private static void _SafeAreaCallbackShrink(IntPtr lineCollectionPtr, IntPtr safeAreaDetailRectPtr) { if (lineCollectionPtr == IntPtr.Zero || safeAreaDetailRectPtr == IntPtr.Zero) { Debug.LogError("BoundarySystem callback is inValid!"); return; } if (instance.boundarySystemCallbackShrink != null) { List <Vector3> boundaryPoints = new List <Vector3>(); List <List <Vector3> > unusedLines = new List <List <Vector3> >(); int byteNum = Marshal.SizeOf(typeof(Pvr_SafeAreaAlgoAPI.GSALine)); int byteNum2 = Marshal.SizeOf(typeof(Pvr_SafeAreaAlgoAPI.GSAPoint3i)); // boundary Pvr_SafeAreaAlgoAPI.GSALineCollection collection = Pvr_BoundaryAPI.IntPtrToStruct <Pvr_SafeAreaAlgoAPI.GSALineCollection>(lineCollectionPtr); IntPtr ptr; for (int i = 0; i < collection.lineCount; i++) { ptr = new IntPtr(collection.lineArray.ToInt64() + (byteNum * i)); Pvr_SafeAreaAlgoAPI.GSALine line = (Pvr_SafeAreaAlgoAPI.GSALine)Marshal.PtrToStructure(ptr, typeof(Pvr_SafeAreaAlgoAPI.GSALine)); List <Vector3> newLine = new List <Vector3>(); for (int j = 0; j < line.pointCount; j++) { IntPtr tptr = new IntPtr(line.pointArray.ToInt64() + (byteNum2 * j)); Pvr_SafeAreaAlgoAPI.GSAPoint3i point = (Pvr_SafeAreaAlgoAPI.GSAPoint3i)Marshal.PtrToStructure(tptr, typeof(Pvr_SafeAreaAlgoAPI.GSAPoint3i)); newLine.Add(new Vector3(point.x / 1000f, point.y / 1000f, point.z / 1000f)); } if (i == 0) // first line for colsed boundary { boundaryPoints = newLine; } else { unusedLines.Add(newLine); } } // Rect Detail Points List <Vector3> rectPoints = new List <Vector3>(); Pvr_SafeAreaAlgoAPI.GSALineCollection safeAreaRectLineCollection = Pvr_BoundaryAPI.IntPtrToStruct <Pvr_SafeAreaAlgoAPI.GSALineCollection>(safeAreaDetailRectPtr); IntPtr safeAreaRectLinePtr; for (int i = 0; i < safeAreaRectLineCollection.lineCount; i++) { safeAreaRectLinePtr = new IntPtr(safeAreaRectLineCollection.lineArray.ToInt64() + (byteNum * i)); Pvr_SafeAreaAlgoAPI.GSALine line = (Pvr_SafeAreaAlgoAPI.GSALine)Marshal.PtrToStructure(safeAreaRectLinePtr, typeof(Pvr_SafeAreaAlgoAPI.GSALine)); for (int j = 0; j < line.pointCount; j++) { IntPtr tptr = new IntPtr(line.pointArray.ToInt64() + (byteNum2 * j)); Pvr_SafeAreaAlgoAPI.GSAPoint3i point = (Pvr_SafeAreaAlgoAPI.GSAPoint3i)Marshal.PtrToStructure(tptr, typeof(Pvr_SafeAreaAlgoAPI.GSAPoint3i)); rectPoints.Add(new Vector3(point.x / 1000f, point.y / 1000f, point.z / 1000f)); } } instance.boundarySystemCallbackShrink(rectPoints, boundaryPoints, unusedLines); } }
private static void _SafeAreaCallback(IntPtr lineCollectionPtr, IntPtr safeAreaRectPtr) { if (lineCollectionPtr == IntPtr.Zero || safeAreaRectPtr == IntPtr.Zero) { Debug.LogError("BoundarySystem callback is inValid!"); return; } if (instance.boundarySystemCallback != null) { List <Vector3> boundaryPoints = new List <Vector3>(); List <List <Vector3> > unusedLines = new List <List <Vector3> >(); int byteNum = Marshal.SizeOf(typeof(Pvr_SafeAreaAlgoAPI.GSALine)); int byteNum2 = Marshal.SizeOf(typeof(Pvr_SafeAreaAlgoAPI.GSAPoint3i)); // boundary Pvr_SafeAreaAlgoAPI.GSALineCollection collection = Pvr_BoundaryAPI.IntPtrToStruct <Pvr_SafeAreaAlgoAPI.GSALineCollection>(lineCollectionPtr); IntPtr ptr; for (int i = 0; i < collection.lineCount; i++) { ptr = new IntPtr(collection.lineArray.ToInt64() + (byteNum * i)); Pvr_SafeAreaAlgoAPI.GSALine line = (Pvr_SafeAreaAlgoAPI.GSALine)Marshal.PtrToStructure(ptr, typeof(Pvr_SafeAreaAlgoAPI.GSALine)); List <Vector3> newLine = new List <Vector3>(); for (int j = 0; j < line.pointCount; j++) { IntPtr tptr = new IntPtr(line.pointArray.ToInt64() + (byteNum2 * j)); Pvr_SafeAreaAlgoAPI.GSAPoint3i point = (Pvr_SafeAreaAlgoAPI.GSAPoint3i)Marshal.PtrToStructure(tptr, typeof(Pvr_SafeAreaAlgoAPI.GSAPoint3i)); newLine.Add(new Vector3(point.x / 1000f, point.y / 1000f, point.z / 1000f)); } if (i == 0) // first line for colsed boundary { boundaryPoints = newLine; } else { unusedLines.Add(newLine); } } // rect Pvr_SafeAreaAlgoAPI.GSARect algoResult = Pvr_BoundaryAPI.IntPtrToStruct <Pvr_SafeAreaAlgoAPI.GSARect>(safeAreaRectPtr); BoundaryPlayerArea playAreaInfo = new BoundaryPlayerArea(); playAreaInfo.lowerleft = new Vector3(algoResult.leftup.x / 1000f, algoResult.leftup.y / 1000f, algoResult.leftup.z / 1000f); playAreaInfo.upperleft = new Vector3(algoResult.leftdown.x / 1000f, algoResult.leftdown.y / 1000f, algoResult.leftdown.z / 1000f); playAreaInfo.upperRight = new Vector3(algoResult.rightdown.x / 1000f, algoResult.rightdown.y / 1000f, algoResult.rightdown.z / 1000f); playAreaInfo.lowerRight = new Vector3(algoResult.rightup.x / 1000f, algoResult.rightup.y / 1000f, algoResult.rightup.z / 1000f); playAreaInfo.center = new Vector3(algoResult.center.x / 1000f, algoResult.center.y / 1000f, algoResult.center.z / 1000f); playAreaInfo.width = algoResult.width; playAreaInfo.height = algoResult.height; playAreaInfo.isLegal = algoResult.isLegal == 0 ? false : true; // extra info playAreaInfo.extraInfo.overMaxRange = algoResult.legalData.overMaxRange == 0 ? false : true; playAreaInfo.extraInfo.includeBigGap = algoResult.legalData.includeBigGrap == 0 ? false : true; playAreaInfo.extraInfo.bigGapNum = algoResult.legalData.bigGapNum; playAreaInfo.extraInfo.centerOut = algoResult.legalData.centerOut == 0 ? false : true; playAreaInfo.extraInfo.removeNarrow = algoResult.legalData.removeNarrow == 0 ? false : true; playAreaInfo.extraInfo.overMaxRange_more = algoResult.legalData.overMaxRange_more == 0 ? false : true; playAreaInfo.extraInfo.validShrinkArea = algoResult.legalData.validShrinkArea; instance.boundarySystemCallback(playAreaInfo, boundaryPoints, unusedLines); } }