package d2player import ( "errors" "fmt" "log" "github.com/OpenDiablo2/OpenDiablo2/d2core/d2asset" "github.com/OpenDiablo2/OpenDiablo2/d2core/d2ui" "github.com/OpenDiablo2/OpenDiablo2/d2common" "github.com/OpenDiablo2/OpenDiablo2/d2common/d2resource" ) type InventoryItem interface { InventoryGridSize() (width int, height int) ItemCode() string InventoryGridSlot() (x int, y int) SetInventoryGridSlot(x int, y int) } var ErrorInventoryFull = errors.New("inventory full") // Reusable grid for use with player and merchant inventory. // Handles layout and rendering item icons based on code. type ItemGrid struct { items []InventoryItem width int height int originX int originY int sprites map[string]*d2ui.Sprite slotSize int } func NewItemGrid(width int, height int, originX int, originY int) *ItemGrid { return &ItemGrid{ width: width, height: height, originX: originX, originY: originY, slotSize: 29, sprites: make(map[string]*d2ui.Sprite), } } func (g *ItemGrid) SlotToScreen(slotX int, slotY int) (screenX int, screenY int) { screenX = g.originX + slotX*g.slotSize screenY = g.originY + slotY*g.slotSize return screenX, screenY } func (g *ItemGrid) ScreenToSlot(screenX int, screenY int) (slotX int, slotY int) { slotX = (screenX - g.originX) / g.slotSize slotY = (screenY - g.originY) / g.slotSize return slotX, slotY } func (g *ItemGrid) GetSlot(x int, y int) InventoryItem { for _, item := range g.items { slotX, slotY := item.InventoryGridSlot() width, height := item.InventoryGridSize() if x >= slotX && x < slotX+width && y >= slotY && y < slotY+height { return item } } return nil } // Add places a given set of items into the first available slots. // Returns a count of the number of items which could be inserted. func (g *ItemGrid) Add(items ...InventoryItem) (int, error) { added := 0 var err error for _, item := range items { if g.add(item) { added++ } else { err = ErrorInventoryFull break } } g.Load(items...) return added, err } // Load reads the inventory sprites for items into local cache for rendering. func (g *ItemGrid) Load(items ...InventoryItem) { var itemSprite *d2ui.Sprite for _, item := range items { if _, exists := g.sprites[item.ItemCode()]; exists { // Already loaded, don't reload. continue } // TODO: Put the pattern into D2Shared animation, err := d2asset.LoadAnimation( fmt.Sprintf("/data/global/items/inv%s.dc6", item.ItemCode()), d2resource.PaletteSky, ) if err != nil { log.Printf("failed to load sprite for item (%s): %v", item.ItemCode(), err) continue } itemSprite, err = d2ui.LoadSprite(animation) g.sprites[item.ItemCode()] = itemSprite } } // Walk from top left to bottom right until a position large enough to hold the item is found. // This is inefficient but simplifies the storage. At most a hundred or so cells will be looped, so impact is minimal. func (g *ItemGrid) add(item InventoryItem) bool { for y := 0; y < g.height; y++ { for x := 0; x < g.width; x++ { if !g.canFit(x, y, item) { continue } g.set(x, y, item) return true } } return false } // canFit loops over all items to determine if any other items would overlap the given position. func (g *ItemGrid) canFit(x int, y int, item InventoryItem) bool { insertWidth, insertHeight := item.InventoryGridSize() if x+insertWidth > g.width || y+insertHeight > g.height { return false } for _, compItem := range g.items { slotX, slotY := compItem.InventoryGridSlot() compWidth, compHeight := compItem.InventoryGridSize() if x+insertWidth >= slotX && x < slotX+compWidth && y+insertHeight >= slotY && y < slotY+compHeight { return false } } return true } func (g *ItemGrid) Set(x int, y int, item InventoryItem) error { if !g.canFit(x, y, item) { return fmt.Errorf("can not set item (%s) to position (%v, %v)", item.ItemCode(), x, y) } g.set(x, y, item) return nil } func (g *ItemGrid) set(x int, y int, item InventoryItem) { item.SetInventoryGridSlot(x, y) g.items = append(g.items, item) g.Load(item) } // Remove does an in place filter to remove the element from the slice of items. func (g *ItemGrid) Remove(item InventoryItem) { n := 0 for _, compItem := range g.items { if compItem == item { continue } g.items[n] = compItem n++ } g.items = g.items[:n] } func (g *ItemGrid) Render(target d2common.Surface) { for _, item := range g.items { if item == nil { continue } itemSprite := g.sprites[item.ItemCode()] if itemSprite == nil { // In case it failed to load. // TODO: fallback to something continue } slotX, slotY := g.SlotToScreen(item.InventoryGridSlot()) _, h := itemSprite.GetCurrentFrameSize() itemSprite.SetPosition(slotX, slotY+h) _ = itemSprite.Render(target) } }