Merge branch 'vulkan_fix_master' into vulkan_fix_docking

imgui.h

@@ -13,6 +13,7 @@ Index of this file:
 // Forward declarations and basic types
 // ImGui API (Dear ImGui end-user API)
 // Flags & Enumerations
+// Memory allocations macros
 // ImVector<>
 // ImGuiStyle
 // ImGuiIO
@@ -1255,6 +1256,22 @@ enum ImGuiCond_
 #endif
 };
 
+//-----------------------------------------------------------------------------
+// Helpers: Memory allocations macros
+// IM_MALLOC(), IM_FREE(), IM_NEW(), IM_PLACEMENT_NEW(), IM_DELETE()
+// We call C++ constructor on own allocated memory via the placement "new(ptr) Type()" syntax.
+// Defining a custom placement new() with a dummy parameter allows us to bypass including <new> which on some platforms complains when user has disabled exceptions.
+//-----------------------------------------------------------------------------
+
+struct ImNewDummy {};
+inline void* operator new(size_t, ImNewDummy, void* ptr) { return ptr; }
+inline void  operator delete(void*, ImNewDummy, void*)   {} // This is only required so we can use the symmetrical new()
+#define IM_ALLOC(_SIZE)                     ImGui::MemAlloc(_SIZE)
+#define IM_FREE(_PTR)                       ImGui::MemFree(_PTR)
+#define IM_PLACEMENT_NEW(_PTR)              new(ImNewDummy(), _PTR)
+#define IM_NEW(_TYPE)                       new(ImNewDummy(), ImGui::MemAlloc(sizeof(_TYPE))) _TYPE
+template<typename T> void IM_DELETE(T* p)   { if (p) { p->~T(); ImGui::MemFree(p); } }
+
 //-----------------------------------------------------------------------------
 // Helper: ImVector<>
 // Lightweight std::vector<>-like class to avoid dragging dependencies (also, some implementations of STL with debug enabled are absurdly slow, we bypass it so our code runs fast in debug).
@@ -1280,7 +1297,7 @@ struct ImVector
     inline ImVector()                                       { Size = Capacity = 0; Data = NULL; }
     inline ImVector(const ImVector<T>& src)                 { Size = Capacity = 0; Data = NULL; operator=(src); }
     inline ImVector<T>& operator=(const ImVector<T>& src)   { clear(); resize(src.Size); memcpy(Data, src.Data, (size_t)Size * sizeof(T)); return *this; }
-    inline ~ImVector()                                      { if (Data) ImGui::MemFree(Data); }
+    inline ~ImVector()                                      { if (Data) IM_FREE(Data); }
 
     inline bool         empty() const                       { return Size == 0; }
     inline int          size() const                        { return Size; }
@@ -1289,7 +1306,7 @@ struct ImVector
     inline T&           operator[](int i)                   { IM_ASSERT(i < Size); return Data[i]; }
     inline const T&     operator[](int i) const             { IM_ASSERT(i < Size); return Data[i]; }
 
-    inline void         clear()                             { if (Data) { Size = Capacity = 0; ImGui::MemFree(Data); Data = NULL; } }
+    inline void         clear()                             { if (Data) { Size = Capacity = 0; IM_FREE(Data); Data = NULL; } }
     inline T*           begin()                             { return Data; }
     inline const T*     begin() const                       { return Data; }
     inline T*           end()                               { return Data + Size; }
@@ -1303,7 +1320,7 @@ struct ImVector
     inline int          _grow_capacity(int sz) const        { int new_capacity = Capacity ? (Capacity + Capacity/2) : 8; return new_capacity > sz ? new_capacity : sz; }
     inline void         resize(int new_size)                { if (new_size > Capacity) reserve(_grow_capacity(new_size)); Size = new_size; }
     inline void         resize(int new_size, const T& v)    { if (new_size > Capacity) reserve(_grow_capacity(new_size)); if (new_size > Size) for (int n = Size; n < new_size; n++) memcpy(&Data[n], &v, sizeof(v)); Size = new_size; }
-    inline void         reserve(int new_capacity)           { if (new_capacity <= Capacity) return; T* new_data = (T*)ImGui::MemAlloc((size_t)new_capacity * sizeof(T)); if (Data) { memcpy(new_data, Data, (size_t)Size * sizeof(T)); ImGui::MemFree(Data); } Data = new_data; Capacity = new_capacity; }
+    inline void         reserve(int new_capacity)           { if (new_capacity <= Capacity) return; T* new_data = (T*)IM_ALLOC((size_t)new_capacity * sizeof(T)); if (Data) { memcpy(new_data, Data, (size_t)Size * sizeof(T)); IM_FREE(Data); } Data = new_data; Capacity = new_capacity; }
 
     // NB: It is illegal to call push_back/push_front/insert with a reference pointing inside the ImVector data itself! e.g. v.push_back(v[10]) is forbidden.
     inline void         push_back(const T& v)               { if (Size == Capacity) reserve(_grow_capacity(Size + 1)); memcpy(&Data[Size], &v, sizeof(v)); Size++; }
@@ -1639,16 +1656,6 @@ typedef ImGuiInputTextCallbackData  ImGuiTextEditCallbackData;
 // Helpers
 //-----------------------------------------------------------------------------
 
-// Helper: IM_NEW(), IM_PLACEMENT_NEW(), IM_DELETE() macros to call MemAlloc + Placement New, Placement Delete + MemFree
-// We call C++ constructor on own allocated memory via the placement "new(ptr) Type()" syntax.
-// Defining a custom placement new() with a dummy parameter allows us to bypass including <new> which on some platforms complains when user has disabled exceptions.
-struct ImNewDummy {};
-inline void* operator new(size_t, ImNewDummy, void* ptr) { return ptr; }
-inline void  operator delete(void*, ImNewDummy, void*)   {} // This is only required so we can use the symmetrical new()
-#define IM_PLACEMENT_NEW(_PTR)              new(ImNewDummy(), _PTR)
-#define IM_NEW(_TYPE)                       new(ImNewDummy(), ImGui::MemAlloc(sizeof(_TYPE))) _TYPE
-template<typename T> void IM_DELETE(T* p)   { if (p) { p->~T(); ImGui::MemFree(p); } }
-
 // Helper: Execute a block of code at maximum once a frame. Convenient if you want to quickly create an UI within deep-nested code that runs multiple times every frame.
 // Usage: static ImGuiOnceUponAFrame oaf; if (oaf) ImGui::Text("This will be called only once per frame");
 struct ImGuiOnceUponAFrame