mirror of
https://github.com/godotengine/godot.git
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439 lines
20 KiB
XML
439 lines
20 KiB
XML
<?xml version="1.0" encoding="utf-8"?>
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<AutoVisualizer xmlns="http://schemas.microsoft.com/vstudio/debugger/natvis/2010">
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<Type Name="Ref<*>">
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<SmartPointer Usage="Minimal">reference</SmartPointer>
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<DisplayString Condition="!reference">[empty]</DisplayString>
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<DisplayString Condition="!!reference">{*reference}</DisplayString>
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<Expand>
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<Item Condition="!!reference" Name="[ptr]">reference</Item>
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<Item Condition="!!reference" Name="[refcount]">reference->refcount.count.value</Item>
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</Expand>
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</Type>
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<Type Name="Vector<*>">
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<Expand>
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<Item Name="[size]">_cowdata._ptr ? (((const unsigned long long *)(_cowdata._ptr))[-1]) : 0</Item>
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<ArrayItems>
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<Size>_cowdata._ptr ? (((const unsigned long long *)(_cowdata._ptr))[-1]) : 0</Size>
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<ValuePointer>($T1 *) _cowdata._ptr</ValuePointer>
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</ArrayItems>
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</Expand>
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</Type>
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<Type Name="Array">
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<Expand>
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<Item Name="[size]">_p->array._cowdata._ptr ? (((const unsigned long long *)(_p->array._cowdata._ptr))[-1]) : 0</Item>
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<ArrayItems>
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<Size>_p->array._cowdata._ptr ? (((const unsigned long long *)(_p->array._cowdata._ptr))[-1]) : 0</Size>
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<ValuePointer>(Variant *) _p->array._cowdata._ptr</ValuePointer>
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</ArrayItems>
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</Expand>
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</Type>
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<Type Name="Dictionary">
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<Expand>
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<Item Name="[size]">_p && _p->variant_map.head_element ? _p->variant_map.num_elements : 0</Item>
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<LinkedListItems>
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<Size>_p && _p->variant_map.head_element ? _p->variant_map.num_elements : 0</Size>
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<HeadPointer>_p ? _p->variant_map.head_element : nullptr</HeadPointer>
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<NextPointer>next</NextPointer>
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<ValueNode Name="[{data.key}]">(*this),view(MapHelper)</ValueNode>
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</LinkedListItems>
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</Expand>
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</Type>
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<Type Name="LocalVector<*>">
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<Expand>
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<Item Name="[size]">count</Item>
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<ArrayItems>
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<Size>count</Size>
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<ValuePointer>data</ValuePointer>
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</ArrayItems>
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</Expand>
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</Type>
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<Type Name="List<*>">
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<Expand>
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<Item Name="[size]">_data ? (_data->size_cache) : 0</Item>
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<LinkedListItems>
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<Size>_data ? (_data->size_cache) : 0</Size>
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<HeadPointer>_data->first</HeadPointer>
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<NextPointer>next_ptr</NextPointer>
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<ValueNode>value</ValueNode>
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</LinkedListItems>
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</Expand>
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</Type>
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<Type Name="NodePath">
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<DisplayString Condition="!data">[empty]</DisplayString>
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<DisplayString Condition="!!data">{{[absolute] = {data->absolute} [path] = {data->path,view(NodePathHelper)} [subpath] = {data->subpath,view(NodePathHelper)}}}</DisplayString>
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<Expand>
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<Item Name="[path]">data->path,view(NodePathHelper)</Item>
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<Item Name="[subpath]">data->subpath,view(NodePathHelper)</Item>
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<Item Name="[absolute]">data->absolute</Item>
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</Expand>
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</Type>
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<Type Name="Vector<StringName>" IncludeView="NodePathHelper">
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<Expand>
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<ArrayItems>
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<Size>_cowdata._ptr ? (((const unsigned long long *)(_cowdata._ptr))[-1]) : 0</Size>
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<ValuePointer>((StringName *)_cowdata._ptr),view(NodePathHelper)</ValuePointer>
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</ArrayItems>
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</Expand>
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</Type>
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<Type Name="StringName" IncludeView="NodePathHelper">
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<DisplayString Condition="_data && _data->cname">{_data->cname,s8b}</DisplayString>
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<DisplayString Condition="_data && !_data->cname">{_data->name,s32b}</DisplayString>
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<DisplayString Condition="!_data">[empty]</DisplayString>
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<StringView Condition="_data && _data->cname">_data->cname,s8b</StringView>
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<StringView Condition="_data && !_data->cname">_data->name,s32b</StringView>
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</Type>
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<Type Name="HashSet<*,*,*>">
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<Expand>
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<Item Name="[size]">num_elements</Item>
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<ArrayItems>
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<Size>num_elements</Size>
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<ValuePointer>($T1 *) keys._cowdata._ptr</ValuePointer>
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</ArrayItems>
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</Expand>
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</Type>
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<Type Name="HashMapElement<*,*>">
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<DisplayString>{{Key = {($T1 *) &data.key} Value = {($T2 *) &data.value}}}</DisplayString>
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<Expand>
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<Item Name="[key]">($T1 *) &data.key</Item>
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<Item Name="[value]">($T2 *) &data.value</Item>
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</Expand>
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</Type>
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<!-- elements displayed by index -->
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<Type Name="HashMap<*,*,*,*,*>" Priority="Medium">
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<Expand>
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<Item Name="[size]">head_element ? num_elements : 0</Item>
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<LinkedListItems>
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<Size>head_element ? num_elements : 0</Size>
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<HeadPointer>head_element</HeadPointer>
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<NextPointer>next</NextPointer>
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<ValueNode>(*this)</ValueNode>
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</LinkedListItems>
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</Expand>
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</Type>
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<!-- elements by key:value -->
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<!-- show elements by index by specifying "ShowElementsByIndex"-->
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<Type Name="HashMap<*,*,*,*,*>" ExcludeView="ShowElementsByIndex" Priority="MediumHigh">
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<Expand>
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<Item Name="[size]">head_element ? num_elements : 0</Item>
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<LinkedListItems>
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<Size>head_element ? num_elements : 0</Size>
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<HeadPointer>head_element</HeadPointer>
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<NextPointer>next</NextPointer>
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<ValueNode Name="[{data.key}]">(*this),view(MapHelper)</ValueNode>
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</LinkedListItems>
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</Expand>
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</Type>
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<Type Name="KeyValue<*,*>" IncludeView="MapHelper">
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<DisplayString>{value}</DisplayString>
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</Type>
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<Type Name="HashMapElement<*,*>" IncludeView="MapHelper">
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<DisplayString>{data.value}</DisplayString>
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<Expand>
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<Item Name="[key]">($T1 *) &data.key</Item>
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<Item Name="[value]">($T2 *) &data.value</Item>
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</Expand>
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</Type>
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<Type Name="VMap<*,*>">
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<Expand>
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<Item Condition="_cowdata._ptr" Name="[size]">*(reinterpret_cast<long long*>(_cowdata._ptr) - 1)</Item>
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<ArrayItems Condition="_cowdata._ptr">
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<Size>*(reinterpret_cast<long long*>(_cowdata._ptr) - 1)</Size>
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<ValuePointer>reinterpret_cast<VMap<$T1,$T2>::Pair*>(_cowdata._ptr)</ValuePointer>
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</ArrayItems>
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</Expand>
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</Type>
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<Type Name="VMap<Callable,*>::Pair">
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<DisplayString Condition="dynamic_cast<CallableCustomMethodPointerBase*>(key.custom)">{dynamic_cast<CallableCustomMethodPointerBase*>(key.custom)->text}</DisplayString>
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</Type>
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<Type Name="Variant">
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<DisplayString Condition="type == Variant::NIL">nil</DisplayString>
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<DisplayString Condition="type == Variant::BOOL">{_data._bool}</DisplayString>
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<DisplayString Condition="type == Variant::INT">{_data._int}</DisplayString>
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<DisplayString Condition="type == Variant::FLOAT">{_data._float}</DisplayString>
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<DisplayString Condition="type == Variant::TRANSFORM2D">{_data._transform2d}</DisplayString>
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<DisplayString Condition="type == Variant::AABB">{_data._aabb}</DisplayString>
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<DisplayString Condition="type == Variant::BASIS">{_data._basis}</DisplayString>
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<DisplayString Condition="type == Variant::TRANSFORM3D">{_data._transform3d}</DisplayString>
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<DisplayString Condition="type == Variant::PROJECTION">{_data._projection}</DisplayString>
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<DisplayString Condition="type == Variant::STRING">{*(String *)_data._mem}</DisplayString>
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<DisplayString Condition="type == Variant::VECTOR2">{*(Vector2 *)_data._mem}</DisplayString>
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<DisplayString Condition="type == Variant::RECT2">{*(Rect2 *)_data._mem}</DisplayString>
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<DisplayString Condition="type == Variant::VECTOR3">{*(Vector3 *)_data._mem}</DisplayString>
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<DisplayString Condition="type == Variant::VECTOR4">{*(Vector4 *)_data._mem}</DisplayString>
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<DisplayString Condition="type == Variant::PLANE">{*(Plane *)_data._mem}</DisplayString>
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<DisplayString Condition="type == Variant::QUATERNION">{*(Quaternion *)_data._mem}</DisplayString>
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<DisplayString Condition="type == Variant::COLOR">{*(Color *)_data._mem}</DisplayString>
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<DisplayString Condition="type == Variant::STRING_NAME">{*(StringName *)_data._mem}</DisplayString>
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<DisplayString Condition="type == Variant::NODE_PATH">{*(NodePath *)_data._mem}</DisplayString>
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<DisplayString Condition="type == Variant::RID">{*(::RID *)_data._mem}</DisplayString>
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<DisplayString Condition="type == Variant::OBJECT">{*(*reinterpret_cast<ObjData*>(&_data._mem[0])).obj}</DisplayString>
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<DisplayString Condition="type == Variant::DICTIONARY">{*(Dictionary *)_data._mem}</DisplayString>
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<DisplayString Condition="type == Variant::ARRAY">{*(Array *)_data._mem}</DisplayString>
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<DisplayString Condition="type == Variant::PACKED_BYTE_ARRAY">{reinterpret_cast<const Variant::PackedArrayRef<unsigned char>*>(_data.packed_array)->array}</DisplayString>
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<DisplayString Condition="type == Variant::PACKED_INT32_ARRAY">{reinterpret_cast<const Variant::PackedArrayRef<int>*>(_data.packed_array)->array}</DisplayString>
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<DisplayString Condition="type == Variant::PACKED_INT64_ARRAY">{*reinterpret_cast<PackedInt64Array *>(&_data.packed_array[1])}</DisplayString>
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<DisplayString Condition="type == Variant::PACKED_FLOAT32_ARRAY">{reinterpret_cast<const Variant::PackedArrayRef<float>*>(_data.packed_array)->array}</DisplayString>
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<DisplayString Condition="type == Variant::PACKED_FLOAT64_ARRAY">{reinterpret_cast<const Variant::PackedArrayRef<double>*>(_data.packed_array)->array}</DisplayString>
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<DisplayString Condition="type == Variant::PACKED_STRING_ARRAY">{reinterpret_cast<const Variant::PackedArrayRef<String>*>(_data.packed_array)->array}</DisplayString>
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<DisplayString Condition="type == Variant::PACKED_VECTOR2_ARRAY">{reinterpret_cast<const Variant::PackedArrayRef<Vector2>*>(_data.packed_array)->array}</DisplayString>
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<DisplayString Condition="type == Variant::PACKED_VECTOR3_ARRAY">{reinterpret_cast<const Variant::PackedArrayRef<Vector3>*>(_data.packed_array)->array}</DisplayString>
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<DisplayString Condition="type == Variant::PACKED_COLOR_ARRAY">{reinterpret_cast<const Variant::PackedArrayRef<Color>*>(_data.packed_array)->array}</DisplayString>
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<DisplayString Condition="type == Variant::PACKED_VECTOR4_ARRAY">{reinterpret_cast<const Variant::PackedArrayRef<Vector4>*>(_data.packed_array)->array}</DisplayString>
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<DisplayString Condition="type < 0 || type >= Variant::VARIANT_MAX">[INVALID]</DisplayString>
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<StringView Condition="type == Variant::STRING && ((String *)(_data._mem))->_cowdata._ptr">((String *)(_data._mem))->_cowdata._ptr,s32</StringView>
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<Expand>
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<Item Name="[value]" Condition="type == Variant::BOOL">_data._bool</Item>
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<Item Name="[value]" Condition="type == Variant::INT">_data._int</Item>
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<Item Name="[value]" Condition="type == Variant::FLOAT">_data._float</Item>
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<Item Name="[value]" Condition="type == Variant::TRANSFORM2D">_data._transform2d</Item>
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<Item Name="[value]" Condition="type == Variant::AABB">_data._aabb</Item>
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<Item Name="[value]" Condition="type == Variant::BASIS">_data._basis</Item>
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<Item Name="[value]" Condition="type == Variant::TRANSFORM3D">_data._transform3d</Item>
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<Item Name="[value]" Condition="type == Variant::STRING">*(String *)_data._mem</Item>
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<Item Name="[value]" Condition="type == Variant::VECTOR2">*(Vector2 *)_data._mem</Item>
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<Item Name="[value]" Condition="type == Variant::RECT2">*(Rect2 *)_data._mem</Item>
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<Item Name="[value]" Condition="type == Variant::VECTOR3">*(Vector3 *)_data._mem</Item>
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<Item Name="[value]" Condition="type == Variant::PLANE">*(Plane *)_data._mem</Item>
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<Item Name="[value]" Condition="type == Variant::QUATERNION">*(Quaternion *)_data._mem</Item>
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<Item Name="[value]" Condition="type == Variant::COLOR">*(Color *)_data._mem</Item>
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<Item Name="[value]" Condition="type == Variant::STRING_NAME">*(StringName *)_data._mem</Item>
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<Item Name="[value]" Condition="type == Variant::NODE_PATH">*(NodePath *)_data._mem</Item>
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<Item Name="[value]" Condition="type == Variant::RID">*(::RID *)_data._mem</Item>
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<Item Name="[value]" Condition="type == Variant::OBJECT">*(*reinterpret_cast<ObjData*>(&_data._mem[0])).obj</Item>
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<Item Name="[value]" Condition="type == Variant::DICTIONARY">*(Dictionary *)_data._mem</Item>
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<Item Name="[value]" Condition="type == Variant::ARRAY">*(Array *)_data._mem</Item>
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<Item Name="[value]" Condition="type == Variant::PACKED_BYTE_ARRAY">reinterpret_cast<const Variant::PackedArrayRef<unsigned char>*>(_data.packed_array)->array</Item>
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<Item Name="[value]" Condition="type == Variant::PACKED_INT32_ARRAY">reinterpret_cast<const Variant::PackedArrayRef<int>*>(_data.packed_array)->array</Item>
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<Item Name="[value]" Condition="type == Variant::PACKED_INT64_ARRAY">*reinterpret_cast<PackedInt64Array *>(&_data.packed_array[1])</Item>
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<Item Name="[value]" Condition="type == Variant::PACKED_FLOAT32_ARRAY">reinterpret_cast<const Variant::PackedArrayRef<float>*>(_data.packed_array)->array</Item>
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<Item Name="[value]" Condition="type == Variant::PACKED_FLOAT64_ARRAY">reinterpret_cast<const Variant::PackedArrayRef<double>*>(_data.packed_array)->array</Item>
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<Item Name="[value]" Condition="type == Variant::PACKED_STRING_ARRAY">reinterpret_cast<const Variant::PackedArrayRef<String>*>(_data.packed_array)->array</Item>
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<Item Name="[value]" Condition="type == Variant::PACKED_VECTOR2_ARRAY">reinterpret_cast<const Variant::PackedArrayRef<Vector2>*>(_data.packed_array)->array</Item>
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<Item Name="[value]" Condition="type == Variant::PACKED_VECTOR3_ARRAY">reinterpret_cast<const Variant::PackedArrayRef<Vector3>*>(_data.packed_array)->array</Item>
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<Item Name="[value]" Condition="type == Variant::PACKED_COLOR_ARRAY">reinterpret_cast<const Variant::PackedArrayRef<Color>*>(_data.packed_array)->array</Item>
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<Item Name="[value]" Condition="type == Variant::PACKED_VECTOR4_ARRAY">reinterpret_cast<const Variant::PackedArrayRef<Vector4>*>(_data.packed_array)->array</Item>
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</Expand>
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</Type>
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<Type Name="String">
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<DisplayString Condition="_cowdata._ptr == 0">[empty]</DisplayString>
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<DisplayString Condition="_cowdata._ptr != 0">{_cowdata._ptr,s32}</DisplayString>
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<StringView Condition="_cowdata._ptr != 0">_cowdata._ptr,s32</StringView>
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</Type>
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<Type Name="godot::String">
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<DisplayString>{*reinterpret_cast<void**>(opaque),s32}</DisplayString>
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<Expand>
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<Item Name="opaque_ptr">*reinterpret_cast<void**>(opaque)</Item>
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<Item Name="string">*reinterpret_cast<void**>(opaque),s32</Item>
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</Expand>
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</Type>
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<Type Name="StringName">
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<DisplayString Condition="_data && _data->cname">{_data->cname,na}</DisplayString>
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<DisplayString Condition="_data && !_data->cname">{_data->name,s32}</DisplayString>
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<DisplayString Condition="!_data">[empty]</DisplayString>
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<StringView Condition="_data && _data->cname">_data->cname,na</StringView>
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<StringView Condition="_data && !_data->cname">_data->name,s32</StringView>
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</Type>
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<!-- can't cast the opaque to ::StringName because Natvis does not support global namespace specifier? -->
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<Type Name="godot::StringName">
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<DisplayString Condition="(*reinterpret_cast<const char***>(opaque))[1]">{(*reinterpret_cast<const char***>(opaque))[1],s8}</DisplayString>
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<DisplayString Condition="!(*reinterpret_cast<const char***>(opaque))[1]">{(*reinterpret_cast<const char***>(opaque))[2],s32}</DisplayString>
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<Expand>
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<Item Name="opaque_ptr">*reinterpret_cast<void**>(opaque)</Item>
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<Item Name="&cname">(*reinterpret_cast<const char***>(opaque))+1</Item>
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<Item Name="cname">(*reinterpret_cast<const char***>(opaque))[1],s8</Item>
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</Expand>
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</Type>
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<Type Name="Object::SignalData">
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<DisplayString Condition="user.name._cowdata._ptr">"{user.name}" {slot_map}</DisplayString>
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<DisplayString Condition="!user.name._cowdata._ptr">"{slot_map}</DisplayString>
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</Type>
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<Type Name="Vector2">
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<DisplayString>({x,g}, {y,g})</DisplayString>
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<Expand>
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<Item Name="[x]">x</Item>
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<Item Name="[y]">y</Item>
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</Expand>
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</Type>
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<Type Name="Vector2i">
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<DisplayString>({x}, {y})</DisplayString>
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<Expand>
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<Item Name="[x]">x</Item>
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<Item Name="[y]">y</Item>
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</Expand>
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</Type>
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<Type Name="Vector3">
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<DisplayString>({x,g}, {y,g}, {z,g})</DisplayString>
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<Expand>
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<Item Name="[x]">x</Item>
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<Item Name="[y]">y</Item>
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<Item Name="[z]">z</Item>
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</Expand>
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</Type>
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<Type Name="Vector3i">
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<DisplayString>({x}, {y}, {z})</DisplayString>
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<Expand>
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<Item Name="[x]">x</Item>
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<Item Name="[y]">y</Item>
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<Item Name="[z]">z</Item>
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</Expand>
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</Type>
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<Type Name="Vector4">
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<DisplayString>({x,g}, {y,g}, {z,g}, {w,g})</DisplayString>
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<Expand>
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<Item Name="[x]">x</Item>
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<Item Name="[y]">y</Item>
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<Item Name="[z]">z</Item>
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<Item Name="[w]">w</Item>
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</Expand>
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</Type>
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<Type Name="Vector4i">
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<DisplayString>({x}, {y}, {z}, {w})</DisplayString>
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<Expand>
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<Item Name="[x]">x</Item>
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<Item Name="[y]">y</Item>
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<Item Name="[z]">z</Item>
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<Item Name="[w]">w</Item>
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</Expand>
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</Type>
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<Type Name="Quaternion">
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<DisplayString>({x,g}, {y,g}, {z,g}, {w,g})</DisplayString>
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<Expand>
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<Item Name="[x]">x</Item>
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<Item Name="[y]">y</Item>
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<Item Name="[z]">z</Item>
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<Item Name="[w]">w</Item>
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</Expand>
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</Type>
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<Type Name="Color">
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<DisplayString>({r,g}, {g,g}, {b,g}, {a,g})</DisplayString>
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<Expand>
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<Item Name="[red]">r</Item>
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<Item Name="[green]">g</Item>
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<Item Name="[blue]">b</Item>
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<Item Name="[alpha]">a</Item>
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</Expand>
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</Type>
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<Type Name="Rect2">
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<DisplayString>[P: {position}, S: {size}]</DisplayString>
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<Expand>
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<Item Name="[position]">position,nr</Item>
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<Item Name="[size]">size,nr</Item>
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</Expand>
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</Type>
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<Type Name="Rect2i">
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<DisplayString>[P: {position}, S: {size}]</DisplayString>
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<Expand>
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<Item Name="[position]">position,nr</Item>
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<Item Name="[size]">size,nr</Item>
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</Expand>
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</Type>
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<Type Name="AABB">
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<DisplayString>[P: {position}, S: {size}]</DisplayString>
|
|
<Expand>
|
|
<Item Name="[position]">position,nr</Item>
|
|
<Item Name="[size]">size,nr</Item>
|
|
</Expand>
|
|
</Type>
|
|
|
|
<Type Name="Plane">
|
|
<DisplayString>[N: {normal}, D: {d,g}]</DisplayString>
|
|
<Expand>
|
|
<Item Name="[normal]">normal,nr</Item>
|
|
<Item Name="[d]">d</Item>
|
|
</Expand>
|
|
</Type>
|
|
|
|
<Type Name="Basis">
|
|
<DisplayString>[X: {rows[0]}, Y: {rows[1]}, Z: {rows[2]}]</DisplayString>
|
|
<Expand>
|
|
<Item Name="[x]">rows[0],nr</Item>
|
|
<Item Name="[y]">rows[1],nr</Item>
|
|
<Item Name="[z]">rows[2],nr</Item>
|
|
</Expand>
|
|
</Type>
|
|
|
|
<Type Name="Transform2D">
|
|
<DisplayString>[X: {columns[0]}, Y: {columns[1]}, O: {columns[2]}]</DisplayString>
|
|
<Expand>
|
|
<Item Name="[x]">columns[0],nr</Item>
|
|
<Item Name="[y]">columns[1],nr</Item>
|
|
<Item Name="[origin]">columns[2],nr</Item>
|
|
</Expand>
|
|
</Type>
|
|
|
|
<Type Name="Transform3D">
|
|
<!-- Can't call column functions, so just pretend we can via obscene code duplication. -->
|
|
<DisplayString>[X: ({basis.rows[0].x,g}, {basis.rows[1].x,g}, {basis.rows[2].x,g}), Y: ({basis.rows[0].y,g}, {basis.rows[1].y,g}, {basis.rows[2].y,g}), Z: ({basis.rows[0].z,g}, {basis.rows[1].z,g}, {basis.rows[2].z,g}), O: {origin}]</DisplayString>
|
|
<Expand>
|
|
<Synthetic Name="[x]">
|
|
<DisplayString>({basis.rows[0].x,g}, {basis.rows[1].x,g}, {basis.rows[2].x,g})</DisplayString>
|
|
<Expand>
|
|
<Item Name="[x]">basis.rows[0].x</Item>
|
|
<Item Name="[y]">basis.rows[1].x</Item>
|
|
<Item Name="[z]">basis.rows[2].x</Item>
|
|
</Expand>
|
|
</Synthetic>
|
|
<Synthetic Name="[y]">
|
|
<DisplayString>({basis.rows[0].y,g}, {basis.rows[1].y,g}, {basis.rows[2].y,g})</DisplayString>
|
|
<Expand>
|
|
<Item Name="[x]">basis.rows[0].y</Item>
|
|
<Item Name="[y]">basis.rows[1].y</Item>
|
|
<Item Name="[z]">basis.rows[2].y</Item>
|
|
</Expand>
|
|
</Synthetic>
|
|
<Synthetic Name="[z]">
|
|
<DisplayString>({basis.rows[0].z,g}, {basis.rows[1].z,g}, {basis.rows[2].z,g})</DisplayString>
|
|
<Expand>
|
|
<Item Name="[x]">basis.rows[0].z</Item>
|
|
<Item Name="[y]">basis.rows[1].z</Item>
|
|
<Item Name="[z]">basis.rows[2].z</Item>
|
|
</Expand>
|
|
</Synthetic>
|
|
<Item Name="[origin]">origin,nr</Item>
|
|
</Expand>
|
|
</Type>
|
|
|
|
<Type Name="Projection">
|
|
<DisplayString>[X: {columns[0]}, Y: {columns[1]}, Z: {columns[2]}, W: {columns[3]}]</DisplayString>
|
|
<Expand>
|
|
<Item Name="[x]">columns[0],nr</Item>
|
|
<Item Name="[y]">columns[1],nr</Item>
|
|
<Item Name="[z]">columns[2],nr</Item>
|
|
<Item Name="[w]">columns[3],nr</Item>
|
|
</Expand>
|
|
</Type>
|
|
</AutoVisualizer>
|