func main() { sys = system.Make(gos.GetSystemInterface()) sys.Startup() wdx := 1000 wdy := 500 render.Init() var ui *gui.Gui render.Queue(func() { sys.CreateWindow(50, 150, wdx, wdy) sys.EnableVSync(true) err := gl.Init() if err != nil { f, err2 := os.Create(filepath.Join(datadir, "gl_log.txt")) if err2 != nil { fmt.Printf("Unable to write log to a file:%v\n%v\v", err, err2) } else { fmt.Fprintf(f, "%v\n", err) f.Close() } } ui, _ = gui.Make(gin.In(), gui.Dims{wdx, wdy}, filepath.Join(datadir, "fonts", "luxisr.ttf")) font, err := loadFont() if err != nil { panic(err.Error()) } dict = gui.MakeDictionary(font, 15) }) render.Purge() anchor := gui.MakeAnchorBox(gui.Dims{wdx, wdy}) ui.AddChild(anchor) var event_handler handler gin.In().RegisterEventListener(&event_handler) actions_list := gui.MakeVerticalTable() keyname_list := gui.MakeVerticalTable() both_lists := gui.MakeHorizontalTable() both_lists.AddChild(actions_list) both_lists.AddChild(keyname_list) anchor.AddChild(both_lists, gui.Anchor{1, 0.5, 1, 0.5}) var actions []string for action := range action_map { actions = append(actions, action) } sort.Strings(actions) for _, action := range actions { actions_list.AddChild(gui.MakeTextLine("standard", action, 150, 1, 1, 1, 1)) keyname_list.AddChild(gui.MakeTextLine("standard", commands[action].Cmd, 100, 1, 1, 1, 1)) } current_anim := gui.MakeTextLine("standard", "", 300, 1, 1, 1, 1) current_state := gui.MakeTextLine("standard", "", 300, 1, 1, 1, 1) frame_data := gui.MakeVerticalTable() frame_data.AddChild(current_anim) frame_data.AddChild(current_state) anchor.AddChild(frame_data, gui.Anchor{0, 1, 0, 1}) speed := 100 speed_text := gui.MakeTextLine("standard", "Speed: 100%", 150, 1, 1, 1, 1) anchor.AddChild(speed_text, gui.Anchor{0, 0, 0, 0}) var box1, box2 boxdata box1.name = "box1" box1.sb = makeSpriteBox(nil) anchor.AddChild(box1.sb, gui.Anchor{0.5, 0.5, 0.25, 0.5}) box1.load(GetStoreVal("box1")) box := box1 box2.name = "box2" box2.sb = makeSpriteBox(nil) anchor.AddChild(box2.sb, gui.Anchor{0.5, 0.5, 0.45, 0.5}) box2.load(GetStoreVal("box2")) box2.sb.top = true box_other := box2 box2.sb.r, box2.sb.g, box2.sb.b = 0.2, 0.1, 0.4 box1.sb.r, box1.sb.g, box1.sb.b = 0.4, 0.2, 0.8 error_msg = gui.MakeTextLine("standard", "", wdx, 1, 0.5, 0.5, 1) anchor.AddChild(error_msg, gui.Anchor{0, 0, 0, 0.1}) var chooser gui.Widget // curdir := GetStoreVal("curdir") // if curdir == "" { // curdir = "." // } else { // _,err := os.Stat(filepath.Join(datadir, curdir)) // if err == nil { // go func() { // anim, err := sprite.LoadSprite(filepath.Join(datadir, curdir)) // loaded <- loadResult{ anim, err } // } () // } else { // curdir = "." // } // } // var profile_output *os.File then := time.Now() sys.Think() for key_map["quit"].FramePressCount() == 0 { event_handler.box1 = &box event_handler.box2 = &box_other now := time.Now() dt := (now.Nanosecond() - then.Nanosecond()) / 1000000 then = now render.Queue(func() { sys.Think() if box1.sb.s != nil { box1.sb.s.Think(int64(float64(dt) * float64(speed) / 100)) } if box2.sb.s != nil { box2.sb.s.Think(int64(float64(dt) * float64(speed) / 100)) } gl.ClearColor(1, 0, 0, 1) gl.Clear(gl.COLOR_BUFFER_BIT) ui.Draw() sys.SwapBuffers() }) render.Purge() select { case load := <-loaded: if load.err != nil { error_msg.SetText(load.err.Error()) current_anim.SetText("") } else { box.sb.s = load.anim error_msg.SetText("") } default: } // if box.sb.s != nil { // box.sb.s.Think() // current_anim.SetText(fmt.Sprintf("%d: %s", box.sb.s.Facing(), box.sb.s.Anim())) // current_state.SetText(box.sb.s.AnimState()) // } if box.sb.s != nil { if key_map["reset"].FramePressCount() > 0 { box.load(box.dir) box_other.load(box_other.dir) } } // if key_map["profile"].FramePressCount() > 0 { // if profile_output == nil { // var err error // profile_output, err = os.Create(filepath.Join(datadir, "cpu.prof")) // if err == nil { // err = pprof.StartCPUProfile(profile_output) // if err != nil { // fmt.Printf("Unable to start CPU profile: %v\n", err) // profile_output.Close() // profile_output = nil // } // fmt.Printf("profout: %v\n", profile_output) // } else { // fmt.Printf("Unable to open CPU profile: %v\n", err) // } // } else { // pprof.StopCPUProfile() // profile_output.Close() // profile_output = nil // } // } if key_map["load"].FramePressCount() > 0 && chooser == nil { anch := gui.MakeAnchorBox(gui.Dims{wdx, wdy}) file_chooser := gui.MakeFileChooser(filepath.Join(datadir, box.dir), func(path string, err error) { if err == nil && len(path) > 0 { curpath, _ := filepath.Split(path) box.load(curpath) } ui.RemoveChild(chooser) chooser = nil }, func(path string, is_dir bool) bool { return true }) anch.AddChild(file_chooser, gui.Anchor{0.5, 0.5, 0.5, 0.5}) chooser = anch ui.AddChild(chooser) } delta := key_map["speed up"].FramePressAmt() - key_map["slow down"].FramePressAmt() if delta != 0 { speed += int(delta) if speed < 1 { speed = 1 } if speed > 100 { speed = 100 } speed_text.SetText(fmt.Sprintf("Speed: %d%%", speed)) } if key_map["select1"].FramePressCount() > 0 { box2.sb.r, box2.sb.g, box2.sb.b = 0.2, 0.1, 0.4 box1.sb.r, box1.sb.g, box1.sb.b = 0.4, 0.2, 0.8 box = box1 box_other = box2 } if key_map["select2"].FramePressCount() > 0 { box2.sb.r, box2.sb.g, box2.sb.b = 0.4, 0.2, 0.8 box1.sb.r, box1.sb.g, box1.sb.b = 0.2, 0.1, 0.4 box = box2 box_other = box1 } } }
func main() { fmt.Printf("%v\n", key_map) sys.Startup() err := gl.Init() if err != nil { panic(err) } render.Init() render.Queue(func() { sys.CreateWindow(10, 10, wdx, wdy) sys.EnableVSync(true) err := gl.Init() if err != nil { panic(err) } }) base.InitShaders() runtime.GOMAXPROCS(2) ui, err = gui.Make(gin.In(), gui.Dims{wdx, wdy}, filepath.Join(datadir, "fonts", "skia.ttf")) if err != nil { panic(err) } sys.Think() for false && len(sys.GetActiveDevices()[gin.DeviceTypeController]) < 2 { time.Sleep(time.Millisecond * 100) sys.Think() } var ids []int var engine *cgf.Engine var room game.Room err = base.LoadJson(filepath.Join(base.GetDataDir(), "rooms/basic.json"), &room) if err != nil { panic(err) } if IsHost() { sys.Think() var g game.Game g.Rng = cmwc.MakeGoodCmwc() g.Rng.SeedWithDevRand() g.Dx = 900 g.Dy = 600 g.Friction = 0.97 g.Friction_lava = 0.85 g.Room = room var p game.Player p.Color.R = 255 err := json.NewDecoder(bytes.NewBuffer([]byte(` { "Base": { "Max_turn": 0.07, "Max_acc": 0.2, "Mass": 750, "Max_rate": 10, "Influence": 75, "Health": 1000 }, "Dynamic": { "Health": 1000 } } `))).Decode(&p.Stats) if err != nil { panic(err) } Nx := 2 Ny := 1 p.X = float64(g.Dx-Nx)/2 - 200 p.Y = float64(g.Dy-Ny)/2 - 200 for x := 0; x < Nx; x++ { for y := 0; y < Ny; y++ { p.X += float64(x * 25) p.Y += float64(y * 25) p.Gid++ // p.Mass += float64(x+y) * 150 p.Processes = make(map[int]game.Process) temp := p ids = append(ids, g.AddEnt(&temp)) // p.Mass -= float64(x+y) * 150 p.X -= float64(x * 25) p.Y -= float64(y * 25) } } g.Ents[0].(*game.Player).X = 500 g.Ents[0].(*game.Player).Y = 300 g.Ents[1].(*game.Player).X = 550 g.Ents[1].(*game.Player).Y = 300 g.SetLocalData() d := sys.GetActiveDevices() base.Log().Printf("%v\n", d) n := 0 base.Log().Printf("%v\n", d[gin.DeviceTypeController]) for _, index := range d[gin.DeviceTypeController] { // panic("ASD") g.SetLocalPlayer(g.Ents[n].(*game.Player), index) n++ if n > 2 { break } } if len(d[gin.DeviceTypeController]) == 0 { g.SetLocalPlayer(g.Ents[0].(*game.Player), 0) } // g.Ents[0], g.Ents[(N*N)/2+(1-N%2)*N/2] = g.Ents[(N*N)/2+(1-N%2)*N/2], g.Ents[0] g.Init() // engine, err = cgf.NewLocalEngine(&g, 17, base.Log()) engine, err = cgf.NewHostEngine(&g, 17, "", 1231, base.Log()) if err != nil { panic(err.Error()) } g.SetEngine(engine) } else { engine, err = cgf.NewClientEngine(17, "", 1231, base.Log()) if err != nil { panic(err.Error()) } engine.CopyState().(*game.Game).SetEngine(engine) } anchor := gui.MakeAnchorBox(gui.Dims{wdx, wdy}) ui.AddChild(anchor) anchor.AddChild(&game.GameWindow{Engine: engine}, gui.Anchor{0.5, 0.5, 0.5, 0.5}) var v float64 var profile_output *os.File var num_mem_profiles int // ui.AddChild(base.MakeConsole()) base.LoadAllDictionaries() for gin.In().GetKey(gin.AnyEscape).FramePressCount() == 0 { sys.Think() render.Queue(func() { ui.Draw() }) render.Queue(func() { sys.SwapBuffers() }) render.Purge() game.LocalThink() if IsHost() { for i := 0; i <= 0; i++ { // down_axis := gin.In().GetKeyFlat(gin.ControllerAxis0Positive+1, gin.DeviceTypeController, gin.DeviceIndexAny) // up_axis := gin.In().GetKeyFlat(gin.ControllerAxis0Negative+1, gin.DeviceTypeController, gin.DeviceIndexAny) // right_axis := gin.In().GetKeyFlat(gin.ControllerAxis0Positive, gin.DeviceTypeController, gin.DeviceIndexAny) // left_axis := gin.In().GetKeyFlat(gin.ControllerAxis0Negative, gin.DeviceTypeController, gin.DeviceIndexAny) // up := key_map[fmt.Sprintf("%dup", i)].FramePressAvg() // down := key_map[fmt.Sprintf("%ddown", i)].FramePressAvg() // left := key_map[fmt.Sprintf("%dleft", i)].FramePressAvg() // right := key_map[fmt.Sprintf("%dright", i)].FramePressAvg() // up = axisControl(up_axis.FramePressAmt()) // down = axisControl(down_axis.FramePressAmt()) // left = axisControl(left_axis.FramePressAmt()) // right = axisControl(right_axis.FramePressAmt()) // if up-down != 0 { // engine.ApplyEvent(game.Accelerate{ids[i], 2 * (up - down)}) // } // if left-right != 0 { // engine.ApplyEvent(game.Turn{ids[i], (left - right)}) // } // if key_map[fmt.Sprintf("%d-1", i)].FramePressCount() > 0 { // engine.ApplyEvent(game.Pull{ids[i], 0, 20000}) // } // if key_map[fmt.Sprintf("%d-2", i)].FramePressCount() > 0 { // engine.ApplyEvent(game.MoonFire{ids[i], 1, 50, 50}) // } // if gin.In().GetKeyFlat(gin.ControllerButton0, gin.DeviceTypeController, gin.DeviceTypeAny).FramePressCount() > 0 { // if key_map[fmt.Sprintf("%d-3", i)].FramePressCount() > 0 { // engine.ApplyEvent(game.Burst{ids[i], 2, 3, 100000}) // } } } // TODO: Replace the 'P' key with an appropriate keybind if gin.In().GetKey(gin.AnyKeyP).FramePressCount() > 0 { if profile_output == nil { profile_output, err = os.Create(filepath.Join(datadir, "cpu.prof")) if err == nil { err = pprof.StartCPUProfile(profile_output) if err != nil { fmt.Printf("Unable to start CPU profile: %v\n", err) profile_output.Close() profile_output = nil } fmt.Printf("profout: %v\n", profile_output) } else { fmt.Printf("Unable to start CPU profile: %v\n", err) } } else { pprof.StopCPUProfile() profile_output.Close() profile_output = nil } } // TODO: Replace the 'M' key with an appropriate keybind if gin.In().GetKey(gin.AnyKeyM).FramePressCount() > 0 { f, err := os.Create(filepath.Join(datadir, fmt.Sprintf("mem.%d.prof", num_mem_profiles))) if err != nil { base.Error().Printf("Unable to write mem profile: %v", err) } pprof.WriteHeapProfile(f) f.Close() num_mem_profiles++ } v += 0.01 } }
func main() { { f, err := os.Create("/Users/jwills/code/src/github.com/runningwild/shadertest/log.err") if err != nil { panic("shoot") } os.Stderr = f f, err = os.Create("/Users/jwills/code/src/github.com/runningwild/shadertest/log.out") if err != nil { panic("shoot") } os.Stdout = f } sys.Startup() err := gl.Init() if err != nil { panic(err) } fmt.Printf("RAWR!!!\n") render.Init() render.Queue(func() { sys.CreateWindow(10, 10, wdx, wdy) sys.EnableVSync(true) err := gl.Init() if err != nil { panic(err) } }) base.InitShaders() runtime.GOMAXPROCS(2) ui, err = gui.Make(gin.In(), gui.Dims{wdx, wdy}, filepath.Join(datadir, "fonts", "skia.ttf")) if err != nil { panic(err) } anchor := gui.MakeAnchorBox(gui.Dims{wdx, wdy}) ui.AddChild(anchor) var v float64 // var profile_output *os.File // var num_mem_profiles int // ui.AddChild(base.MakeConsole()) size := 19.0 base.InitShaders() x := gl.Double(0.0) // y := 0.0 // tex := texture.LoadFromPath(filepath.Join(base.GetDataDir(), "test/out.dff.small.png")) fmt.Printf("RAWR!\n") listener := Listener{} gin.In().RegisterEventListener(&listener) button := gin.In().GetKeyFlat(gin.ControllerButton0+6, gin.DeviceTypeController, gin.DeviceIndexAny) fmt.Printf("RAWR!\n") for button.FramePressCount() == 0 { sys.Think() // dsize := gin.In().GetKey(gin.MouseWheelVertical).FramePressAmt() // size += dsize // x -= float64(tex.Dx()) * dsize / 2 // y -= float64(tex.Dy()) * dsize / 2 // if gin.In().GetKey(gin.Down).FramePressAmt() > 0 { // y += 10 // } // if gin.In().GetKey(gin.Up).FramePressAmt() > 0 { // y -= 10 // } // if gin.In().GetKey(gin.Left).FramePressAmt() > 0 { // x += 10 // } // if gin.In().GetKey(gin.Right).FramePressAmt() > 0 { // x -= 10 // } render.Queue(func() { ui.Draw() gl.Enable(gl.BLEND) gl.BlendFunc(gl.SRC_ALPHA, gl.ONE_MINUS_SRC_ALPHA) gl.Disable(gl.TEXTURE_2D) gl.Color4ub(255, 0, 0, 255) gl.Begin(gl.QUADS) gl.Vertex2d(100+x, 20) gl.Vertex2d(100+x, gl.Double(size+20)) gl.Vertex2d(200+x, gl.Double(size+20)) gl.Vertex2d(200+x, 20) x += 1 gl.End() gl.Enable(gl.TEXTURE_2D) gl.Color4ub(255, 255, 255, 255) // // str := "!@#$%^&*" // diff := 5.0 / (math.Log(size) + math.Pow(size, 0.7)) // // Works for 1200 // diff = 50 * math.Pow(base.GetDictionary("skia").Scale(), 2) / math.Pow(size, 1.0) // // Works for 3000 // diff = 50 * math.Pow(base.GetDictionary("skia").Scale(), 1.5) / math.Pow(size, 0.8) // //0.340637 // //0.159241 // diff = 75 * math.Pow(base.GetDictionary("skia").Scale(), 1.0) / math.Pow(size, 1.0) // diff = 10 / math.Pow(size, 1.0) // diff = 20/math.Pow(size, 1.0) + 5*math.Pow(base.GetDictionary("skia").Scale(), 1.0)/math.Pow(size, 1.0) // if diff > 0.45 { // diff = 0.45 // } // base.EnableShader("distance_field") // base.SetUniformF("distance_field", "dist_min", float32(0.5-diff)) // base.SetUniformF("distance_field", "dist_max", float32(0.5+diff)) // base.GetDictionary("skia").RenderString(str, 100, 20, 0, dy, gui.Left) // base.GetDictionary("skia").RenderString(str, 100, 20+2*dy, 0, dy/4, gui.Left) // base.GetDictionary("skia").RenderString(str, 100, 20, 0, size, gui.Left) lorem := "Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat. Duis aute irure dolor in reprehenderit in voluptate velit esse cillum dolore eu fugiat nulla pariatur. Excepteur sint occaecat cupidatat non proident, sunt in culpa qui officia deserunt mollit anim id est laborum" kk := gin.In().GetKeyFlat(gin.ControllerAxis0Positive+1, gin.DeviceTypeController, device_index) kl := gin.In().GetKeyFlat(gin.ControllerAxis0Positive+1, gin.DeviceTypeController, gin.DeviceIndexAny) s := fmt.Sprintf("%1.2f %1.2f - %1.2f %1.2f", kk.FramePressAvg(), kk.FramePressAmt(), kl.FramePressAvg(), kl.FramePressAmt()) devices := sys.GetActiveDevices() y := 500.0 for _, t := range []gin.DeviceType{gin.DeviceTypeController, gin.DeviceTypeKeyboard, gin.DeviceTypeMouse} { for _, d := range devices[t] { var s string switch t { case gin.DeviceTypeController: s = "controller" case gin.DeviceTypeKeyboard: s = "keyboard" case gin.DeviceTypeMouse: s = "mouse" } base.GetDictionary("skia").RenderString(fmt.Sprintf("%s: %d", s, d), 100, y, 0, 45, gui.Left) y -= 50 } } base.GetDictionary("luxisr").RenderString(s, 50, 50, 0, size, gui.Left) // base.GetDictionary("luxisr").RenderString(lorem, 50, 50+size, 0, size, gui.Left) base.GetDictionary("skia").RenderString(lorem, 50, 50+2*size, 0, size, gui.Left) base.Log().Printf("Foo") // base.EnableShader("") // gl.Enable(gl.ALPHA_TEST) // gl.AlphaFunc(gl.GREATER, 0.5) // tex := texture.LoadFromPath(filepath.Join(base.GetDataDir(), "ships/ship.png")) // tex.Bind() // tex.RenderAdvanced(x, y, float64(tex.Dx())*size, float64(tex.Dy())*size, 0, true) // tex.RenderNatural(300, 100) // gl.Disable(gl.ALPHA_TEST) }) render.Queue(func() { sys.SwapBuffers() }) render.Purge() // if key_map["cpu profile"].FramePressCount() > 0 { // if profile_output == nil { // profile_output, err = os.Create(filepath.Join(datadir, "cpu.prof")) // if err == nil { // err = pprof.StartCPUProfile(profile_output) // if err != nil { // fmt.Printf("Unable to start CPU profile: %v\n", err) // profile_output.Close() // profile_output = nil // } // fmt.Printf("profout: %v\n", profile_output) // } else { // fmt.Printf("Unable to start CPU profile: %v\n", err) // } // } else { // pprof.StopCPUProfile() // profile_output.Close() // profile_output = nil // } // } // if key_map["mem profile"].FramePressCount() > 0 { // f, err := os.Create(filepath.Join(datadir, fmt.Sprintf("mem.%d.prof", num_mem_profiles))) // if err != nil { // base.Error().Printf("Unable to write mem profile: %v", err) // } // pprof.WriteHeapProfile(f) // f.Close() // num_mem_profiles++ // } v += 0.01 } }