Merge 81c19bae4f into 766325c395

README.md

@@ -177,6 +177,7 @@ For help starting out or to discuss clay, considering joining [the discord serve
     - [Clay_PointerOver](#clay_pointerover)
     - [Clay_GetScrollContainerData](#clay_getscrollcontainerdata)
     - [Clay_GetElementId](#clay_getelementid)
+    - [Clay_GetElementIdsAtPoint](#clay_getelementidsatpoint)
   - [Element Macros](#element-macros)
     - [CLAY](#clay-1)
     - [CLAY_ID](#clay_id)
@@ -197,6 +198,7 @@ For help starting out or to discuss clay, considering joining [the discord serve
     - [Clay_ScrollContainerData](#clay_scrollcontainerdata)
     - [Clay_ErrorHandler](#clay_errorhandler)
     - [Clay_ErrorData](#clay_errordata)
+    - [Clay_PointQueryResult](#clay_pointqueryresult)
 
 ## High Level Documentation
 
@@ -737,6 +739,16 @@ Used to retrieve information about elements such as their final calculated bound
 
 Returns a [Clay_ElementId](#clay_elementid) for the provided id string, used for querying element info such as mouseover state, scroll container data, etc.
 
+### Clay_GetElementIdsAtPoint
+
+`Clay_PointQueryResult Clay_GetElementIdsAtPoint(Clay_Vector2 position)`
+
+Returns a [Clay_PointQueryResult](#clay_pointqueryresult) that contains a sorted stack of element ids at the specified position. This allows querying elements similar to [Clay_SetPointerState](#clay_setpointerstate), but without triggering hover functions or affecting hover states.
+
+> ⚠️ This should not be called between BeginLayout and EndLayout, because layout data will be in flux. It is recommended to call this function before BeginLayout.
+
+> ⚠️ The returned Clay_PointQueryResult object becomes invalid the next time `Clay_GetElementIdsAtPoint` is called. If you need to call this multiple times in a frame, you must copy the data out of the Clay_PointQueryResult struct between calls.
+
 ## Element Macros
 
 ### CLAY()
@@ -2156,3 +2168,27 @@ A [Clay_String](#clay_string) that provides a human readable description of the
 A generic pointer to extra userdata that is transparently passed through from `Clay_Initialize` to Clay's error handler callback. Defaults to NULL.
 
 ---
+
+### Clay_PointQueryResult
+
+```C
+typedef struct
+{
+    int32t length;
+    const Clay_ElementId *results;
+} Clay_PointQueryResult;
+```
+
+**Fields**
+
+**`.length`** - `int32_t`
+
+The number of element ids contained in `.results`.
+
+---
+
+**`.results`** - `Clay_ElementId*`
+
+A pointer to a sorted array of `.length` [Clay_ElementIds](#clay_elementid), starting with the root element.
+
+---

clay.h

@@ -764,6 +764,12 @@ typedef struct {
     void *userData;
 } Clay_ErrorHandler;
 
+typedef struct
+{
+    int32_t length;
+    const Clay_ElementId *results;
+} Clay_PointQueryResult;
+
 // Function Forward Declarations ---------------------------------
 
 // Public API functions ------------------------------------------
@@ -855,6 +861,7 @@ void Clay_SetMaxMeasureTextCacheWordCount(int32_t maxMeasureTextCacheWordCount);
 // Resets Clay's internal text measurement cache, useful if memory to represent strings is being re-used.
 // Similar behaviour can be achieved on an individual text element level by using Clay_TextElementConfig.hashStringContents
 void Clay_ResetMeasureTextCache(void);
+Clay_PointQueryResult Clay_GetElementIdsAtPoint(Clay_Vector2 point);
 
 // Internal API functions required by macros ----------------------
 
@@ -1217,6 +1224,8 @@ struct Clay_Context {
     Clay__boolArray treeNodeVisited;
     Clay__charArray dynamicStringData;
     Clay__DebugElementDataArray debugElementData;
+    // Point querying
+    Clay__ElementIdArray pointQueryIds;
 };
 
 Clay_Context* Clay__Context_Allocate_Arena(Clay_Arena *arena) {
@@ -2008,6 +2017,7 @@ void Clay__InitializePersistentMemory(Clay_Context* context) {
     context->measureTextHashMap = Clay__int32_tArray_Allocate_Arena(maxElementCount, arena);
     context->measuredWords = Clay__MeasuredWordArray_Allocate_Arena(maxMeasureTextCacheWordCount, arena);
     context->pointerOverIds = Clay__ElementIdArray_Allocate_Arena(maxElementCount, arena);
+    context->pointQueryIds = Clay__ElementIdArray_Allocate_Arena(maxElementCount, arena);
     context->debugElementData = Clay__DebugElementDataArray_Allocate_Arena(maxElementCount, arena);
     context->arenaResetOffset = arena->nextAllocation;
 }
@@ -3698,6 +3708,59 @@ void Clay_SetPointerState(Clay_Vector2 position, bool isPointerDown) {
     }
 }
 
+CLAY_WASM_EXPORT("Clay_GetElementIdsAtPoint")
+Clay_PointQueryResult Clay_GetElementIdsAtPoint(Clay_Vector2 position) {
+    Clay_Context* context = Clay_GetCurrentContext();
+    if (context->booleanWarnings.maxElementsExceeded) {
+        return CLAY__INIT(Clay_PointQueryResult) { 0, NULL };
+    }
+    context->pointQueryIds.length = 0;
+    Clay__int32_tArray dfsBuffer = context->layoutElementChildrenBuffer;
+    for (int32_t rootIndex = context->layoutElementTreeRoots.length - 1; rootIndex >= 0; --rootIndex) {
+        dfsBuffer.length = 0;
+        Clay__LayoutElementTreeRoot *root = Clay__LayoutElementTreeRootArray_Get(&context->layoutElementTreeRoots, rootIndex);
+        Clay__int32_tArray_Add(&dfsBuffer, (int32_t)root->layoutElementIndex);
+        context->treeNodeVisited.internalArray[0] = false;
+        bool found = false;
+        while (dfsBuffer.length > 0) {
+            if (context->treeNodeVisited.internalArray[dfsBuffer.length - 1]) {
+                dfsBuffer.length--;
+                continue;
+            }
+            context->treeNodeVisited.internalArray[dfsBuffer.length - 1] = true;
+            Clay_LayoutElement *currentElement = Clay_LayoutElementArray_Get(&context->layoutElements, Clay__int32_tArray_GetValue(&dfsBuffer, (int)dfsBuffer.length - 1));
+            Clay_LayoutElementHashMapItem *mapItem = Clay__GetHashMapItem(currentElement->id); // TODO think of a way around this, maybe the fact that it's essentially a binary tree limits the cost, but the worst case is not great
+            Clay_BoundingBox elementBox = mapItem->boundingBox;
+            elementBox.x -= root->pointerOffset.x;
+            elementBox.y -= root->pointerOffset.y;
+            if (mapItem) {
+                if ((Clay__PointIsInsideRect(position, elementBox))) {
+                    Clay__ElementIdArray_Add(&context->pointQueryIds, mapItem->elementId);
+                    found = true;
+                }
+                if (Clay__ElementHasConfig(currentElement, CLAY__ELEMENT_CONFIG_TYPE_TEXT)) {
+                    dfsBuffer.length--;
+                    continue;
+                }
+                for (int32_t i = currentElement->childrenOrTextContent.children.length - 1; i >= 0; --i) {
+                    Clay__int32_tArray_Add(&dfsBuffer, currentElement->childrenOrTextContent.children.elements[i]);
+                    context->treeNodeVisited.internalArray[dfsBuffer.length - 1] = false; // TODO needs to be ranged checked
+                }
+            } else {
+                dfsBuffer.length--;
+            }
+        }
+
+        Clay_LayoutElement *rootElement = Clay_LayoutElementArray_Get(&context->layoutElements, root->layoutElementIndex);
+        if (found && Clay__ElementHasConfig(rootElement, CLAY__ELEMENT_CONFIG_TYPE_FLOATING) &&
+                Clay__FindElementConfigWithType(rootElement, CLAY__ELEMENT_CONFIG_TYPE_FLOATING).floatingElementConfig->pointerCaptureMode == CLAY_POINTER_CAPTURE_MODE_CAPTURE) {
+            break;
+        }
+    }
+
+    return CLAY__INIT(Clay_PointQueryResult) { context->pointQueryIds.length, context->pointQueryIds.internalArray };
+}
+
 CLAY_WASM_EXPORT("Clay_Initialize")
 Clay_Context* Clay_Initialize(Clay_Arena arena, Clay_Dimensions layoutDimensions, Clay_ErrorHandler errorHandler) {
     Clay_Context *context = Clay__Context_Allocate_Arena(&arena);