// Copyright 2018 The Ebiten Authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Package packing offers a packing algorithm in 2D space. package packing import ( "errors" ) const ( minSize = 1 ) type Page struct { root *Node size int maxSize int } func NewPage(initSize int, maxSize int) *Page { return &Page{ size: initSize, maxSize: maxSize, } } func (p *Page) IsEmpty() bool { if p.root == nil { return true } return !p.root.used && p.root.child0 == nil && p.root.child1 == nil } type Node struct { x int y int width int height int used bool parent *Node child0 *Node child1 *Node } func (n *Node) canFree() bool { if n.used { return false } if n.child0 == nil && n.child1 == nil { return true } return n.child0.canFree() && n.child1.canFree() } func (n *Node) Region() (x, y, width, height int) { return n.x, n.y, n.width, n.height } // square returns a float value indicating how much the given rectangle is close to a square. // If the given rectangle is square, this return 1 (maximum value). // Otherwise, this returns a value in [0, 1). func square(width, height int) float64 { if width == 0 && height == 0 { return 0 } if width <= height { return float64(width) / float64(height) } return float64(height) / float64(width) } func (p *Page) alloc(n *Node, width, height int) *Node { if n.width < width || n.height < height { return nil } if n.used { return nil } if n.child0 == nil && n.child1 == nil { if n.width == width && n.height == height { n.used = true return n } if square(n.width-width, n.height) >= square(n.width, n.height-height) { // Split vertically n.child0 = &Node{ x: n.x, y: n.y, width: width, height: n.height, parent: n, } n.child1 = &Node{ x: n.x + width, y: n.y, width: n.width - width, height: n.height, parent: n, } } else { // Split holizontally n.child0 = &Node{ x: n.x, y: n.y, width: n.width, height: height, parent: n, } n.child1 = &Node{ x: n.x, y: n.y + height, width: n.width, height: n.height - height, parent: n, } } return p.alloc(n.child0, width, height) } if n.child0 == nil || n.child1 == nil { panic("not reached") } if node := p.alloc(n.child0, width, height); node != nil { return node } if node := p.alloc(n.child1, width, height); node != nil { return node } return nil } func (p *Page) Size() int { return p.size } func (p *Page) Alloc(width, height int) *Node { if width <= 0 || height <= 0 { panic("bsp: width and height must > 0") } if p.root == nil { p.root = &Node{ width: p.size, height: p.size, } } if width < minSize { width = minSize } if height < minSize { height = minSize } n := p.alloc(p.root, width, height) return n } func (p *Page) Free(node *Node) { if node.child0 != nil || node.child1 != nil { panic("bsp: can't free the node including children") } node.used = false if node.parent == nil { return } if node.parent.child0 == nil || node.parent.child1 == nil { panic("not reached") } if node.parent.child0.canFree() && node.parent.child1.canFree() { node.parent.child0 = nil node.parent.child1 = nil p.Free(node.parent) } } func walk(n *Node, f func(n *Node) error) error { if err := f(n); err != nil { return err } if n.child0 != nil { if err := walk(n.child0, f); err != nil { return err } } if n.child1 != nil { if err := walk(n.child1, f); err != nil { return err } } return nil } func (p *Page) Extend() bool { if p.size >= p.maxSize { return false } newSize := p.size * 2 edgeNodes := []*Node{} abort := errors.New("abort") aborted := false _ = walk(p.root, func(n *Node) error { if n.x+n.width < p.size && n.y+n.height < p.size { return nil } if n.used { aborted = true return abort } edgeNodes = append(edgeNodes, n) return nil }) if aborted { leftUpper := p.root leftLower := &Node{ x: 0, y: p.size, width: p.size, height: newSize - p.size, } left := &Node{ x: 0, y: 0, width: p.size, height: p.size, child0: leftUpper, child1: leftLower, } leftUpper.parent = left leftLower.parent = left right := &Node{ x: p.size, y: 0, width: newSize - p.size, height: newSize, } p.root = &Node{ x: 0, y: 0, width: newSize, height: newSize, child0: left, child1: right, } left.parent = p.root right.parent = p.root } else { for _, n := range edgeNodes { if n.x+n.width == p.size { n.width += newSize - p.size } if n.y+n.height == p.size { n.height += newSize - p.size } } } p.size = newSize return true }