// Copyright 2021 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. //go:build example // +build example package main import ( "fmt" "math" "github.com/hajimehoshi/ebiten/v2" "github.com/hajimehoshi/ebiten/v2/ebitenutil" "github.com/hajimehoshi/ebiten/v2/inpututil" ) // Game is an isometric demo game. type Game struct { w, h int currentLevel *Level camX, camY float64 camScale float64 camScaleTo float64 mousePanX, mousePanY int offscreen *ebiten.Image } // NewGame returns a new isometric demo Game. func NewGame() (*Game, error) { l, err := NewLevel() if err != nil { return nil, fmt.Errorf("failed to create new level: %s", err) } g := &Game{ currentLevel: l, camScale: 1, camScaleTo: 1, mousePanX: math.MinInt32, mousePanY: math.MinInt32, } return g, nil } // Update reads current user input and updates the Game state. func (g *Game) Update() error { // Update target zoom level. var scrollY float64 if ebiten.IsKeyPressed(ebiten.KeyC) || ebiten.IsKeyPressed(ebiten.KeyPageDown) { scrollY = -0.25 } else if ebiten.IsKeyPressed(ebiten.KeyE) || ebiten.IsKeyPressed(ebiten.KeyPageUp) { scrollY = .25 } else { _, scrollY = ebiten.Wheel() if scrollY < -1 { scrollY = -1 } else if scrollY > 1 { scrollY = 1 } } g.camScaleTo += scrollY * (g.camScaleTo / 7) // Clamp target zoom level. if g.camScaleTo < 0.01 { g.camScaleTo = 0.01 } else if g.camScaleTo > 100 { g.camScaleTo = 100 } // Smooth zoom transition. div := 10.0 if g.camScaleTo > g.camScale { g.camScale += (g.camScaleTo - g.camScale) / div } else if g.camScaleTo < g.camScale { g.camScale -= (g.camScale - g.camScaleTo) / div } // Pan camera via keyboard. pan := 7.0 / g.camScale if ebiten.IsKeyPressed(ebiten.KeyLeft) || ebiten.IsKeyPressed(ebiten.KeyA) { g.camX -= pan } if ebiten.IsKeyPressed(ebiten.KeyRight) || ebiten.IsKeyPressed(ebiten.KeyD) { g.camX += pan } if ebiten.IsKeyPressed(ebiten.KeyDown) || ebiten.IsKeyPressed(ebiten.KeyS) { g.camY -= pan } if ebiten.IsKeyPressed(ebiten.KeyUp) || ebiten.IsKeyPressed(ebiten.KeyW) { g.camY += pan } // Pan camera via mouse. if ebiten.IsMouseButtonPressed(ebiten.MouseButtonRight) { if g.mousePanX == math.MinInt32 && g.mousePanY == math.MinInt32 { g.mousePanX, g.mousePanY = ebiten.CursorPosition() } else { x, y := ebiten.CursorPosition() dx, dy := float64(g.mousePanX-x)*(pan/100), float64(g.mousePanY-y)*(pan/100) g.camX, g.camY = g.camX-dx, g.camY+dy } } else if g.mousePanX != math.MinInt32 || g.mousePanY != math.MinInt32 { g.mousePanX, g.mousePanY = math.MinInt32, math.MinInt32 } // Clamp camera position. worldWidth := float64(g.currentLevel.w * g.currentLevel.tileSize / 2) worldHeight := float64(g.currentLevel.h * g.currentLevel.tileSize / 2) if g.camX < -worldWidth { g.camX = -worldWidth } else if g.camX > worldWidth { g.camX = worldWidth } if g.camY < -worldHeight { g.camY = -worldHeight } else if g.camY > 0 { g.camY = 0 } // Randomize level. if inpututil.IsKeyJustPressed(ebiten.KeyR) { l, err := NewLevel() if err != nil { return fmt.Errorf("failed to create new level: %s", err) } g.currentLevel = l } return nil } // Draw draws the Game on the screen. func (g *Game) Draw(screen *ebiten.Image) { // Render level. g.renderLevel(screen) // Print game info. ebitenutil.DebugPrint(screen, fmt.Sprintf("KEYS WASD EC R\nFPS %0.0f\nTPS %0.0f\nSCA %0.2f\nPOS %0.0f,%0.0f", ebiten.CurrentFPS(), ebiten.CurrentTPS(), g.camScale, g.camX, g.camY)) } // Layout is called when the Game's layout changes. func (g *Game) Layout(outsideWidth, outsideHeight int) (int, int) { g.w, g.h = outsideWidth, outsideHeight return g.w, g.h } // cartesianToIso transforms cartesian coordinates into isometric coordinates. func (g *Game) cartesianToIso(x, y float64) (float64, float64) { tileSize := g.currentLevel.tileSize ix := (x - y) * float64(tileSize/2) iy := (x + y) * float64(tileSize/4) return ix, iy } /* This function might be useful for those who want to modify this example. // isoToCartesian transforms isometric coordinates into cartesian coordinates. func (g *Game) isoToCartesian(x, y float64) (float64, float64) { tileSize := g.currentLevel.tileSize cx := (x/float64(tileSize/2) + y/float64(tileSize/4)) / 2 cy := (y/float64(tileSize/4) - (x / float64(tileSize/2))) / 2 return cx, cy } */ // renderLevel draws the current Level on the screen. func (g *Game) renderLevel(screen *ebiten.Image) { op := &ebiten.DrawImageOptions{} padding := float64(g.currentLevel.tileSize) * g.camScale cx, cy := float64(g.w/2), float64(g.h/2) scaleLater := g.camScale > 1 target := screen scale := g.camScale // When zooming in, tiles can have slight bleeding edges. // To avoid them, render the result on an offscreen first and then scale it later. if scaleLater { if g.offscreen != nil { w, h := g.offscreen.Size() sw, sh := screen.Size() if w != sw || h != sh { g.offscreen.Dispose() g.offscreen = nil } } if g.offscreen == nil { g.offscreen = ebiten.NewImage(screen.Size()) } target = g.offscreen target.Clear() scale = 1 } for y := 0; y < g.currentLevel.h; y++ { for x := 0; x < g.currentLevel.w; x++ { xi, yi := g.cartesianToIso(float64(x), float64(y)) // Skip drawing tiles that are out of the screen. drawX, drawY := ((xi-g.camX)*g.camScale)+cx, ((yi+g.camY)*g.camScale)+cy if drawX+padding < 0 || drawY+padding < 0 || drawX > float64(g.w) || drawY > float64(g.h) { continue } t := g.currentLevel.tiles[y][x] if t == nil { continue // No tile at this position. } op.GeoM.Reset() // Move to current isometric position. op.GeoM.Translate(xi, yi) // Translate camera position. op.GeoM.Translate(-g.camX, g.camY) // Zoom. op.GeoM.Scale(scale, scale) // Center. op.GeoM.Translate(cx, cy) t.Draw(target, op) } } if scaleLater { op := &ebiten.DrawImageOptions{} op.GeoM.Translate(-cx, -cy) op.GeoM.Scale(float64(g.camScale), float64(g.camScale)) op.GeoM.Translate(cx, cy) screen.DrawImage(target, op) } }