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gridstack

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TypeScript/JS lib for dashboard layout and creation, responsive, mobile support, no external dependencies, with many wrappers (React, Angular, Vue, Ember, knockout...)

gridstackjs.com

gridstack/gridstack.js

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JavaScript

/** * gridstack-engine.ts 11.5.1 * Copyright (c) 2021-2024 Alain Dumesny - see GridStack root license */ import { Utils } from './utils'; /** * Defines the GridStack engine that does most no DOM grid manipulation. * See GridStack methods and vars for descriptions. * * NOTE: values should not be modified directly - call the main GridStack API instead */ class GridStackEngine { constructor(opts = {}) { this.addedNodes = []; this.removedNodes = []; this.defaultColumn = 12; this.column = opts.column || this.defaultColumn; if (this.column > this.defaultColumn) this.defaultColumn = this.column; this.maxRow = opts.maxRow; this._float = opts.float; this.nodes = opts.nodes || []; this.onChange = opts.onChange; } batchUpdate(flag = true, doPack = true) { if (!!this.batchMode === flag) return this; this.batchMode = flag; if (flag) { this._prevFloat = this._float; this._float = true; // let things go anywhere for now... will restore and possibly reposition later this.cleanNodes(); this.saveInitial(); // since begin update (which is called multiple times) won't do this } else { this._float = this._prevFloat; delete this._prevFloat; if (doPack) this._packNodes(); this._notify(); } return this; } // use entire row for hitting area (will use bottom reverse sorted first) if we not actively moving DOWN and didn't already skip _useEntireRowArea(node, nn) { return (!this.float || this.batchMode && !this._prevFloat) && !this._hasLocked && (!node._moving || node._skipDown || nn.y <= node.y); } /** @internal fix collision on given 'node', going to given new location 'nn', with optional 'collide' node already found. * return true if we moved. */ _fixCollisions(node, nn = node, collide, opt = {}) { this.sortNodes(-1); // from last to first, so recursive collision move items in the right order collide = collide || this.collide(node, nn); // REAL area collide for swap and skip if none... if (!collide) return false; // swap check: if we're actively moving in gravity mode, see if we collide with an object the same size if (node._moving && !opt.nested && !this.float) { if (this.swap(node, collide)) return true; } // during while() collisions MAKE SURE to check entire row so larger items don't leap frog small ones (push them all down starting last in grid) let area = nn; if (!this._loading && this._useEntireRowArea(node, nn)) { area = { x: 0, w: this.column, y: nn.y, h: nn.h }; collide = this.collide(node, area, opt.skip); // force new hit } let didMove = false; const newOpt = { nested: true, pack: false }; let counter = 0; while (collide = collide || this.collide(node, area, opt.skip)) { // could collide with more than 1 item... so repeat for each if (counter++ > this.nodes.length * 2) { throw new Error("Infinite collide check"); } let moved; // if colliding with a locked item OR loading (move after) OR moving down with top gravity (and collide could move up) -> skip past the collide, // but remember that skip down so we only do this once (and push others otherwise). if (collide.locked || this._loading || node._moving && !node._skipDown && nn.y > node.y && !this.float && // can take space we had, or before where we're going (!this.collide(collide, { ...collide, y: node.y }, node) || !this.collide(collide, { ...collide, y: nn.y - collide.h }, node))) { node._skipDown = (node._skipDown || nn.y > node.y); const newNN = { ...nn, y: collide.y + collide.h, ...newOpt }; // pretent we moved to where we are now so we can continue any collision checks #2492 moved = this._loading && Utils.samePos(node, newNN) ? true : this.moveNode(node, newNN); if ((collide.locked || this._loading) && moved) { Utils.copyPos(nn, node); // moving after lock become our new desired location } else if (!collide.locked && moved && opt.pack) { // we moved after and will pack: do it now and keep the original drop location, but past the old collide to see what else we might push way this._packNodes(); nn.y = collide.y + collide.h; Utils.copyPos(node, nn); } didMove = didMove || moved; } else { // move collide down *after* where we will be, ignoring where we are now (don't collide with us) moved = this.moveNode(collide, { ...collide, y: nn.y + nn.h, skip: node, ...newOpt }); } if (!moved) return didMove; // break inf loop if we couldn't move after all (ex: maxRow, fixed) collide = undefined; } return didMove; } /** return the nodes that intercept the given node. Optionally a different area can be used, as well as a second node to skip */ collide(skip, area = skip, skip2) { const skipId = skip._id; const skip2Id = skip2?._id; return this.nodes.find(n => n._id !== skipId && n._id !== skip2Id && Utils.isIntercepted(n, area)); } collideAll(skip, area = skip, skip2) { const skipId = skip._id; const skip2Id = skip2?._id; return this.nodes.filter(n => n._id !== skipId && n._id !== skip2Id && Utils.isIntercepted(n, area)); } /** does a pixel coverage collision based on where we started, returning the node that has the most coverage that is >50% mid line */ directionCollideCoverage(node, o, collides) { if (!o.rect || !node._rect) return; const r0 = node._rect; // where started const r = { ...o.rect }; // where we are // update dragged rect to show where it's coming from (above or below, etc...) if (r.y > r0.y) { r.h += r.y - r0.y; r.y = r0.y; } else { r.h += r0.y - r.y; } if (r.x > r0.x) { r.w += r.x - r0.x; r.x = r0.x; } else { r.w += r0.x - r.x; } let collide; let overMax = 0.5; // need >50% for (let n of collides) { if (n.locked || !n._rect) { break; } const r2 = n._rect; // overlapping target let yOver = Number.MAX_VALUE, xOver = Number.MAX_VALUE; // depending on which side we started from, compute the overlap % of coverage // (ex: from above/below we only compute the max horizontal line coverage) if (r0.y < r2.y) { // from above yOver = ((r.y + r.h) - r2.y) / r2.h; } else if (r0.y + r0.h > r2.y + r2.h) { // from below yOver = ((r2.y + r2.h) - r.y) / r2.h; } if (r0.x < r2.x) { // from the left xOver = ((r.x + r.w) - r2.x) / r2.w; } else if (r0.x + r0.w > r2.x + r2.w) { // from the right xOver = ((r2.x + r2.w) - r.x) / r2.w; } const over = Math.min(xOver, yOver); if (over > overMax) { overMax = over; collide = n; } } o.collide = collide; // save it so we don't have to find it again return collide; } /** does a pixel coverage returning the node that has the most coverage by area */ /* protected collideCoverage(r: GridStackPosition, collides: GridStackNode[]): {collide: GridStackNode, over: number} { const collide: GridStackNode; const overMax = 0; collides.forEach(n => { if (n.locked || !n._rect) return; const over = Utils.areaIntercept(r, n._rect); if (over > overMax) { overMax = over; collide = n; } }); return {collide, over: overMax}; } */ /** called to cache the nodes pixel rectangles used for collision detection during drag */ cacheRects(w, h, top, right, bottom, left) { this.nodes.forEach(n => n._rect = { y: n.y * h + top, x: n.x * w + left, w: n.w * w - left - right, h: n.h * h - top - bottom }); return this; } /** called to possibly swap between 2 nodes (same size or column, not locked, touching), returning true if successful */ swap(a, b) { if (!b || b.locked || !a || a.locked) return false; function _doSwap() { const x = b.x, y = b.y; b.x = a.x; b.y = a.y; // b -> a position if (a.h != b.h) { a.x = x; a.y = b.y + b.h; // a -> goes after b } else if (a.w != b.w) { a.x = b.x + b.w; a.y = y; // a -> goes after b } else { a.x = x; a.y = y; // a -> old b position } a._dirty = b._dirty = true; return true; } let touching; // remember if we called it (vs undefined) // same size and same row or column, and touching if (a.w === b.w && a.h === b.h && (a.x === b.x || a.y === b.y) && (touching = Utils.isTouching(a, b))) return _doSwap(); if (touching === false) return; // IFF ran test and fail, bail out // check for taking same columns (but different height) and touching if (a.w === b.w && a.x === b.x && (touching || (touching = Utils.isTouching(a, b)))) { if (b.y < a.y) { const t = a; a = b; b = t; } // swap a <-> b vars so a is first return _doSwap(); } if (touching === false) return; // check if taking same row (but different width) and touching if (a.h === b.h && a.y === b.y && (touching || (touching = Utils.isTouching(a, b)))) { if (b.x < a.x) { const t = a; a = b; b = t; } // swap a <-> b vars so a is first return _doSwap(); } return false; } isAreaEmpty(x, y, w, h) { const nn = { x: x || 0, y: y || 0, w: w || 1, h: h || 1 }; return !this.collide(nn); } /** re-layout grid items to reclaim any empty space - optionally keeping the sort order exactly the same ('list' mode) vs truly finding an empty spaces */ compact(layout = 'compact', doSort = true) { if (this.nodes.length === 0) return this; if (doSort) this.sortNodes(); const wasBatch = this.batchMode; if (!wasBatch) this.batchUpdate(); const wasColumnResize = this._inColumnResize; if (!wasColumnResize) this._inColumnResize = true; // faster addNode() const copyNodes = this.nodes; this.nodes = []; // pretend we have no nodes to conflict layout to start with... copyNodes.forEach((n, index, list) => { let after; if (!n.locked) { n.autoPosition = true; if (layout === 'list' && index) after = list[index - 1]; } this.addNode(n, false, after); // 'false' for add event trigger }); if (!wasColumnResize) delete this._inColumnResize; if (!wasBatch) this.batchUpdate(false); return this; } /** enable/disable floating widgets (default: `false`) See [example](http://gridstackjs.com/demo/float.html) */ set float(val) { if (this._float === val) return; this._float = val || false; if (!val) { this._packNodes()._notify(); } } /** float getter method */ get float() { return this._float || false; } /** sort the nodes array from first to last, or reverse. Called during collision/placement to force an order */ sortNodes(dir = 1) { this.nodes = Utils.sort(this.nodes, dir); return this; } /** @internal called to top gravity pack the items back OR revert back to original Y positions when floating */ _packNodes() { if (this.batchMode) { return this; } this.sortNodes(); // first to last if (this.float) { // restore original Y pos this.nodes.forEach(n => { if (n._updating || n._orig === undefined || n.y === n._orig.y) return; let newY = n.y; while (newY > n._orig.y) { --newY; const collide = this.collide(n, { x: n.x, y: newY, w: n.w, h: n.h }); if (!collide) { n._dirty = true; n.y = newY; } } }); } else { // top gravity pack this.nodes.forEach((n, i) => { if (n.locked) return; while (n.y > 0) { const newY = i === 0 ? 0 : n.y - 1; const canBeMoved = i === 0 || !this.collide(n, { x: n.x, y: newY, w: n.w, h: n.h }); if (!canBeMoved) break; // Note: must be dirty (from last position) for GridStack::OnChange CB to update positions // and move items back. The user 'change' CB should detect changes from the original // starting position instead. n._dirty = (n.y !== newY); n.y = newY; } }); } return this; } /** * given a random node, makes sure it's coordinates/values are valid in the current grid * @param node to adjust * @param resizing if out of bound, resize down or move into the grid to fit ? */ prepareNode(node, resizing) { node._id = node._id ?? GridStackEngine._idSeq++; // make sure USER supplied id are unique in our list, else assign a new one as it will create issues during load/update/etc... const id = node.id; if (id) { let count = 1; // append nice _n rather than some random number while (this.nodes.find(n => n.id === node.id && n !== node)) { node.id = id + '_' + (count++); } } // if we're missing position, have the grid position us automatically (before we set them to 0,0) if (node.x === undefined || node.y === undefined || node.x === null || node.y === null) { node.autoPosition = true; } // assign defaults for missing required fields const defaults = { x: 0, y: 0, w: 1, h: 1 }; Utils.defaults(node, defaults); if (!node.autoPosition) { delete node.autoPosition; } if (!node.noResize) { delete node.noResize; } if (!node.noMove) { delete node.noMove; } Utils.sanitizeMinMax(node); // check for NaN (in case messed up strings were passed. can't do parseInt() || defaults.x above as 0 is valid #) if (typeof node.x == 'string') { node.x = Number(node.x); } if (typeof node.y == 'string') { node.y = Number(node.y); } if (typeof node.w == 'string') { node.w = Number(node.w); } if (typeof node.h == 'string') { node.h = Number(node.h); } if (isNaN(node.x)) { node.x = defaults.x; node.autoPosition = true; } if (isNaN(node.y)) { node.y = defaults.y; node.autoPosition = true; } if (isNaN(node.w)) { node.w = defaults.w; } if (isNaN(node.h)) { node.h = defaults.h; } this.nodeBoundFix(node, resizing); return node; } /** part2 of preparing a node to fit inside our grid - checks for x,y,w from grid dimensions */ nodeBoundFix(node, resizing) { const before = node._orig || Utils.copyPos({}, node); if (node.maxW) { node.w = Math.min(node.w || 1, node.maxW); } if (node.maxH) { node.h = Math.min(node.h || 1, node.maxH); } if (node.minW) { node.w = Math.max(node.w || 1, node.minW); } if (node.minH) { node.h = Math.max(node.h || 1, node.minH); } // if user loaded a larger than allowed widget for current # of columns, // remember it's position & width so we can restore back (1 -> 12 column) #1655 #1985 // IFF we're not in the middle of column resizing! const saveOrig = (node.x || 0) + (node.w || 1) > this.column; if (saveOrig && this.column < this.defaultColumn && !this._inColumnResize && !this.skipCacheUpdate && node._id && this.findCacheLayout(node, this.defaultColumn) === -1) { const copy = { ...node }; // need _id + positions if (copy.autoPosition || copy.x === undefined) { delete copy.x; delete copy.y; } else copy.x = Math.min(this.defaultColumn - 1, copy.x); copy.w = Math.min(this.defaultColumn, copy.w || 1); this.cacheOneLayout(copy, this.defaultColumn); } if (node.w > this.column) { node.w = this.column; } else if (node.w < 1) { node.w = 1; } if (this.maxRow && node.h > this.maxRow) { node.h = this.maxRow; } else if (node.h < 1) { node.h = 1; } if (node.x < 0) { node.x = 0; } if (node.y < 0) { node.y = 0; } if (node.x + node.w > this.column) { if (resizing) { node.w = this.column - node.x; } else { node.x = this.column - node.w; } } if (this.maxRow && node.y + node.h > this.maxRow) { if (resizing) { node.h = this.maxRow - node.y; } else { node.y = this.maxRow - node.h; } } if (!Utils.samePos(node, before)) { node._dirty = true; } return this; } /** returns a list of modified nodes from their original values */ getDirtyNodes(verify) { // compare original x,y,w,h instead as _dirty can be a temporary state if (verify) { return this.nodes.filter(n => n._dirty && !Utils.samePos(n, n._orig)); } return this.nodes.filter(n => n._dirty); } /** @internal call this to call onChange callback with dirty nodes so DOM can be updated */ _notify(removedNodes) { if (this.batchMode || !this.onChange) return this; const dirtyNodes = (removedNodes || []).concat(this.getDirtyNodes()); this.onChange(dirtyNodes); return this; } /** @internal remove dirty and last tried info */ cleanNodes() { if (this.batchMode) return this; this.nodes.forEach(n => { delete n._dirty; delete n._lastTried; }); return this; } /** @internal called to save initial position/size to track real dirty state. * Note: should be called right after we call change event (so next API is can detect changes) * as well as right before we start move/resize/enter (so we can restore items to prev values) */ saveInitial() { this.nodes.forEach(n => { n._orig = Utils.copyPos({}, n); delete n._dirty; }); this._hasLocked = this.nodes.some(n => n.locked); return this; } /** @internal restore all the nodes back to initial values (called when we leave) */ restoreInitial() { this.nodes.forEach(n => { if (!n._orig || Utils.samePos(n, n._orig)) return; Utils.copyPos(n, n._orig); n._dirty = true; }); this._notify(); return this; } /** find the first available empty spot for the given node width/height, updating the x,y attributes. return true if found. * optionally you can pass your own existing node list and column count, otherwise defaults to that engine data. * Optionally pass a widget to start search AFTER, meaning the order will remain the same but possibly have empty slots we skipped */ findEmptyPosition(node, nodeList = this.nodes, column = this.column, after) { const start = after ? after.y * column + (after.x + after.w) : 0; let found = false; for (let i = start; !found; ++i) { const x = i % column; const y = Math.floor(i / column); if (x + node.w > column) { continue; } const box = { x, y, w: node.w, h: node.h }; if (!nodeList.find(n => Utils.isIntercepted(box, n))) { if (node.x !== x || node.y !== y) node._dirty = true; node.x = x; node.y = y; delete node.autoPosition; found = true; } } return found; } /** call to add the given node to our list, fixing collision and re-packing */ addNode(node, triggerAddEvent = false, after) { const dup = this.nodes.find(n => n._id === node._id); if (dup) return dup; // prevent inserting twice! return it instead. // skip prepareNode if we're in middle of column resize (not new) but do check for bounds! this._inColumnResize ? this.nodeBoundFix(node) : this.prepareNode(node); delete node._temporaryRemoved; delete node._removeDOM; let skipCollision; if (node.autoPosition && this.findEmptyPosition(node, this.nodes, this.column, after)) { delete node.autoPosition; // found our slot skipCollision = true; } this.nodes.push(node); if (triggerAddEvent) { this.addedNodes.push(node); } if (!skipCollision) this._fixCollisions(node); if (!this.batchMode) { this._packNodes()._notify(); } return node; } removeNode(node, removeDOM = true, triggerEvent = false) { if (!this.nodes.find(n => n._id === node._id)) { // TEST console.log(`Error: GridStackEngine.removeNode() node._id=${node._id} not found!`) return this; } if (triggerEvent) { // we wait until final drop to manually track removed items (rather than during drag) this.removedNodes.push(node); } if (removeDOM) node._removeDOM = true; // let CB remove actual HTML (used to set _id to null, but then we loose layout info) // don't use 'faster' .splice(findIndex(),1) in case node isn't in our list, or in multiple times. this.nodes = this.nodes.filter(n => n._id !== node._id); if (!node._isAboutToRemove) this._packNodes(); // if dragged out, no need to relayout as already done... this._notify([node]); return this; } removeAll(removeDOM = true, triggerEvent = true) { delete this._layouts; if (!this.nodes.length) return this; removeDOM && this.nodes.forEach(n => n._removeDOM = true); // let CB remove actual HTML (used to set _id to null, but then we loose layout info) const removedNodes = this.nodes; this.removedNodes = triggerEvent ? removedNodes : []; this.nodes = []; return this._notify(removedNodes); } /** checks if item can be moved (layout constrain) vs moveNode(), returning true if was able to move. * In more complicated cases (maxRow) it will attempt at moving the item and fixing * others in a clone first, then apply those changes if still within specs. */ moveNodeCheck(node, o) { // if (node.locked) return false; if (!this.changedPosConstrain(node, o)) return false; o.pack = true; // simpler case: move item directly... if (!this.maxRow) { return this.moveNode(node, o); } // complex case: create a clone with NO maxRow (will check for out of bounds at the end) let clonedNode; const clone = new GridStackEngine({ column: this.column, float: this.float, nodes: this.nodes.map(n => { if (n._id === node._id) { clonedNode = { ...n }; return clonedNode; } return { ...n }; }) }); if (!clonedNode) return false; // check if we're covering 50% collision and could move, while still being under maxRow or at least not making it worse // (case where widget was somehow added past our max #2449) const canMove = clone.moveNode(clonedNode, o) && clone.getRow() <= Math.max(this.getRow(), this.maxRow); // else check if we can force a swap (float=true, or different shapes) on non-resize if (!canMove && !o.resizing && o.collide) { const collide = o.collide.el.gridstackNode; // find the source node the clone collided with at 50% if (this.swap(node, collide)) { // swaps and mark dirty this._notify(); return true; } } if (!canMove) return false; // if clone was able to move, copy those mods over to us now instead of caller trying to do this all over! // Note: we can't use the list directly as elements and other parts point to actual node, so copy content clone.nodes.filter(n => n._dirty).forEach(c => { const n = this.nodes.find(a => a._id === c._id); if (!n) return; Utils.copyPos(n, c); n._dirty = true; }); this._notify(); return true; } /** return true if can fit in grid height constrain only (always true if no maxRow) */ willItFit(node) { delete node._willFitPos; if (!this.maxRow) return true; // create a clone with NO maxRow and check if still within size const clone = new GridStackEngine({ column: this.column, float: this.float, nodes: this.nodes.map(n => { return { ...n }; }) }); const n = { ...node }; // clone node so we don't mod any settings on it but have full autoPosition and min/max as well! #1687 this.cleanupNode(n); delete n.el; delete n._id; delete n.content; delete n.grid; clone.addNode(n); if (clone.getRow() <= this.maxRow) { node._willFitPos = Utils.copyPos({}, n); return true; } return false; } /** true if x,y or w,h are different after clamping to min/max */ changedPosConstrain(node, p) { // first make sure w,h are set for caller p.w = p.w || node.w; p.h = p.h || node.h; if (node.x !== p.x || node.y !== p.y) return true; // check constrained w,h if (node.maxW) { p.w = Math.min(p.w, node.maxW); } if (node.maxH) { p.h = Math.min(p.h, node.maxH); } if (node.minW) { p.w = Math.max(p.w, node.minW); } if (node.minH) { p.h = Math.max(p.h, node.minH); } return (node.w !== p.w || node.h !== p.h); } /** return true if the passed in node was actually moved (checks for no-op and locked) */ moveNode(node, o) { if (!node || /*node.locked ||*/ !o) return false; let wasUndefinedPack; if (o.pack === undefined && !this.batchMode) { wasUndefinedPack = o.pack = true; } // constrain the passed in values and check if we're still changing our node if (typeof o.x !== 'number') { o.x = node.x; } if (typeof o.y !== 'number') { o.y = node.y; } if (typeof o.w !== 'number') { o.w = node.w; } if (typeof o.h !== 'number') { o.h = node.h; } const resizing = (node.w !== o.w || node.h !== o.h); const nn = Utils.copyPos({}, node, true); // get min/max out first, then opt positions next Utils.copyPos(nn, o); this.nodeBoundFix(nn, resizing); Utils.copyPos(o, nn); if (!o.forceCollide && Utils.samePos(node, o)) return false; const prevPos = Utils.copyPos({}, node); // check if we will need to fix collision at our new location const collides = this.collideAll(node, nn, o.skip); let needToMove = true; if (collides.length) { const activeDrag = node._moving && !o.nested; // check to make sure we actually collided over 50% surface area while dragging let collide = activeDrag ? this.directionCollideCoverage(node, o, collides) : collides[0]; // if we're enabling creation of sub-grids on the fly, see if we're covering 80% of either one, if we didn't already do that if (activeDrag && collide && node.grid?.opts?.subGridDynamic && !node.grid._isTemp) { const over = Utils.areaIntercept(o.rect, collide._rect); const a1 = Utils.area(o.rect); const a2 = Utils.area(collide._rect); const perc = over / (a1 < a2 ? a1 : a2); if (perc > .8) { collide.grid.makeSubGrid(collide.el, undefined, node); collide = undefined; } } if (collide) { needToMove = !this._fixCollisions(node, nn, collide, o); // check if already moved... } else { needToMove = false; // we didn't cover >50% for a move, skip... if (wasUndefinedPack) delete o.pack; } } // now move (to the original ask vs the collision version which might differ) and repack things if (needToMove && !Utils.samePos(node, nn)) { node._dirty = true; Utils.copyPos(node, nn); } if (o.pack) { this._packNodes() ._notify(); } return !Utils.samePos(node, prevPos); // pack might have moved things back } getRow() { return this.nodes.reduce((row, n) => Math.max(row, n.y + n.h), 0); } beginUpdate(node) { if (!node._updating) { node._updating = true; delete node._skipDown; if (!this.batchMode) this.saveInitial(); } return this; } endUpdate() { const n = this.nodes.find(n => n._updating); if (n) { delete n._updating; delete n._skipDown; } return this; } /** saves a copy of the largest column layout (eg 12 even when rendering oneColumnMode) so we don't loose orig layout, * returning a list of widgets for serialization */ save(saveElement = true, saveCB) { // use the highest layout for any saved info so we can have full detail on reload #1849 const len = this._layouts?.length; const layout = len && this.column !== (len - 1) ? this._layouts[len - 1] : null; const list = []; this.sortNodes(); this.nodes.forEach(n => { const wl = layout?.find(l => l._id === n._id); // use layout info fields instead if set const w = { ...n, ...(wl || {}) }; Utils.removeInternalForSave(w, !saveElement); if (saveCB) saveCB(n, w); list.push(w); }); return list; } /** @internal called whenever a node is added or moved - updates the cached layouts */ layoutsNodesChange(nodes) { if (!this._layouts || this._inColumnResize) return this; // remove smaller layouts - we will re-generate those on the fly... larger ones need to update this._layouts.forEach((layout, column) => { if (!layout || column === this.column) return this; if (column < this.column) { this._layouts[column] = undefined; } else { // we save the original x,y,w (h isn't cached) to see what actually changed to propagate better. // NOTE: we don't need to check against out of bound scaling/moving as that will be done when using those cache values. #1785 const ratio = column / this.column; nodes.forEach(node => { if (!node._orig) return; // didn't change (newly added ?) const n = layout.find(l => l._id === node._id); if (!n) return; // no cache for new nodes. Will use those values. // Y changed, push down same amount // TODO: detect doing item 'swaps' will help instead of move (especially in 1 column mode) if (n.y >= 0 && node.y !== node._orig.y) { n.y += (node.y - node._orig.y); } // X changed, scale from new position if (node.x !== node._orig.x) { n.x = Math.round(node.x * ratio); } // width changed, scale from new width if (node.w !== node._orig.w) { n.w = Math.round(node.w * ratio); } // ...height always carries over from cache }); } }); return this; } /** * @internal Called to scale the widget width & position up/down based on the column change. * Note we store previous layouts (especially original ones) to make it possible to go * from say 12 -> 1 -> 12 and get back to where we were. * * @param prevColumn previous number of columns * @param column new column number * @param layout specify the type of re-layout that will happen (position, size, etc...). * Note: items will never be outside of the current column boundaries. default (moveScale). Ignored for 1 column */ columnChanged(prevColumn, column, layout = 'moveScale') { if (!this.nodes.length || !column || prevColumn === column) return this; // simpler shortcuts layouts const doCompact = layout === 'compact' || layout === 'list'; if (doCompact) { this.sortNodes(1); // sort with original layout once and only once (new column will affect order otherwise) } // cache the current layout in case they want to go back (like 12 -> 1 -> 12) as it requires original data IFF we're sizing down (see below) if (column < prevColumn) this.cacheLayout(this.nodes, prevColumn); this.batchUpdate(); // do this EARLY as it will call saveInitial() so we can detect where we started for _dirty and collision let newNodes = []; let nodes = doCompact ? this.nodes : Utils.sort(this.nodes, -1); // current column reverse sorting so we can insert last to front (limit collision) // see if we have cached previous layout IFF we are going up in size (restore) otherwise always // generate next size down from where we are (looks more natural as you gradually size down). if (column > prevColumn && this._layouts) { const cacheNodes = this._layouts[column] || []; // ...if not, start with the largest layout (if not already there) as down-scaling is more accurate // by pretending we came from that larger column by assigning those values as starting point const lastIndex = this._layouts.length - 1; if (!cacheNodes.length && prevColumn !== lastIndex && this._layouts[lastIndex]?.length) { prevColumn = lastIndex; this._layouts[lastIndex].forEach(cacheNode => { const n = nodes.find(n => n._id === cacheNode._id); if (n) { // still current, use cache info positions if (!doCompact && !cacheNode.autoPosition) { n.x = cacheNode.x ?? n.x; n.y = cacheNode.y ?? n.y; } n.w = cacheNode.w ?? n.w; if (cacheNode.x == undefined || cacheNode.y === undefined) n.autoPosition = true; } }); } // if we found cache re-use those nodes that are still current cacheNodes.forEach(cacheNode => { const j = nodes.findIndex(n => n._id === cacheNode._id); if (j !== -1) { const n = nodes[j]; // still current, use cache info positions if (doCompact) { n.w = cacheNode.w; // only w is used, and don't trim the list return; } if (cacheNode.autoPosition || isNaN(cacheNode.x) || isNaN(cacheNode.y)) { this.findEmptyPosition(cacheNode, newNodes); } if (!cacheNode.autoPosition) { n.x = cacheNode.x ?? n.x; n.y = cacheNode.y ?? n.y; n.w = cacheNode.w ?? n.w; newNodes.push(n); } nodes.splice(j, 1); } }); } // much simpler layout that just compacts if (doCompact) { this.compact(layout, false); } else { // ...and add any extra non-cached ones if (nodes.length) { if (typeof layout === 'function') { layout(column, prevColumn, newNodes, nodes); } else { const ratio = (doCompact || layout === 'none') ? 1 : column / prevColumn; const move = (layout === 'move' || layout === 'moveScale'); const scale = (layout === 'scale' || layout === 'moveScale'); nodes.forEach(node => { // NOTE: x + w could be outside of the grid, but addNode() below will handle that node.x = (column === 1 ? 0 : (move ? Math.round(node.x * ratio) : Math.min(node.x, column - 1))); node.w = ((column === 1 || prevColumn === 1) ? 1 : scale ? (Math.round(node.w * ratio) || 1) : (Math.min(node.w, column))); newNodes.push(node); }); nodes = []; } } // finally re-layout them in reverse order (to get correct placement) newNodes = Utils.sort(newNodes, -1); this._inColumnResize = true; // prevent cache update this.nodes = []; // pretend we have no nodes to start with (add() will use same structures) to simplify layout newNodes.forEach(node => { this.addNode(node, false); // 'false' for add event trigger delete node._orig; // make sure the commit doesn't try to restore things back to original }); } this.nodes.forEach(n => delete n._orig); // clear _orig before batch=false so it doesn't handle float=true restore this.batchUpdate(false, !doCompact); delete this._inColumnResize; return this; } /** * call to cache the given layout internally to the given location so we can restore back when column changes size * @param nodes list of nodes * @param column corresponding column index to save it under * @param clear if true, will force other caches to be removed (default false) */ cacheLayout(nodes, column, clear = false) { const copy = []; nodes.forEach((n, i) => { // make sure we have an id in case this is new layout, else re-use id already set if (n._id === undefined) { const existing = n.id ? this.nodes.find(n2 => n2.id === n.id) : undefined; // find existing node using users id n._id = existing?._id ?? GridStackEngine._idSeq++; } copy[i] = { x: n.x, y: n.y, w: n.w, _id: n._id }; // only thing we change is x,y,w and id to find it back }); this._layouts = clear ? [] : this._layouts || []; // use array to find larger quick this._layouts[column] = copy; return this; } /** * call to cache the given node layout internally to the given location so we can restore back when column changes size * @param node single node to cache * @param column corresponding column index to save it under */ cacheOneLayout(n, column) { n._id = n._id ?? GridStackEngine._idSeq++; const l = { x: n.x, y: n.y, w: n.w, _id: n._id }; if (n.autoPosition || n.x === undefined) { delete l.x; delete l.y; if (n.autoPosition) l.autoPosition = true; } this._layouts = this._layouts || []; this._layouts[column] = this._layouts[column] || []; const index = this.findCacheLayout(n, column); if (index === -1) this._layouts[column].push(l); else this._layouts[column][index] = l; return this; } findCacheLayout(n, column) { return this._layouts?.[column]?.findIndex(l => l._id === n._id) ?? -1; } removeNodeFromLayoutCache(n) { if (!this._layouts) { return; } for (let i = 0; i < this._layouts.length; i++) { const index = this.findCacheLayout(n, i); if (index !== -1) { this._layouts[i].splice(index, 1); } } } /** called to remove all internal values but the _id */ cleanupNode(node) { for (const prop in node) { if (prop[0] === '_' && prop !== '_id') delete node[prop]; } return this; } } /** @internal unique global internal _id counter */ GridStackEngine._idSeq = 0; export { GridStackEngine }; //# sourceMappingURL=gridstack-engine.js.map