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base: bloeys:v0.16.1
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bloeys:dev
bloeys:v0.28.0 bloeys:v0.27.0 bloeys:v0.26.1 bloeys:v0.26.0 bloeys:v0.25.0 bloeys:v0.24.0 bloeys:v0.23.3 bloeys:v0.23.2 bloeys:v0.23.1 bloeys:v0.23.0 bloeys:v0.22.0 bloeys:v0.21.1 bloeys:v0.21.0 bloeys:v0.20.0 bloeys:v0.19.9 bloeys:v0.19.8 bloeys:v0.19.7 bloeys:v0.19.6 bloeys:v0.19.5 bloeys:v0.19.4 bloeys:v0.19.3 bloeys:v0.19.2 bloeys:v0.19.1 bloeys:v0.19.0 bloeys:v0.18.4 bloeys:v0.18.3 bloeys:v0.18.2 bloeys:v0.18.1 bloeys:v0.18.0 bloeys:v0.17.0 bloeys:v0.16.3 bloeys:v0.16.2 bloeys:v0.16.1 bloeys:v0.16.0 bloeys:v0.15.0 bloeys:v0.14.0 bloeys:v0.13.2 bloeys:v0.13.1 bloeys:v0.13.0 bloeys:v0.12.15 bloeys:v0.12.14 bloeys:v0.12.13 bloeys:v0.12.12 bloeys:v0.12.11 bloeys:v0.12.10 bloeys:v0.11.12 bloeys:v0.11.11 bloeys:v0.0.10 bloeys:v0.0.9 bloeys:v0.0.8 bloeys:v0.0.7 bloeys:v0.0.6 bloeys:v0.0.5 bloeys:v0.0.4 bloeys:v0.0.3 bloeys:v0.0.2 bloeys:v0.0.1
...
compare: bloeys:v0.19.8
Branches Tags
bloeys:dev
bloeys:v0.28.0 bloeys:v0.27.0 bloeys:v0.26.1 bloeys:v0.26.0 bloeys:v0.25.0 bloeys:v0.24.0 bloeys:v0.23.3 bloeys:v0.23.2 bloeys:v0.23.1 bloeys:v0.23.0 bloeys:v0.22.0 bloeys:v0.21.1 bloeys:v0.21.0 bloeys:v0.20.0 bloeys:v0.19.9 bloeys:v0.19.8 bloeys:v0.19.7 bloeys:v0.19.6 bloeys:v0.19.5 bloeys:v0.19.4 bloeys:v0.19.3 bloeys:v0.19.2 bloeys:v0.19.1 bloeys:v0.19.0 bloeys:v0.18.4 bloeys:v0.18.3 bloeys:v0.18.2 bloeys:v0.18.1 bloeys:v0.18.0 bloeys:v0.17.0 bloeys:v0.16.3 bloeys:v0.16.2 bloeys:v0.16.1 bloeys:v0.16.0 bloeys:v0.15.0 bloeys:v0.14.0 bloeys:v0.13.2 bloeys:v0.13.1 bloeys:v0.13.0 bloeys:v0.12.15 bloeys:v0.12.14 bloeys:v0.12.13 bloeys:v0.12.12 bloeys:v0.12.11 bloeys:v0.12.10 bloeys:v0.11.12 bloeys:v0.11.11 bloeys:v0.0.10 bloeys:v0.0.9 bloeys:v0.0.8 bloeys:v0.0.7 bloeys:v0.0.6 bloeys:v0.0.5 bloeys:v0.0.4 bloeys:v0.0.3 bloeys:v0.0.2 bloeys:v0.0.1

33 Commits
v0.16.1 ... v0.19.8

Author SHA1 Message Date
bloeys
83922f1908 Spot lights 2024-04-12 21:09:14 +04:00
bloeys
c00f6d97dd Multiple point lights 2024-04-12 08:38:03 +04:00
bloeys
3c0f82a735 Light maps support (diffuse+specular+normal+emission)+imgui bugs 2024-04-12 03:47:30 +04:00
bloeys
c058b82a92 Shader cleanup 2024-04-12 02:17:03 +04:00
bloeys
908e5e96aa Specular lighting 2024-04-12 01:22:05 +04:00
bloeys
c83e263476 Update todos 2024-04-12 00:23:29 +04:00
bloeys
01f06cce1e Handle relative mouse mode mouse pos for imgui 2024-04-11 22:12:33 +04:00
bloeys
20ed804d2a Correctly handle imgui mouse/keyboard capture 2024-04-11 22:07:38 +04:00
bloeys
80ce6d60d2 Proper support for zero handles 2023-10-09 05:03:48 +04:00
bloeys
c998fc26ce Avoid deprecated gl funcs+Improve imgui with srgb 2023-10-08 04:03:54 +04:00
bloeys
81b515197d Properly working MSAA and SRGB :D 2023-10-08 03:20:56 +04:00
bloeys
d703a5270c x8 MSAA 2023-10-07 11:28:59 +04:00
bloeys
caa76c2a5e Remove test changes 2023-10-07 10:58:57 +04:00
bloeys
da50d597f9 Control over srgba textures and srgba framebuffer 2023-10-07 10:58:01 +04:00
bloeys
9f9744a142 Fixed now? 2023-10-07 09:55:57 +04:00
bloeys
b101d54049 Flip textures before uploading to gpu 2023-10-07 09:22:32 +04:00
bloeys
41b5aea185 Use sRGBA on GPU as PNG/JPEG generally uses that nowadays 2023-10-07 08:46:33 +04:00
bloeys
3574318552 Fix iterator bug in Nex() 2023-10-07 01:16:10 +04:00
bloeys
05ccf3e158 Handle one more iterator case 2023-10-06 08:52:27 +04:00
bloeys
4f5fd50660 Fix iterator bug 2023-10-06 08:42:02 +04:00
bloeys
aaea27b543 Add an iterator to the registry 2023-10-06 08:10:11 +04:00
bloeys
039d09f888 Redo and simplify registry and move to own package 2023-10-06 07:28:16 +04:00
bloeys
1b83d7f9a7 Change Entity->BaseEntity + Add Entity interface 2023-10-06 04:23:42 +04:00
bloeys
201d9546b2 Make basecomp not use pointer receiver 2023-10-06 04:09:57 +04:00
bloeys
c1d5033eb0 Separate components from entity 2023-10-06 03:52:43 +04:00
bloeys
6f646540f9 Enable imgui docking + minor changes 2023-07-24 23:40:20 +04:00
bloeys
a99dd304ed Complete basic imgui integration 2023-07-24 21:14:09 +04:00
bloeys
4e45995ed0 Imgui key mapping 2023-07-24 20:39:45 +04:00
bloeys
a735e01a77 Start transition to github.com/AllenDang/cimgui-go for imgui because the old wrapper is now depcreated. This is auto generated so has much better chance of being supported, and we get latest imgui always (including docking!) 2023-07-24 01:05:42 +04:00
bloeys
abb45e4c4a Update SDL dep 2023-07-23 23:54:47 +04:00
bloeys
78ea3ae747 Better DPI handling on windows (crispy text!) 2023-02-04 05:21:48 +04:00
bloeys
b44b00d7e2 Re-add IndexBufCount 2023-02-04 02:00:13 +04:00
bloeys
70dccd757e Run init within an imgui frame 2023-02-03 02:20:50 +04:00
39 changed files with 1645 additions and 522 deletions
Expand all files Collapse all files

4
.github/workflows/build-nmage.yml vendored
View File

@ -9,10 +9,10 @@ jobs:
runs-on: macos-12
steps:
- name: Install golang 1.18
- name: Install golang
uses: actions/setup-go@v3
with:
go-version: '^1.18'
go-version: '>=1.18'
- name: Install assimp-go dylib
run: sudo mkdir -p /usr/local/lib && sudo wget https://github.com/bloeys/assimp-go/releases/download/v0.4.2/libassimp_darwin_amd64.dylib -O /usr/local/lib/libassimp.5.dylib

155
assets/textures.go
View File

@ -4,7 +4,6 @@ import (
"bytes"
"fmt"
"image"
"image/color"
"image/jpeg"
"image/png"
"io"
@ -14,6 +13,7 @@ import (
"unsafe"
"github.com/go-gl/gl/v4.1-core/gl"
"github.com/mandykoh/prism"
)
type ColorFormat int
@ -23,11 +23,20 @@ const (
)
type Texture struct {
//Path only exists for textures loaded from disk
Path string
TexID uint32
Width int32
// Path only exists for textures loaded from disk
Path string
TexID uint32
// Width is the width of the texture in pixels (pixels per row).
// Note that the number of bytes constituting a row is MORE than this (e.g. for RGBA8, bytesPerRow=width*4, since we have 4 bytes per pixel)
Width int32
// Height is the height of the texture in pixels (pixels per column).
// Note that the number of bytes constituting a column is MORE than this (e.g. for RGBA8, bytesPerColumn=height*4, since we have 4 bytes per pixel)
Height int32
// Pixels usually stored in RGBA format
Pixels []byte
}
@ -36,6 +45,7 @@ type TextureLoadOptions struct {
WriteToCache bool
GenMipMaps bool
KeepPixelsInMem bool
TextureIsSrgba bool
}
type Cubemap struct {
@ -67,16 +77,20 @@ func LoadTexturePNG(file string, loadOptions *TextureLoadOptions) (Texture, erro
return Texture{}, err
}
img, err := png.Decode(bytes.NewReader(fileBytes))
bytesReader := bytes.NewReader(fileBytes)
img, err := png.Decode(bytesReader)
if err != nil {
return Texture{}, err
}
nrgbaImg := prism.ConvertImageToNRGBA(img, 2)
tex := Texture{
Path: file,
Path: file,
Pixels: nrgbaImg.Pix,
Width: int32(nrgbaImg.Bounds().Dx()),
Height: int32(nrgbaImg.Bounds().Dy()),
}
tex.Pixels, tex.Width, tex.Height = pixelsFromNrgbaPng(img)
flipImgPixelsVertically(tex.Pixels, int(tex.Width), int(tex.Height), 4)
//Prepare opengl stuff
gl.GenTextures(1, &tex.TexID)
@ -89,7 +103,12 @@ func LoadTexturePNG(file string, loadOptions *TextureLoadOptions) (Texture, erro
gl.TexParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, gl.LINEAR)
// load and generate the texture
gl.TexImage2D(gl.TEXTURE_2D, 0, gl.RGBA8, tex.Width, tex.Height, 0, gl.RGBA, gl.UNSIGNED_BYTE, unsafe.Pointer(&tex.Pixels[0]))
internalFormat := int32(gl.RGBA8)
if loadOptions.TextureIsSrgba {
internalFormat = gl.SRGB_ALPHA
}
gl.TexImage2D(gl.TEXTURE_2D, 0, internalFormat, tex.Width, tex.Height, 0, gl.RGBA, gl.UNSIGNED_BYTE, unsafe.Pointer(&tex.Pixels[0]))
if loadOptions.GenMipMaps {
gl.GenerateMipmap(tex.TexID)
@ -112,8 +131,14 @@ func LoadTextureInMemPngImg(img image.Image, loadOptions *TextureLoadOptions) (T
loadOptions = &TextureLoadOptions{}
}
tex := Texture{}
tex.Pixels, tex.Width, tex.Height = pixelsFromNrgbaPng(img)
nrgbaImg := prism.ConvertImageToNRGBA(img, 2)
tex := Texture{
Path: "",
Pixels: nrgbaImg.Pix,
Height: int32(nrgbaImg.Bounds().Dy()),
Width: int32(nrgbaImg.Bounds().Dx()),
}
flipImgPixelsVertically(tex.Pixels, int(tex.Width), int(tex.Height), 4)
//Prepare opengl stuff
gl.GenTextures(1, &tex.TexID)
@ -126,7 +151,12 @@ func LoadTextureInMemPngImg(img image.Image, loadOptions *TextureLoadOptions) (T
gl.TexParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, gl.LINEAR)
// load and generate the texture
gl.TexImage2D(gl.TEXTURE_2D, 0, gl.RGBA8, tex.Width, tex.Height, 0, gl.RGBA, gl.UNSIGNED_BYTE, unsafe.Pointer(&tex.Pixels[0]))
internalFormat := int32(gl.RGBA8)
if loadOptions.TextureIsSrgba {
internalFormat = gl.SRGB_ALPHA
}
gl.TexImage2D(gl.TEXTURE_2D, 0, internalFormat, tex.Width, tex.Height, 0, gl.RGBA, gl.UNSIGNED_BYTE, unsafe.Pointer(&tex.Pixels[0]))
if loadOptions.GenMipMaps {
gl.GenerateMipmap(tex.TexID)
@ -166,11 +196,14 @@ func LoadTextureJpeg(file string, loadOptions *TextureLoadOptions) (Texture, err
return Texture{}, err
}
nrgbaImg := prism.ConvertImageToNRGBA(img, 2)
tex := Texture{
Path: file,
Path: file,
Pixels: nrgbaImg.Pix,
Height: int32(nrgbaImg.Bounds().Dy()),
Width: int32(nrgbaImg.Bounds().Dx()),
}
tex.Pixels, tex.Width, tex.Height = pixelsFromNrgbaPng(img)
flipImgPixelsVertically(tex.Pixels, int(tex.Width), int(tex.Height), 4)
//Prepare opengl stuff
gl.GenTextures(1, &tex.TexID)
@ -183,7 +216,12 @@ func LoadTextureJpeg(file string, loadOptions *TextureLoadOptions) (Texture, err
gl.TexParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, gl.LINEAR)
// load and generate the texture
gl.TexImage2D(gl.TEXTURE_2D, 0, gl.RGBA8, tex.Width, tex.Height, 0, gl.RGBA, gl.UNSIGNED_BYTE, unsafe.Pointer(&tex.Pixels[0]))
internalFormat := int32(gl.RGBA8)
if loadOptions.TextureIsSrgba {
internalFormat = gl.SRGB_ALPHA
}
gl.TexImage2D(gl.TEXTURE_2D, 0, internalFormat, tex.Width, tex.Height, 0, gl.RGBA, gl.UNSIGNED_BYTE, unsafe.Pointer(&tex.Pixels[0]))
if loadOptions.GenMipMaps {
gl.GenerateMipmap(tex.TexID)
@ -200,65 +238,19 @@ func LoadTextureJpeg(file string, loadOptions *TextureLoadOptions) (Texture, err
return tex, nil
}
func pixelsFromNrgbaPng(img image.Image) (pixels []byte, width, height int32) {
// LoadCubemapTextures only supports the 'TextureIsSrgba' option
func LoadCubemapTextures(rightTex, leftTex, topTex, botTex, frontTex, backTex string, loadOptions *TextureLoadOptions) (Cubemap, error) {
//NOTE: Load bottom left to top right because this is the texture coordinate system used by OpenGL
//NOTE: We only support 8-bit channels (32-bit colors) for now
i := 0
width, height = int32(img.Bounds().Dx()), int32(img.Bounds().Dy())
pixels = make([]byte, img.Bounds().Dx()*img.Bounds().Dy()*4)
for y := img.Bounds().Dy() - 1; y >= 0; y-- {
for x := 0; x < img.Bounds().Dx(); x++ {
c := color.NRGBAModel.Convert(img.At(x, y)).(color.NRGBA)
pixels[i] = c.R
pixels[i+1] = c.G
pixels[i+2] = c.B
pixels[i+3] = c.A
i += 4
}
if loadOptions == nil {
loadOptions = &TextureLoadOptions{}
}
return pixels, width, height
}
func pixelsFromNrgbaJpg(img image.Image) (pixels []byte, width, height int32) {
//NOTE: Load bottom left to top right because this is the texture coordinate system used by OpenGL
//NOTE: We only support 8-bit channels (32-bit colors) for now
i := 0
width, height = int32(img.Bounds().Dx()), int32(img.Bounds().Dy())
pixels = make([]byte, img.Bounds().Dx()*img.Bounds().Dy()*4)
for y := img.Bounds().Dy() - 1; y >= 0; y-- {
for x := 0; x < img.Bounds().Dx(); x++ {
c := color.NRGBAModel.Convert(img.At(x, y)).(color.NRGBA)
pixels[i] = c.R
pixels[i+1] = c.G
pixels[i+2] = c.B
pixels[i+3] = c.A
i += 4
}
}
return pixels, width, height
}
func LoadCubemapTextures(rightTex, leftTex, topTex, botTex, frontTex, backTex string) (Cubemap, error) {
var imgDecoder func(r io.Reader) (image.Image, error)
var pixelDecoder func(image.Image) ([]byte, int32, int32)
ext := strings.ToLower(path.Ext(rightTex))
if ext == ".jpg" || ext == ".jpeg" {
imgDecoder = jpeg.Decode
pixelDecoder = pixelsFromNrgbaJpg
} else if ext == ".png" {
imgDecoder = png.Decode
pixelDecoder = pixelsFromNrgbaPng
} else {
return Cubemap{}, fmt.Errorf("unknown image extension: %s. Expected one of: .jpg, .jpeg, .png", ext)
}
@ -292,9 +284,16 @@ func LoadCubemapTextures(rightTex, leftTex, topTex, botTex, frontTex, backTex st
return Cubemap{}, err
}
pixels, width, height := pixelDecoder(img)
nrgbaImg := prism.ConvertImageToNRGBA(img, 2)
height := int32(nrgbaImg.Bounds().Dy())
width := int32(nrgbaImg.Bounds().Dx())
gl.TexImage2D(uint32(gl.TEXTURE_CUBE_MAP_POSITIVE_X)+i, 0, gl.RGBA8, int32(width), int32(height), 0, gl.RGBA, gl.UNSIGNED_BYTE, unsafe.Pointer(&pixels[0]))
internalFormat := int32(gl.RGBA8)
if loadOptions.TextureIsSrgba {
internalFormat = gl.SRGB_ALPHA
}
gl.TexImage2D(uint32(gl.TEXTURE_CUBE_MAP_POSITIVE_X)+i, 0, internalFormat, int32(width), int32(height), 0, gl.RGBA, gl.UNSIGNED_BYTE, unsafe.Pointer(&nrgbaImg.Pix[0]))
}
// set the texture wrapping/filtering options (on the currently bound texture object)
@ -306,3 +305,21 @@ func LoadCubemapTextures(rightTex, leftTex, topTex, botTex, frontTex, backTex st
return cmap, nil
}
func flipImgPixelsVertically(bytes []byte, width, height, bytesPerPixel int) {
// Flip the image vertically such that (e.g. in an image of 10 rows) rows 0<->9, 1<->8, 2<->7 etc are swapped.
// We do this because images are usually stored top-left to bottom-right, while opengl stores textures bottom-left to top-right, so if we don't swap
// rows textures will appear inverted
widthInBytes := width * bytesPerPixel
rowData := make([]byte, width*bytesPerPixel)
for rowNum := 0; rowNum < height/2; rowNum++ {
upperRowStartIndex := rowNum * widthInBytes
lowerRowStartIndex := (height - rowNum - 1) * widthInBytes
copy(rowData, bytes[upperRowStartIndex:upperRowStartIndex+widthInBytes])
copy(bytes[upperRowStartIndex:upperRowStartIndex+widthInBytes], bytes[lowerRowStartIndex:lowerRowStartIndex+widthInBytes])
copy(bytes[lowerRowStartIndex:lowerRowStartIndex+widthInBytes], rowData)
}
}

13
buffers/buffers.go
View File

@ -7,10 +7,13 @@ import (
type Buffer struct {
VAOID uint32
//BufID is the ID of the VBO
// BufID is the ID of the VBO
BufID uint32
//IndexBufID is the ID of the index/element buffer
// IndexBufID is the ID of the index/element buffer
IndexBufID uint32
// IndexBufCount is the number of elements in the index buffer
// Updated on SetIndexBufData
IndexBufCount int32
// IndexBufCount int32
Stride int32
@ -59,7 +62,7 @@ func (b *Buffer) SetDataWithUsage(values []float32, usage BufUsage) {
func (b *Buffer) SetIndexBufData(values []uint32) {
// b.IndexBufCount = int32(len(values))
b.IndexBufCount = int32(len(values))
gl.BindVertexArray(b.VAOID)
gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, b.IndexBufID)
@ -80,8 +83,8 @@ func (b *Buffer) GetLayout() []Element {
return e
}
//SetLayout updates the layout object and the corresponding vertex attributes.
//Vertex attributes are also enabled.
// SetLayout updates the layout object and the corresponding vertex attributes.
// Vertex attributes are also enabled.
func (b *Buffer) SetLayout(layout ...Element) {
b.layout = layout

127
engine/engine.go
View File

@ -3,17 +3,25 @@ package engine
import (
"runtime"
imgui "github.com/AllenDang/cimgui-go"
"github.com/bloeys/nmage/assert"
"github.com/bloeys/nmage/input"
"github.com/bloeys/nmage/renderer"
"github.com/bloeys/nmage/timing"
nmageimgui "github.com/bloeys/nmage/ui/imgui"
"github.com/go-gl/gl/v4.1-core/gl"
"github.com/inkyblackness/imgui-go/v4"
"github.com/veandco/go-sdl2/sdl"
)
var (
isInited = false
isSdlButtonLeftDown = false
isSdlButtonMiddleDown = false
isSdlButtonRightDown = false
ImguiRelativeMouseModePosX float32
ImguiRelativeMouseModePosY float32
)
type Window struct {
@ -26,7 +34,10 @@ type Window struct {
func (w *Window) handleInputs() {
input.EventLoopStart()
imIO := imgui.CurrentIO()
imIo := imgui.CurrentIO()
imguiCaptureMouse := imIo.WantCaptureMouse()
imguiCaptureKeyboard := imIo.WantCaptureKeyboard()
for event := sdl.PollEvent(); event != nil; event = sdl.PollEvent() {
@ -40,30 +51,64 @@ func (w *Window) handleInputs() {
case *sdl.MouseWheelEvent:
input.HandleMouseWheelEvent(e)
if !imguiCaptureMouse {
input.HandleMouseWheelEvent(e)
}
xDelta, yDelta := input.GetMouseWheelMotion()
imIO.AddMouseWheelDelta(float32(xDelta), float32(yDelta))
imIo.AddMouseWheelDelta(float32(e.X), float32(e.Y))
case *sdl.KeyboardEvent:
input.HandleKeyboardEvent(e)
if e.Type == sdl.KEYDOWN {
imIO.KeyPress(int(e.Keysym.Scancode))
} else if e.Type == sdl.KEYUP {
imIO.KeyRelease(int(e.Keysym.Scancode))
if !imguiCaptureKeyboard {
input.HandleKeyboardEvent(e)
}
imIo.AddKeyEvent(nmageimgui.SdlScancodeToImGuiKey(e.Keysym.Scancode), e.Type == sdl.KEYDOWN)
// Send modifier key updates to imgui
if e.Keysym.Sym == sdl.K_LCTRL || e.Keysym.Sym == sdl.K_RCTRL {
imIo.SetKeyCtrl(e.Type == sdl.KEYDOWN)
}
if e.Keysym.Sym == sdl.K_LSHIFT || e.Keysym.Sym == sdl.K_RSHIFT {
imIo.SetKeyShift(e.Type == sdl.KEYDOWN)
}
if e.Keysym.Sym == sdl.K_LALT || e.Keysym.Sym == sdl.K_RALT {
imIo.SetKeyAlt(e.Type == sdl.KEYDOWN)
}
if e.Keysym.Sym == sdl.K_LGUI || e.Keysym.Sym == sdl.K_RGUI {
imIo.SetKeySuper(e.Type == sdl.KEYDOWN)
}
case *sdl.TextInputEvent:
imIO.AddInputCharacters(string(e.Text[:]))
imIo.AddInputCharactersUTF8(e.GetText())
case *sdl.MouseButtonEvent:
input.HandleMouseBtnEvent(e)
if !imguiCaptureMouse {
input.HandleMouseBtnEvent(e)
}
isPressed := e.State == sdl.PRESSED
if e.Button == sdl.BUTTON_LEFT {
isSdlButtonLeftDown = isPressed
} else if e.Button == sdl.BUTTON_MIDDLE {
isSdlButtonMiddleDown = isPressed
} else if e.Button == sdl.BUTTON_RIGHT {
isSdlButtonRightDown = isPressed
}
case *sdl.MouseMotionEvent:
input.HandleMouseMotionEvent(e)
if !imguiCaptureMouse {
input.HandleMouseMotionEvent(e)
}
case *sdl.WindowEvent:
if e.Event == sdl.WINDOWEVENT_SIZE_CHANGED {
w.handleWindowResize()
}
@ -73,17 +118,17 @@ func (w *Window) handleInputs() {
}
}
if sdl.GetRelativeMouseMode() {
imIo.SetMousePos(imgui.Vec2{X: ImguiRelativeMouseModePosX, Y: ImguiRelativeMouseModePosY})
} else {
x, y, _ := sdl.GetMouseState()
imIo.SetMousePos(imgui.Vec2{X: float32(x), Y: float32(y)})
}
// If a mouse press event came, always pass it as "mouse held this frame", so we don't miss click-release events that are shorter than 1 frame.
x, y, _ := sdl.GetMouseState()
imIO.SetMousePosition(imgui.Vec2{X: float32(x), Y: float32(y)})
imIO.SetMouseButtonDown(0, input.MouseDown(sdl.BUTTON_LEFT))
imIO.SetMouseButtonDown(1, input.MouseDown(sdl.BUTTON_RIGHT))
imIO.SetMouseButtonDown(2, input.MouseDown(sdl.BUTTON_MIDDLE))
imIO.KeyShift(sdl.SCANCODE_LSHIFT, sdl.SCANCODE_RSHIFT)
imIO.KeyCtrl(sdl.SCANCODE_LCTRL, sdl.SCANCODE_RCTRL)
imIO.KeyAlt(sdl.SCANCODE_LALT, sdl.SCANCODE_RALT)
imIo.SetMouseButtonDown(imgui.MouseButtonLeft, isSdlButtonLeftDown)
imIo.SetMouseButtonDown(imgui.MouseButtonRight, isSdlButtonRightDown)
imIo.SetMouseButtonDown(imgui.MouseButtonMiddle, isSdlButtonMiddleDown)
}
func (w *Window) handleWindowResize() {
@ -122,15 +167,21 @@ func initSDL() error {
sdl.GLSetAttribute(sdl.MAJOR_VERSION, 4)
sdl.GLSetAttribute(sdl.MINOR_VERSION, 1)
// R(0-255) G(0-255) B(0-255)
sdl.GLSetAttribute(sdl.GL_RED_SIZE, 8)
sdl.GLSetAttribute(sdl.GL_GREEN_SIZE, 8)
sdl.GLSetAttribute(sdl.GL_BLUE_SIZE, 8)
sdl.GLSetAttribute(sdl.GL_ALPHA_SIZE, 8)
sdl.GLSetAttribute(sdl.GL_DOUBLEBUFFER, 1)
sdl.GLSetAttribute(sdl.GL_DEPTH_SIZE, 24)
sdl.GLSetAttribute(sdl.GL_STENCIL_SIZE, 8)
sdl.GLSetAttribute(sdl.GL_FRAMEBUFFER_SRGB_CAPABLE, 1)
// Allows us to do MSAA
sdl.GLSetAttribute(sdl.GL_MULTISAMPLEBUFFERS, 1)
sdl.GLSetAttribute(sdl.GL_MULTISAMPLESAMPLES, 4)
sdl.GLSetAttribute(sdl.GL_CONTEXT_PROFILE_MASK, sdl.GL_CONTEXT_PROFILE_CORE)
return nil
@ -141,16 +192,12 @@ func CreateOpenGLWindow(title string, x, y, width, height int32, flags WindowFla
}
func CreateOpenGLWindowCentered(title string, width, height int32, flags WindowFlags, rend renderer.Render) (*Window, error) {
return createWindow(title, -1, -1, width, height, WindowFlags_OPENGL|flags, rend)
return createWindow(title, sdl.WINDOWPOS_CENTERED, sdl.WINDOWPOS_CENTERED, width, height, WindowFlags_OPENGL|flags, rend)
}
func createWindow(title string, x, y, width, height int32, flags WindowFlags, rend renderer.Render) (*Window, error) {
assert.T(isInited, "engine.Init was not called!")
if x == -1 && y == -1 {
x = sdl.WINDOWPOS_CENTERED
y = sdl.WINDOWPOS_CENTERED
}
assert.T(isInited, "engine.Init() was not called!")
sdlWin, err := sdl.CreateWindow(title, x, y, width, height, uint32(flags))
if err != nil {
@ -187,12 +234,23 @@ func initOpenGL() error {
gl.FrontFace(gl.CCW)
gl.Enable(gl.BLEND)
gl.Enable(gl.MULTISAMPLE)
gl.Enable(gl.FRAMEBUFFER_SRGB)
gl.BlendFunc(gl.SRC_ALPHA, gl.ONE_MINUS_SRC_ALPHA)
gl.ClearColor(0, 0, 0, 1)
return nil
}
func SetSrgbFramebuffer(isEnabled bool) {
if isEnabled {
gl.Enable(gl.FRAMEBUFFER_SRGB)
} else {
gl.Disable(gl.FRAMEBUFFER_SRGB)
}
}
func SetVSync(enabled bool) {
assert.T(isInited, "engine.Init was not called!")
@ -202,3 +260,12 @@ func SetVSync(enabled bool) {
sdl.GLSetSwapInterval(0)
}
}
func SetMSAA(isEnabled bool) {
if isEnabled {
gl.Enable(gl.MULTISAMPLE)
} else {
gl.Disable(gl.MULTISAMPLE)
}
}

25
engine/game.go
View File

@ -24,26 +24,25 @@ func Run(g Game, w *Window, ui nmageimgui.ImguiInfo) {
isRunning = true
// Simulate 2 imgui frames, one before and one after g.Init so any imgui calls are allowed within init.
// Calling before is required for things like push font.
tempWidth, tempHeight := w.SDLWin.GetSize()
tempFBWidth, tempFBHeight := w.SDLWin.GLGetDrawableSize()
ui.FrameStart(float32(tempWidth), float32(tempHeight))
ui.Render(float32(tempWidth), float32(tempHeight), tempFBWidth, tempFBHeight)
// Run init with an active Imgui frame to allow init full imgui access
timing.FrameStarted()
w.handleInputs()
width, height := w.SDLWin.GetSize()
ui.FrameStart(float32(width), float32(height))
g.Init()
// Second imgui frame
tempWidth, tempHeight = w.SDLWin.GetSize()
tempFBWidth, tempFBHeight = w.SDLWin.GLGetDrawableSize()
ui.FrameStart(float32(tempWidth), float32(tempHeight))
ui.Render(float32(tempWidth), float32(tempHeight), tempFBWidth, tempFBHeight)
fbWidth, fbHeight := w.SDLWin.GLGetDrawableSize()
ui.Render(float32(width), float32(height), fbWidth, fbHeight)
timing.FrameEnded()
for isRunning {
//PERF: Cache these
width, height := w.SDLWin.GetSize()
fbWidth, fbHeight := w.SDLWin.GLGetDrawableSize()
width, height = w.SDLWin.GetSize()
fbWidth, fbHeight = w.SDLWin.GLGetDrawableSize()
timing.FrameStarted()
w.handleInputs()

17
entity/base_comp.go
View File

@ -1,27 +1,26 @@
package entity
import "github.com/bloeys/nmage/assert"
import "github.com/bloeys/nmage/registry"
var _ Comp = &BaseComp{}
type BaseComp struct {
Entity *Entity
Handle registry.Handle
}
func (b *BaseComp) base() {
func (b BaseComp) baseComp() {
}
func (b *BaseComp) Init(parent *Entity) {
assert.T(parent != nil, "Component was initialized with a nil parent. That is not allowed.")
b.Entity = parent
func (b *BaseComp) Init(parentHandle registry.Handle) {
b.Handle = parentHandle
}
func (b *BaseComp) Name() string {
func (b BaseComp) Name() string {
return "Base Component"
}
func (b *BaseComp) Update() {
func (b BaseComp) Update() {
}
func (b *BaseComp) Destroy() {
func (b BaseComp) Destroy() {
}

35
entity/comp.go
View File

@ -1,27 +1,38 @@
package entity
import "github.com/bloeys/nmage/assert"
import (
"github.com/bloeys/nmage/assert"
"github.com/bloeys/nmage/registry"
)
type Comp interface {
// This ensures that implementors of the Comp interface
// always embed BaseComp
base()
baseComp()
Name() string
Init(parent *Entity)
Init(parentHandle registry.Handle)
Update()
Destroy()
}
func AddComp[T Comp](e *Entity, c T) {
assert.T(!HasComp[T](e), "Entity with id '%v' already has component of type '%T'", e.ID, c)
e.Comps = append(e.Comps, c)
c.Init(e)
func NewCompContainer() CompContainer {
return CompContainer{Comps: []Comp{}}
}
func HasComp[T Comp](e *Entity) bool {
type CompContainer struct {
Comps []Comp
}
func AddComp[T Comp](entityHandle registry.Handle, cc *CompContainer, c T) {
assert.T(!HasComp[T](cc), "Entity with id '%v' already has component of type '%T'", entityHandle, c)
cc.Comps = append(cc.Comps, c)
c.Init(entityHandle)
}
func HasComp[T Comp](e *CompContainer) bool {
for i := 0; i < len(e.Comps); i++ {
@ -34,7 +45,7 @@ func HasComp[T Comp](e *Entity) bool {
return false
}
func GetComp[T Comp](e *Entity) (out T) {
func GetComp[T Comp](e *CompContainer) (out T) {
for i := 0; i < len(e.Comps); i++ {
@ -48,7 +59,7 @@ func GetComp[T Comp](e *Entity) (out T) {
}
// DestroyComp calls Destroy on the component and then removes it from the entities component list
func DestroyComp[T Comp](e *Entity) {
func DestroyComp[T Comp](e *CompContainer) {
for i := 0; i < len(e.Comps); i++ {

48
entity/entity.go
View File

@ -1,49 +1,7 @@
package entity
type EntityFlag byte
import "github.com/bloeys/nmage/registry"
const (
EntityFlag_None EntityFlag = 0
EntityFlag_Alive EntityFlag = 1 << (iota - 1)
)
const (
GenerationShiftBits = 64 - 8
FlagsShiftBits = 64 - 16
IndexBitMask = 0x00_00_FFFF_FFFF_FFFF
)
type EntityHandle uint64
type Entity struct {
// Byte 1: Generation; Byte 2: Flags; Bytes 3-8: Index
ID EntityHandle
Comps []Comp
}
func (e *Entity) HasFlag(ef EntityFlag) bool {
return GetFlags(e.ID)&ef > 0
}
func (e *Entity) UpdateAllComps() {
for i := 0; i < len(e.Comps); i++ {
e.Comps[i].Update()
}
}
func GetGeneration(id EntityHandle) byte {
return byte(id >> GenerationShiftBits)
}
func GetFlags(id EntityHandle) EntityFlag {
return EntityFlag(id >> FlagsShiftBits)
}
func GetIndex(id EntityHandle) uint64 {
return uint64(id & IndexBitMask)
}
func NewEntityId(generation byte, flags EntityFlag, index uint64) EntityHandle {
return EntityHandle(index | (uint64(generation) << GenerationShiftBits) | (uint64(flags) << FlagsShiftBits))
type Entity interface {
GetHandle() registry.Handle
}

109
entity/registry.go
View File

@ -1,109 +0,0 @@
package entity
import (
"github.com/bloeys/nmage/assert"
)
var (
// The number of slots required to be in the free list before the free list
// is used for creating new entries
FreeListUsageThreshold uint32 = 20
)
type freeListitem struct {
EntityIndex uint64
nextFree *freeListitem
}
type Registry struct {
EntityCount uint64
Entities []Entity
FreeList *freeListitem
FreeListSize uint32
}
func (r *Registry) NewEntity() *Entity {
assert.T(r.EntityCount < uint64(len(r.Entities)), "Can not add more entities to registry because it is full")
entityToUseIndex := uint64(0)
var entityToUse *Entity = nil
if r.FreeList != nil && r.FreeListSize > FreeListUsageThreshold {
entityToUseIndex = r.FreeList.EntityIndex
entityToUse = &r.Entities[entityToUseIndex]
r.FreeList = r.FreeList.nextFree
r.FreeListSize--
} else {
for i := 0; i < len(r.Entities); i++ {
e := &r.Entities[i]
if e.HasFlag(EntityFlag_Alive) {
continue
}
entityToUse = e
entityToUseIndex = uint64(i)
break
}
}
if entityToUse == nil {
panic("failed to create new entity because we did not find a free spot in the registry. Why did the assert not go off?")
}
r.EntityCount++
entityToUse.ID = NewEntityId(GetGeneration(entityToUse.ID)+1, EntityFlag_Alive, entityToUseIndex)
assert.T(entityToUse.ID != 0, "Entity ID must not be zero")
return entityToUse
}
func (r *Registry) GetEntity(id EntityHandle) *Entity {
index := GetIndex(id)
gen := GetGeneration(id)
e := &r.Entities[index]
eGen := GetGeneration(e.ID)
if gen != eGen {
return nil
}
return e
}
// FreeEntity calls Destroy on all the entities components, resets the component list, resets the entity flags, then ads this entity to the free list
func (r *Registry) FreeEntity(id EntityHandle) {
e := r.GetEntity(id)
if e == nil {
return
}
for i := 0; i < len(e.Comps); i++ {
e.Comps[i].Destroy()
}
r.EntityCount--
eIndex := GetIndex(e.ID)
e.Comps = []Comp{}
e.ID = NewEntityId(GetGeneration(e.ID), EntityFlag_None, eIndex)
r.FreeList = &freeListitem{
EntityIndex: eIndex,
nextFree: r.FreeList,
}
r.FreeListSize++
}
func NewRegistry(size uint32) *Registry {
assert.T(size > 0, "Registry size must be more than zero")
return &Registry{
Entities: make([]Entity, size),
}
}

10
go.mod
View File

@ -2,12 +2,18 @@ module github.com/bloeys/nmage
go 1.18
require github.com/veandco/go-sdl2 v0.4.25
require github.com/veandco/go-sdl2 v0.4.35
require github.com/go-gl/gl v0.0.0-20211210172815-726fda9656d6
require (
github.com/bloeys/assimp-go v0.4.4
github.com/bloeys/gglm v0.43.0
github.com/inkyblackness/imgui-go/v4 v4.6.0
)
require (
github.com/AllenDang/cimgui-go v0.0.0-20230720025235-f2ff398a66b2
github.com/mandykoh/prism v0.35.1
)
require github.com/mandykoh/go-parallel v0.1.0 // indirect

45
go.sum
View File

@ -1,17 +1,40 @@
github.com/AllenDang/cimgui-go v0.0.0-20230720025235-f2ff398a66b2 h1:3HA/5qD8Rimxz/y1sLyVaM7ws1dzjXzMt4hOBiwHggo=
github.com/AllenDang/cimgui-go v0.0.0-20230720025235-f2ff398a66b2/go.mod h1:iNfbIyOBN8k3XScMxULbrwYbPsXEAUD0Jb6UwrspQb8=
github.com/bloeys/assimp-go v0.4.4 h1:Yn5e/RpE0Oes0YMBy8O7KkwAO4R/RpgrZPJCt08dVIU=
github.com/bloeys/assimp-go v0.4.4/go.mod h1:my3yRxT7CfOztmvi+0svmwbaqw0KFrxaHxncoyaEIP0=
github.com/bloeys/gglm v0.43.0 h1:ZpOghR3PHfpkigTDh+FqxLsF0gN8CD6s/bWoei6LyxI=
github.com/bloeys/gglm v0.43.0/go.mod h1:qwJQ0WzV191wAMwlGicbfbChbKoSedMk7gFFX6GnyOk=
github.com/davecgh/go-spew v1.1.0 h1:ZDRjVQ15GmhC3fiQ8ni8+OwkZQO4DARzQgrnXU1Liz8=
github.com/davecgh/go-spew v1.1.0/go.mod h1:J7Y8YcW2NihsgmVo/mv3lAwl/skON4iLHjSsI+c5H38=
github.com/go-gl/gl v0.0.0-20211210172815-726fda9656d6 h1:zDw5v7qm4yH7N8C8uWd+8Ii9rROdgWxQuGoJ9WDXxfk=
github.com/go-gl/gl v0.0.0-20211210172815-726fda9656d6/go.mod h1:9YTyiznxEY1fVinfM7RvRcjRHbw2xLBJ3AAGIT0I4Nw=
github.com/inkyblackness/imgui-go/v4 v4.6.0 h1:ShcnXEYl80+xREGBY9OpGWePA6FfJChY9Varsm+3jjE=
github.com/inkyblackness/imgui-go/v4 v4.6.0/go.mod h1:g8SAGtOYUP7rYaOB2AsVKCEHmPMDmJKgt4z6d+flhb0=
github.com/pmezard/go-difflib v1.0.0 h1:4DBwDE0NGyQoBHbLQYPwSUPoCMWR5BEzIk/f1lZbAQM=
github.com/pmezard/go-difflib v1.0.0/go.mod h1:iKH77koFhYxTK1pcRnkKkqfTogsbg7gZNVY4sRDYZ/4=
github.com/stretchr/objx v0.1.0/go.mod h1:HFkY916IF+rwdDfMAkV7OtwuqBVzrE8GR6GFx+wExME=
github.com/stretchr/testify v1.3.0 h1:TivCn/peBQ7UY8ooIcPgZFpTNSz0Q2U6UrFlUfqbe0Q=
github.com/stretchr/testify v1.3.0/go.mod h1:M5WIy9Dh21IEIfnGCwXGc5bZfKNJtfHm1UVUgZn+9EI=
github.com/veandco/go-sdl2 v0.4.25 h1:J5ac3KKOccp/0xGJA1PaNYKPUcZm19IxhDGs8lJofPI=
github.com/veandco/go-sdl2 v0.4.25/go.mod h1:OROqMhHD43nT4/i9crJukyVecjPNYYuCofep6SNiAjY=
github.com/mandykoh/go-parallel v0.1.0 h1:7vJMNMC4dsbgZdkAb2A8tV5ENY1v7VxIO1wzQWZoT8k=
github.com/mandykoh/go-parallel v0.1.0/go.mod h1:lkYHqG1JNTaSS6lG+PgFCnyMd2VDy8pH9jN9pY899ig=
github.com/mandykoh/prism v0.35.1 h1:JbQfQarANxSWlgJEpjv+E7DvtrqBaVP1YgJfZPvo6ME=
github.com/mandykoh/prism v0.35.1/go.mod h1:3miB3EAJ0IggYl/4eBB5MmawRbyJI1gKDtbrVvk8Q9I=
github.com/veandco/go-sdl2 v0.4.35 h1:NohzsfageDWGtCd9nf7Pc3sokMK/MOK+UA2QMJARWzQ=
github.com/veandco/go-sdl2 v0.4.35/go.mod h1:OROqMhHD43nT4/i9crJukyVecjPNYYuCofep6SNiAjY=
github.com/yuin/goldmark v1.4.13/go.mod h1:6yULJ656Px+3vBD8DxQVa3kxgyrAnzto9xy5taEt/CY=
golang.org/x/crypto v0.0.0-20190308221718-c2843e01d9a2/go.mod h1:djNgcEr1/C05ACkg1iLfiJU5Ep61QUkGW8qpdssI0+w=
golang.org/x/crypto v0.0.0-20210921155107-089bfa567519/go.mod h1:GvvjBRRGRdwPK5ydBHafDWAxML/pGHZbMvKqRZ5+Abc=
golang.org/x/image v0.5.0 h1:5JMiNunQeQw++mMOz48/ISeNu3Iweh/JaZU8ZLqHRrI=
golang.org/x/image v0.5.0/go.mod h1:FVC7BI/5Ym8R25iw5OLsgshdUBbT1h5jZTpA+mvAdZ4=
golang.org/x/mod v0.6.0-dev.0.20220419223038-86c51ed26bb4/go.mod h1:jJ57K6gSWd91VN4djpZkiMVwK6gcyfeH4XE8wZrZaV4=
golang.org/x/net v0.0.0-20190620200207-3b0461eec859/go.mod h1:z5CRVTTTmAJ677TzLLGU+0bjPO0LkuOLi4/5GtJWs/s=
golang.org/x/net v0.0.0-20210226172049-e18ecbb05110/go.mod h1:m0MpNAwzfU5UDzcl9v0D8zg8gWTRqZa9RBIspLL5mdg=
golang.org/x/net v0.0.0-20220722155237-a158d28d115b/go.mod h1:XRhObCWvk6IyKnWLug+ECip1KBveYUHfp+8e9klMJ9c=
golang.org/x/sync v0.0.0-20190423024810-112230192c58/go.mod h1:RxMgew5VJxzue5/jJTE5uejpjVlOe/izrB70Jof72aM=
golang.org/x/sync v0.0.0-20220722155255-886fb9371eb4/go.mod h1:RxMgew5VJxzue5/jJTE5uejpjVlOe/izrB70Jof72aM=
golang.org/x/sys v0.0.0-20190215142949-d0b11bdaac8a/go.mod h1:STP8DvDyc/dI5b8T5hshtkjS+E42TnysNCUPdjciGhY=
golang.org/x/sys v0.0.0-20201119102817-f84b799fce68/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20210615035016-665e8c7367d1/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.0.0-20220520151302-bc2c85ada10a/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/sys v0.0.0-20220722155257-8c9f86f7a55f/go.mod h1:oPkhp1MJrh7nUepCBck5+mAzfO9JrbApNNgaTdGDITg=
golang.org/x/term v0.0.0-20201126162022-7de9c90e9dd1/go.mod h1:bj7SfCRtBDWHUb9snDiAeCFNEtKQo2Wmx5Cou7ajbmo=
golang.org/x/term v0.0.0-20210927222741-03fcf44c2211/go.mod h1:jbD1KX2456YbFQfuXm/mYQcufACuNUgVhRMnK/tPxf8=
golang.org/x/text v0.3.0/go.mod h1:NqM8EUOU14njkJ3fqMW+pc6Ldnwhi/IjpwHt7yyuwOQ=
golang.org/x/text v0.3.3/go.mod h1:5Zoc/QRtKVWzQhOtBMvqHzDpF6irO9z98xDceosuGiQ=
golang.org/x/text v0.3.7/go.mod h1:u+2+/6zg+i71rQMx5EYifcz6MCKuco9NR6JIITiCfzQ=
golang.org/x/text v0.7.0/go.mod h1:mrYo+phRRbMaCq/xk9113O4dZlRixOauAjOtrjsXDZ8=
golang.org/x/tools v0.0.0-20180917221912-90fa682c2a6e/go.mod h1:n7NCudcB/nEzxVGmLbDWY5pfWTLqBcC2KZ6jyYvM4mQ=
golang.org/x/tools v0.0.0-20191119224855-298f0cb1881e/go.mod h1:b+2E5dAYhXwXZwtnZ6UAqBI28+e2cm9otk0dWdXHAEo=
golang.org/x/tools v0.1.12/go.mod h1:hNGJHUnrk76NpqgfD5Aqm5Crs+Hm0VOH/i9J2+nxYbc=
golang.org/x/xerrors v0.0.0-20190717185122-a985d3407aa7/go.mod h1:I/5z698sn9Ka8TeJc9MKroUUfqBBauWjQqLJ2OPfmY0=

66
input/input.go
View File

@ -31,8 +31,8 @@ type mouseWheelState struct {
}
var (
keyMap = make(map[sdl.Keycode]*keyState)
mouseBtnMap = make(map[int]*mouseBtnState)
keyMap = make(map[sdl.Keycode]keyState)
mouseBtnMap = make(map[int]mouseBtnState)
mouseMotion = mouseMotionState{}
mouseWheel = mouseWheelState{}
quitRequested bool
@ -70,29 +70,31 @@ func IsQuitClicked() bool {
func HandleKeyboardEvent(e *sdl.KeyboardEvent) {
ks := keyMap[e.Keysym.Sym]
if ks == nil {
ks = &keyState{Key: e.Keysym.Sym}
keyMap[ks.Key] = ks
ks, ok := keyMap[e.Keysym.Sym]
if !ok {
ks = keyState{Key: e.Keysym.Sym}
}
ks.State = int(e.State)
ks.IsPressedThisFrame = e.State == sdl.PRESSED && e.Repeat == 0
ks.IsReleasedThisFrame = e.State == sdl.RELEASED && e.Repeat == 0
keyMap[ks.Key] = ks
}
func HandleMouseBtnEvent(e *sdl.MouseButtonEvent) {
mb := mouseBtnMap[int(e.Button)]
if mb == nil {
mb = &mouseBtnState{Btn: int(e.Button)}
mouseBtnMap[int(e.Button)] = mb
mb, ok := mouseBtnMap[int(e.Button)]
if !ok {
mb = mouseBtnState{Btn: int(e.Button)}
}
mb.State = int(e.State)
mb.IsDoubleClicked = e.Clicks == 2 && e.State == sdl.PRESSED
mb.IsPressedThisFrame = e.State == sdl.PRESSED
mb.IsReleasedThisFrame = e.State == sdl.RELEASED
mouseBtnMap[int(e.Button)] = mb
}
func HandleMouseMotionEvent(e *sdl.MouseMotionEvent) {
@ -109,12 +111,12 @@ func HandleMouseWheelEvent(e *sdl.MouseWheelEvent) {
mouseWheel.YDelta = e.Y
}
//GetMousePos returns the window coordinates of the mouse
// GetMousePos returns the window coordinates of the mouse
func GetMousePos() (x, y int32) {
return mouseMotion.XPos, mouseMotion.YPos
}
//GetMouseMotion returns how many pixels were moved last frame
// GetMouseMotion returns how many pixels were moved last frame
func GetMouseMotion() (xDelta, yDelta int32) {
return mouseMotion.XDelta, mouseMotion.YDelta
}
@ -141,7 +143,7 @@ func GetMouseWheelMotion() (xDelta, yDelta int32) {
return mouseWheel.XDelta, mouseWheel.YDelta
}
//GetMouseWheelXNorm returns 1 if mouse wheel xDelta > 0, -1 if xDelta < 0, and 0 otherwise
// GetMouseWheelXNorm returns 1 if mouse wheel xDelta > 0, -1 if xDelta < 0, and 0 otherwise
func GetMouseWheelXNorm() int32 {
if mouseWheel.XDelta > 0 {
@ -153,7 +155,7 @@ func GetMouseWheelXNorm() int32 {
return 0
}
//returns 1 if mouse wheel yDelta > 0, -1 if yDelta < 0, and 0 otherwise
// returns 1 if mouse wheel yDelta > 0, -1 if yDelta < 0, and 0 otherwise
func GetMouseWheelYNorm() int32 {
if mouseWheel.YDelta > 0 {
@ -167,8 +169,8 @@ func GetMouseWheelYNorm() int32 {
func KeyClicked(kc sdl.Keycode) bool {
ks := keyMap[kc]
if ks == nil {
ks, ok := keyMap[kc]
if !ok {
return false
}
@ -177,8 +179,8 @@ func KeyClicked(kc sdl.Keycode) bool {
func KeyReleased(kc sdl.Keycode) bool {
ks := keyMap[kc]
if ks == nil {
ks, ok := keyMap[kc]
if !ok {
return false
}
@ -187,8 +189,8 @@ func KeyReleased(kc sdl.Keycode) bool {
func KeyDown(kc sdl.Keycode) bool {
ks := keyMap[kc]
if ks == nil {
ks, ok := keyMap[kc]
if !ok {
return false
}
@ -197,8 +199,8 @@ func KeyDown(kc sdl.Keycode) bool {
func KeyUp(kc sdl.Keycode) bool {
ks := keyMap[kc]
if ks == nil {
ks, ok := keyMap[kc]
if !ok {
return true
}
@ -207,8 +209,8 @@ func KeyUp(kc sdl.Keycode) bool {
func MouseClicked(mb int) bool {
btn := mouseBtnMap[mb]
if btn == nil {
btn, ok := mouseBtnMap[mb]
if !ok {
return false
}
@ -217,8 +219,8 @@ func MouseClicked(mb int) bool {
func MouseDoubleClicked(mb int) bool {
btn := mouseBtnMap[mb]
if btn == nil {
btn, ok := mouseBtnMap[mb]
if !ok {
return false
}
@ -226,8 +228,8 @@ func MouseDoubleClicked(mb int) bool {
}
func MouseReleased(mb int) bool {
btn := mouseBtnMap[mb]
if btn == nil {
btn, ok := mouseBtnMap[mb]
if !ok {
return false
}
@ -236,8 +238,8 @@ func MouseReleased(mb int) bool {
func MouseDown(mb int) bool {
btn := mouseBtnMap[mb]
if btn == nil {
btn, ok := mouseBtnMap[mb]
if !ok {
return false
}
@ -246,8 +248,8 @@ func MouseDown(mb int) bool {
func MouseUp(mb int) bool {
btn := mouseBtnMap[mb]
if btn == nil {
btn, ok := mouseBtnMap[mb]
if !ok {
return true
}

7
level/level.go
View File

@ -2,19 +2,16 @@ package level
import (
"github.com/bloeys/nmage/assert"
"github.com/bloeys/nmage/entity"
)
type Level struct {
*entity.Registry
Name string
}
func NewLevel(name string, maxEntities uint32) *Level {
func NewLevel(name string) *Level {
assert.T(name != "", "Level name can not be empty")
return &Level{
Name: name,
Registry: entity.NewRegistry(maxEntities),
Name: name,
}
}

672
main.go
View File

@ -2,67 +2,180 @@ package main
import (
"fmt"
"runtime"
"strconv"
imgui "github.com/AllenDang/cimgui-go"
"github.com/bloeys/gglm/gglm"
"github.com/bloeys/nmage/assets"
"github.com/bloeys/nmage/camera"
"github.com/bloeys/nmage/engine"
"github.com/bloeys/nmage/entity"
"github.com/bloeys/nmage/input"
"github.com/bloeys/nmage/level"
"github.com/bloeys/nmage/logging"
"github.com/bloeys/nmage/materials"
"github.com/bloeys/nmage/meshes"
"github.com/bloeys/nmage/registry"
"github.com/bloeys/nmage/renderer/rend3dgl"
"github.com/bloeys/nmage/timing"
nmageimgui "github.com/bloeys/nmage/ui/imgui"
"github.com/go-gl/gl/v4.1-core/gl"
"github.com/inkyblackness/imgui-go/v4"
"github.com/veandco/go-sdl2/sdl"
)
// @Todo:
// Integrate physx
// Create VAO struct independent from VBO to support multi-VBO use cases (e.g. instancing)
// Renderer batching
// Scene graph
// Separate engine loop from rendering loop? or leave it to the user?
// Abstract keys enum away from sdl
// Proper Asset loading
// Frustum culling
// Material system editor with fields automatically extracted from the shader
/*
@TODO:
- Rendering:
- Phong lighting model ✅
- Directional lights ✅
- Point lights ✅
- Spotlights ✅
- HDR
- Cascaded shadow mapping
- Skeletal animations
- Create VAO struct independent from VBO to support multi-VBO use cases (e.g. instancing)
- Renderer batching
- Scene graph
- Separate engine loop from rendering loop? or leave it to the user?
- Abstract keys enum away from sdl
- Proper Asset loading
- Frustum culling
- Material system editor with fields automatically extracted from the shader
*/
type DirLight struct {
Dir gglm.Vec3
DiffuseColor gglm.Vec3
SpecularColor gglm.Vec3
}
// Check https://wiki.ogre3d.org/tiki-index.php?page=-Point+Light+Attenuation for values
type PointLight struct {
Pos gglm.Vec3
DiffuseColor gglm.Vec3
SpecularColor gglm.Vec3
Radius float32
Constant float32
Linear float32
Quadratic float32
}
type SpotLight struct {
Pos gglm.Vec3
Dir gglm.Vec3
DiffuseColor gglm.Vec3
SpecularColor gglm.Vec3
InnerCutoff float32
OuterCutoff float32
}
// SetCutoffs properly sets the cosine values of the cutoffs using the passed
// degrees.
//
// The light has full intensity within the inner cutoff, falloff between
// inner-outer cutoff, and zero light beyond the outer cutoff.
//
// The inner cuttoff degree must be *smaller* than the outer cutoff
func (s *SpotLight) SetCutoffs(innerCutoffAngleDeg, outerCutoffAngleDeg float32) {
s.InnerCutoff = gglm.Cos32(innerCutoffAngleDeg * gglm.Deg2Rad)
s.OuterCutoff = gglm.Cos32(outerCutoffAngleDeg * gglm.Deg2Rad)
}
const (
camSpeed = 15
mouseSensitivity = 0.5
unscaledWindowWidth = 1280
unscaledWindowHeight = 720
)
var (
window *engine.Window
pitch float32 = 0
yaw float32 = -90
yaw float32 = -1.5
cam *camera.Camera
simpleMat *materials.Material
skyboxMat *materials.Material
whiteMat *materials.Material
containerMat *materials.Material
palleteMat *materials.Material
skyboxMat *materials.Material
debugDepthMat *materials.Material
chairMesh *meshes.Mesh
cubeMesh *meshes.Mesh
sphereMesh *meshes.Mesh
chairMesh *meshes.Mesh
skyboxMesh *meshes.Mesh
cubeModelMat = gglm.NewTrMatId()
lightPos1 = gglm.NewVec3(-2, 0, 2)
lightColor1 = gglm.NewVec3(1, 1, 1)
debugDepthMat *materials.Material
drawSkybox = true
debugDrawDepthBuffer bool
skyboxCmap assets.Cubemap
dpiScaling float32
// Light settings
ambientColor = gglm.NewVec3(0, 0, 0)
// Lights
dirLight = DirLight{
Dir: *gglm.NewVec3(0, -0.8, 0.2).Normalize(),
DiffuseColor: *gglm.NewVec3(0, 0, 0),
SpecularColor: *gglm.NewVec3(0, 0, 0),
}
pointLights = [...]PointLight{
{
Pos: *gglm.NewVec3(0, 5, 0),
DiffuseColor: *gglm.NewVec3(1, 0, 0),
SpecularColor: *gglm.NewVec3(1, 1, 1),
// These values are for 50m range
Constant: 1.0,
Linear: 0.09,
Quadratic: 0.032,
},
{
Pos: *gglm.NewVec3(0, -5, 0),
DiffuseColor: *gglm.NewVec3(0, 1, 0),
SpecularColor: *gglm.NewVec3(1, 1, 1),
Constant: 1.0,
Linear: 0.09,
Quadratic: 0.032,
},
{
Pos: *gglm.NewVec3(5, 0, 0),
DiffuseColor: *gglm.NewVec3(1, 1, 1),
SpecularColor: *gglm.NewVec3(1, 1, 1),
Constant: 1.0,
Linear: 0.09,
Quadratic: 0.032,
},
{
Pos: *gglm.NewVec3(-4, 0, 0),
DiffuseColor: *gglm.NewVec3(0, 0, 1),
SpecularColor: *gglm.NewVec3(1, 1, 1),
Constant: 1.0,
Linear: 0.09,
Quadratic: 0.032,
},
}
spotLights = [...]SpotLight{
{
Pos: *gglm.NewVec3(0, 5, 0),
Dir: *gglm.NewVec3(0, -1, 0),
DiffuseColor: *gglm.NewVec3(0, 1, 1),
SpecularColor: *gglm.NewVec3(1, 1, 1),
// These must be cosine values
InnerCutoff: gglm.Cos32(15 * gglm.Deg2Rad),
OuterCutoff: gglm.Cos32(20 * gglm.Deg2Rad),
},
}
)
type OurGame struct {
type Game struct {
Win *engine.Window
ImGUIInfo nmageimgui.ImguiInfo
}
@ -81,24 +194,39 @@ func (t *TransformComp) Name() string {
func Test() {
lvl := level.NewLevel("test level", 1000)
e1 := lvl.Registry.NewEntity()
// lvl := level.NewLevel("test level")
testRegistry := registry.NewRegistry[int](100)
trComp := entity.GetComp[*TransformComp](e1)
e1, e1Handle := testRegistry.New()
e1CompContainer := entity.NewCompContainer()
fmt.Printf("Entity 1: %+v; Handle: %+v; Index: %+v; Gen: %+v; Flags: %+v\n", e1, e1Handle, e1Handle.Index(), e1Handle.Generation(), e1Handle.Flags())
trComp := entity.GetComp[*TransformComp](&e1CompContainer)
fmt.Println("Get comp before adding any:", trComp)
entity.AddComp(e1, &TransformComp{
entity.AddComp(e1Handle, &e1CompContainer, &TransformComp{
Pos: gglm.NewVec3(0, 0, 0),
Rot: gglm.NewQuatEulerXYZ(0, 0, 0),
Scale: gglm.NewVec3(0, 0, 0),
})
trComp = entity.GetComp[*TransformComp](e1)
trComp = entity.GetComp[*TransformComp](&e1CompContainer)
fmt.Println("Get transform comp:", trComp)
fmt.Printf("Entity: %+v\n", e1)
fmt.Printf("Entity: %+v\n", lvl.Registry.NewEntity())
fmt.Printf("Entity: %+v\n", lvl.Registry.NewEntity())
fmt.Printf("Entity: %+v\n", lvl.Registry.NewEntity())
e2, e2Handle := testRegistry.New()
e3, e3Handle := testRegistry.New()
e4, e4Handle := testRegistry.New()
fmt.Printf("Entity 2: %+v; Handle: %+v; Index: %+v; Gen: %+v; Flags: %+v\n", e2, e2Handle, e2Handle.Index(), e2Handle.Generation(), e2Handle.Flags())
fmt.Printf("Entity 3: %+v; Handle: %+v; Index: %+v; Gen: %+v; Flags: %+v\n", e3, e3Handle, e3Handle.Index(), e3Handle.Generation(), e3Handle.Flags())
fmt.Printf("Entity 4: %+v; Handle: %+v; Index: %+v; Gen: %+v; Flags: %+v\n", e4, e4Handle, e4Handle.Index(), e4Handle.Generation(), e4Handle.Flags())
*e2 = 1000
fmt.Printf("Entity 2 value after registry get: %+v\n", *testRegistry.Get(e2Handle))
testRegistry.Free(e2Handle)
fmt.Printf("Entity 2 value after free: %+v\n", testRegistry.Get(e2Handle))
e5, e5Handle := testRegistry.New()
fmt.Printf("Entity 5: %+v; Handle: %+v; Index: %+v; Gen: %+v; Flags: %+v\n", e5, e5Handle, e5Handle.Index(), e5Handle.Generation(), e5Handle.Flags())
}
func main() {
@ -113,24 +241,27 @@ func main() {
}
//Create window
window, err = engine.CreateOpenGLWindowCentered("nMage", 1280, 720, engine.WindowFlags_RESIZABLE, rend3dgl.NewRend3DGL())
dpiScaling = getDpiScaling(unscaledWindowWidth, unscaledWindowHeight)
window, err = engine.CreateOpenGLWindowCentered("nMage", int32(unscaledWindowWidth*dpiScaling), int32(unscaledWindowHeight*dpiScaling), engine.WindowFlags_RESIZABLE, rend3dgl.NewRend3DGL())
if err != nil {
logging.ErrLog.Fatalln("Failed to create window. Err: ", err)
}
defer window.Destroy()
engine.SetMSAA(true)
engine.SetVSync(false)
engine.SetSrgbFramebuffer(true)
game := &OurGame{
game := &Game{
Win: window,
ImGUIInfo: nmageimgui.NewImGUI(),
ImGUIInfo: nmageimgui.NewImGui("./res/shaders/imgui.glsl"),
}
window.EventCallbacks = append(window.EventCallbacks, game.handleWindowEvents)
engine.Run(game, window, game.ImGUIInfo)
}
func (g *OurGame) handleWindowEvents(e sdl.Event) {
func (g *Game) handleWindowEvents(e sdl.Event) {
switch e := e.(type) {
case *sdl.WindowEvent:
@ -141,23 +272,68 @@ func (g *OurGame) handleWindowEvents(e sdl.Event) {
cam.AspectRatio = float32(width) / float32(height)
cam.Update()
simpleMat.SetUnifMat4("projMat", &cam.ProjMat)
palleteMat.SetUnifMat4("projMat", &cam.ProjMat)
debugDepthMat.SetUnifMat4("projMat", &cam.ProjMat)
}
}
}
func (g *OurGame) Init() {
func getDpiScaling(unscaledWindowWidth, unscaledWindowHeight int32) float32 {
// Great read on DPI here: https://nlguillemot.wordpress.com/2016/12/11/high-dpi-rendering/
// The no-scaling DPI on different platforms (e.g. when scale=100% on windows)
var defaultDpi float32 = 96
if runtime.GOOS == "windows" {
defaultDpi = 96
} else if runtime.GOOS == "darwin" {
defaultDpi = 72
}
// Current DPI of the monitor
_, dpiHorizontal, _, err := sdl.GetDisplayDPI(0)
if err != nil {
dpiHorizontal = defaultDpi
fmt.Printf("Failed to get DPI with error '%s'. Using default DPI of '%f'\n", err.Error(), defaultDpi)
}
// Scaling factor (e.g. will be 1.25 for 125% scaling on windows)
dpiScaling := dpiHorizontal / defaultDpi
fmt.Printf(
"Default DPI=%f\nHorizontal DPI=%f\nDPI scaling=%f\nUnscaled window size (width, height)=(%d, %d)\nScaled window size (width, height)=(%d, %d)\n\n",
defaultDpi,
dpiHorizontal,
dpiScaling,
unscaledWindowWidth, unscaledWindowHeight,
int32(float32(unscaledWindowWidth)*dpiScaling), int32(float32(unscaledWindowHeight)*dpiScaling),
)
return dpiScaling
}
func (g *Game) Init() {
var err error
//Create materials
simpleMat = materials.NewMaterial("Simple mat", "./res/shaders/simple.glsl")
debugDepthMat = materials.NewMaterial("Debug depth mat", "./res/shaders/debug-depth.glsl")
skyboxMat = materials.NewMaterial("Skybox mat", "./res/shaders/skybox.glsl")
// Camera
winWidth, winHeight := g.Win.SDLWin.GetSize()
cam = camera.NewPerspective(
gglm.NewVec3(0, 0, 10),
gglm.NewVec3(0, 0, -1),
gglm.NewVec3(0, 1, 0),
0.1, 200,
45*gglm.Deg2Rad,
float32(winWidth)/float32(winHeight),
)
//Load meshes
cubeMesh, err = meshes.NewMesh("Cube", "./res/models/tex-cube.fbx", 0)
cubeMesh, err = meshes.NewMesh("Cube", "./res/models/cube.fbx", 0)
if err != nil {
logging.ErrLog.Fatalln("Failed to load mesh. Err: ", err)
}
sphereMesh, err = meshes.NewMesh("Sphere", "./res/models/sphere.fbx", 0)
if err != nil {
logging.ErrLog.Fatalln("Failed to load mesh. Err: ", err)
}
@ -173,7 +349,27 @@ func (g *OurGame) Init() {
}
//Load textures
tex, err := assets.LoadTexturePNG("./res/textures/pallete-endesga-64-1x.png", nil)
whiteTex, err := assets.LoadTexturePNG("./res/textures/white.png", &assets.TextureLoadOptions{TextureIsSrgba: true})
if err != nil {
logging.ErrLog.Fatalln("Failed to load texture. Err: ", err)
}
blackTex, err := assets.LoadTexturePNG("./res/textures/black.png", &assets.TextureLoadOptions{TextureIsSrgba: true})
if err != nil {
logging.ErrLog.Fatalln("Failed to load texture. Err: ", err)
}
containerDiffuseTex, err := assets.LoadTexturePNG("./res/textures/container-diffuse.png", &assets.TextureLoadOptions{TextureIsSrgba: true})
if err != nil {
logging.ErrLog.Fatalln("Failed to load texture. Err: ", err)
}
containerSpecularTex, err := assets.LoadTexturePNG("./res/textures/container-specular.png", &assets.TextureLoadOptions{TextureIsSrgba: true})
if err != nil {
logging.ErrLog.Fatalln("Failed to load texture. Err: ", err)
}
palleteTex, err := assets.LoadTexturePNG("./res/textures/pallete-endesga-64-1x.png", &assets.TextureLoadOptions{TextureIsSrgba: true})
if err != nil {
logging.ErrLog.Fatalln("Failed to load texture. Err: ", err)
}
@ -182,42 +378,142 @@ func (g *OurGame) Init() {
"./res/textures/sb-right.jpg", "./res/textures/sb-left.jpg",
"./res/textures/sb-top.jpg", "./res/textures/sb-bottom.jpg",
"./res/textures/sb-front.jpg", "./res/textures/sb-back.jpg",
&assets.TextureLoadOptions{TextureIsSrgba: true},
)
if err != nil {
logging.ErrLog.Fatalln("Failed to load cubemap. Err: ", err)
}
// Configure materials
simpleMat.DiffuseTex = tex.TexID
// Create materials and assign any unused texture slots to black
whiteMat = materials.NewMaterial("White mat", "./res/shaders/simple.glsl")
whiteMat.Shininess = 64
whiteMat.DiffuseTex = whiteTex.TexID
whiteMat.SpecularTex = blackTex.TexID
whiteMat.NormalTex = blackTex.TexID
whiteMat.EmissionTex = blackTex.TexID
whiteMat.SetUnifInt32("material.diffuse", 0)
whiteMat.SetUnifInt32("material.specular", 1)
// whiteMat.SetUnifInt32("material.normal", 2)
whiteMat.SetUnifInt32("material.emission", 3)
whiteMat.SetUnifMat4("projMat", &cam.ProjMat)
whiteMat.SetUnifVec3("ambientColor", ambientColor)
whiteMat.SetUnifFloat32("material.shininess", whiteMat.Shininess)
whiteMat.SetUnifVec3("dirLight.dir", &dirLight.Dir)
whiteMat.SetUnifVec3("dirLight.diffuseColor", &dirLight.DiffuseColor)
whiteMat.SetUnifVec3("dirLight.specularColor", &dirLight.SpecularColor)
//Movement, scale and rotation
containerMat = materials.NewMaterial("Container mat", "./res/shaders/simple.glsl")
containerMat.Shininess = 64
containerMat.DiffuseTex = containerDiffuseTex.TexID
containerMat.SpecularTex = containerSpecularTex.TexID
containerMat.NormalTex = blackTex.TexID
containerMat.EmissionTex = blackTex.TexID
containerMat.SetUnifInt32("material.diffuse", 0)
containerMat.SetUnifInt32("material.specular", 1)
// containerMat.SetUnifInt32("material.normal", 2)
containerMat.SetUnifInt32("material.emission", 3)
containerMat.SetUnifMat4("projMat", &cam.ProjMat)
containerMat.SetUnifVec3("ambientColor", ambientColor)
containerMat.SetUnifFloat32("material.shininess", containerMat.Shininess)
containerMat.SetUnifVec3("dirLight.dir", &dirLight.Dir)
containerMat.SetUnifVec3("dirLight.diffuseColor", &dirLight.DiffuseColor)
containerMat.SetUnifVec3("dirLight.specularColor", &dirLight.SpecularColor)
palleteMat = materials.NewMaterial("Pallete mat", "./res/shaders/simple.glsl")
palleteMat.Shininess = 64
palleteMat.DiffuseTex = palleteTex.TexID
palleteMat.SpecularTex = blackTex.TexID
palleteMat.NormalTex = blackTex.TexID
palleteMat.EmissionTex = blackTex.TexID
palleteMat.SetUnifInt32("material.diffuse", 0)
palleteMat.SetUnifInt32("material.specular", 1)
// palleteMat.SetUnifInt32("material.normal", 2)
palleteMat.SetUnifInt32("material.emission", 3)
palleteMat.SetUnifMat4("projMat", &cam.ProjMat)
palleteMat.SetUnifVec3("ambientColor", ambientColor)
palleteMat.SetUnifFloat32("material.shininess", palleteMat.Shininess)
palleteMat.SetUnifVec3("dirLight.diffuseColor", &dirLight.DiffuseColor)
palleteMat.SetUnifVec3("dirLight.specularColor", &dirLight.SpecularColor)
debugDepthMat = materials.NewMaterial("Debug depth mat", "./res/shaders/debug-depth.glsl")
debugDepthMat.SetUnifMat4("projMat", &cam.ProjMat)
skyboxMat = materials.NewMaterial("Skybox mat", "./res/shaders/skybox.glsl")
// Movement, scale and rotation
translationMat := gglm.NewTranslationMat(gglm.NewVec3(0, 0, 0))
scaleMat := gglm.NewScaleMat(gglm.NewVec3(1, 1, 1))
rotMat := gglm.NewRotMat(gglm.NewQuatEuler(gglm.NewVec3(-90, -90, 0).AsRad()))
cubeModelMat.Mul(translationMat.Mul(rotMat.Mul(scaleMat)))
// Camera
winWidth, winHeight := g.Win.SDLWin.GetSize()
cam = camera.NewPerspective(
gglm.NewVec3(0, 0, 10),
gglm.NewVec3(0, 0, -1),
gglm.NewVec3(0, 1, 0),
0.1, 200,
45*gglm.Deg2Rad,
float32(winWidth)/float32(winHeight),
)
simpleMat.SetUnifMat4("projMat", &cam.ProjMat)
debugDepthMat.SetUnifMat4("projMat", &cam.ProjMat)
g.updateLights()
updateViewMat()
//Lights
simpleMat.SetUnifVec3("lightPos1", lightPos1)
simpleMat.SetUnifVec3("lightColor1", lightColor1)
}
func (g *OurGame) Update() {
func (g *Game) updateLights() {
for i := 0; i < len(pointLights); i++ {
pl := &pointLights[i]
indexString := "pointLights[" + strconv.Itoa(i) + "]"
whiteMat.SetUnifVec3(indexString+".pos", &pl.Pos)
containerMat.SetUnifVec3(indexString+".pos", &pl.Pos)
palleteMat.SetUnifVec3(indexString+".pos", &pl.Pos)
whiteMat.SetUnifVec3(indexString+".diffuseColor", &pl.DiffuseColor)
containerMat.SetUnifVec3(indexString+".diffuseColor", &pl.DiffuseColor)
palleteMat.SetUnifVec3(indexString+".diffuseColor", &pl.DiffuseColor)
whiteMat.SetUnifVec3(indexString+".specularColor", &pl.SpecularColor)
containerMat.SetUnifVec3(indexString+".specularColor", &pl.SpecularColor)
palleteMat.SetUnifVec3(indexString+".specularColor", &pl.SpecularColor)
whiteMat.SetUnifFloat32(indexString+".constant", pl.Constant)
containerMat.SetUnifFloat32(indexString+".constant", pl.Constant)
palleteMat.SetUnifFloat32(indexString+".constant", pl.Constant)
whiteMat.SetUnifFloat32(indexString+".linear", pl.Linear)
containerMat.SetUnifFloat32(indexString+".linear", pl.Linear)
palleteMat.SetUnifFloat32(indexString+".linear", pl.Linear)
whiteMat.SetUnifFloat32(indexString+".quadratic", pl.Quadratic)
containerMat.SetUnifFloat32(indexString+".quadratic", pl.Quadratic)
palleteMat.SetUnifFloat32(indexString+".quadratic", pl.Quadratic)
}
for i := 0; i < len(spotLights); i++ {
l := &spotLights[i]
indexString := "spotLights[" + strconv.Itoa(i) + "]"
whiteMat.SetUnifVec3(indexString+".pos", &l.Pos)
containerMat.SetUnifVec3(indexString+".pos", &l.Pos)
palleteMat.SetUnifVec3(indexString+".pos", &l.Pos)
whiteMat.SetUnifVec3(indexString+".dir", &l.Dir)
containerMat.SetUnifVec3(indexString+".dir", &l.Dir)
palleteMat.SetUnifVec3(indexString+".dir", &l.Dir)
whiteMat.SetUnifVec3(indexString+".diffuseColor", &l.DiffuseColor)
containerMat.SetUnifVec3(indexString+".diffuseColor", &l.DiffuseColor)
palleteMat.SetUnifVec3(indexString+".diffuseColor", &l.DiffuseColor)
whiteMat.SetUnifVec3(indexString+".specularColor", &l.SpecularColor)
containerMat.SetUnifVec3(indexString+".specularColor", &l.SpecularColor)
palleteMat.SetUnifVec3(indexString+".specularColor", &l.SpecularColor)
whiteMat.SetUnifFloat32(indexString+".innerCutoff", l.InnerCutoff)
containerMat.SetUnifFloat32(indexString+".innerCutoff", l.InnerCutoff)
palleteMat.SetUnifFloat32(indexString+".innerCutoff", l.InnerCutoff)
whiteMat.SetUnifFloat32(indexString+".outerCutoff", l.OuterCutoff)
containerMat.SetUnifFloat32(indexString+".outerCutoff", l.OuterCutoff)
palleteMat.SetUnifFloat32(indexString+".outerCutoff", l.OuterCutoff)
}
}
func (g *Game) Update() {
if input.IsQuitClicked() || input.KeyClicked(sdl.K_ESCAPE) {
engine.Quit()
@ -231,20 +527,7 @@ func (g *OurGame) Update() {
cubeModelMat.Rotate(10*timing.DT()*gglm.Deg2Rad, gglm.NewVec3(1, 1, 1).Normalize())
}
if imgui.DragFloat3("Cam Pos", &cam.Pos.Data) {
updateViewMat()
}
if imgui.DragFloat3("Cam Forward", &cam.Forward.Data) {
updateViewMat()
}
if imgui.DragFloat3("Light Pos 1", &lightPos1.Data) {
simpleMat.SetUnifVec3("lightPos1", lightPos1)
}
if imgui.DragFloat3("Light Color 1", &lightColor1.Data) {
simpleMat.SetUnifVec3("lightColor1", lightColor1)
}
g.showDebugWindow()
if input.KeyClicked(sdl.K_F4) {
fmt.Printf("Pos: %s; Forward: %s; |Forward|: %f\n", cam.Pos.String(), cam.Forward.String(), cam.Forward.Mag())
@ -253,7 +536,172 @@ func (g *OurGame) Update() {
g.Win.SDLWin.SetTitle(fmt.Sprint("nMage (", timing.GetAvgFPS(), " fps)"))
}
func (g *OurGame) updateCameraLookAround() {
func (g *Game) showDebugWindow() {
imgui.ShowDemoWindow()
imgui.Begin("Debug controls")
// Camera
imgui.Text("Camera")
if imgui.DragFloat3("Cam Pos", &cam.Pos.Data) {
updateViewMat()
}
if imgui.DragFloat3("Cam Forward", &cam.Forward.Data) {
updateViewMat()
}
imgui.Spacing()
// Ambient light
imgui.Text("Ambient Light")
if imgui.DragFloat3("Ambient Color", &ambientColor.Data) {
whiteMat.SetUnifVec3("ambientColor", ambientColor)
containerMat.SetUnifVec3("ambientColor", ambientColor)
palleteMat.SetUnifVec3("ambientColor", ambientColor)
}
imgui.Spacing()
// Specular
imgui.Text("Specular Settings")
if imgui.DragFloat("Specular Shininess", &whiteMat.Shininess) {
whiteMat.SetUnifFloat32("material.shininess", whiteMat.Shininess)
containerMat.SetUnifFloat32("material.shininess", whiteMat.Shininess)
palleteMat.SetUnifFloat32("material.shininess", whiteMat.Shininess)
}
imgui.Spacing()
// Directional light
imgui.Text("Directional Light")
if imgui.DragFloat3("Direction", &dirLight.Dir.Data) {
whiteMat.SetUnifVec3("dirLight.dir", &dirLight.Dir)
containerMat.SetUnifVec3("dirLight.dir", &dirLight.Dir)
palleteMat.SetUnifVec3("dirLight.dir", &dirLight.Dir)
}
if imgui.DragFloat3("Diffuse Color", &dirLight.DiffuseColor.Data) {
whiteMat.SetUnifVec3("dirLight.diffuseColor", &dirLight.DiffuseColor)
containerMat.SetUnifVec3("dirLight.diffuseColor", &dirLight.DiffuseColor)
palleteMat.SetUnifVec3("dirLight.diffuseColor", &dirLight.DiffuseColor)
}
if imgui.DragFloat3("Specular Color", &dirLight.SpecularColor.Data) {
whiteMat.SetUnifVec3("dirLight.specularColor", &dirLight.SpecularColor)
containerMat.SetUnifVec3("dirLight.specularColor", &dirLight.SpecularColor)
palleteMat.SetUnifVec3("dirLight.specularColor", &dirLight.SpecularColor)
}
imgui.Spacing()
// Point lights
if imgui.BeginListBoxV("Point Lights", imgui.Vec2{Y: 200}) {
for i := 0; i < len(pointLights); i++ {
pl := &pointLights[i]
indexNumString := strconv.Itoa(i)
if !imgui.TreeNodeExStrV("Point Light "+indexNumString, imgui.TreeNodeFlagsSpanAvailWidth) {
continue
}
indexString := "pointLights[" + indexNumString + "]"
if imgui.DragFloat3("Pos", &pl.Pos.Data) {
whiteMat.SetUnifVec3(indexString+".pos", &pl.Pos)
containerMat.SetUnifVec3(indexString+".pos", &pl.Pos)
palleteMat.SetUnifVec3(indexString+".pos", &pl.Pos)
}
if imgui.DragFloat3("Diffuse Color", &pl.DiffuseColor.Data) {
whiteMat.SetUnifVec3(indexString+".diffuseColor", &pl.DiffuseColor)
containerMat.SetUnifVec3(indexString+".diffuseColor", &pl.DiffuseColor)
palleteMat.SetUnifVec3(indexString+".diffuseColor", &pl.DiffuseColor)
}
if imgui.DragFloat3("Specular Color", &pl.SpecularColor.Data) {
whiteMat.SetUnifVec3(indexString+".specularColor", &pl.SpecularColor)
containerMat.SetUnifVec3(indexString+".specularColor", &pl.SpecularColor)
palleteMat.SetUnifVec3(indexString+".specularColor", &pl.SpecularColor)
}
imgui.TreePop()
}
imgui.EndListBox()
}
// Spot lights
if imgui.BeginListBoxV("Spot Lights", imgui.Vec2{Y: 200}) {
for i := 0; i < len(spotLights); i++ {
l := &spotLights[i]
indexNumString := strconv.Itoa(i)
if !imgui.TreeNodeExStrV("Spot Light "+indexNumString, imgui.TreeNodeFlagsSpanAvailWidth) {
continue
}
indexString := "spotLights[" + indexNumString + "]"
if imgui.DragFloat3("Pos", &l.Pos.Data) {
whiteMat.SetUnifVec3(indexString+".pos", &l.Pos)
containerMat.SetUnifVec3(indexString+".pos", &l.Pos)
palleteMat.SetUnifVec3(indexString+".pos", &l.Pos)
}
if imgui.DragFloat3("Dir", &l.Dir.Data) {
whiteMat.SetUnifVec3(indexString+".dir", &l.Dir)
containerMat.SetUnifVec3(indexString+".dir", &l.Dir)
palleteMat.SetUnifVec3(indexString+".dir", &l.Dir)
}
if imgui.DragFloat3("Diffuse Color", &l.DiffuseColor.Data) {
whiteMat.SetUnifVec3(indexString+".diffuseColor", &l.DiffuseColor)
containerMat.SetUnifVec3(indexString+".diffuseColor", &l.DiffuseColor)
palleteMat.SetUnifVec3(indexString+".diffuseColor", &l.DiffuseColor)
}
if imgui.DragFloat3("Specular Color", &l.SpecularColor.Data) {
whiteMat.SetUnifVec3(indexString+".specularColor", &l.SpecularColor)
containerMat.SetUnifVec3(indexString+".specularColor", &l.SpecularColor)
palleteMat.SetUnifVec3(indexString+".specularColor", &l.SpecularColor)
}
if imgui.DragFloat("Inner Cutoff", &l.InnerCutoff) {
whiteMat.SetUnifFloat32(indexString+".innerCutoff", l.InnerCutoff)
containerMat.SetUnifFloat32(indexString+".innerCutoff", l.InnerCutoff)
palleteMat.SetUnifFloat32(indexString+".innerCutoff", l.InnerCutoff)
}
if imgui.DragFloat("Outer Cutoff", &l.OuterCutoff) {
whiteMat.SetUnifFloat32(indexString+".outerCutoff", l.OuterCutoff)
containerMat.SetUnifFloat32(indexString+".outerCutoff", l.OuterCutoff)
palleteMat.SetUnifFloat32(indexString+".outerCutoff", l.OuterCutoff)
}
imgui.TreePop()
}
imgui.EndListBox()
}
// Other
imgui.Text("Other Settings")
imgui.Checkbox("Draw Skybox", &drawSkybox)
imgui.Checkbox("Debug depth buffer", &debugDrawDepthBuffer)
imgui.End()
}
func (g *Game) updateCameraLookAround() {
mouseX, mouseY := input.GetMouseMotion()
if (mouseX == 0 && mouseY == 0) || !input.MouseDown(sdl.BUTTON_RIGHT) {
@ -265,12 +713,12 @@ func (g *OurGame) updateCameraLookAround() {
// Pitch
pitch += float32(-mouseY) * mouseSensitivity * timing.DT()
if pitch > 89.0 {
pitch = 89.0
if pitch > 1.5 {
pitch = 1.5
}
if pitch < -89.0 {
pitch = -89.0
if pitch < -1.5 {
pitch = -1.5
}
// Update cam forward
@ -279,7 +727,7 @@ func (g *OurGame) updateCameraLookAround() {
updateViewMat()
}
func (g *OurGame) updateCameraPos() {
func (g *Game) updateCameraPos() {
update := false
@ -311,30 +759,55 @@ func (g *OurGame) updateCameraPos() {
}
}
func (g *OurGame) Render() {
matToUse := simpleMat
imgui.Checkbox("Debug depth buffer", &debugDrawDepthBuffer)
if debugDrawDepthBuffer {
matToUse = debugDepthMat
}
func (g *Game) Render() {
tempModelMatrix := cubeModelMat.Clone()
window.Rend.Draw(chairMesh, tempModelMatrix, matToUse)
whiteMat.SetUnifVec3("camPos", &cam.Pos)
containerMat.SetUnifVec3("camPos", &cam.Pos)
palleteMat.SetUnifVec3("camPos", &cam.Pos)
sunMat := palleteMat
chairMat := palleteMat
cubeMat := containerMat
if debugDrawDepthBuffer {
sunMat = debugDepthMat
chairMat = debugDepthMat
cubeMat = debugDepthMat
}
// Draw dir light
window.Rend.Draw(sphereMesh, gglm.NewTrMatId().Translate(gglm.NewVec3(0, 10, 0)).Scale(gglm.NewVec3(0.1, 0.1, 0.1)), sunMat)
// Draw point lights
for i := 0; i < len(pointLights); i++ {
pl := &pointLights[i]
window.Rend.Draw(cubeMesh, gglm.NewTrMatId().Translate(&pl.Pos).Scale(gglm.NewVec3(0.1, 0.1, 0.1)), sunMat)
}
// Chair
window.Rend.Draw(chairMesh, tempModelMatrix, chairMat)
// Ground
window.Rend.Draw(cubeMesh, gglm.NewTrMatId().Translate(gglm.NewVec3(0, -3, 0)).Scale(gglm.NewVec3(20, 1, 20)), cubeMat)
// Cubes
rowSize := 1
for y := 0; y < rowSize; y++ {
for x := 0; x < rowSize; x++ {
tempModelMatrix.Translate(gglm.NewVec3(-6, 0, 0))
window.Rend.Draw(cubeMesh, tempModelMatrix, matToUse)
window.Rend.Draw(cubeMesh, tempModelMatrix, cubeMat)
}
tempModelMatrix.Translate(gglm.NewVec3(float32(rowSize), -1, 0))
}
g.DrawSkybox()
if drawSkybox {
g.DrawSkybox()
}
}
func (g *OurGame) DrawSkybox() {
func (g *Game) DrawSkybox() {
gl.Disable(gl.CULL_FACE)
gl.DepthFunc(gl.LEQUAL)
@ -354,7 +827,6 @@ func (g *OurGame) DrawSkybox() {
skyboxMat.SetUnifMat4("viewMat", viewMat)
skyboxMat.SetUnifMat4("projMat", &cam.ProjMat)
// window.Rend.Draw(cubeMesh, gglm.NewTrMatId(), skyboxMat)
for i := 0; i < len(skyboxMesh.SubMeshes); i++ {
gl.DrawElementsBaseVertexWithOffset(gl.TRIANGLES, skyboxMesh.SubMeshes[i].IndexCount, gl.UNSIGNED_INT, uintptr(skyboxMesh.SubMeshes[i].BaseIndex), skyboxMesh.SubMeshes[i].BaseVertex)
}
@ -363,15 +835,17 @@ func (g *OurGame) DrawSkybox() {
gl.Enable(gl.CULL_FACE)
}
func (g *OurGame) FrameEnd() {
func (g *Game) FrameEnd() {
}
func (g *OurGame) DeInit() {
func (g *Game) DeInit() {
g.Win.Destroy()
}
func updateViewMat() {
cam.Update()
simpleMat.SetUnifMat4("viewMat", &cam.ViewMat)
whiteMat.SetUnifMat4("viewMat", &cam.ViewMat)
containerMat.SetUnifMat4("viewMat", &cam.ViewMat)
palleteMat.SetUnifMat4("viewMat", &cam.ViewMat)
debugDepthMat.SetUnifMat4("viewMat", &cam.ViewMat)
}

28
materials/material.go
View File

@ -12,10 +12,16 @@ type Material struct {
Name string
ShaderProg shaders.ShaderProgram
DiffuseTex uint32
UnifLocs map[string]int32
AttribLocs map[string]int32
// Phong shading
DiffuseTex uint32
SpecularTex uint32
NormalTex uint32
EmissionTex uint32
Shininess float32
}
func (m *Material) Bind() {
@ -24,6 +30,15 @@ func (m *Material) Bind() {
gl.ActiveTexture(gl.TEXTURE0)
gl.BindTexture(gl.TEXTURE_2D, m.DiffuseTex)
gl.ActiveTexture(gl.TEXTURE1)
gl.BindTexture(gl.TEXTURE_2D, m.SpecularTex)
gl.ActiveTexture(gl.TEXTURE2)
gl.BindTexture(gl.TEXTURE_2D, m.NormalTex)
gl.ActiveTexture(gl.TEXTURE3)
gl.BindTexture(gl.TEXTURE_2D, m.EmissionTex)
}
func (m *Material) UnBind() {
@ -32,6 +47,15 @@ func (m *Material) UnBind() {
//TODO: Should we unbind textures here? Are these two lines needed?
// gl.ActiveTexture(gl.TEXTURE0)
// gl.BindTexture(gl.TEXTURE_2D, 0)
// gl.ActiveTexture(gl.TEXTURE1)
// gl.BindTexture(gl.TEXTURE_2D, 0)
// gl.ActiveTexture(gl.TEXTURE2)
// gl.BindTexture(gl.TEXTURE_2D, 0)
// gl.ActiveTexture(gl.TEXTURE3)
// gl.BindTexture(gl.TEXTURE_2D, 0)
}
func (m *Material) GetAttribLoc(attribName string) int32 {

73
registry/iterator.go Executable file
View File

@ -0,0 +1,73 @@
package registry
// Iterator goes through the entire registry it was created from and
// returns all alive items, and nil after its done.
//
// The iterator will still work if items are added/removed to the registry
// after it was created, but the following conditions apply:
// - If items are removed, iterator will not show the removed items (assuming it didn't return them before their removal)
// - If items are added, the iterator will either only return older items (i.e. is not affected), or only return newer items (i.e. items that were going to be returned before will now not get returned in favor of newly inserted items), or a mix of old and new items.
// However, in all cases the iterator will *never* returns more items than were alive at the time of the iterator's creation.
// - If items were both added and removed, the iterator might follow either of the previous 2 cases or a combination of them
//
// To summarize: The iterator will *never* return more items than were alive at the time of its creation, and will *never* return freed items
//
// Example usage:
//
// for item, handle := it.Next(); !it.IsDone(); item, handle = it.Next() {
// // Do stuff
// }
type Iterator[T any] struct {
registry *Registry[T]
remainingItems uint
currIndex int
}
func (it *Iterator[T]) Next() (*T, Handle) {
if it.IsDone() {
return nil, 0
}
// If IsDone() only checked 'remainingItems', then when Next() returns the last item IsDone() will immediately be true which will cause loops to exit before processing the last item!
// However, with this check IsDone will remain false until Next() is called at least one more time after returning the last item which ensures the last item is processed in the loop.
//
// In cases where iterator is created on an empty registry, IsDone() will report true and the above check will return early
if it.remainingItems == 0 {
it.currIndex = -1
return nil, 0
}
for ; it.currIndex < len(it.registry.Handles); it.currIndex++ {
handle := it.registry.Handles[it.currIndex]
if !handle.HasFlag(HandleFlag_Alive) {
continue
}
item := &it.registry.Items[it.currIndex]
it.currIndex++
it.remainingItems--
return item, handle
}
// If we reached here means we iterated to the end and didn't find anything, which probably
// means that the registry changed since we were created, and that remainingItems is not accurate.
//
// As such, we zero remaining items so that this iterator is considered done
it.currIndex = -1
it.remainingItems = 0
return nil, 0
}
func (it *Iterator[T]) IsDone() bool {
if it.remainingItems != 0 {
return false
}
// We have two cases here:
// 1. Index of zero means Next() never returned an item. Remaining items of zero without returning anything means we have an empty registry and so its safe to report done
// 2. Negative index means Next() has detected we reached the end and that its safe to report being done
return it.currIndex <= 0
}

135
registry/registry.go Executable file
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@ -0,0 +1,135 @@
package registry
import (
"math"
"github.com/bloeys/nmage/assert"
)
type freeListitem struct {
ItemIndex uint64
nextFree *freeListitem
}
// Registry is a storage data structure that can efficiently create/get/free items using generational indices.
// Each item stored in the registry is associated with a 'handle' object that is used to get and free objects
//
// The registry 'owns' all items it stores and returns pointers to items in its array. All items are allocated upfront.
//
// It is NOT safe to concurrently create or free items. However, it is SAFE to concurrently get items
type Registry[T any] struct {
ItemCount uint
Handles []Handle
Items []T
FreeList *freeListitem
FreeListSize uint32
// The number of slots required to be in the free list before the free list
// is used for creating new entries
FreeListUsageThreshold uint32
}
func (r *Registry[T]) New() (*T, Handle) {
assert.T(r.ItemCount < uint(len(r.Handles)), "Can not add more entities to registry because it is full")
var index uint64 = math.MaxUint64
// Find index to use for the new item
if r.FreeList != nil && r.FreeListSize > r.FreeListUsageThreshold {
index = r.FreeList.ItemIndex
r.FreeList = r.FreeList.nextFree
r.FreeListSize--
} else {
for i := 0; i < len(r.Handles); i++ {
handle := r.Handles[i]
if handle.HasFlag(HandleFlag_Alive) {
continue
}
index = uint64(i)
break
}
}
if index == math.MaxUint64 {
panic("failed to create new entity because we did not find a free spot in the registry. Why did the item count assert not go off?")
}
var newItem T
newHandle := NewHandle(r.Handles[index].Generation()+1, HandleFlag_Alive, index)
assert.T(newHandle != 0, "Entity handle must not be zero")
r.ItemCount++
r.Handles[index] = newHandle
r.Items[index] = newItem
// It is very important we return directly from the items array, because if we return
// a pointer to newItem, and T is a value not a pointer, then newItem and what's stored in items will be different
return &r.Items[index], newHandle
}
func (r *Registry[T]) Get(id Handle) *T {
if id.IsZero() {
return nil
}
index := id.Index()
assert.T(index < uint64(len(r.Handles)), "Failed to get entity because of invalid entity handle. Handle index is %d while registry only has %d slots. Handle: %+v", index, r.ItemCount, id)
handle := r.Handles[index]
if handle.Generation() != id.Generation() || !handle.HasFlag(HandleFlag_Alive) {
return nil
}
item := &r.Items[index]
return item
}
// Free resets the entity flags then adds this entity to the free list
func (r *Registry[T]) Free(id Handle) {
index := id.Index()
assert.T(index < uint64(len(r.Handles)), "Failed to free entity because of invalid entity handle. Handle index is %d while registry only has %d slots. Handle: %+v", index, r.ItemCount, id)
// Nothing to do if already free
handle := r.Handles[index]
if handle.Generation() != id.Generation() || !handle.HasFlag(HandleFlag_Alive) {
return
}
// Generation is incremented on aquire, so here we just reset flags
r.ItemCount--
r.Handles[index] = NewHandle(id.Generation(), HandleFlag_None, index)
// Add to free list
r.FreeList = &freeListitem{
ItemIndex: index,
nextFree: r.FreeList,
}
r.FreeListSize++
}
func (r *Registry[T]) NewIterator() Iterator[T] {
return Iterator[T]{
registry: r,
remainingItems: r.ItemCount,
currIndex: 0,
}
}
func NewRegistry[T any](size uint32) *Registry[T] {
assert.T(size > 0, "Registry size must be more than zero")
return &Registry[T]{
Handles: make([]Handle, size),
Items: make([]T, size),
FreeListUsageThreshold: 30,
}
}

43
registry/registry_handle.go Executable file
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@ -0,0 +1,43 @@
package registry
type HandleFlag byte
const (
HandleFlag_None HandleFlag = 0
HandleFlag_Alive HandleFlag = 1 << (iota - 1)
)
const (
GenerationShiftBits = 64 - 8
FlagsShiftBits = 64 - 16
IndexBitMask = 0x00_00_FFFF_FFFF_FFFF
)
// Byte 1: Generation; Byte 2: Flags; Bytes 3-8: Index
type Handle uint64
// IsZero reports whether the handle is in its default 'zero' state.
// A zero handle is an invalid handle that does NOT point to any entity
func (h Handle) IsZero() bool {
return h == 0
}
func (h Handle) HasFlag(ef HandleFlag) bool {
return h.Flags()&ef > 0
}
func (h Handle) Generation() byte {
return byte(h >> GenerationShiftBits)
}
func (h Handle) Flags() HandleFlag {
return HandleFlag(h >> FlagsShiftBits)
}
func (h Handle) Index() uint64 {
return uint64(h & IndexBitMask)
}
func NewHandle(generation byte, flags HandleFlag, index uint64) Handle {
return Handle(index | (uint64(generation) << GenerationShiftBits) | (uint64(flags) << FlagsShiftBits))
}

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res/models/color-cube.fbx
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res/models/cube.fbx Executable file
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res/models/plane.fbx Executable file
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res/models/sphere.fbx Executable file
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res/models/tex-cube.fbx
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res/models/weird-cube.fbx
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47
res/shaders/imgui.glsl Executable file
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@ -0,0 +1,47 @@
//shader:vertex
#version 410
uniform mat4 ProjMtx;
in vec2 Position;
in vec2 UV;
in vec4 Color;
out vec2 Frag_UV;
out vec4 Frag_Color;
// Imgui doesn't handle srgb correctly, and looks too bright and wrong in srgb buffers (see: https://github.com/ocornut/imgui/issues/578).
// While not a complete fix (that would require changes in imgui itself), moving incoming srgba colors to linear in the vertex shader helps make things look better.
vec4 srgba_to_linear(vec4 srgbaColor){
#define gamma_correction 2.2
return vec4(
pow(srgbaColor.r, gamma_correction),
pow(srgbaColor.g, gamma_correction),
pow(srgbaColor.b, gamma_correction),
srgbaColor.a
);
}
void main()
{
Frag_UV = UV;
Frag_Color = srgba_to_linear(Color);
gl_Position = ProjMtx * vec4(Position.xy, 0, 1);
}
//shader:fragment
#version 410
uniform sampler2D Texture;
in vec2 Frag_UV;
in vec4 Frag_Color;
out vec4 Out_Color;
void main()
{
Out_Color = vec4(Frag_Color.rgb, Frag_Color.a * texture(Texture, Frag_UV.st).r);
}

160
res/shaders/simple.glsl
View File

@ -18,7 +18,12 @@ uniform mat4 projMat;
void main()
{
// @TODO: Calculate this on the CPU and send it as a uniform
// This produces the normal matrix that multiplies with the model normal to produce the
// world space normal. Based on 'One last thing' section from: https://learnopengl.com/Lighting/Basic-Lighting
vertNormal = mat3(transpose(inverse(modelMat))) * vertNormalIn;
vertUV0 = vertUV0In;
vertColor = vertColorIn;
fragPos = vec3(modelMat * vec4(vertPosIn, 1.0));
@ -29,13 +34,50 @@ void main()
//shader:fragment
#version 410
uniform float ambientStrength = 0;
uniform vec3 ambientLightColor = vec3(1, 1, 1);
struct Material {
sampler2D diffuse;
sampler2D specular;
// sampler2D normal;
sampler2D emission;
float shininess;
};
uniform vec3 lightPos1;
uniform vec3 lightColor1;
uniform Material material;
uniform sampler2D diffTex;
struct DirLight {
vec3 dir;
vec3 diffuseColor;
vec3 specularColor;
};
uniform DirLight dirLight;
struct PointLight {
vec3 pos;
vec3 diffuseColor;
vec3 specularColor;
float constant;
float linear;
float quadratic;
};
#define NUM_POINT_LIGHTS 16
uniform PointLight pointLights[NUM_POINT_LIGHTS];
struct SpotLight {
vec3 pos;
vec3 dir;
vec3 diffuseColor;
vec3 specularColor;
float innerCutoff;
float outerCutoff;
};
#define NUM_SPOT_LIGHTS 4
uniform SpotLight spotLights[NUM_SPOT_LIGHTS];
uniform vec3 camPos;
uniform vec3 ambientColor = vec3(0.2, 0.2, 0.2);
in vec3 vertColor;
in vec3 vertNormal;
@ -44,12 +86,108 @@ in vec3 fragPos;
out vec4 fragColor;
// Global variables used as cache for lighting calculations
vec4 diffuseTexColor;
vec4 specularTexColor;
vec4 emissionTexColor;
vec3 normalizedVertNorm;
vec3 viewDir;
vec3 CalcDirLight()
{
vec3 lightDir = normalize(-dirLight.dir);
// Diffuse
float diffuseAmount = max(0.0, dot(normalizedVertNorm, lightDir));
vec3 finalDiffuse = diffuseAmount * dirLight.diffuseColor * diffuseTexColor.rgb;
// Specular
vec3 reflectDir = reflect(-lightDir, normalizedVertNorm);
float specularAmount = pow(max(dot(viewDir, reflectDir), 0.0), material.shininess);
vec3 finalSpecular = specularAmount * dirLight.specularColor * specularTexColor.rgb;
return finalDiffuse + finalSpecular;
}
vec3 CalcPointLight(PointLight pointLight)
{
// Ignore unset lights
if (pointLight.constant == 0){
return vec3(0);
}
vec3 lightDir = normalize(pointLight.pos - fragPos);
// Diffuse
float diffuseAmount = max(0.0, dot(normalizedVertNorm, lightDir));
vec3 finalDiffuse = diffuseAmount * pointLight.diffuseColor * diffuseTexColor.rgb;
// Specular
vec3 reflectDir = reflect(-lightDir, normalizedVertNorm);
float specularAmount = pow(max(dot(viewDir, reflectDir), 0.0), material.shininess);
vec3 finalSpecular = specularAmount * pointLight.specularColor * specularTexColor.rgb;
// attenuation
float distToLight = length(pointLight.pos - fragPos);
float attenuation = 1.0 / (pointLight.constant + pointLight.linear * distToLight + pointLight.quadratic * (distToLight * distToLight));
return (finalDiffuse + finalSpecular) * attenuation;
}
vec3 CalcSpotLight(SpotLight light)
{
if (light.innerCutoff == 0)
return vec3(0);
vec3 fragToLightDir = normalize(light.pos - fragPos);
// Spot light cone with full intensity within inner cutoff,
// and falloff between inner-outer cutoffs, and zero
// light after outer cutoff
float theta = dot(fragToLightDir, normalize(-light.dir));
float epsilon = (light.innerCutoff - light.outerCutoff);
float intensity = clamp((theta - light.outerCutoff) / epsilon, 0.0, 1.0);
if (intensity == 0)
return vec3(0);
// Diffuse
float diffuseAmount = max(0.0, dot(normalizedVertNorm, fragToLightDir));
vec3 finalDiffuse = diffuseAmount * light.diffuseColor * diffuseTexColor.rgb;
// Specular
vec3 reflectDir = reflect(-fragToLightDir, normalizedVertNorm);
float specularAmount = pow(max(dot(viewDir, reflectDir), 0.0), material.shininess);
vec3 finalSpecular = specularAmount * light.specularColor * specularTexColor.rgb;
return (finalDiffuse + finalSpecular) * intensity;
}
void main()
{
vec3 lightDir = normalize(lightPos1 - fragPos);
float diffStrength = max(0.0, dot(normalize(vertNormal), lightDir));
// Shared values
diffuseTexColor = texture(material.diffuse, vertUV0);
specularTexColor = texture(material.specular, vertUV0);
emissionTexColor = texture(material.emission, vertUV0);
vec3 finalAmbientColor = ambientLightColor * ambientStrength;
vec4 texColor = texture(diffTex, vertUV0);
fragColor = vec4(texColor.rgb * vertColor * (finalAmbientColor + diffStrength*lightColor1) , texColor.a);
}
normalizedVertNorm = normalize(vertNormal);
viewDir = normalize(camPos - fragPos);
// Light contributions
vec3 finalColor = CalcDirLight();
for (int i = 0; i < NUM_POINT_LIGHTS; i++)
{
finalColor += CalcPointLight(pointLights[i]);
}
for (int i = 0; i < NUM_SPOT_LIGHTS; i++)
{
finalColor += CalcSpotLight(spotLights[i]);
}
vec3 finalEmission = emissionTexColor.rgb;
vec3 finalAmbient = ambientColor * diffuseTexColor.rgb;
fragColor = vec4(finalColor + finalAmbient + finalEmission, 1);
}

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348
ui/imgui/imgui.go
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@ -1,30 +1,30 @@
package nmageimgui
import (
imgui "github.com/AllenDang/cimgui-go"
"github.com/bloeys/gglm/gglm"
"github.com/bloeys/nmage/assert"
"github.com/bloeys/nmage/materials"
"github.com/bloeys/nmage/timing"
"github.com/go-gl/gl/v4.1-core/gl"
"github.com/inkyblackness/imgui-go/v4"
"github.com/veandco/go-sdl2/sdl"
)
type ImguiInfo struct {
ImCtx *imgui.Context
ImCtx imgui.Context
Mat *materials.Material
VaoID uint32
VboID uint32
IndexBufID uint32
TexID uint32
// This is a pointer so we can send a stable pointer to C code
TexID *uint32
}
func (i *ImguiInfo) FrameStart(winWidth, winHeight float32) {
if err := i.ImCtx.SetCurrent(); err != nil {
assert.T(false, "Setting imgui ctx as current failed. Err: "+err.Error())
}
// if err := i.ImCtx.SetCurrent(); err != nil {
// assert.T(false, "Setting imgui ctx as current failed. Err: "+err.Error())
// }
imIO := imgui.CurrentIO()
imIO.SetDisplaySize(imgui.Vec2{X: float32(winWidth), Y: float32(winHeight)})
@ -35,9 +35,9 @@ func (i *ImguiInfo) FrameStart(winWidth, winHeight float32) {
func (i *ImguiInfo) Render(winWidth, winHeight float32, fbWidth, fbHeight int32) {
if err := i.ImCtx.SetCurrent(); err != nil {
assert.T(false, "Setting imgui ctx as current failed. Err: "+err.Error())
}
// if err := i.ImCtx.SetCurrent(); err != nil {
// assert.T(false, "Setting imgui ctx as current failed. Err: "+err.Error())
// }
imgui.Render()
@ -46,7 +46,7 @@ func (i *ImguiInfo) Render(winWidth, winHeight float32, fbWidth, fbHeight int32)
return
}
drawData := imgui.RenderedDrawData()
drawData := imgui.CurrentDrawData()
drawData.ScaleClipRects(imgui.Vec2{
X: float32(fbWidth) / float32(winWidth),
Y: float32(fbHeight) / float32(winHeight),
@ -68,7 +68,7 @@ func (i *ImguiInfo) Render(winWidth, winHeight float32, fbWidth, fbHeight int32)
i.Mat.Bind()
i.Mat.SetUnifInt32("Texture", 0)
//PERF: only update the ortho matrix on window resize
// @PERF: only update the ortho matrix on window resize
orthoMat := gglm.Ortho(0, float32(winWidth), 0, float32(winHeight), 0, 20)
i.Mat.SetUnifMat4("ProjMtx", &orthoMat.Mat4)
gl.BindSampler(0, 0) // Rely on combined texture/sampler state.
@ -96,11 +96,11 @@ func (i *ImguiInfo) Render(winWidth, winHeight float32, fbWidth, fbHeight int32)
// Draw
for _, list := range drawData.CommandLists() {
vertexBuffer, vertexBufferSize := list.VertexBuffer()
vertexBuffer, vertexBufferSize := list.GetVertexBuffer()
gl.BindBuffer(gl.ARRAY_BUFFER, i.VboID)
gl.BufferData(gl.ARRAY_BUFFER, vertexBufferSize, vertexBuffer, gl.STREAM_DRAW)
indexBuffer, indexBufferSize := list.IndexBuffer()
indexBuffer, indexBufferSize := list.GetIndexBuffer()
gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, i.IndexBufID)
gl.BufferData(gl.ELEMENT_ARRAY_BUFFER, indexBufferSize, indexBuffer, gl.STREAM_DRAW)
@ -109,11 +109,12 @@ func (i *ImguiInfo) Render(winWidth, winHeight float32, fbWidth, fbHeight int32)
cmd.CallUserCallback(list)
} else {
gl.BindTexture(gl.TEXTURE_2D, i.TexID)
gl.ActiveTexture(gl.TEXTURE0)
gl.BindTexture(gl.TEXTURE_2D, *i.TexID)
clipRect := cmd.ClipRect()
gl.Scissor(int32(clipRect.X), int32(fbHeight)-int32(clipRect.W), int32(clipRect.Z-clipRect.X), int32(clipRect.W-clipRect.Y))
gl.DrawElementsBaseVertex(gl.TRIANGLES, int32(cmd.ElementCount()), uint32(drawType), gl.PtrOffset(cmd.IndexOffset()*indexSize), int32(cmd.VertexOffset()))
gl.DrawElementsBaseVertexWithOffset(gl.TRIANGLES, int32(cmd.ElemCount()), uint32(drawType), uintptr(int(cmd.IdxOffset())*indexSize), int32(cmd.VtxOffset()))
}
}
}
@ -124,14 +125,14 @@ func (i *ImguiInfo) Render(winWidth, winHeight float32, fbWidth, fbHeight int32)
gl.Enable(gl.DEPTH_TEST)
}
func (i *ImguiInfo) AddFontTTF(fontPath string, fontSize float32, fontConfig *imgui.FontConfig, glyphRanges *imgui.GlyphRanges) imgui.Font {
func (i *ImguiInfo) AddFontTTF(fontPath string, fontSize float32, fontConfig *imgui.FontConfig, glyphRanges *imgui.GlyphRange) imgui.Font {
fontConfigToUse := imgui.DefaultFontConfig
fontConfigToUse := imgui.NewFontConfig()
if fontConfig != nil {
fontConfigToUse = *fontConfig
}
glyphRangesToUse := imgui.EmptyGlyphRanges
glyphRangesToUse := imgui.NewGlyphRange()
if glyphRanges != nil {
glyphRangesToUse = *glyphRanges
}
@ -139,16 +140,17 @@ func (i *ImguiInfo) AddFontTTF(fontPath string, fontSize float32, fontConfig *im
imIO := imgui.CurrentIO()
a := imIO.Fonts()
f := a.AddFontFromFileTTFV(fontPath, fontSize, fontConfigToUse, glyphRangesToUse)
image := a.TextureDataAlpha8()
f := a.AddFontFromFileTTFV(fontPath, fontSize, fontConfigToUse, glyphRangesToUse.Data())
pixels, width, height, _ := a.GetTextureDataAsAlpha8()
gl.BindTexture(gl.TEXTURE_2D, i.TexID)
gl.TexImage2D(gl.TEXTURE_2D, 0, gl.RED, int32(image.Width), int32(image.Height), 0, gl.RED, gl.UNSIGNED_BYTE, image.Pixels)
gl.ActiveTexture(gl.TEXTURE0)
gl.BindTexture(gl.TEXTURE_2D, *i.TexID)
gl.TexImage2D(gl.TEXTURE_2D, 0, gl.RED, int32(width), int32(height), 0, gl.RED, gl.UNSIGNED_BYTE, pixels)
return f
}
const imguiShdrSrc = `
const DefaultImguiShader = `
//shader:vertex
#version 410
@ -161,10 +163,24 @@ in vec4 Color;
out vec2 Frag_UV;
out vec4 Frag_Color;
// Imgui doesn't handle srgb correctly, and looks too bright and wrong in srgb buffers (see: https://github.com/ocornut/imgui/issues/578).
// While not a complete fix (that would require changes in imgui itself), moving incoming srgba colors to linear in the vertex shader helps make things look better.
vec4 srgba_to_linear(vec4 srgbaColor){
#define gamma_correction 2.2
return vec4(
pow(srgbaColor.r, gamma_correction),
pow(srgbaColor.g, gamma_correction),
pow(srgbaColor.b, gamma_correction),
srgbaColor.a
);
}
void main()
{
Frag_UV = UV;
Frag_Color = Color;
Frag_Color = srgba_to_linear(Color);
gl_Position = ProjMtx * vec4(Position.xy, 0, 1);
}
@ -184,32 +200,44 @@ void main()
}
`
func NewImGUI() ImguiInfo {
// NewImGui setups imgui using the passed shader.
// If the path is empty a default nMage shader is used
func NewImGui(shaderPath string) ImguiInfo {
imguiInfo := ImguiInfo{
ImCtx: imgui.CreateContext(nil),
Mat: materials.NewMaterialSrc("ImGUI Mat", []byte(imguiShdrSrc)),
var imguiMat *materials.Material
if shaderPath == "" {
imguiMat = materials.NewMaterialSrc("ImGUI Mat", []byte(DefaultImguiShader))
} else {
imguiMat = materials.NewMaterial("ImGUI Mat", shaderPath)
}
imIO := imgui.CurrentIO()
imIO.SetBackendFlags(imIO.GetBackendFlags() | imgui.BackendFlagsRendererHasVtxOffset)
imguiInfo := ImguiInfo{
ImCtx: imgui.CreateContext(),
Mat: imguiMat,
TexID: new(uint32),
}
io := imgui.CurrentIO()
io.SetConfigFlags(io.ConfigFlags() | imgui.ConfigFlagsDockingEnable)
io.SetBackendFlags(io.BackendFlags() | imgui.BackendFlagsRendererHasVtxOffset)
gl.GenVertexArrays(1, &imguiInfo.VaoID)
gl.GenBuffers(1, &imguiInfo.VboID)
gl.GenBuffers(1, &imguiInfo.IndexBufID)
gl.GenTextures(1, &imguiInfo.TexID)
gl.GenTextures(1, imguiInfo.TexID)
// Upload font to gpu
gl.BindTexture(gl.TEXTURE_2D, imguiInfo.TexID)
gl.ActiveTexture(gl.TEXTURE0)
gl.BindTexture(gl.TEXTURE_2D, *imguiInfo.TexID)
gl.TexParameteri(gl.TEXTURE_2D, gl.TEXTURE_MIN_FILTER, gl.LINEAR)
gl.TexParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, gl.LINEAR)
gl.PixelStorei(gl.UNPACK_ROW_LENGTH, 0)
image := imIO.Fonts().TextureDataAlpha8()
gl.TexImage2D(gl.TEXTURE_2D, 0, gl.RED, int32(image.Width), int32(image.Height), 0, gl.RED, gl.UNSIGNED_BYTE, image.Pixels)
pixels, width, height, _ := io.Fonts().GetTextureDataAsAlpha8()
gl.TexImage2D(gl.TEXTURE_2D, 0, gl.RED, int32(width), int32(height), 0, gl.RED, gl.UNSIGNED_BYTE, pixels)
// Store our identifier
imIO.Fonts().SetTextureID(imgui.TextureID(imguiInfo.TexID))
io.Fonts().SetTexID(imgui.TextureID(imguiInfo.TexID))
//Shader attributes
imguiInfo.Mat.Bind()
@ -218,35 +246,223 @@ func NewImGUI() ImguiInfo {
imguiInfo.Mat.EnableAttribute("Color")
imguiInfo.Mat.UnBind()
//Init imgui input mapping
keys := map[int]int{
imgui.KeyTab: sdl.SCANCODE_TAB,
imgui.KeyLeftArrow: sdl.SCANCODE_LEFT,
imgui.KeyRightArrow: sdl.SCANCODE_RIGHT,
imgui.KeyUpArrow: sdl.SCANCODE_UP,
imgui.KeyDownArrow: sdl.SCANCODE_DOWN,
imgui.KeyPageUp: sdl.SCANCODE_PAGEUP,
imgui.KeyPageDown: sdl.SCANCODE_PAGEDOWN,
imgui.KeyHome: sdl.SCANCODE_HOME,
imgui.KeyEnd: sdl.SCANCODE_END,
imgui.KeyInsert: sdl.SCANCODE_INSERT,
imgui.KeyDelete: sdl.SCANCODE_DELETE,
imgui.KeyBackspace: sdl.SCANCODE_BACKSPACE,
imgui.KeySpace: sdl.SCANCODE_BACKSPACE,
imgui.KeyEnter: sdl.SCANCODE_RETURN,
imgui.KeyEscape: sdl.SCANCODE_ESCAPE,
imgui.KeyA: sdl.SCANCODE_A,
imgui.KeyC: sdl.SCANCODE_C,
imgui.KeyV: sdl.SCANCODE_V,
imgui.KeyX: sdl.SCANCODE_X,
imgui.KeyY: sdl.SCANCODE_Y,
imgui.KeyZ: sdl.SCANCODE_Z,
}
// Keyboard mapping. ImGui will use those indices to peek into the io.KeysDown[] array.
for imguiKey, nativeKey := range keys {
imIO.KeyMap(imguiKey, nativeKey)
}
return imguiInfo
}
func SdlScancodeToImGuiKey(scancode sdl.Scancode) imgui.Key {
switch scancode {
case sdl.SCANCODE_TAB:
return imgui.KeyTab
case sdl.SCANCODE_LEFT:
return imgui.KeyLeftArrow
case sdl.SCANCODE_RIGHT:
return imgui.KeyRightArrow
case sdl.SCANCODE_UP:
return imgui.KeyUpArrow
case sdl.SCANCODE_DOWN:
return imgui.KeyDownArrow
case sdl.SCANCODE_PAGEUP:
return imgui.KeyPageUp
case sdl.SCANCODE_PAGEDOWN:
return imgui.KeyPageDown
case sdl.SCANCODE_HOME:
return imgui.KeyHome
case sdl.SCANCODE_END:
return imgui.KeyEnd
case sdl.SCANCODE_INSERT:
return imgui.KeyInsert
case sdl.SCANCODE_DELETE:
return imgui.KeyDelete
case sdl.SCANCODE_BACKSPACE:
return imgui.KeyBackspace
case sdl.SCANCODE_SPACE:
return imgui.KeySpace
case sdl.SCANCODE_RETURN:
return imgui.KeyEnter
case sdl.SCANCODE_ESCAPE:
return imgui.KeyEscape
case sdl.SCANCODE_APOSTROPHE:
return imgui.KeyApostrophe
case sdl.SCANCODE_COMMA:
return imgui.KeyComma
case sdl.SCANCODE_MINUS:
return imgui.KeyMinus
case sdl.SCANCODE_PERIOD:
return imgui.KeyPeriod
case sdl.SCANCODE_SLASH:
return imgui.KeySlash
case sdl.SCANCODE_SEMICOLON:
return imgui.KeySemicolon
case sdl.SCANCODE_EQUALS:
return imgui.KeyEqual
case sdl.SCANCODE_LEFTBRACKET:
return imgui.KeyLeftBracket
case sdl.SCANCODE_BACKSLASH:
return imgui.KeyBackslash
case sdl.SCANCODE_RIGHTBRACKET:
return imgui.KeyRightBracket
case sdl.SCANCODE_GRAVE:
return imgui.KeyGraveAccent
case sdl.SCANCODE_CAPSLOCK:
return imgui.KeyCapsLock
case sdl.SCANCODE_SCROLLLOCK:
return imgui.KeyScrollLock
case sdl.SCANCODE_NUMLOCKCLEAR:
return imgui.KeyNumLock
case sdl.SCANCODE_PRINTSCREEN:
return imgui.KeyPrintScreen
case sdl.SCANCODE_PAUSE:
return imgui.KeyPause
case sdl.SCANCODE_KP_0:
return imgui.KeyKeypad0
case sdl.SCANCODE_KP_1:
return imgui.KeyKeypad1
case sdl.SCANCODE_KP_2:
return imgui.KeyKeypad2
case sdl.SCANCODE_KP_3:
return imgui.KeyKeypad3
case sdl.SCANCODE_KP_4:
return imgui.KeyKeypad4
case sdl.SCANCODE_KP_5:
return imgui.KeyKeypad5
case sdl.SCANCODE_KP_6:
return imgui.KeyKeypad6
case sdl.SCANCODE_KP_7:
return imgui.KeyKeypad7
case sdl.SCANCODE_KP_8:
return imgui.KeyKeypad8
case sdl.SCANCODE_KP_9:
return imgui.KeyKeypad9
case sdl.SCANCODE_KP_PERIOD:
return imgui.KeyKeypadDecimal
case sdl.SCANCODE_KP_DIVIDE:
return imgui.KeyKeypadDivide
case sdl.SCANCODE_KP_MULTIPLY:
return imgui.KeyKeypadMultiply
case sdl.SCANCODE_KP_MINUS:
return imgui.KeyKeypadSubtract
case sdl.SCANCODE_KP_PLUS:
return imgui.KeyKeypadAdd
case sdl.SCANCODE_KP_ENTER:
return imgui.KeyKeypadEnter
case sdl.SCANCODE_KP_EQUALS:
return imgui.KeyKeypadEqual
case sdl.SCANCODE_LSHIFT:
return imgui.KeyLeftShift
case sdl.SCANCODE_LCTRL:
return imgui.KeyLeftCtrl
case sdl.SCANCODE_LALT:
return imgui.KeyLeftAlt
case sdl.SCANCODE_LGUI:
return imgui.KeyLeftSuper
case sdl.SCANCODE_RSHIFT:
return imgui.KeyRightShift
case sdl.SCANCODE_RCTRL:
return imgui.KeyRightCtrl
case sdl.SCANCODE_RALT:
return imgui.KeyRightAlt
case sdl.SCANCODE_RGUI:
return imgui.KeyRightSuper
case sdl.SCANCODE_MENU:
return imgui.KeyMenu
case sdl.SCANCODE_0:
return imgui.Key0
case sdl.SCANCODE_1:
return imgui.Key1
case sdl.SCANCODE_2:
return imgui.Key2
case sdl.SCANCODE_3:
return imgui.Key3
case sdl.SCANCODE_4:
return imgui.Key4
case sdl.SCANCODE_5:
return imgui.Key5
case sdl.SCANCODE_6:
return imgui.Key6
case sdl.SCANCODE_7:
return imgui.Key7
case sdl.SCANCODE_8:
return imgui.Key8
case sdl.SCANCODE_9:
return imgui.Key9
case sdl.SCANCODE_A:
return imgui.KeyA
case sdl.SCANCODE_B:
return imgui.KeyB
case sdl.SCANCODE_C:
return imgui.KeyC
case sdl.SCANCODE_D:
return imgui.KeyD
case sdl.SCANCODE_E:
return imgui.KeyE
case sdl.SCANCODE_F:
return imgui.KeyF
case sdl.SCANCODE_G:
return imgui.KeyG
case sdl.SCANCODE_H:
return imgui.KeyH
case sdl.SCANCODE_I:
return imgui.KeyI
case sdl.SCANCODE_J:
return imgui.KeyJ
case sdl.SCANCODE_K:
return imgui.KeyK
case sdl.SCANCODE_L:
return imgui.KeyL
case sdl.SCANCODE_M:
return imgui.KeyM
case sdl.SCANCODE_N:
return imgui.KeyN
case sdl.SCANCODE_O:
return imgui.KeyO
case sdl.SCANCODE_P:
return imgui.KeyP
case sdl.SCANCODE_Q:
return imgui.KeyQ
case sdl.SCANCODE_R:
return imgui.KeyR
case sdl.SCANCODE_S:
return imgui.KeyS
case sdl.SCANCODE_T:
return imgui.KeyT
case sdl.SCANCODE_U:
return imgui.KeyU
case sdl.SCANCODE_V:
return imgui.KeyV
case sdl.SCANCODE_W:
return imgui.KeyW
case sdl.SCANCODE_X:
return imgui.KeyX
case sdl.SCANCODE_Y:
return imgui.KeyY
case sdl.SCANCODE_Z:
return imgui.KeyZ
case sdl.SCANCODE_F1:
return imgui.KeyF1
case sdl.SCANCODE_F2:
return imgui.KeyF2
case sdl.SCANCODE_F3:
return imgui.KeyF3
case sdl.SCANCODE_F4:
return imgui.KeyF4
case sdl.SCANCODE_F5:
return imgui.KeyF5
case sdl.SCANCODE_F6:
return imgui.KeyF6
case sdl.SCANCODE_F7:
return imgui.KeyF7
case sdl.SCANCODE_F8:
return imgui.KeyF8
case sdl.SCANCODE_F9:
return imgui.KeyF9
case sdl.SCANCODE_F10:
return imgui.KeyF10
case sdl.SCANCODE_F11:
return imgui.KeyF11
case sdl.SCANCODE_F12:
return imgui.KeyF12
default:
return imgui.KeyNone
}
}