImGuiMouseButton GetBackgroundClickButtonIndex()       const { return m_BackgroundClickButtonIndex; }
    ImGuiMouseButton GetBackgroundDoubleClickButtonIndex() const { return m_BackgroundDoubleClickButtonIndex; }

    float AlignPointToGrid(float p) const
    {
        if (!ImGui::GetIO().KeyAlt)
            return p - ImFmod(p, 16.0f);
        else
            return p;
    }

    ImVec2 AlignPointToGrid(const ImVec2& p) const
    {
        return ImVec2(AlignPointToGrid(p.x), AlignPointToGrid(p.y));
    }

    ImDrawList* GetDrawList() { return m_DrawList; }

private:
    void LoadSettings();
    void SaveSettings();

    Control BuildControl(bool allowOffscreen);

    void ShowMetrics(const Control& control);

    void UpdateAnimations();

    Config              m_Config;

    ImGuiID             m_EditorActiveId;
    bool                m_IsFirstFrame;
    bool                m_IsFocused;
    bool                m_IsHovered;
    bool                m_IsHoveredWithoutOverlapp;

    bool                m_ShortcutsEnabled;

    Style               m_Style;

    vector<ObjectWrapper<Node>> m_Nodes;
    vector<ObjectWrapper<Pin>>  m_Pins;
    vector<ObjectWrapper<Link>> m_Links;

    vector<Object*>     m_SelectedObjects;

    vector<Object*>     m_LastSelectedObjects;
    uint64_t            m_SelectionId;

    Link*               m_LastActiveLink;

    vector<Animation*>  m_LiveAnimations;
    vector<Animation*>  m_LastLiveAnimations;

    ImGuiEx::Canvas     m_Canvas;
    bool                m_IsCanvasVisible;

    NodeBuilder         m_NodeBuilder;
    HintBuilder         m_HintBuilder;

    EditorAction*       m_CurrentAction;
    NavigateAction      m_NavigateAction;
    SizeAction          m_SizeAction;
    DragAction          m_DragAction;
    SelectAction        m_SelectAction;
    ContextMenuAction   m_ContextMenuAction;
    ShortcutAction      m_ShortcutAction;
    CreateItemAction    m_CreateItemAction;
    DeleteItemsAction   m_DeleteItemsAction;

    vector<AnimationController*> m_AnimationControllers;
    FlowAnimationController      m_FlowAnimationController;

    NodeId              m_HoveredNode;
    PinId               m_HoveredPin;
    LinkId              m_HoveredLink;
    NodeId              m_DoubleClickedNode;
    PinId               m_DoubleClickedPin;
    LinkId              m_DoubleClickedLink;
    int                 m_BackgroundClickButtonIndex;
    int                 m_BackgroundDoubleClickButtonIndex;

    bool                m_IsInitialized;
    Settings            m_Settings;

    ImDrawList*         m_DrawList;
    int                 m_ExternalChannel;
    ImDrawListSplitter  m_Splitter;
};


//------------------------------------------------------------------------------
} // namespace Detail
} // namespace Editor
} // namespace ax


//------------------------------------------------------------------------------
# include "imgui_node_editor_internal.inl"


//------------------------------------------------------------------------------
# endif // __IMGUI_NODE_EDITOR_INTERNAL_H__

//Disable a bunch of warnings for now
#ifndef _MSC_VER
#pragma GCC diagnostic pop
#endif