func (sm *OnlineMenu) Think(g *gui.Gui, t int64) { if sm.last_t == 0 { sm.last_t = t return } dt := t - sm.last_t sm.last_t = t if sm.mx == 0 && sm.my == 0 { sm.mx, sm.my = gin.In().GetCursor("Mouse").Point() } done := false for !done { select { case sm.control.in <- struct{}{}: <-sm.control.out default: done = true } } var net_id mrgnet.NetId fmt.Sscanf(base.GetStoreVal("netid"), "%d", &net_id) for i := range []*gameListBox{&sm.layout.Active, &sm.layout.Unstarted} { glb := []*gameListBox{&sm.layout.Active, &sm.layout.Unstarted}[i] select { case list := <-glb.update: glb.games = glb.games[0:0] for j := range list.Games { var b Button var name string base.Log().Printf("Adding button: %s", list.Games[j].Name) b.Text.Justification = sm.layout.Text.Justification b.Text.Size = sm.layout.Text.Size if net_id == list.Games[j].Denizens_id { name = list.Games[j].Name } else { name = list.Games[j].Name } b.Text.String = "Join!" game_key := list.Game_keys[j] active := (glb == &sm.layout.Active) in_joingame := false b.f = func(interface{}) { if in_joingame { return } in_joingame = true if active { go func() { var req mrgnet.StatusRequest req.Id = net_id req.Game_key = game_key var resp mrgnet.StatusResponse done := make(chan bool, 1) go func() { mrgnet.DoAction("status", req, &resp) done <- true }() select { case <-done: case <-time.After(5 * time.Second): resp.Err = "Couldn't connect to server." } <-sm.control.in defer func() { in_joingame = false sm.control.out <- struct{}{} }() if resp.Err != "" || resp.Game == nil { sm.layout.Error.err = resp.Err base.Error().Printf("Couldn't join game: %v", resp.Err) return } sm.ui.RemoveChild(sm) sm.ui.AddChild(MakeGamePanel("", nil, nil, game_key)) }() } else { go func() { var req mrgnet.JoinGameRequest req.Id = net_id req.Game_key = game_key var resp mrgnet.JoinGameResponse done := make(chan bool, 1) go func() { mrgnet.DoAction("join", req, &resp) done <- true }() select { case <-done: case <-time.After(5 * time.Second): resp.Err = "Couldn't connect to server." } <-sm.control.in defer func() { in_joingame = false sm.control.out <- struct{}{} }() if resp.Err != "" || !resp.Successful { sm.layout.Error.err = resp.Err base.Error().Printf("Couldn't join game: %v", resp.Err) return } sm.ui.RemoveChild(sm) sm.ui.AddChild(MakeGamePanel("", nil, nil, game_key)) }() } } if active { d := Button{} d.Text.String = "Delete!" d.Text.Justification = "right" d.Text.Size = sm.layout.Text.Size d.f = func(interface{}) { go func() { var req mrgnet.KillRequest req.Id = net_id req.Game_key = game_key var resp mrgnet.KillResponse done := make(chan bool, 1) go func() { mrgnet.DoAction("kill", req, &resp) done <- true }() select { case <-done: case <-time.After(5 * time.Second): resp.Err = "Couldn't connect to server." } <-sm.control.in if resp.Err != "" { sm.layout.Error.err = resp.Err base.Error().Printf("Couldn't kill game: %v", resp.Err) } else { algorithm.Choose2(&glb.games, func(gf gameField) bool { return gf.key != req.Game_key }) } sm.control.out <- struct{}{} }() } glb.games = append(glb.games, gameField{&b, &d, name, list.Game_keys[j], list.Games[j]}) } else { glb.games = append(glb.games, gameField{&b, nil, name, list.Game_keys[j], list.Games[j]}) } } glb.Scroll.Height = int(base.GetDictionary(sm.layout.Text.Size).MaxHeight() * float64(len(list.Games))) default: } sm.hover_game = nil if (gui.Point{sm.mx, sm.my}.Inside(glb.Scroll.Region())) { for i := range glb.games { game := &glb.games[i] var region gui.Region region.X = game.join.(*Button).bounds.x region.Y = game.join.(*Button).bounds.y region.Dx = glb.Scroll.Dx region.Dy = int(base.GetDictionary(sm.layout.Text.Size).MaxHeight()) if (gui.Point{sm.mx, sm.my}.Inside(region)) { sm.hover_game = game } game.join.Think(sm.region.X, sm.region.Y, sm.mx, sm.my, dt) if game.delete != nil { game.delete.Think(sm.region.X, sm.region.Y, sm.mx, sm.my, dt) } } } else { for _, game := range glb.games { game.join.Think(sm.region.X, sm.region.Y, 0, 0, dt) if game.delete != nil { game.delete.Think(sm.region.X, sm.region.Y, 0, 0, dt) } } } glb.Scroll.Think(dt) } if sm.update_alpha > 0.0 && time.Now().Sub(sm.update_time).Seconds() >= 2 { sm.update_alpha = doApproach(sm.update_alpha, 0.0, dt) } for _, button := range sm.buttons { button.Think(sm.region.X, sm.region.Y, sm.mx, sm.my, dt) } }
func (m *MainBar) Draw(region gui.Region) { m.region = region gl.Enable(gl.TEXTURE_2D) m.layout.Background.Data().Bind() gl.Color4d(1, 1, 1, 1) gl.Begin(gl.QUADS) gl.TexCoord2d(0, 0) gl.Vertex2i(region.X, region.Y) gl.TexCoord2d(0, -1) gl.Vertex2i(region.X, region.Y+region.Dy) gl.TexCoord2d(1, -1) gl.Vertex2i(region.X+region.Dx, region.Y+region.Dy) gl.TexCoord2d(1, 0) gl.Vertex2i(region.X+region.Dx, region.Y) gl.End() buttons := m.no_actions_buttons if m.ent != nil && len(m.ent.Actions) > m.layout.Actions.Count { buttons = m.all_buttons } for _, button := range buttons { button.RenderAt(region.X, region.Y) } ent := m.game.HoveredEnt() if ent == nil { ent = m.ent } if ent != nil && ent.Stats != nil { gl.Color4d(1, 1, 1, 1) ent.Still.Data().Bind() tdx := ent.Still.Data().Dx() tdy := ent.Still.Data().Dy() cx := region.X + m.layout.CenterStillFrame.X cy := region.Y + m.layout.CenterStillFrame.Y gl.Begin(gl.QUADS) gl.TexCoord2d(0, 0) gl.Vertex2i(cx-tdx/2, cy-tdy/2) gl.TexCoord2d(0, -1) gl.Vertex2i(cx-tdx/2, cy+tdy/2) gl.TexCoord2d(1, -1) gl.Vertex2i(cx+tdx/2, cy+tdy/2) gl.TexCoord2d(1, 0) gl.Vertex2i(cx+tdx/2, cy-tdy/2) gl.End() m.layout.Name.RenderString(ent.Name) m.layout.Ap.RenderString(fmt.Sprintf("Ap:%d", ent.Stats.ApCur())) m.layout.Hp.RenderString(fmt.Sprintf("Hp:%d", ent.Stats.HpCur())) m.layout.Corpus.RenderString(fmt.Sprintf("Corpus:%d", ent.Stats.Corpus())) m.layout.Ego.RenderString(fmt.Sprintf("Ego:%d", ent.Stats.Ego())) gl.Color4d(1, 1, 1, 1) m.layout.Divider.Data().Bind() tdx = m.layout.Divider.Data().Dx() tdy = m.layout.Divider.Data().Dy() cx = region.X + m.layout.Name.X cy = region.Y + m.layout.Name.Y - 5 gl.Begin(gl.QUADS) gl.TexCoord2d(0, 0) gl.Vertex2i(cx-tdx/2, cy-tdy/2) gl.TexCoord2d(0, -1) gl.Vertex2i(cx-tdx/2, cy+(tdy+1)/2) gl.TexCoord2d(1, -1) gl.Vertex2i(cx+(tdx+1)/2, cy+(tdy+1)/2) gl.TexCoord2d(1, 0) gl.Vertex2i(cx+(tdx+1)/2, cy-tdy/2) gl.End() } if m.ent != nil && m.ent.Stats != nil { // Actions { spacing := m.layout.Actions.Icon_size * float64(m.layout.Actions.Count) spacing = m.layout.Actions.Width - spacing spacing /= float64(m.layout.Actions.Count - 1) m.state.Actions.space = spacing s := m.layout.Actions.Icon_size num_actions := len(m.ent.Actions) xpos := m.layout.Actions.X if num_actions > m.layout.Actions.Count { xpos -= m.state.Actions.scroll_pos * (s + spacing) } d := base.GetDictionary(10) var r gui.Region r.X = int(m.layout.Actions.X) r.Y = int(m.layout.Actions.Y - d.MaxHeight()) r.Dx = int(m.layout.Actions.Width) r.Dy = int(m.layout.Actions.Icon_size + d.MaxHeight()) r.PushClipPlanes() gl.Color4d(1, 1, 1, 1) for i, action := range m.ent.Actions { // Highlight the selected action if action == m.game.current_action { gl.Disable(gl.TEXTURE_2D) gl.Color4d(1, 0, 0, 1) gl.Begin(gl.QUADS) gl.Vertex3d(xpos-2, m.layout.Actions.Y-2, 0) gl.Vertex3d(xpos-2, m.layout.Actions.Y+s+2, 0) gl.Vertex3d(xpos+s+2, m.layout.Actions.Y+s+2, 0) gl.Vertex3d(xpos+s+2, m.layout.Actions.Y-2, 0) gl.End() } gl.Enable(gl.TEXTURE_2D) action.Icon().Data().Bind() if action.Preppable(m.ent, m.game) { gl.Color4d(1, 1, 1, 1) } else { gl.Color4d(0.5, 0.5, 0.5, 1) } gl.Begin(gl.QUADS) gl.TexCoord2d(0, 0) gl.Vertex3d(xpos, m.layout.Actions.Y, 0) gl.TexCoord2d(0, -1) gl.Vertex3d(xpos, m.layout.Actions.Y+s, 0) gl.TexCoord2d(1, -1) gl.Vertex3d(xpos+s, m.layout.Actions.Y+s, 0) gl.TexCoord2d(1, 0) gl.Vertex3d(xpos+s, m.layout.Actions.Y, 0) gl.End() gl.Disable(gl.TEXTURE_2D) ypos := m.layout.Actions.Y - d.MaxHeight() - 2 d.RenderString(fmt.Sprintf("%d", i+1), xpos+s/2, ypos, 0, d.MaxHeight(), gui.Center) xpos += spacing + m.layout.Actions.Icon_size } r.PopClipPlanes() // Now, if there is a selected action, position it between the arrows if m.state.Actions.selected != nil { // a := m.state.Actions.selected d := base.GetDictionary(15) x := m.layout.Actions.X + m.layout.Actions.Width/2 y := float64(m.layout.ActionLeft.Y) str := fmt.Sprintf("%s:%dAP", m.state.Actions.selected.String(), m.state.Actions.selected.AP()) gl.Color4d(1, 1, 1, 1) d.RenderString(str, x, y, 0, d.MaxHeight(), gui.Center) } } // Conditions { gl.Color4d(1, 1, 1, 1) c := m.layout.Conditions d := base.GetDictionary(int(c.Size)) ypos := c.Y + c.Height - d.MaxHeight() + m.state.Conditions.scroll_pos var r gui.Region r.X = int(c.X) r.Y = int(c.Y) r.Dx = int(c.Width) r.Dy = int(c.Height) r.PushClipPlanes() for _, s := range m.ent.Stats.ConditionNames() { d.RenderString(s, c.X+c.Width/2, ypos, 0, d.MaxHeight(), gui.Center) ypos -= float64(d.MaxHeight()) } r.PopClipPlanes() } // Gear if m.ent.ExplorerEnt != nil && m.ent.ExplorerEnt.Gear != nil { gear := m.ent.ExplorerEnt.Gear layout := m.layout.Gear icon := gear.Small_icon.Data() icon.RenderNatural(int(layout.X), int(layout.Y)) d := base.GetDictionary(10) d.RenderString("Gear", layout.X+float64(icon.Dx())/2, layout.Y-d.MaxHeight(), 0, d.MaxHeight(), gui.Center) } } // Mouseover text if m.state.MouseOver.active { var x int switch m.state.MouseOver.location { case mouseOverActions: x = int(m.layout.Actions.X + m.layout.Actions.Width/2) case mouseOverConditions: x = int(m.layout.Conditions.X + m.layout.Conditions.Width/2) case mouseOverGear: default: base.Warn().Printf("Got an unknown mouseover location: %d", m.state.MouseOver.location) m.state.MouseOver.active = false } y := m.layout.Background.Data().Dy() - 40 d := base.GetDictionary(15) d.RenderString(m.state.MouseOver.text, float64(x), float64(y), 0, d.MaxHeight(), gui.Center) } }