AnimTestbed/3rdparty/imnodes/imnodes_internal.h

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#pragma once
#include "imnodes.h"
#include <imgui.h>
#define IMGUI_DEFINE_MATH_OPERATORS
#include <imgui_internal.h>
#include <assert.h>
#include <limits.h>
// the structure of this file:
//
// [SECTION] internal enums
// [SECTION] internal data structures
// [SECTION] global and editor context structs
// [SECTION] object pool implementation
struct ImNodesContext;
extern ImNodesContext* GImNodes;
// [SECTION] internal enums
typedef int ImNodesScope;
typedef int ImNodesAttributeType;
typedef int ImNodesUIState;
typedef int ImNodesClickInteractionType;
typedef int ImNodesLinkCreationType;
enum ImNodesScope_
{
ImNodesScope_None = 1,
ImNodesScope_Editor = 1 << 1,
ImNodesScope_Node = 1 << 2,
ImNodesScope_Attribute = 1 << 3
};
enum ImNodesAttributeType_
{
ImNodesAttributeType_None,
ImNodesAttributeType_Input,
ImNodesAttributeType_Output
};
enum ImNodesUIState_
{
ImNodesUIState_None = 0,
ImNodesUIState_LinkStarted = 1 << 0,
ImNodesUIState_LinkDropped = 1 << 1,
ImNodesUIState_LinkCreated = 1 << 2
};
enum ImNodesClickInteractionType_
{
ImNodesClickInteractionType_Node,
ImNodesClickInteractionType_Link,
ImNodesClickInteractionType_LinkCreation,
ImNodesClickInteractionType_Panning,
ImNodesClickInteractionType_BoxSelection,
ImNodesClickInteractionType_ImGuiItem,
ImNodesClickInteractionType_None
};
enum ImNodesLinkCreationType_
{
ImNodesLinkCreationType_Standard,
ImNodesLinkCreationType_FromDetach
};
// [SECTION] internal data structures
// The object T must have the following interface:
//
// struct T
// {
// T();
//
// int id;
// };
template<typename T>
struct ImObjectPool
{
ImVector<T> Pool;
ImVector<bool> InUse;
ImVector<int> FreeList;
ImGuiStorage IdMap;
ImObjectPool() : Pool(), InUse(), FreeList(), IdMap() {}
};
// Emulates std::optional<int> using the sentinel value `INVALID_INDEX`.
struct ImOptionalIndex
{
ImOptionalIndex() : _Index(INVALID_INDEX) {}
ImOptionalIndex(const int value) : _Index(value) {}
// Observers
inline bool HasValue() const { return _Index != INVALID_INDEX; }
inline int Value() const
{
assert(HasValue());
return _Index;
}
// Modifiers
inline ImOptionalIndex& operator=(const int value)
{
_Index = value;
return *this;
}
inline void Reset() { _Index = INVALID_INDEX; }
inline bool operator==(const ImOptionalIndex& rhs) const { return _Index == rhs._Index; }
inline bool operator==(const int rhs) const { return _Index == rhs; }
inline bool operator!=(const ImOptionalIndex& rhs) const { return _Index != rhs._Index; }
inline bool operator!=(const int rhs) const { return _Index != rhs; }
static const int INVALID_INDEX = -1;
private:
int _Index;
};
struct ImNodeData
{
int Id;
ImVec2 Origin; // The node origin is in editor space
ImRect TitleBarContentRect;
ImRect Rect;
struct
{
ImU32 Background, BackgroundHovered, BackgroundSelected, Outline, Titlebar, TitlebarHovered,
TitlebarSelected;
} ColorStyle;
struct
{
float CornerRounding;
ImVec2 Padding;
float BorderThickness;
} LayoutStyle;
ImVector<int> PinIndices;
bool Draggable;
ImNodeData(const int node_id)
: Id(node_id), Origin(100.0f, 100.0f), TitleBarContentRect(),
Rect(ImVec2(0.0f, 0.0f), ImVec2(0.0f, 0.0f)), ColorStyle(), LayoutStyle(), PinIndices(),
Draggable(true)
{
}
~ImNodeData() { Id = INT_MIN; }
};
struct ImPinData
{
int Id;
int ParentNodeIdx;
ImRect AttributeRect;
ImNodesAttributeType Type;
ImNodesPinShape Shape;
ImVec2 Pos; // screen-space coordinates
int Flags;
struct
{
ImU32 Background, Hovered;
} ColorStyle;
ImPinData(const int pin_id)
: Id(pin_id), ParentNodeIdx(), AttributeRect(), Type(ImNodesAttributeType_None),
Shape(ImNodesPinShape_CircleFilled), Pos(), Flags(ImNodesAttributeFlags_None),
ColorStyle()
{
}
};
struct ImLinkData
{
int Id;
int StartPinIdx, EndPinIdx;
struct
{
ImU32 Base, Hovered, Selected;
} ColorStyle;
ImLinkData(const int link_id) : Id(link_id), StartPinIdx(), EndPinIdx(), ColorStyle() {}
};
struct ImClickInteractionState
{
ImNodesClickInteractionType Type;
struct
{
int StartPinIdx;
ImOptionalIndex EndPinIdx;
ImNodesLinkCreationType Type;
} LinkCreation;
struct
{
ImRect Rect; // Coordinates in grid space
} BoxSelector;
ImClickInteractionState() : Type(ImNodesClickInteractionType_None) {}
};
struct ImNodesColElement
{
ImU32 Color;
ImNodesCol Item;
ImNodesColElement(const ImU32 c, const ImNodesCol s) : Color(c), Item(s) {}
};
struct ImNodesStyleVarElement
{
ImNodesStyleVar Item;
float FloatValue[2];
ImNodesStyleVarElement(const ImNodesStyleVar variable, const float value) : Item(variable)
{
FloatValue[0] = value;
}
ImNodesStyleVarElement(const ImNodesStyleVar variable, const ImVec2 value) : Item(variable)
{
FloatValue[0] = value.x;
FloatValue[1] = value.y;
}
};
// [SECTION] global and editor context structs
struct ImNodesEditorContext
{
ImObjectPool<ImNodeData> Nodes;
ImObjectPool<ImPinData> Pins;
ImObjectPool<ImLinkData> Links;
ImVector<int> NodeDepthOrder;
// ui related fields
ImVec2 Panning;
ImVec2 AutoPanningDelta;
// Minimum and maximum extents of all content in grid space. Valid after final
// ImNodes::EndNode() call.
ImRect GridContentBounds;
ImVector<int> SelectedNodeIndices;
ImVector<int> SelectedLinkIndices;
ImClickInteractionState ClickInteraction;
// Mini-map state set by MiniMap()
bool MiniMapEnabled;
ImNodesMiniMapLocation MiniMapLocation;
float MiniMapSizeFraction;
ImNodesMiniMapNodeHoveringCallback MiniMapNodeHoveringCallback;
ImNodesMiniMapNodeHoveringCallbackUserData MiniMapNodeHoveringCallbackUserData;
// Mini-map state set during EndNodeEditor() call
ImRect MiniMapRectScreenSpace;
ImRect MiniMapContentScreenSpace;
float MiniMapScaling;
ImNodesEditorContext()
: Nodes(), Pins(), Links(), Panning(0.f, 0.f), SelectedNodeIndices(), SelectedLinkIndices(),
ClickInteraction(), MiniMapEnabled(false), MiniMapSizeFraction(0.0f),
MiniMapNodeHoveringCallback(NULL), MiniMapNodeHoveringCallbackUserData(NULL),
MiniMapScaling(0.0f)
{
}
};
struct ImNodesContext
{
ImNodesEditorContext* DefaultEditorCtx;
ImNodesEditorContext* EditorCtx;
// Canvas draw list and helper state
ImDrawList* CanvasDrawList;
ImGuiStorage NodeIdxToSubmissionIdx;
ImVector<int> NodeIdxSubmissionOrder;
ImVector<int> NodeIndicesOverlappingWithMouse;
ImVector<int> OccludedPinIndices;
// Canvas extents
ImVec2 CanvasOriginScreenSpace;
ImRect CanvasRectScreenSpace;
// Debug helpers
ImNodesScope CurrentScope;
// Configuration state
ImNodesIO Io;
ImNodesStyle Style;
ImVector<ImNodesColElement> ColorModifierStack;
ImVector<ImNodesStyleVarElement> StyleModifierStack;
ImGuiTextBuffer TextBuffer;
int CurrentAttributeFlags;
ImVector<int> AttributeFlagStack;
// UI element state
int CurrentNodeIdx;
int CurrentPinIdx;
int CurrentAttributeId;
ImOptionalIndex HoveredNodeIdx;
ImOptionalIndex HoveredLinkIdx;
ImOptionalIndex HoveredPinIdx;
ImOptionalIndex DeletedLinkIdx;
ImOptionalIndex SnapLinkIdx;
// Event helper state
// TODO: this should be a part of a state machine, and not a member of the global struct.
// Unclear what parts of the code this relates to.
int ImNodesUIState;
int ActiveAttributeId;
bool ActiveAttribute;
// ImGui::IO cache
ImVec2 MousePos;
bool LeftMouseClicked;
bool LeftMouseReleased;
bool AltMouseClicked;
bool LeftMouseDragging;
bool AltMouseDragging;
float AltMouseScrollDelta;
};
namespace IMNODES_NAMESPACE
{
static inline ImNodesEditorContext& EditorContextGet()
{
// No editor context was set! Did you forget to call ImNodes::CreateContext()?
assert(GImNodes->EditorCtx != NULL);
return *GImNodes->EditorCtx;
}
// [SECTION] ObjectPool implementation
template<typename T>
static inline int ObjectPoolFind(const ImObjectPool<T>& objects, const int id)
{
const int index = objects.IdMap.GetInt(static_cast<ImGuiID>(id), -1);
return index;
}
template<typename T>
static inline void ObjectPoolUpdate(ImObjectPool<T>& objects)
{
for (int i = 0; i < objects.InUse.size(); ++i)
{
const int id = objects.Pool[i].Id;
if (!objects.InUse[i] && objects.IdMap.GetInt(id, -1) == i)
{
objects.IdMap.SetInt(id, -1);
objects.FreeList.push_back(i);
(objects.Pool.Data + i)->~T();
}
}
}
template<>
inline void ObjectPoolUpdate(ImObjectPool<ImNodeData>& nodes)
{
for (int i = 0; i < nodes.InUse.size(); ++i)
{
if (nodes.InUse[i])
{
nodes.Pool[i].PinIndices.clear();
}
else
{
const int id = nodes.Pool[i].Id;
if (nodes.IdMap.GetInt(id, -1) == i)
{
// Remove node idx form depth stack the first time we detect that this idx slot is
// unused
ImVector<int>& depth_stack = EditorContextGet().NodeDepthOrder;
const int* const elem = depth_stack.find(i);
assert(elem != depth_stack.end());
depth_stack.erase(elem);
nodes.IdMap.SetInt(id, -1);
nodes.FreeList.push_back(i);
(nodes.Pool.Data + i)->~ImNodeData();
}
}
}
}
template<typename T>
static inline void ObjectPoolReset(ImObjectPool<T>& objects)
{
if (!objects.InUse.empty())
{
memset(objects.InUse.Data, 0, objects.InUse.size_in_bytes());
}
}
template<typename T>
static inline int ObjectPoolFindOrCreateIndex(ImObjectPool<T>& objects, const int id)
{
int index = objects.IdMap.GetInt(static_cast<ImGuiID>(id), -1);
// Construct new object
if (index == -1)
{
if (objects.FreeList.empty())
{
index = objects.Pool.size();
IM_ASSERT(objects.Pool.size() == objects.InUse.size());
const int new_size = objects.Pool.size() + 1;
objects.Pool.resize(new_size);
objects.InUse.resize(new_size);
}
else
{
index = objects.FreeList.back();
objects.FreeList.pop_back();
}
IM_PLACEMENT_NEW(objects.Pool.Data + index) T(id);
objects.IdMap.SetInt(static_cast<ImGuiID>(id), index);
}
// Flag it as used
objects.InUse[index] = true;
return index;
}
template<>
inline int ObjectPoolFindOrCreateIndex(ImObjectPool<ImNodeData>& nodes, const int node_id)
{
int node_idx = nodes.IdMap.GetInt(static_cast<ImGuiID>(node_id), -1);
// Construct new node
if (node_idx == -1)
{
if (nodes.FreeList.empty())
{
node_idx = nodes.Pool.size();
IM_ASSERT(nodes.Pool.size() == nodes.InUse.size());
const int new_size = nodes.Pool.size() + 1;
nodes.Pool.resize(new_size);
nodes.InUse.resize(new_size);
}
else
{
node_idx = nodes.FreeList.back();
nodes.FreeList.pop_back();
}
IM_PLACEMENT_NEW(nodes.Pool.Data + node_idx) ImNodeData(node_id);
nodes.IdMap.SetInt(static_cast<ImGuiID>(node_id), node_idx);
ImNodesEditorContext& editor = EditorContextGet();
editor.NodeDepthOrder.push_back(node_idx);
}
// Flag node as used
nodes.InUse[node_idx] = true;
return node_idx;
}
template<typename T>
static inline T& ObjectPoolFindOrCreateObject(ImObjectPool<T>& objects, const int id)
{
const int index = ObjectPoolFindOrCreateIndex(objects, id);
return objects.Pool[index];
}
} // namespace IMNODES_NAMESPACE