doodle/pkg/editor_ui.go
Noah Petherbridge ba97c81b55 Loading Screen
* pkg/loadscreen implements a global Loading Screen for loading heavy
  levels for playing or editing.
* All chunks in a level are pre-rendered to bitmap before gameplay
  begins, which reduces stutter as chunks were being lazily rendered on
  first appearance before.
* The loading screen can be played with in the developer console:
  $ loadscreen.Show()
  $ loadscreen.Hide()
  Along with ShowWithProgress(), SetProgress(float64) and IsActive()
* Chunker: separate the concerns between Bitmaps an (SDL2) Textures.
* Chunker.Prerender() converts a chunk to a bitmap (a Go image.Image)
  and caches it, only re-rendering if marked as dirty.
* Chunker.Texture() will use the pre-cached bitmap if available to
  immediately produce the SDL2 texture.

Other miscellaneous changes:

* Added to the Colored Pencil palette: Sandstone
* Added "perlin noise" brush pattern
2021-07-18 20:04:24 -07:00

539 lines
14 KiB
Go

package doodle
import (
"fmt"
"path/filepath"
"git.kirsle.net/apps/doodle/pkg/balance"
"git.kirsle.net/apps/doodle/pkg/branding"
"git.kirsle.net/apps/doodle/pkg/drawtool"
"git.kirsle.net/apps/doodle/pkg/enum"
"git.kirsle.net/apps/doodle/pkg/level"
"git.kirsle.net/apps/doodle/pkg/license"
"git.kirsle.net/apps/doodle/pkg/log"
"git.kirsle.net/apps/doodle/pkg/uix"
"git.kirsle.net/apps/doodle/pkg/usercfg"
"git.kirsle.net/go/render"
"git.kirsle.net/go/render/event"
"git.kirsle.net/go/ui"
)
// EditorUI manages the user interface for the Editor Scene.
type EditorUI struct {
d *Doodle
Scene *EditorScene
// Variables
StatusBoxes []*string
StatusMouseText string
StatusPaletteText string
StatusFilenameText string
StatusScrollText string
selectedSwatch string // name of selected swatch in palette
cursor render.Point // remember the cursor position in Loop
// Widgets
screen *ui.Frame // full-window parent frame for layout
Supervisor *ui.Supervisor
Canvas *uix.Canvas
Workspace *ui.Frame
MenuBar *ui.MenuBar
StatusBar *ui.Frame
ToolBar *ui.Frame
PlayButton *ui.Button
// Popup windows.
levelSettingsWindow *ui.Window
aboutWindow *ui.Window
doodadWindow *ui.Window
paletteEditor *ui.Window
layersWindow *ui.Window
publishWindow *ui.Window
filesystemWindow *ui.Window
licenseWindow *ui.Window
settingsWindow *ui.Window // lazy loaded
// Palette window.
Palette *ui.Window
PaletteTab *ui.Frame
DoodadTab *ui.Frame
// ToolBar window.
activeTool string
// Draggable Doodad canvas.
DraggableActor *DraggableActor
}
// NewEditorUI initializes the Editor UI.
func NewEditorUI(d *Doodle, s *EditorScene) *EditorUI {
u := &EditorUI{
d: d,
Scene: s,
Supervisor: ui.NewSupervisor(),
StatusMouseText: "Cursor: (waiting)",
StatusPaletteText: "Swatch: <none>",
StatusFilenameText: "Filename: <none>",
StatusScrollText: "Hello world",
}
// The screen is a full-window-sized frame for laying out the UI.
u.screen = ui.NewFrame("screen")
u.screen.Resize(render.NewRect(d.width, d.height))
u.screen.Compute(d.Engine)
// Default tool in the toolbox.
u.activeTool = drawtool.PencilTool.String()
// Bind the StatusBoxes arrays to the text variables.
u.StatusBoxes = []*string{
&u.StatusMouseText,
&u.StatusPaletteText,
&u.StatusFilenameText,
&u.StatusScrollText,
}
u.Canvas = u.SetupCanvas(d)
u.MenuBar = u.SetupMenuBar(d)
u.StatusBar = u.SetupStatusBar(d)
u.ToolBar = u.SetupToolbar(d)
u.Workspace = u.SetupWorkspace(d) // important that this is last!
// Preload pop-up windows before they're needed.
u.SetupPopups(d)
u.screen.Pack(u.MenuBar, ui.Pack{
Side: ui.N,
FillX: true,
})
// Play Button, for levels only.
if s.DrawingType == enum.LevelDrawing {
u.PlayButton = ui.NewButton("Play", ui.NewLabel(ui.Label{
Text: "Play (P)",
Font: balance.PlayButtonFont,
}))
u.PlayButton.Handle(ui.Click, func(ed ui.EventData) error {
u.Scene.Playtest()
return nil
})
u.Supervisor.Add(u.PlayButton)
}
// Position the Canvas inside the frame.
u.Workspace.Pack(u.Canvas, ui.Pack{
Side: ui.N,
})
u.Workspace.Compute(d.Engine)
u.ExpandCanvas(d.Engine)
// Select the first swatch of the palette.
if u.Canvas.Palette != nil && u.Canvas.Palette.ActiveSwatch != nil {
u.selectedSwatch = u.Canvas.Palette.ActiveSwatch.Name
}
return u
}
// FinishSetup runs the Setup tasks that must be postponed til the end, such
// as rendering the Palette window so that it can accurately show the palette
// loaded from a level.
func (u *EditorUI) FinishSetup(d *Doodle) {
u.Palette = u.SetupPalette(d)
u.Resized(d)
}
// Resized handles the window being resized so we can recompute the widgets.
func (u *EditorUI) Resized(d *Doodle) {
// Resize the screen frame to fill the window.
u.screen.Resize(render.NewRect(d.width, d.height))
u.screen.Compute(d.Engine)
menuHeight := 20 // TODO: ideally the MenuBar should know its own height and we can ask
// Status Bar.
{
u.StatusBar.Configure(ui.Config{
Width: d.width,
})
u.StatusBar.MoveTo(render.Point{
X: 0,
Y: d.height - u.StatusBar.Size().H,
})
u.StatusBar.Compute(d.Engine)
}
// Palette panel.
{
if usercfg.Current.HorizontalToolbars {
u.Palette.Configure(ui.Config{
Width: u.d.width,
Height: paletteWidth,
})
u.Palette.MoveTo(render.NewPoint(
0,
u.d.height-u.Palette.BoxSize().H-u.StatusBar.Size().H,
))
} else {
u.Palette.Configure(ui.Config{
Width: paletteWidth,
Height: u.d.height - u.StatusBar.Size().H,
})
u.Palette.MoveTo(render.NewPoint(
u.d.width-u.Palette.BoxSize().W,
menuHeight,
))
}
u.Palette.Compute(d.Engine)
}
var (
innerHeight = u.d.height - menuHeight - u.StatusBar.Size().H
innerWidth = u.d.width
)
// Tool Bar.
{
tbSize := ui.Config{
Width: toolbarWidth,
Height: innerHeight,
}
if usercfg.Current.HorizontalToolbars {
tbSize.Width = innerWidth
tbSize.Height = toolbarWidth
}
u.ToolBar.Configure(tbSize)
u.ToolBar.MoveTo(render.NewPoint(
0,
menuHeight,
))
u.ToolBar.Compute(d.Engine)
}
// Position the workspace around with the other widgets.
{
frame := u.Workspace
if usercfg.Current.HorizontalToolbars {
frame.MoveTo(render.NewPoint(
0,
menuHeight+u.ToolBar.Size().H,
))
frame.Resize(render.NewRect(
d.width,
d.height-menuHeight-u.StatusBar.Size().H-u.ToolBar.Size().H-u.Palette.Size().H,
))
} else {
frame.MoveTo(render.NewPoint(
u.ToolBar.Size().W,
menuHeight,
))
frame.Resize(render.NewRect(
d.width-u.Palette.Size().W-u.ToolBar.Size().W,
d.height-menuHeight-u.StatusBar.Size().H,
))
}
frame.Compute(d.Engine)
u.ExpandCanvas(d.Engine)
}
// Position the Play button over the workspace.
if u.PlayButton != nil {
btn := u.PlayButton
btn.Compute(d.Engine)
var (
wsP = u.Workspace.Point()
wsSize = u.Workspace.Size()
btnSize = btn.Size()
padding = 8
)
btn.MoveTo(render.NewPoint(
wsP.X+wsSize.W-btnSize.W-padding,
wsP.Y+wsSize.H-btnSize.H-padding,
))
}
}
// Loop to process events and update the UI.
func (u *EditorUI) Loop(ev *event.State) error {
u.cursor = render.NewPoint(ev.CursorX, ev.CursorY)
// Loop the UI and see whether we're told to stop event propagation.
var stopPropagation bool
if err := u.Supervisor.Loop(ev); err != nil {
if err == ui.ErrStopPropagation {
stopPropagation = true
} else {
return err
}
}
// Update status bar labels.
{
u.StatusMouseText = fmt.Sprintf("Rel:(%d,%d) Abs:(%s)",
ev.CursorX,
ev.CursorY,
*u.Scene.debWorldIndex,
)
u.StatusPaletteText = fmt.Sprintf("%s Tool",
u.Canvas.Tool,
)
u.StatusScrollText = fmt.Sprintf("Scroll: %s Viewport: %s",
u.Canvas.Scroll,
u.Canvas.Viewport(),
)
// Statusbar filename label.
filename := "untitled.level"
fileType := "Level"
if u.Scene.filename != "" {
filename = u.Scene.filename
}
if u.Scene.DrawingType == enum.DoodadDrawing {
fileType = "Doodad"
}
u.StatusFilenameText = fmt.Sprintf("Filename: %s (%s)",
filepath.Base(filename),
fileType,
)
}
// Recompute widgets.
// Explanation: if I don't, the UI packing algorithm somehow causes widgets
// to creep away every frame and fly right off the screen. For example the
// ToolBar's buttons would start packed at the top of the bar but then just
// move themselves every frame downward and away.
u.MenuBar.Compute(u.d.Engine)
u.StatusBar.Compute(u.d.Engine)
u.Palette.Compute(u.d.Engine)
u.ToolBar.Compute(u.d.Engine)
// Only forward events to the Canvas if the UI hasn't stopped them.
// Also ignore events if a managed ui.Window is overlapping the canvas.
// Also ignore if an active modal (popup menu) is on screen.
if !(stopPropagation || u.Supervisor.IsPointInWindow(u.cursor) || u.Supervisor.GetModal() != nil) {
u.Canvas.Loop(ev)
}
return nil
}
// Present the UI to the screen.
func (u *EditorUI) Present(e render.Engine) {
// Draw the workspace canvas first. Rationale: we want it to have the lowest
// Z-index so Tooltips can pop on top of the workspace.
u.Workspace.Present(e, u.Workspace.Point())
// TODO: if I don't Compute() the palette window, then, whenever the dev console
// is open the window will blank out its contents leaving only the outermost Frame.
// The title bar and borders are gone. But other UI widgets don't do this.
// FIXME: Scene interface should have a separate ComputeUI() from Loop()?
u.Palette.Compute(u.d.Engine)
u.Palette.Present(e, u.Palette.Point())
u.MenuBar.Present(e, u.MenuBar.Point())
u.StatusBar.Present(e, u.StatusBar.Point())
u.ToolBar.Present(e, u.ToolBar.Point())
if u.PlayButton != nil {
u.PlayButton.Present(e, u.PlayButton.Point())
}
u.screen.Present(e, render.Origin)
// Draw any windows being managed by Supervisor.
u.Supervisor.Present(e)
// Are we dragging a Doodad canvas?
if u.Supervisor.IsDragging() {
if actor := u.DraggableActor; actor != nil {
var size = actor.canvas.Size()
actor.canvas.Present(u.d.Engine, render.NewPoint(
u.cursor.X-(size.W/2),
u.cursor.Y-(size.H/2),
))
}
}
}
// SetupWorkspace configures the main Workspace frame that takes up the full
// window apart from toolbars. The Workspace has a single child element, the
// Canvas, so it can easily full-screen it or center it for Doodad editing.
func (u *EditorUI) SetupWorkspace(d *Doodle) *ui.Frame {
frame := ui.NewFrame("Workspace")
return frame
}
// SetupCanvas configures the main drawing canvas in the editor.
func (u *EditorUI) SetupCanvas(d *Doodle) *uix.Canvas {
drawing := uix.NewCanvas(balance.ChunkSize, true)
drawing.Name = "edit-canvas"
drawing.Palette = level.DefaultPalette()
drawing.SetBackground(render.White)
if len(drawing.Palette.Swatches) > 0 {
drawing.SetSwatch(drawing.Palette.Swatches[0])
}
// Handle the Canvas deleting our actors in edit mode.
drawing.OnDeleteActors = func(actors []*level.Actor) {
if u.Scene.Level != nil {
for _, actor := range actors {
u.Scene.Level.Actors.Remove(actor)
}
drawing.InstallActors(u.Scene.Level.Actors)
}
}
// A drag event initiated inside the Canvas. This happens in the ActorTool
// mode when you click an existing Doodad and it "pops" out of the canvas
// and onto the cursor to be repositioned.
drawing.OnDragStart = func(actor *level.Actor) {
log.Warn("drawing.OnDragStart: grab actor %s", actor)
u.startDragActor(nil, actor)
}
// A link event to connect two actors together.
drawing.OnLinkActors = func(a, b *uix.Actor) {
// The actors are a uix.Actor which houses a level.Actor which we
// want to update to map each other's IDs.
idA, idB := a.Actor.ID(), b.Actor.ID()
a.Actor.AddLink(idB)
b.Actor.AddLink(idA)
// Reset the Link tool.
d.Flash("Linked '%s' and '%s' together", a.Doodad().Title, b.Doodad().Title)
}
// Set up the drop handler for draggable doodads.
// NOTE: The drag event begins at editor_ui_doodad.go when configuring the
// Doodad Palette buttons.
drawing.Handle(ui.Drop, func(ed ui.EventData) error {
log.Info("Drawing canvas has received a drop!")
var P = ui.AbsolutePosition(drawing)
// Was it an actor from the Doodad Palette?
if actor := u.DraggableActor; actor != nil {
log.Info("Actor is a %s", actor.doodad.Filename)
// The actor has been dropped so null it out.
defer func() {
u.DraggableActor = nil
}()
if u.Scene.Level == nil {
u.d.Flash("Can't drop doodads onto doodad drawings!")
return nil
}
// If they dropped it onto a UI window, ignore it.
if u.Supervisor.IsPointInWindow(ed.Point) {
return nil
}
var (
// Uncenter the drawing from the cursor.
size = actor.canvas.Size()
position = render.Point{
X: (u.cursor.X - drawing.Scroll.X - (size.W / 2)) - P.X,
Y: (u.cursor.Y - drawing.Scroll.Y - (size.H / 2)) - P.Y,
}
)
// Was it an already existing actor to re-add to the map?
if actor.actor != nil {
actor.actor.Point = position
u.Scene.Level.Actors.Add(actor.actor)
} else {
u.Scene.Level.Actors.Add(&level.Actor{
Point: position,
Filename: actor.doodad.Filename,
})
}
err := drawing.InstallActors(u.Scene.Level.Actors)
if err != nil {
log.Error("Error installing actor onDrop to canvas: %s", err)
}
}
return nil
})
u.Supervisor.Add(drawing)
return drawing
}
// ExpandCanvas manually expands the Canvas to fill the frame, to work around
// UI packing bugs. Ideally I would use `Expand: true` when packing the Canvas
// in its frame, but that would artificially expand the Canvas also when it
// _wanted_ to be smaller, as in Doodad Editing Mode.
func (u *EditorUI) ExpandCanvas(e render.Engine) {
if u.Scene.DrawingType == enum.LevelDrawing {
u.Canvas.Resize(u.Workspace.Size())
} else {
// Size is managed externally.
}
u.Workspace.Compute(e)
}
// SetupStatusBar sets up the status bar widget along the bottom of the window.
func (u *EditorUI) SetupStatusBar(d *Doodle) *ui.Frame {
frame := ui.NewFrame("Status Bar")
frame.Configure(ui.Config{
BorderStyle: ui.BorderRaised,
Background: render.Grey,
BorderSize: 2,
})
style := ui.Config{
Background: render.Grey,
BorderStyle: ui.BorderSunken,
BorderColor: render.Grey,
BorderSize: 1,
}
var labelHeight int
for _, variable := range u.StatusBoxes {
label := ui.NewLabel(ui.Label{
TextVariable: variable,
Font: balance.StatusFont,
})
label.Configure(style)
label.Compute(d.Engine)
frame.Pack(label, ui.Pack{
Side: ui.W,
PadX: 1,
})
if labelHeight == 0 {
labelHeight = label.BoxSize().H
}
}
var shareware string
if !license.IsRegistered() {
shareware = " (shareware)"
}
extraLabel := ui.NewLabel(ui.Label{
Text: fmt.Sprintf("%s v%s%s", branding.AppName, branding.Version, shareware),
Font: balance.StatusFont,
})
extraLabel.Configure(ui.Config{
Background: render.Grey,
BorderStyle: ui.BorderSunken,
BorderColor: render.Grey,
BorderSize: 1,
})
extraLabel.Compute(d.Engine)
frame.Pack(extraLabel, ui.Pack{
Side: ui.E,
})
// Set the initial good frame size to have the height secured,
// so when resizing the application window we can just adjust for width.
frame.Resize(render.Rect{
W: d.width,
H: labelHeight + frame.BoxThickness(1),
})
frame.Compute(d.Engine)
return frame
}