ichigo/engine/game.go

package engine

import (
	"encoding/gob"
	"errors"
	"fmt"
	"image"
	"io/fs"
	"log"
	"reflect"
	"sync"
	"time"

	"drjosh.dev/gurgle/geom"
	"github.com/hajimehoshi/ebiten/v2"
)

var _ interface {
	Disabler
	Hider
	Identifier
	Updater
	Registrar
	Scanner
} = &Game{}

var (
	errNilComponent = errors.New("nil component")
	errNilParent    = errors.New("nil parent")
)

func init() {
	gob.Register(&Game{})
}

// Game implements the ebiten methods using a collection of components. One
// component must be the designated root component.
type Game struct {
	Disables
	Hides
	ScreenSize image.Point
	Root       Drawer
	Projection geom.Projector
	VoxelScale geom.Float3

	dbmu sync.RWMutex
	byID map[string]Identifier              // Named components by ID
	byAB map[abKey]map[interface{}]struct{} // Ancestor/behaviour index
	par  map[interface{}]interface{}        // par[x] is parent of x
}

// Draw draws everything.
func (g *Game) Draw(screen *ebiten.Image) {
	if g.Hidden() {
		return
	}
	g.Root.Draw(screen, &ebiten.DrawImageOptions{})
}

// Layout returns the configured screen width/height.
func (g *Game) Layout(outsideWidth, outsideHeight int) (w, h int) {
	return g.ScreenSize.X, g.ScreenSize.Y
}

// Update updates everything.
func (g *Game) Update() error {
	return g.updateRecursive(g)
}

// updateRecursive updates everything in a post-order traversal. It terminates
// the recursion early if the component reports it is Disabled.
func (g *Game) updateRecursive(c interface{}) error {
	if d, ok := c.(Disabler); ok && d.Disabled() {
		return nil
	}
	if sc, ok := c.(Scanner); ok {
		if err := sc.Scan(g.updateRecursive); err != nil {
			return err
		}
	}
	if u, ok := c.(Updater); ok && c != g {
		return u.Update()
	}
	return nil
}

// Ident returns "__GAME__".
func (g *Game) Ident() string { return "__GAME__" }

// Component returns the component with a given ID, or nil if there is none.
// This only returns sensible values for registered components (e.g. after
// LoadAndPrepare).
func (g *Game) Component(id string) Identifier {
	g.dbmu.RLock()
	defer g.dbmu.RUnlock()
	return g.byID[id]
}

// Parent returns the parent of a given component, or nil if there is none.
// This only returns sensible values for registered components (e.g. after
// LoadAndPrepare).
func (g *Game) Parent(c interface{}) interface{} {
	g.dbmu.RLock()
	defer g.dbmu.RUnlock()
	return g.par[c]
}

// PathRegister calls Register on every Registrar in the path between g and
// parent (top-to-bottom, i.e. g first)
func (g *Game) PathRegister(component, parent interface{}) error {
	rp := g.ReversePath(parent)
	for i := len(rp) - 1; i >= 0; i-- {
		if r, ok := rp[i].(Registrar); ok {
			if err := r.Register(component, parent); err != nil {
				return err
			}
		}
	}
	return nil
}

// PathUnregister calls Unregister on every Registrar in the path between g and
// parent (bottom-to-top, i.e. parent first).
func (g *Game) PathUnregister(component interface{}) {
	for _, p := range g.ReversePath(component) {
		if r, ok := p.(Registrar); ok {
			r.Unregister(component)
		}
	}
}

// Path returns a slice with the path of components to reach component from g
// (including g and component).
func (g *Game) Path(component interface{}) []interface{} {
	stack := g.ReversePath(component)
	for i, j := 0, len(stack)-1; i < j; i, j = i+1, j-1 {
		stack[i], stack[j] = stack[j], stack[i]
	}
	return stack
}

// ReversePath returns the same slice as Path, but reversed. (ReversePath is
// faster than Path).
func (g *Game) ReversePath(component interface{}) []interface{} {
	var stack []interface{}
	g.dbmu.RLock()
	for p := component; p != nil; p = g.Parent(p) {
		stack = append(stack, p)
	}
	g.dbmu.RUnlock()
	return stack
}

// Query looks for components having both a given ancestor and implementing
// a given behaviour (see Behaviors in interface.go). This only returns sensible
// values after LoadAndPrepare. Note that every component is its own ancestor.
func (g *Game) Query(ancestor interface{}, behaviour reflect.Type) map[interface{}]struct{} {
	g.dbmu.RLock()
	defer g.dbmu.RUnlock()
	return g.byAB[abKey{ancestor, behaviour}]
}

// Scan visits g.Root.
func (g *Game) Scan(visit func(interface{}) error) error {
	return visit(g.Root)
}

// Load loads a component and all subcomponents recursively.
// Note that this method does not implement Loader.
func (g *Game) Load(component interface{}, assets fs.FS) error {
	if l, ok := component.(Loader); ok {
		if err := l.Load(assets); err != nil {
			return err
		}
	}
	if sc, ok := component.(Scanner); ok {
		return sc.Scan(func(x interface{}) error {
			return g.Load(x, assets)
		})
	}
	return nil
}

// Prepare prepares a component and all subcomponents recursively.
// Note that this method does not implement Prepper.
func (g *Game) Prepare(component interface{}) error {
	// Postorder traversal, in case ancestors depend on descendants being
	// ready to answer queries.
	if sc, ok := component.(Scanner); ok {
		if err := sc.Scan(g.Prepare); err != nil {
			return err
		}
	}
	if p, ok := component.(Prepper); ok {
		return p.Prepare(g)
	}
	return nil
}

// LoadAndPrepare first calls Load on all Loaders. Once loading is complete, it
// builds the component databases and then calls Prepare on every Preparer.
// LoadAndPrepare must be called before any calls to Component or Query.
func (g *Game) LoadAndPrepare(assets fs.FS) error {
	if g.VoxelScale == (geom.Float3{}) {
		g.VoxelScale = geom.Float3{X: 1, Y: 1, Z: 1}
	}

	// Load all the Loaders.
	startLoad := time.Now()
	if err := g.Load(g.Root, assets); err != nil {
		return err
	}
	log.Printf("finished loading in %v", time.Since(startLoad))

	// Build the component databases
	startBuild := time.Now()
	if err := g.build(); err != nil {
		return err
	}
	log.Printf("finished building db in %v", time.Since(startBuild))

	// Prepare all the Preppers
	startPrep := time.Now()
	if err := g.Prepare(g.Root); err != nil {
		return err
	}
	log.Printf("finished preparing in %v", time.Since(startPrep))
	return nil
}

func (g *Game) build() error {
	g.dbmu.Lock()
	defer g.dbmu.Unlock()
	g.byID = make(map[string]Identifier)
	g.byAB = make(map[abKey]map[interface{}]struct{})
	g.par = make(map[interface{}]interface{})
	return g.registerRecursive(g, nil)
}

// Register registers a component into the component database (as the
// child of a given parent). Passing a nil component or parent is an error.
// Registering multiple components with the same ID is also an error.
// Registering a component will recursively register all children found via
// Scan.
func (g *Game) Register(component, parent interface{}) error {
	if component == nil {
		return errNilComponent
	}
	if parent == nil && component != g {
		return errNilParent
	}
	g.dbmu.Lock()
	defer g.dbmu.Unlock()
	return g.registerRecursive(component, parent)
}

func (g *Game) registerRecursive(component, parent interface{}) error {
	if err := g.registerOne(component, parent); err != nil {
		return err
	}
	if sc, ok := component.(Scanner); ok {
		return sc.Scan(func(x interface{}) error {
			return g.registerRecursive(x, component)
		})
	}
	return nil
}

func (g *Game) registerOne(component, parent interface{}) error {
	// register in g.byID if needed
	if i, ok := component.(Identifier); ok {
		if id := i.Ident(); id != "" {
			if _, exists := g.byID[id]; exists {
				return fmt.Errorf("duplicate id %q", id)
			}
			g.byID[id] = i
		}
	}

	// register in g.par
	g.par[component] = parent

	// register in g.byAB
	ct := reflect.TypeOf(component)
	for _, b := range Behaviours {
		if !ct.Implements(b) {
			continue
		}
		// TODO: better than O(len(path)^2) time and memory?
		for p := component; p != nil; p = g.par[p] {
			k := abKey{p, b}
			if g.byAB[k] == nil {
				g.byAB[k] = make(map[interface{}]struct{})
			}
			g.byAB[k][component] = struct{}{}
		}
	}
	return nil
}

// Unregister removes the component from the component database.
// Passing a nil component has no effect. Unregistering a component will
// recursively unregister child components found via Scan.
func (g *Game) Unregister(component interface{}) {
	if component == nil {
		return
	}
	g.dbmu.Lock()
	g.unregisterRecursive(component)
	g.dbmu.Unlock()
}

func (g *Game) unregisterRecursive(component interface{}) {
	if sc, ok := component.(Scanner); ok {
		sc.Scan(func(x interface{}) error {
			g.unregisterRecursive(x)
			return nil
		})
	}
	g.unregisterOne(component)
}

func (g *Game) unregisterOne(component interface{}) {
	// unregister from g.byAB, using g.par to trace the path
	ct := reflect.TypeOf(component)
	for _, b := range Behaviours {
		if !ct.Implements(b) {
			continue
		}
		for p := component; p != nil; p = g.par[p] {
			if k := (abKey{p, b}); g.byAB[k] != nil {
				delete(g.byAB[k], component)
			}
		}
	}

	// unregister from g.par
	delete(g.par, component)

	// unregister from g.byID if needed
	if id, ok := component.(Identifier); ok && id.Ident() != "" {
		delete(g.byID, id.Ident())
	}
}

func (g *Game) String() string { return "Game" }

// --------- Helper stuff ---------

type abKey struct {
	ancestor  interface{}
	behaviour reflect.Type
}

// concatOpts returns the combined options (as though a was applied and then b).
func concatOpts(a, b ebiten.DrawImageOptions) ebiten.DrawImageOptions {
	a.ColorM.Concat(b.ColorM)
	a.GeoM.Concat(b.GeoM)
	if b.CompositeMode != 0 {
		a.CompositeMode = b.CompositeMode
	}
	if b.Filter != 0 {
		a.Filter = b.Filter
	}
	return a
}
Refactoring 2021-07-23 13:12:54 +10:00			`package engine`

componentdb 2021-08-01 16:10:30 +10:00			`import (`
			`"encoding/gob"`
walk change, parentals 2021-08-30 16:25:50 +10:00			`"errors"`
dupes now an error 2021-08-27 14:30:39 +10:00			`"fmt"`
reimplement camera constraint 2021-09-01 12:07:49 +10:00			`"image"`
move AssetFS into Game 2021-08-22 20:27:08 +10:00			`"io/fs"`
add some useful logs to LoadAndPrepare 2021-09-02 11:59:42 +10:00			`"log"`
query 2021-08-27 15:39:10 +10:00			`"reflect"`
repl, save 2021-08-25 16:46:30 +10:00			`"sync"`
add some useful logs to LoadAndPrepare 2021-09-02 11:59:42 +10:00			`"time"`
componentdb 2021-08-01 16:10:30 +10:00
refacteur 2021-09-08 20:08:57 +10:00			`"drjosh.dev/gurgle/geom"`
componentdb 2021-08-01 16:10:30 +10:00			`"github.com/hajimehoshi/ebiten/v2"`
			`)`

query takes ids; game has an id 2021-08-28 18:14:37 +10:00			`var _ interface {`
			`Disabler`
			`Hider`
			`Identifier`
			`Updater`
bunch of changes 2021-09-21 14:42:18 +10:00			`Registrar`
query takes ids; game has an id 2021-08-28 18:14:37 +10:00			`Scanner`
			`} = &Game{}`

walk change, parentals 2021-08-30 16:25:50 +10:00			`var (`
			`errNilComponent = errors.New("nil component")`
			`errNilParent = errors.New("nil parent")`
			`)`

componentdb 2021-08-01 16:10:30 +10:00			`func init() {`
how to load from a file 2021-08-25 15:04:38 +10:00			`gob.Register(&Game{})`
componentdb 2021-08-01 16:10:30 +10:00			`}`

comment 2021-08-27 16:48:09 +10:00			`// Game implements the ebiten methods using a collection of components. One`
loading? 2021-09-27 20:00:28 +10:00			`// component must be the designated root component.`
Refactoring 2021-07-23 13:12:54 +10:00			`type Game struct {`
minor renaming 2021-09-13 16:50:35 +10:00			`Disables`
			`Hides`
reimplement camera constraint 2021-09-01 12:07:49 +10:00			`ScreenSize image.Point`
loading? 2021-09-27 20:00:28 +10:00			`Root Drawer`
handle different projections 2021-09-17 16:47:18 +10:00			`Projection geom.Projector`
refacteur 2021-09-08 20:08:57 +10:00			`VoxelScale geom.Float3`
componentdb 2021-08-01 16:10:30 +10:00
WIP: oh god oh fuck 2021-09-20 12:18:03 +10:00			`dbmu sync.RWMutex`
			`byID map[string]Identifier // Named components by ID`
			`byAB map[abKey]map[interface{}]struct{} // Ancestor/behaviour index`
			`par map[interface{}]interface{} // par[x] is parent of x`
query 2021-08-27 15:39:10 +10:00			`}`

game does everything: updates 2021-09-01 09:17:08 +10:00			`// Draw draws everything.`
Refactoring 2021-07-23 13:12:54 +10:00			`func (g Game) Draw(screen ebiten.Image) {`
minor renaming 2021-09-13 16:50:35 +10:00			`if g.Hidden() {`
repl, save 2021-08-25 16:46:30 +10:00			`return`
			`}`
DrawLayer -> DrawManager, iface assertions, etc 2021-09-21 12:36:49 +10:00			`g.Root.Draw(screen, &ebiten.DrawImageOptions{})`
Refactoring 2021-07-23 13:12:54 +10:00			`}`

			`// Layout returns the configured screen width/height.`
			`func (g *Game) Layout(outsideWidth, outsideHeight int) (w, h int) {`
reimplement camera constraint 2021-09-01 12:07:49 +10:00			`return g.ScreenSize.X, g.ScreenSize.Y`
Refactoring 2021-07-23 13:12:54 +10:00			`}`
Implement sort? 2021-07-23 13:46:19 +10:00
game does everything: updates 2021-09-01 09:17:08 +10:00			`// Update updates everything.`
repl, save 2021-08-25 16:46:30 +10:00			`func (g *Game) Update() error {`
bubbles working yay!!!!!!!!! :) 2021-09-21 16:53:04 +10:00			`return g.updateRecursive(g)`
			`}`
WIP: paradigm change 2021-08-31 17:03:43 +10:00
comment 2021-09-27 11:13:45 +10:00			`// updateRecursive updates everything in a post-order traversal. It terminates`
			`// the recursion early if the component reports it is Disabled.`
bubbles working yay!!!!!!!!! :) 2021-09-21 16:53:04 +10:00			`func (g *Game) updateRecursive(c interface{}) error {`
			`if d, ok := c.(Disabler); ok && d.Disabled() {`
			`return nil`
WIP: paradigm change 2021-08-31 17:03:43 +10:00			`}`
bubbles working yay!!!!!!!!! :) 2021-09-21 16:53:04 +10:00			`if sc, ok := c.(Scanner); ok {`
WIP: Scan now uses visitor pattern 2021-09-22 15:48:02 +10:00			`if err := sc.Scan(g.updateRecursive); err != nil {`
			`return err`
			`}`
bubbles working yay!!!!!!!!! :) 2021-09-21 16:53:04 +10:00			`}`
tweaks 2021-09-27 16:31:43 +10:00			`if u, ok := c.(Updater); ok && c != g {`
update orderin 2021-09-20 16:02:01 +10:00			`return u.Update()`
bubbles working yay!!!!!!!!! :) 2021-09-21 16:53:04 +10:00			`}`
			`return nil`
repl, save 2021-08-25 16:46:30 +10:00			`}`
Scenerise Camera and i am g.Root 2021-08-20 16:46:26 +10:00
query takes ids; game has an id 2021-08-28 18:14:37 +10:00			`// Ident returns "__GAME__".`
			`func (g *Game) Ident() string { return "__GAME__" }`

comment time 2021-08-01 17:14:57 +10:00			`// Component returns the component with a given ID, or nil if there is none.`
allow blank Ident 2021-08-30 15:49:51 +10:00			`// This only returns sensible values for registered components (e.g. after`
			`// LoadAndPrepare).`
more load/prepare tweaks 2021-08-27 14:43:37 +10:00			`func (g *Game) Component(id string) Identifier {`
repl, save 2021-08-25 16:46:30 +10:00			`g.dbmu.RLock()`
			`defer g.dbmu.RUnlock()`
some light renaming 2021-08-30 13:33:01 +10:00			`return g.byID[id]`
repl, save 2021-08-25 16:46:30 +10:00			`}`
componentdb 2021-08-01 16:10:30 +10:00
allow blank Ident 2021-08-30 15:49:51 +10:00			`// Parent returns the parent of a given component, or nil if there is none.`
			`// This only returns sensible values for registered components (e.g. after`
			`// LoadAndPrepare).`
			`func (g *Game) Parent(c interface{}) interface{} {`
			`g.dbmu.RLock()`
			`defer g.dbmu.RUnlock()`
			`return g.par[c]`
			`}`

comments cleanups 2021-09-21 17:09:49 +10:00			`// PathRegister calls Register on every Registrar in the path between g and`
			`// parent (top-to-bottom, i.e. g first)`
			`func (g *Game) PathRegister(component, parent interface{}) error {`
for luuuup (micro optimisations) 2021-09-21 17:23:59 +10:00			`rp := g.ReversePath(parent)`
			`for i := len(rp) - 1; i >= 0; i-- {`
			`if r, ok := rp[i].(Registrar); ok {`
comments cleanups 2021-09-21 17:09:49 +10:00			`if err := r.Register(component, parent); err != nil {`
			`return err`
			`}`
			`}`
progress 2021-09-21 15:17:59 +10:00			`}`
comments cleanups 2021-09-21 17:09:49 +10:00			`return nil`
progress 2021-09-21 15:17:59 +10:00			`}`

comments cleanups 2021-09-21 17:09:49 +10:00			`// PathUnregister calls Unregister on every Registrar in the path between g and`
for luuuup (micro optimisations) 2021-09-21 17:23:59 +10:00			`// parent (bottom-to-top, i.e. parent first).`
comments cleanups 2021-09-21 17:09:49 +10:00			`func (g *Game) PathUnregister(component interface{}) {`
			`for _, p := range g.ReversePath(component) {`
			`if r, ok := p.(Registrar); ok {`
			`r.Unregister(component)`
			`}`
			`}`
			`}`

tweaks 2021-09-21 17:13:32 +10:00			`// Path returns a slice with the path of components to reach component from g`
			`// (including g and component).`
bubbles working yay!!!!!!!!! :) 2021-09-21 16:53:04 +10:00			`func (g *Game) Path(component interface{}) []interface{} {`
comments cleanups 2021-09-21 17:09:49 +10:00			`stack := g.ReversePath(component)`
			`for i, j := 0, len(stack)-1; i < j; i, j = i+1, j-1 {`
			`stack[i], stack[j] = stack[j], stack[i]`
progress 2021-09-21 15:17:59 +10:00			`}`
bubbles working yay!!!!!!!!! :) 2021-09-21 16:53:04 +10:00			`return stack`
			`}`

comments cleanups 2021-09-21 17:09:49 +10:00			`// ReversePath returns the same slice as Path, but reversed. (ReversePath is`
			`// faster than Path).`
bubbles working yay!!!!!!!!! :) 2021-09-21 16:53:04 +10:00			`func (g *Game) ReversePath(component interface{}) []interface{} {`
			`var stack []interface{}`
			`g.dbmu.RLock()`
			`for p := component; p != nil; p = g.Parent(p) {`
			`stack = append(stack, p)`
progress 2021-09-21 15:17:59 +10:00			`}`
bubbles working yay!!!!!!!!! :) 2021-09-21 16:53:04 +10:00			`g.dbmu.RUnlock()`
			`return stack`
progress 2021-09-21 15:17:59 +10:00			`}`

query 2021-08-27 15:39:10 +10:00			`// Query looks for components having both a given ancestor and implementing`
			`// a given behaviour (see Behaviors in interface.go). This only returns sensible`
			`// values after LoadAndPrepare. Note that every component is its own ancestor.`
more dag 2021-09-20 15:52:44 +10:00			`func (g *Game) Query(ancestor interface{}, behaviour reflect.Type) map[interface{}]struct{} {`
query 2021-08-27 15:39:10 +10:00			`g.dbmu.RLock()`
			`defer g.dbmu.RUnlock()`
more dag 2021-09-20 15:52:44 +10:00			`return g.byAB[abKey{ancestor, behaviour}]`
query 2021-08-27 15:39:10 +10:00			`}`

Scan uses visitor pattern 2021-09-22 15:55:38 +10:00			`// Scan visits g.Root.`
WIP: Scan now uses visitor pattern 2021-09-22 15:48:02 +10:00			`func (g *Game) Scan(visit func(interface{}) error) error {`
			`return visit(g.Root)`
			`}`
change how walk works 2021-08-01 16:41:10 +10:00
Load/Prepare refactor 2021-09-22 17:04:27 +10:00			`// Load loads a component and all subcomponents recursively.`
			`// Note that this method does not implement Loader.`
			`func (g *Game) Load(component interface{}, assets fs.FS) error {`
			`if l, ok := component.(Loader); ok {`
			`if err := l.Load(assets); err != nil {`
			`return err`
			`}`
			`}`
			`if sc, ok := component.(Scanner); ok {`
			`return sc.Scan(func(x interface{}) error {`
			`return g.Load(x, assets)`
			`})`
			`}`
			`return nil`
			`}`

			`// Prepare prepares a component and all subcomponents recursively.`
			`// Note that this method does not implement Prepper.`
			`func (g *Game) Prepare(component interface{}) error {`
			`// Postorder traversal, in case ancestors depend on descendants being`
			`// ready to answer queries.`
			`if sc, ok := component.(Scanner); ok {`
			`if err := sc.Scan(g.Prepare); err != nil {`
			`return err`
			`}`
			`}`
			`if p, ok := component.(Prepper); ok {`
			`return p.Prepare(g)`
			`}`
			`return nil`
			`}`

query 2021-08-27 15:39:10 +10:00			`// LoadAndPrepare first calls Load on all Loaders. Once loading is complete, it`
			`// builds the component databases and then calls Prepare on every Preparer.`
			`// LoadAndPrepare must be called before any calls to Component or Query.`
walking and colliding 2021-08-27 13:56:50 +10:00			`func (g *Game) LoadAndPrepare(assets fs.FS) error {`
refacteur 2021-09-08 20:08:57 +10:00			`if g.VoxelScale == (geom.Float3{}) {`
nits 2021-09-08 20:09:52 +10:00			`g.VoxelScale = geom.Float3{X: 1, Y: 1, Z: 1}`
abolish transform 2021-09-07 14:00:50 +10:00			`}`

there's a query for that 2021-08-27 16:46:04 +10:00			`// Load all the Loaders.`
add some useful logs to LoadAndPrepare 2021-09-02 11:59:42 +10:00			`startLoad := time.Now()`
Load/Prepare refactor 2021-09-22 17:04:27 +10:00			`if err := g.Load(g.Root, assets); err != nil {`
walking and colliding 2021-08-27 13:56:50 +10:00			`return err`
			`}`
add some useful logs to LoadAndPrepare 2021-09-02 11:59:42 +10:00			`log.Printf("finished loading in %v", time.Since(startLoad))`
walking and colliding 2021-08-27 13:56:50 +10:00
more load/prepare tweaks 2021-08-27 14:43:37 +10:00			`// Build the component databases`
add some useful logs to LoadAndPrepare 2021-09-02 11:59:42 +10:00			`startBuild := time.Now()`
String methods, no separate walkers 2021-09-23 14:17:18 +10:00			`if err := g.build(); err != nil {`
more load/prepare tweaks 2021-08-27 14:43:37 +10:00			`return err`
			`}`
add some useful logs to LoadAndPrepare 2021-09-02 11:59:42 +10:00			`log.Printf("finished building db in %v", time.Since(startBuild))`
walking and colliding 2021-08-27 13:56:50 +10:00
more load/prepare tweaks 2021-08-27 14:43:37 +10:00			`// Prepare all the Preppers`
add some useful logs to LoadAndPrepare 2021-09-02 11:59:42 +10:00			`startPrep := time.Now()`
Load/Prepare refactor 2021-09-22 17:04:27 +10:00			`if err := g.Prepare(g.Root); err != nil {`
more dag 2021-09-20 15:52:44 +10:00			`return err`
there's a query for that 2021-08-27 16:46:04 +10:00			`}`
add some useful logs to LoadAndPrepare 2021-09-02 11:59:42 +10:00			`log.Printf("finished preparing in %v", time.Since(startPrep))`
there's a query for that 2021-08-27 16:46:04 +10:00			`return nil`
componentdb 2021-08-01 16:10:30 +10:00			`}`
move registerComponent 2021-08-27 16:59:20 +10:00
String methods, no separate walkers 2021-09-23 14:17:18 +10:00			`func (g *Game) build() error {`
			`g.dbmu.Lock()`
			`defer g.dbmu.Unlock()`
			`g.byID = make(map[string]Identifier)`
			`g.byAB = make(map[abKey]map[interface{}]struct{})`
			`g.par = make(map[interface{}]interface{})`
			`return g.registerRecursive(g, nil)`
			`}`

shorter names 2021-08-30 16:27:12 +10:00			`// Register registers a component into the component database (as the`
walk change, parentals 2021-08-30 16:25:50 +10:00			`// child of a given parent). Passing a nil component or parent is an error.`
			`// Registering multiple components with the same ID is also an error.`
pre/postorder walks, more complete register/unregister 2021-09-02 12:15:23 +10:00			`// Registering a component will recursively register all children found via`
			`// Scan.`
shorter names 2021-08-30 16:27:12 +10:00			`func (g *Game) Register(component, parent interface{}) error {`
walk change, parentals 2021-08-30 16:25:50 +10:00			`if component == nil {`
			`return errNilComponent`
			`}`
			`if parent == nil && component != g {`
			`return errNilParent`
			`}`
			`g.dbmu.Lock()`
			`defer g.dbmu.Unlock()`
String methods, no separate walkers 2021-09-23 14:17:18 +10:00			`return g.registerRecursive(component, parent)`
			`}`

			`func (g *Game) registerRecursive(component, parent interface{}) error {`
			`if err := g.registerOne(component, parent); err != nil {`
			`return err`
			`}`
			`if sc, ok := component.(Scanner); ok {`
			`return sc.Scan(func(x interface{}) error {`
			`return g.registerRecursive(x, component)`
			`})`
			`}`
			`return nil`
walk change, parentals 2021-08-30 16:25:50 +10:00			`}`

bunch of changes 2021-09-21 14:42:18 +10:00			`func (g *Game) registerOne(component, parent interface{}) error {`
constant time unregister 2021-09-13 16:32:44 +10:00			`// register in g.byID if needed`
register/unregister tweaks 2021-09-02 14:09:53 +10:00			`if i, ok := component.(Identifier); ok {`
blank ident is no ident 2021-09-16 10:34:54 +10:00			`if id := i.Ident(); id != "" {`
			`if _, exists := g.byID[id]; exists {`
			`return fmt.Errorf("duplicate id %q", id)`
			`}`
			`g.byID[id] = i`
register/unregister tweaks 2021-09-02 14:09:53 +10:00			`}`
			`}`

allow blank Ident 2021-08-30 15:49:51 +10:00			`// register in g.par`
redundant check 2021-09-22 17:05:50 +10:00			`g.par[component] = parent`
allow blank Ident 2021-08-30 15:49:51 +10:00
fix comments 2021-08-30 15:08:22 +10:00			`// register in g.byAB`
walk change, parentals 2021-08-30 16:25:50 +10:00			`ct := reflect.TypeOf(component)`
move registerComponent 2021-08-27 16:59:20 +10:00			`for _, b := range Behaviours {`
			`if !ct.Implements(b) {`
			`continue`
			`}`
walk change, parentals 2021-08-30 16:25:50 +10:00			`// TODO: better than O(len(path)^2) time and memory?`
			`for p := component; p != nil; p = g.par[p] {`
more dag 2021-09-20 15:52:44 +10:00			`k := abKey{p, b}`
sets of interface{}, lol 2021-08-30 15:03:22 +10:00			`if g.byAB[k] == nil {`
			`g.byAB[k] = make(map[interface{}]struct{})`
			`}`
walk change, parentals 2021-08-30 16:25:50 +10:00			`g.byAB[k][component] = struct{}{}`
move registerComponent 2021-08-27 16:59:20 +10:00			`}`
			`}`
			`return nil`
			`}`
looks neater 2021-08-30 15:07:57 +10:00
shorter names 2021-08-30 16:27:12 +10:00			`// Unregister removes the component from the component database.`
pre/postorder walks, more complete register/unregister 2021-09-02 12:15:23 +10:00			`// Passing a nil component has no effect. Unregistering a component will`
			`// recursively unregister child components found via Scan.`
shorter names 2021-08-30 16:27:12 +10:00			`func (g *Game) Unregister(component interface{}) {`
walk change, parentals 2021-08-30 16:25:50 +10:00			`if component == nil {`
			`return`
			`}`
allow blank Ident 2021-08-30 15:49:51 +10:00			`g.dbmu.Lock()`
String methods, no separate walkers 2021-09-23 14:17:18 +10:00			`g.unregisterRecursive(component)`
allow blank Ident 2021-08-30 15:49:51 +10:00			`g.dbmu.Unlock()`
			`}`

String methods, no separate walkers 2021-09-23 14:17:18 +10:00			`func (g *Game) unregisterRecursive(component interface{}) {`
			`if sc, ok := component.(Scanner); ok {`
			`sc.Scan(func(x interface{}) error {`
			`g.unregisterRecursive(x)`
			`return nil`
			`})`
			`}`
			`g.unregisterOne(component)`
			`}`

			`func (g *Game) unregisterOne(component interface{}) {`
allow blank Ident 2021-08-30 15:49:51 +10:00			`// unregister from g.byAB, using g.par to trace the path`
walk change, parentals 2021-08-30 16:25:50 +10:00			`ct := reflect.TypeOf(component)`
looks neater 2021-08-30 15:07:57 +10:00			`for _, b := range Behaviours {`
			`if !ct.Implements(b) {`
			`continue`
			`}`
walk change, parentals 2021-08-30 16:25:50 +10:00			`for p := component; p != nil; p = g.par[p] {`
more dag 2021-09-20 15:52:44 +10:00			`if k := (abKey{p, b}); g.byAB[k] != nil {`
			`delete(g.byAB[k], component)`
looks neater 2021-08-30 15:07:57 +10:00			`}`
			`}`
			`}`

allow blank Ident 2021-08-30 15:49:51 +10:00			`// unregister from g.par`
walk change, parentals 2021-08-30 16:25:50 +10:00			`delete(g.par, component)`
allow blank Ident 2021-08-30 15:49:51 +10:00
			`// unregister from g.byID if needed`
blank ident is no ident 2021-09-16 10:34:54 +10:00			`if id, ok := component.(Identifier); ok && id.Ident() != "" {`
			`delete(g.byID, id.Ident())`
looks neater 2021-08-30 15:07:57 +10:00			`}`
			`}`
game does everything: updates 2021-09-01 09:17:08 +10:00
String methods, no separate walkers 2021-09-23 14:17:18 +10:00			`func (g *Game) String() string { return "Game" }`

comment 2021-09-02 13:16:57 +10:00			`// --------- Helper stuff ---------`
game does everything: updates 2021-09-01 09:17:08 +10:00
			`type abKey struct {`
more dag 2021-09-20 15:52:44 +10:00			`ancestor interface{}`
game does everything: updates 2021-09-01 09:17:08 +10:00			`behaviour reflect.Type`
			`}`

comments, cleanups 2021-09-11 17:39:52 +10:00			`// concatOpts returns the combined options (as though a was applied and then b).`
			`func concatOpts(a, b ebiten.DrawImageOptions) ebiten.DrawImageOptions {`
abolish transform 2021-09-07 14:00:50 +10:00			`a.ColorM.Concat(b.ColorM)`
			`a.GeoM.Concat(b.GeoM)`
			`if b.CompositeMode != 0 {`
			`a.CompositeMode = b.CompositeMode`
			`}`
			`if b.Filter != 0 {`
			`a.Filter = b.Filter`
			`}`
			`return a`
			`}`