doodle/pkg/fps.go

231 lines
5.6 KiB
Go

package doodle
import (
"fmt"
"runtime"
"strings"
"git.kirsle.net/SketchyMaze/doodle/pkg/balance"
"git.kirsle.net/SketchyMaze/doodle/pkg/collision"
"git.kirsle.net/SketchyMaze/doodle/pkg/drawtool"
"git.kirsle.net/SketchyMaze/doodle/pkg/native"
"git.kirsle.net/SketchyMaze/doodle/pkg/uix"
"git.kirsle.net/go/render"
"git.kirsle.net/go/ui"
)
// Frames to cache for FPS calculation.
const maxSamples = 100
// Debug mode options, these can be enabled in the dev console
// like: boolProp DebugOverlay true
var (
DebugOverlay = false
DebugCollision = false
DebugTextPadding = 8
DebugTextSize = 24
DebugTextColor = render.SkyBlue
DebugTextStroke = render.Grey
DebugTextShadow = render.Black
)
var (
fpsCurrentTicks uint32 // current time we get sdl.GetTicks()
fpsLastTime uint32 // last time we printed the fpsCurrentTicks
fpsCurrent int
fpsFrames int
fpsSkipped uint32
fpsInterval uint32 = 1000
fpsDoNotCap bool // remove the FPS delay cap in main loop
// Memory usage metrics.
memHeap uint64 // Current heap memory size (shrinks on GC)
memSys uint64 // Current total memory usage
numGoroutine int
// Custom labels for individual Scenes to add debug info.
customDebugLabels []debugLabel
)
type debugLabel struct {
key string
variable *string
}
// DrawDebugOverlay draws the debug FPS text on the SDL canvas.
func (d *Doodle) DrawDebugOverlay() {
if !DebugOverlay {
return
}
var framesSkipped = fmt.Sprintf("(skip: %dms)", fpsSkipped)
if fpsDoNotCap {
framesSkipped = "uncapped"
}
// Get the size of cached SDL2 textures at the render engine level.
var texCount = native.CountTextures(d.Engine)
var (
darken = balance.DebugStrokeDarken
Yoffset = 20 // leave room for the menu bar
Xoffset = 20
keys = []string{
"FPS:",
"Scene:",
"Mouse:",
"Textures:",
"Sys/Heap:",
"Threads:",
}
values = []string{
fmt.Sprintf("%d %s", fpsCurrent, framesSkipped),
d.Scene.Name(),
fmt.Sprintf("%d,%d", d.event.CursorX, d.event.CursorY),
texCount,
fmt.Sprintf("%d MiB / %d MiB", memSys, memHeap),
fmt.Sprintf("%d", numGoroutine),
}
)
// Insert custom keys.
for _, custom := range customDebugLabels {
keys = append(keys, custom.key)
if custom.variable == nil {
values = append(values, "<nil>")
} else if len(*custom.variable) == 0 {
values = append(values, `""`)
} else {
values = append(values, *custom.variable)
}
}
// Find the longest key to align the labels up.
var longest int
for _, key := range keys {
if len(key) > longest {
longest = len(key)
}
}
// Space pad the keys for alignment.
for i, key := range keys {
if len(key) < longest {
key = strings.Repeat(" ", longest-len(key)) + key
keys[i] = key
}
}
key := ui.NewLabel(ui.Label{
Text: strings.Join(keys, "\n"),
Font: render.Text{
Size: balance.DebugFontSize,
FontFilename: balance.ShellFontFilename,
Color: balance.DebugLabelColor,
Stroke: balance.DebugLabelColor.Darken(darken),
},
})
key.Compute(d.Engine)
key.Present(d.Engine, render.NewPoint(
DebugTextPadding+Xoffset,
DebugTextPadding+Yoffset,
))
value := ui.NewLabel(ui.Label{
Text: strings.Join(values, "\n"),
Font: render.Text{
Size: balance.DebugFontSize,
FontFilename: balance.DebugFontFilename,
Color: balance.DebugValueColor,
Stroke: balance.DebugValueColor.Darken(darken),
},
})
value.Compute(d.Engine)
value.Present(d.Engine, render.NewPoint(
DebugTextPadding+Xoffset+key.Size().W+DebugTextPadding,
DebugTextPadding+Yoffset, // padding to not overlay menu bar
))
}
// DrawCollisionBox draws the collision box around a Doodad.
//
// The canvas will be the level Canvas, and the collision box is drawn in world
// space using the canvas.DrawStrokes function.
func (d *Doodle) DrawCollisionBox(canvas *uix.Canvas, actor *uix.Actor) {
if !DebugCollision {
return
}
var (
rect = collision.GetBoundingRect(actor)
box = collision.GetCollisionBox(rect)
hitbox = actor.Hitbox()
)
// Adjust the actor's bounding rect by its stated Hitbox from its script.
rect = collision.SizePlusHitbox(rect, hitbox)
box = collision.GetCollisionBox(rect)
// The stroke data for drawing the collision box "inside" the level Canvas,
// so it scrolls and works in world units not screen units.
var strokes = []struct {
Color render.Color
PointA render.Point
PointB render.Point
}{
{render.DarkGreen, box.Top[0], box.Top[1]},
{render.DarkBlue, box.Bottom[0], box.Bottom[1]},
{render.DarkYellow, box.Left[0], box.Left[1]},
{render.Red, box.Right[0], box.Right[1]},
}
for _, cfg := range strokes {
stroke := drawtool.NewStroke(drawtool.Line, cfg.Color)
stroke.PointA = cfg.PointA
stroke.PointB = cfg.PointB
canvas.DrawStrokes(d.Engine, []*drawtool.Stroke{stroke})
}
}
// TrackFPS shows the current FPS once per second.
//
// In debug mode, changes the window title to include the FPS counter.
func (d *Doodle) TrackFPS(skipped uint32) {
fpsFrames++
fpsCurrentTicks = d.Engine.GetTicks()
// Skip the first second.
if fpsCurrentTicks < fpsInterval {
return
}
if fpsLastTime < fpsCurrentTicks-fpsInterval {
fpsLastTime = fpsCurrentTicks
fpsCurrent = fpsFrames
fpsFrames = 0
fpsSkipped = skipped
}
// FPS in the title bar.
d.Engine.SetTitle(fmt.Sprintf("%s (%d FPS)", d.Title(), fpsCurrent))
// Refresh memory usage.
GetMemUsage()
}
// GetMemUsage collects statistics on memory utilization.
func GetMemUsage() {
var m runtime.MemStats
runtime.ReadMemStats(&m)
memHeap = bToMb(m.Alloc)
memSys = bToMb(m.Sys)
numGoroutine = runtime.NumGoroutine()
}
func bToMb(b uint64) uint64 {
return b / 1024 / 1024
}