package doodle import ( "fmt" "path/filepath" "strings" "time" "git.kirsle.net/apps/doodle/pkg/balance" "git.kirsle.net/apps/doodle/pkg/branding" "git.kirsle.net/apps/doodle/pkg/enum" "git.kirsle.net/apps/doodle/pkg/log" "git.kirsle.net/apps/doodle/pkg/native" "git.kirsle.net/apps/doodle/pkg/shmem" golog "git.kirsle.net/go/log" "git.kirsle.net/go/render" "git.kirsle.net/go/render/event" ) const ( // TargetFPS is the frame rate to cap the game to. TargetFPS = 1000 / 60 // 60 FPS // Millisecond64 is a time.Millisecond casted to float64. Millisecond64 = float64(time.Millisecond) ) // Doodle is the game object. type Doodle struct { Debug bool Engine render.Engine engineReady bool // Easy access to the event state, for the debug overlay to use. // Might not be thread safe. event *event.State startTime time.Time running bool width int height int // Command line shell options. shell Shell Scene Scene } // New initializes the game object. func New(debug bool, engine render.Engine) *Doodle { d := &Doodle{ Debug: debug, Engine: engine, startTime: time.Now(), running: true, width: balance.Width, height: balance.Height, } d.shell = NewShell(d) // Make the render engine globally available. TODO: for wasm/ToBitmap shmem.CurrentRenderEngine = engine shmem.Flash = d.Flash shmem.Prompt = d.Prompt if debug { log.Logger.Config.Level = golog.DebugLevel // DebugOverlay = true // on by default in debug mode, F3 to disable } return d } // SetWindowSize sets the size of the Doodle window. func (d *Doodle) SetWindowSize(width, height int) { d.width = width d.height = height } // Title returns the game's preferred window title. func (d *Doodle) Title() string { return fmt.Sprintf("%s v%s", branding.AppName, branding.Version) } // SetupEngine sets up the rendering engine. func (d *Doodle) SetupEngine() error { if err := d.Engine.Setup(); err != nil { return err } d.engineReady = true return nil } // Run initializes SDL and starts the main loop. func (d *Doodle) Run() error { if !d.engineReady { if err := d.SetupEngine(); err != nil { return err } } // Set up the default scene. if d.Scene == nil { d.Goto(&MainScene{}) } log.Info("Enter Main Loop") for d.running { // d.Engine.Clear(render.White) start := time.Now() // Record how long this frame took. shmem.Tick++ // Poll for events. ev, err := d.Engine.Poll() // log.Error("Button1 is: %+v", ev.Button1) shmem.Cursor = render.NewPoint(ev.CursorX, ev.CursorY) if err != nil { log.Error("event poll error: %s", err) d.running = false break } d.event = ev // Command line shell. if d.shell.Open { } else if ev.Enter { log.Debug("Shell: opening shell") d.shell.Open = true ev.Enter = false } else { // Global event handlers. if ev.Escape { log.Error("Escape key pressed, shutting down") d.running = false break } if ev.KeyDown("F1") { // TODO: launch the guidebook. native.OpenURL(balance.GuidebookPath) ev.SetKeyDown("F1", false) } else if ev.KeyDown("F3") { DebugOverlay = !DebugOverlay ev.SetKeyDown("F3", false) } else if ev.KeyDown("F4") { DebugCollision = !DebugCollision ev.SetKeyDown("F4", false) } // Run the scene's logic. err = d.Scene.Loop(d, ev) if err != nil { return err } } // Draw the scene. d.Scene.Draw(d) // Draw the shell. err = d.shell.Draw(d, ev) if err != nil { log.Error("shell error: %s", err) d.running = false break } // Draw the debug overlay over all scenes. d.DrawDebugOverlay() // Render the pixels to the screen. err = d.Engine.Present() if err != nil { log.Error("draw error: %s", err) d.running = false break } // Delay to maintain the target frames per second. var delay uint32 if !fpsDoNotCap { elapsed := time.Now().Sub(start) tmp := elapsed / time.Millisecond if TargetFPS-int(tmp) > 0 { // make sure it won't roll under delay = uint32(TargetFPS - int(tmp)) } d.Engine.Delay(delay) } // Track how long this frame took to measure FPS over time. d.TrackFPS(delay) // Consume any lingering key sym. ev.ResetKeyDown() } log.Warn("Main Loop Exited! Shutting down...") return nil } // NewMap loads a new map in Edit Mode. func (d *Doodle) NewMap() { log.Info("Starting a new map") scene := &EditorScene{} d.Goto(scene) } // NewDoodad loads a new Doodad in Edit Mode. func (d *Doodle) NewDoodad(size int) { if balance.FreeVersion { d.Flash("Doodad editor is not available in your version of the game.") return } log.Info("Starting a new doodad") scene := &EditorScene{ DrawingType: enum.DoodadDrawing, DoodadSize: size, } d.Goto(scene) } // EditDrawing loads a drawing (Level or Doodad) in Edit Mode. func (d *Doodle) EditDrawing(filename string) error { log.Info("Loading drawing from file: %s", filename) ext := strings.ToLower(filepath.Ext(filename)) scene := &EditorScene{ Filename: filename, OpenFile: true, } switch ext { case ".level": case ".map": log.Info("is a Level type") scene.DrawingType = enum.LevelDrawing case ".doodad": if balance.FreeVersion { return fmt.Errorf("Doodad editor not supported in your version of the game") } scene.DrawingType = enum.DoodadDrawing default: return fmt.Errorf("file extension '%s' doesn't indicate its drawing type", ext) } d.Goto(scene) return nil } // PlayLevel loads a map from JSON into the PlayScene. func (d *Doodle) PlayLevel(filename string) error { log.Info("Loading level from file: %s", filename) scene := &PlayScene{ Filename: filename, } d.Goto(scene) return nil }