import { useMemo } from 'react'; import { LayoutItem, Size } from './types'; const dragBarThickness = 5; export const itemMinWidth = 40; export const itemMinHeight = 40; export interface LayoutItemSizes { [key: string]: Size; } // Container always take the full space while the items within it need to // accommodate for the resize handle. export function itemSize(item: LayoutItem, parent: LayoutItem | null, sizes: LayoutItemSizes, isContainer: boolean): Size { const parentResizableRight = !!parent && parent.resizableRight; const parentResizableBottom = !!parent && parent.resizableBottom; const rightGap = !isContainer && (item.resizableRight || parentResizableRight) ? dragBarThickness : 0; const bottomGap = !isContainer && (item.resizableBottom || parentResizableBottom) ? dragBarThickness : 0; return { width: sizes[item.key].width - rightGap, height: sizes[item.key].height - bottomGap, }; } // This calculate the size of each item within the layout. However // the final size, as rendered by the component is determined by // `itemSize()`, as it takes into account the resizer handle function calculateChildrenSizes(item: LayoutItem, parent: LayoutItem | null, sizes: LayoutItemSizes, makeAllVisible: boolean): LayoutItemSizes { if (!item.children) return sizes; const parentSize = itemSize(item, parent, sizes, true); const remainingSize: Size = { width: parentSize.width, height: parentSize.height, }; // eslint-disable-next-line @typescript-eslint/no-explicit-any -- Old code before rule was applied const noWidthChildren: any[] = []; // eslint-disable-next-line @typescript-eslint/no-explicit-any -- Old code before rule was applied const noHeightChildren: any[] = []; // The minimum space required for items with no defined size let noWidthChildrenMinWidth = 0; let noHeightChildrenMinHeight = 0; for (const child of item.children) { let w = 'width' in child ? child.width : null; let h = 'height' in child ? child.height : null; if (!makeAllVisible && child.visible === false) { w = 0; h = 0; } sizes[child.key] = { width: w, height: h }; if (w !== null) remainingSize.width -= w; if (h !== null) remainingSize.height -= h; if (w === null) { noWidthChildren.push({ item: child, parent: item }); noWidthChildrenMinWidth += child.minWidth || itemMinWidth; } if (h === null) { noHeightChildren.push({ item: child, parent: item }); noHeightChildrenMinHeight += child.minHeight || itemMinHeight; } } while (remainingSize.width < noWidthChildrenMinWidth) { // There is not enough space, the widest item will be made smaller let widestChild = item.children[0].key; for (const child of item.children) { if (!child.visible) continue; if (sizes[child.key].width > sizes[widestChild].width) widestChild = child.key; } const dw = Math.abs(remainingSize.width - noWidthChildrenMinWidth); sizes[widestChild].width -= dw; remainingSize.width += dw; } while (remainingSize.height < noHeightChildrenMinHeight) { // There is not enough space, the tallest item will be made smaller let tallestChild = item.children[0].key; for (const child of item.children) { if (!child.visible) continue; if (sizes[child.key].height > sizes[tallestChild].height) tallestChild = child.key; } const dh = Math.abs(remainingSize.height - noHeightChildrenMinHeight); sizes[tallestChild].height -= dh; remainingSize.height += dh; } if (noWidthChildren.length) { const w = item.direction === 'row' ? Math.floor(remainingSize.width / noWidthChildren.length) : parentSize.width; for (const child of noWidthChildren) { const finalWidth = w; sizes[child.item.key].width = finalWidth; } } if (noHeightChildren.length) { const h = item.direction === 'column' ? Math.floor(remainingSize.height / noHeightChildren.length) : parentSize.height; for (const child of noHeightChildren) { const finalHeight = h; sizes[child.item.key].height = finalHeight; } } for (const child of item.children) { const childrenSizes = calculateChildrenSizes(child, parent, sizes, makeAllVisible); sizes = { ...sizes, ...childrenSizes }; } return sizes; } // Gives the maximum available space for this item that it can take up during resizing // availableSize = totalSize - ( [size of items with set size, except for the current item] + [minimum size of items with no set size] ) export function calculateMaxSizeAvailableForItem(item: LayoutItem, parent: LayoutItem, sizes: LayoutItemSizes): Size { const availableSize: Size = { ...sizes[parent.key] }; for (const sibling of parent.children) { if (!sibling.visible) continue; availableSize.width -= 'width' in sibling ? sizes[sibling.key].width : (sibling.minWidth || itemMinWidth); availableSize.height -= 'height' in sibling ? sizes[sibling.key].height : (sibling.minHeight || itemMinHeight); } availableSize.width += sizes[item.key].width; availableSize.height += sizes[item.key].height; return availableSize; } export default function useLayoutItemSizes(layout: LayoutItem, makeAllVisible = false) { return useMemo(() => { let sizes: LayoutItemSizes = {}; if (!('width' in layout) || !('height' in layout)) throw new Error('width and height are required on layout root'); sizes[layout.key] = { width: layout.width, height: layout.height, }; sizes = calculateChildrenSizes(layout, null, sizes, makeAllVisible); return sizes; }, [layout, makeAllVisible]); }