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Branches Tags
bdnugget:master
bdnugget:refactor/less-complexity
bdnugget:testing
bdnugget:feature/map
bdnugget:feature/db
bdnugget:feature/menu
bdnugget:feature/chat
bdnugget:develop
bdnugget:feature/multiplayer
bdnugget:v1.1.1
bdnugget:v1.1.0
bdnugget:testbuild-1.0.0
..
compare: bdnugget:feature/multiplayer
Branches Tags
bdnugget:master
bdnugget:refactor/less-complexity
bdnugget:testing
bdnugget:feature/map
bdnugget:feature/db
bdnugget:feature/menu
bdnugget:feature/chat
bdnugget:develop
bdnugget:feature/multiplayer
bdnugget:v1.1.1
bdnugget:v1.1.0
bdnugget:testbuild-1.0.0

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master ... feature/mu

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15
.gitignore vendored
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# Build artifacts
build/
goonscape
goonscape.exe
# IDE files
.vscode/
.idea/
*.swp
# OS files
.DS_Store
Thumbs.db
resources/models/old_and_test/

3
.gitmodules vendored
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[submodule "goonserver"]
path = goonserver
url = https://gitea.boner.be/bdnugget/goonserver

25
.woodpecker.yml
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pipeline:
build:
image: golang:1.23
commands:
# Install build dependencies
- apt-get update && apt-get install -y gcc-mingw-w64 cmake zip libasound2-dev mesa-common-dev libx11-dev libxrandr-dev libxi-dev xorg-dev libgl1-mesa-dev libglu1-mesa-dev libwayland-dev wayland-protocols libxkbcommon-dev
# Build for all platforms
- make all
when:
event: tag
tag: v*
# Optional: Create Gitea release with built artifacts
release:
image: plugins/gitea-release
settings:
api_key:
from_secret: gitea_token
base_url: https://gitea.boner.be
files: build/*.zip
when:
event: tag
tag: v*

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2
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INFO: 2025/02/10 14:51:58 main.go:15: Starting GoonScape client
INFO: 2025/02/10 14:51:58 main.go:38: Initializing window
INFO: 2025/02/10 14:51:58 main.go:55: Loading game assets
INFO: 2025/02/10 14:51:58 game.go:54: Loading game assets
INFO: 2025/02/10 14:51:58 assets.go:51: Loading models

30
Dockerfile.build
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FROM golang:1.23
# Install build dependencies
RUN apt-get update && apt-get install -y \
gcc-mingw-w64 \
cmake \
zip \
libasound2-dev \
mesa-common-dev \
libx11-dev \
libxrandr-dev \
libxi-dev \
xorg-dev \
libgl1-mesa-dev \
libglu1-mesa-dev \
libwayland-dev \
wayland-protocols \
libxkbcommon-dev \
&& rm -rf /var/lib/apt/lists/*
WORKDIR /build
# Copy build scripts
COPY . /build/
# Set execute permissions
RUN chmod +x /build/scripts/build.sh
# Build command
CMD ["make", "all"]

21
LICENSE
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MIT License
Copyright (c) 2025 bdnugget
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.

30
Makefile
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.PHONY: all clean windows linux darwin
include scripts/platforms.mk
BINARY_NAME=goonscape
VERSION=1.1.0
BUILD_DIR=build
ASSETS_DIR=resources
all: clean $(PLATFORMS)
$(PLATFORMS):
@echo "Building for $@..."
@mkdir -p $(BUILD_DIR)/$@
@scripts/build.sh $(word 1,$(subst /, ,$@)) $(word 2,$(subst /, ,$@)) \
$(BUILD_DIR)/$@/$(BINARY_NAME)$(if $(findstring windows,$@),.exe,)
@cp -r $(ASSETS_DIR) $(BUILD_DIR)/$@/
@cd $(BUILD_DIR) && zip -r $(BINARY_NAME)-$(word 1,$(subst /, ,$@))-$(word 2,$(subst /, ,$@))-v$(VERSION).zip $@
@echo "Done building for $@"
clean:
rm -rf $(BUILD_DIR)
# Development build for current platform
dev:
go build -o $(BINARY_NAME)
# Run tests
test:
go test ./...

136
README.md
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# GoonScape
A multiplayer isometric game inspired by Oldschool RuneScape, built with Go and Raylib.
![GoonScape Screenshot](resources/screenshot.png)
## Features
- 3D isometric world with height-mapped terrain
- Multiplayer support with client-server architecture
- Pathfinding and click-to-move navigation
- Global chat system with floating messages
- Multiple character models
- Background music
## Prerequisites
- Go 1.23 or higher
- GCC (for CGO/SQLite support)
- OpenGL development libraries
- Raylib dependencies (see [raylib-go](https://github.com/gen2brain/raylib-go#requirements))
## Installation
### Pre-built Binaries
The easiest way to get started is to download the latest release from:
```
https://gitea.boner.be/bdnugget/goonscape/releases
```
Choose the appropriate zip file for your platform:
- Windows: `goonscape-windows-amd64-v1.1.0.zip`
- Linux: `goonscape-linux-amd64-v1.1.0.zip`
Extract the zip and run the executable.
### Quick Start
For development:
```bash
# Run directly (recommended for development)
go run main.go
# Run with local server
go run main.go -local
```
### Server Setup
The server requires CGO for SQLite support:
```bash
# Enable CGO
go env -w CGO_ENABLED=1
# Clone and build server
git clone https://gitea.boner.be/bdnugget/goonserver.git
cd goonserver
go build
```
### Client Installation
Then install or build:
```bash
# Install the client
go install gitea.boner.be/bdnugget/goonscape@latest
```
Or build from source:
```bash
git clone https://gitea.boner.be/bdnugget/goonscape.git
cd goonscape
go build
```
## Controls
- **Mouse Click**: Move to location
- **T**: Open chat
- **Enter**: Send chat message
- **Escape**: Cancel chat/Close game (it does both of these at the same time so gg)
- **Arrow Keys**: Rotate camera
- **Mouse Wheel**: Zoom in/out
## Configuration
Server connection can be configured using command-line flags:
```bash
# Connect to default server (boner.be:6969)
go run main.go
# Connect to local server
go run main.go -local
# Connect to specific server
go run main.go -addr somehost # Uses somehost:6969
go run main.go -addr somehost:6970 # Uses somehost:6970
```
Note: The `-local` flag is a shorthand for `-addr localhost:6969` and cannot be used together with `-addr`.
## Building Release Binaries
The project uses Docker to create consistent builds across platforms. To build release binaries:
1. Build the Docker image (only needed once):
```bash
sudo docker build -t goonscape-builder -f Dockerfile.build .
```
2. Create release builds:
```bash
sudo docker run -v $(pwd):/build goonscape-builder
```
This will create zip files in the `build` directory for:
- Windows (64-bit): `goonscape-windows-amd64-v1.0.0.zip`
- Linux (64-bit): `goonscape-linux-amd64-v1.0.0.zip`
Each zip contains the binary and all required assets.
## Development
The project uses Protocol Buffers for network communication. If you modify the `.proto` files, regenerate the Go code with:
```bash
protoc --go_out=. goonserver/actions/actions.proto
```
### Fixing the models
This is a note/reminder to myself. The models and animations are generated with [meshy.ai (referral link, give me credits pls)](https://www.meshy.ai/?utm_source=referral-program&utm_medium=link&utm_content=TUZLRK). Somehow the bones armature things are not in the same root as the model and it becomes like a weird pudding when using the animation. I had to manually fix this in Blender by doing:
- Selected the char1 mesh thing
- Alt + P (the right Alt kek) => Clear Parent and Keep Transform
- Tried to do the same for Armature, they should both be in the Scene collection as siblings, so straight from root
- Select char1 and press Ctrl + A => All Transforms
- Repeat for Armature
- Select char1 and make sure it still has the Armature Modifier attached (via purple wrench icon), I remove it and reapply it just to be sure
When exporting it, I make sure Transform +Y is up direction is turned off, otherwise my gooner walks on the walls instead of the floor lmao

175
assets/assets.go
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package assets
import (
"fmt"
"sync"
"gitea.boner.be/bdnugget/goonscape/logging"
"gitea.boner.be/bdnugget/goonscape/types"
rl "github.com/gen2brain/raylib-go/raylib"
)
var (
assetMutex sync.RWMutex
loadedModels map[string]types.ModelAsset
audioMutex sync.Mutex
audioInitialized bool
)
func init() {
loadedModels = make(map[string]types.ModelAsset)
}
// Helper function to load animations for a model
func loadModelAnimations(animPaths map[string]string) (types.AnimationSet, error) {
var animSet types.AnimationSet
// Load idle animations if specified
if idlePath, ok := animPaths["idle"]; ok {
idleAnims := rl.LoadModelAnimations(idlePath)
if len(idleAnims) > 0 {
animSet.Idle = idleAnims
rl.TraceLog(rl.LogInfo, "Loaded idle animation: %s (%d frames, %f seconds)",
idlePath, idleAnims[0].FrameCount, float32(idleAnims[0].FrameCount)/60.0)
}
}
// Load walk animations if specified
if walkPath, ok := animPaths["walk"]; ok {
walkAnims := rl.LoadModelAnimations(walkPath)
if len(walkAnims) > 0 {
animSet.Walk = walkAnims
rl.TraceLog(rl.LogInfo, "Loaded walk animation: %s (%d frames, %f seconds)",
walkPath, walkAnims[0].FrameCount, float32(walkAnims[0].FrameCount)/60.0)
}
}
return animSet, nil
}
func LoadModels() ([]types.ModelAsset, error) {
logging.Info.Println("Loading models")
assetMutex.Lock()
defer assetMutex.Unlock()
if len(loadedModels) > 0 {
logging.Info.Println("Returning cached models")
models := make([]types.ModelAsset, 0, len(loadedModels))
for _, model := range loadedModels {
models = append(models, model)
}
return models, nil
}
// Goonion model and animations
goonerModel := rl.LoadModel("resources/models/gooner/walk_no_y_transform.glb")
goonerAnims, err := loadModelAnimations(map[string]string{
"idle": "resources/models/gooner/idle_no_y_transform.glb",
"walk": "resources/models/gooner/walk_no_y_transform.glb",
})
if err != nil {
return nil, err
}
// Apply transformations
transform := rl.MatrixIdentity()
transform = rl.MatrixMultiply(transform, rl.MatrixRotateY(180*rl.Deg2rad))
transform = rl.MatrixMultiply(transform, rl.MatrixRotateX(-90*rl.Deg2rad))
transform = rl.MatrixMultiply(transform, rl.MatrixScale(1.0, 1.0, 1.0))
goonerModel.Transform = transform
// Coomer model (ready for animations)
coomerModel := rl.LoadModel("resources/models/coomer/idle_notransy.glb")
coomerAnims, err := loadModelAnimations(map[string]string{
"idle": "resources/models/coomer/idle_notransy.glb",
"walk": "resources/models/coomer/unsteadywalk_notransy.glb",
})
if err != nil {
return nil, err
}
coomerModel.Transform = transform
// Shreke model (ready for animations)
shrekeModel := rl.LoadModel("resources/models/shreke/Animation_Slow_Orc_Walk_withSkin.glb")
shrekeAnims, err := loadModelAnimations(map[string]string{
"idle": "resources/models/shreke/Animation_Slow_Orc_Walk_withSkin.glb",
"walk": "resources/models/shreke/Animation_Excited_Walk_M_withSkin.glb",
})
if err != nil {
return nil, err
}
shrekeModel.Transform = transform
// Store loaded models
models := []types.ModelAsset{
{
Name: "gooner",
Model: goonerModel,
Animation: append(goonerAnims.Idle, goonerAnims.Walk...),
AnimFrames: int32(len(goonerAnims.Idle) + len(goonerAnims.Walk)),
Animations: goonerAnims,
YOffset: 0.0,
},
{
Model: coomerModel,
Animation: append(coomerAnims.Idle, coomerAnims.Walk...),
AnimFrames: int32(len(coomerAnims.Idle) + len(coomerAnims.Walk)),
Animations: coomerAnims,
YOffset: -4.0,
},
{
Model: shrekeModel,
Animation: append(shrekeAnims.Idle, shrekeAnims.Walk...),
AnimFrames: int32(len(shrekeAnims.Idle) + len(shrekeAnims.Walk)),
Animations: shrekeAnims,
YOffset: 0.0,
},
}
for _, model := range models {
loadedModels[model.Name] = model
}
return models, nil
}
func LoadMusic(filename string) (rl.Music, error) {
logging.Info.Printf("Loading music from %s", filename)
audioMutex.Lock()
defer audioMutex.Unlock()
if !rl.IsAudioDeviceReady() {
err := fmt.Errorf("audio device not initialized")
logging.Error.Println(err)
return rl.Music{}, err
}
music := rl.LoadMusicStream(filename)
if music.CtxType == 0 {
err := fmt.Errorf("failed to load music stream")
logging.Error.Println(err)
return rl.Music{}, err
}
logging.Info.Println("Music loaded successfully")
return music, nil
}
func UnloadModels(models []types.ModelAsset) {
assetMutex.Lock()
defer assetMutex.Unlock()
for _, model := range models {
if model.Animation != nil {
for i := int32(0); i < model.AnimFrames; i++ {
rl.UnloadModelAnimation(model.Animation[i])
}
}
rl.UnloadModel(model.Model)
rl.UnloadTexture(model.Texture)
delete(loadedModels, model.Name)
}
}
func UnloadMusic(music rl.Music) {
rl.UnloadMusicStream(music)
}

7
config/config.go
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package config
type Config struct {
PlayMusic bool
}
var Current = Config{PlayMusic: true}

21
constants.go
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package main
import "time"
const (
MapWidth = 50
MapHeight = 50
TileSize = 32
TileHeight = 2.0
TickRate = 600 * time.Millisecond // Server tick rate (600ms)
serverAddr = "localhost:6969"
// RuneScape-style tick rate (600ms)
ServerTickRate = 600 * time.Millisecond
// Client might run at a higher tick rate for smooth rendering
ClientTickRate = 50 * time.Millisecond
// Maximum number of ticks we can get behind before forcing a resync
MaxTickDesync = 5
)

1
core/constants.go Normal file
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package utils

1
core/types.go Normal file
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package utils

92
game/camera.go
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package game
import (
"math"
rl "github.com/gen2brain/raylib-go/raylib"
)
var (
cameraDistance = float32(20.0)
cameraYaw = float32(145.0)
cameraPitch = float32(45.0)
lastMousePos rl.Vector2 // Add this to track mouse movement
)
func UpdateCamera(camera *rl.Camera3D, player rl.Vector3, deltaTime float32) {
// Adjust target position to be at character's torso height (about half character height)
characterHeight := float32(32.0) // Assuming character is roughly 32 units tall
targetPos := rl.Vector3{
X: player.X,
Y: player.Y + characterHeight*0.5, // Focus on middle of character
Z: player.Z,
}
wheelMove := rl.GetMouseWheelMove()
if wheelMove != 0 {
cameraDistance += -wheelMove * 5
if cameraDistance < 10 {
cameraDistance = 10
}
if cameraDistance > 250 {
cameraDistance = 250
}
}
// Handle middle mouse camera rotation
if rl.IsMouseButtonDown(rl.MouseMiddleButton) {
currentMousePos := rl.GetMousePosition()
// If we just started holding the button, initialize last position
if !rl.IsMouseButtonPressed(rl.MouseMiddleButton) {
mouseDelta := rl.Vector2{
X: currentMousePos.X - lastMousePos.X,
Y: currentMousePos.Y - lastMousePos.Y,
}
// Adjust rotation speed as needed
cameraYaw += mouseDelta.X * 0.5 * deltaTime * 60
cameraPitch += mouseDelta.Y * 0.5 * deltaTime * 60
// Clamp pitch to prevent camera flipping
if cameraPitch < 20 {
cameraPitch = 20
}
if cameraPitch > 85 {
cameraPitch = 85
}
}
lastMousePos = currentMousePos
}
// Keep the keyboard controls too
if rl.IsKeyDown(rl.KeyRight) {
cameraYaw += 100 * deltaTime
}
if rl.IsKeyDown(rl.KeyLeft) {
cameraYaw -= 100 * deltaTime
}
if rl.IsKeyDown(rl.KeyUp) {
cameraPitch -= 50 * deltaTime
if cameraPitch < 20 {
cameraPitch = 20
}
}
if rl.IsKeyDown(rl.KeyDown) {
cameraPitch += 50 * deltaTime
if cameraPitch > 85 {
cameraPitch = 85
}
}
cameraYawRad := float64(cameraYaw) * rl.Deg2rad
cameraPitchRad := float64(cameraPitch) * rl.Deg2rad
camera.Position = rl.Vector3{
X: targetPos.X + cameraDistance*float32(math.Cos(cameraYawRad))*float32(math.Cos(cameraPitchRad)),
Y: targetPos.Y + cameraDistance*float32(math.Sin(cameraPitchRad)),
Z: targetPos.Z + cameraDistance*float32(math.Sin(cameraYawRad))*float32(math.Cos(cameraPitchRad)),
}
camera.Target = targetPos
}

234
game/chat.go
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package game
import (
"fmt"
"sync"
"time"
"gitea.boner.be/bdnugget/goonscape/types"
pb "gitea.boner.be/bdnugget/goonserver/actions"
rl "github.com/gen2brain/raylib-go/raylib"
)
const (
maxMessages = 50
chatMargin = 10 // Margin from screen edges
chatHeight = 200
messageHeight = 20
inputHeight = 30
runeLimit = 256
)
type Chat struct {
sync.RWMutex
messages []types.ChatMessage
inputBuffer []rune
isTyping bool
cursorPos int
scrollOffset int
userData interface{}
}
func NewChat() *Chat {
return &Chat{
messages: make([]types.ChatMessage, 0, maxMessages),
inputBuffer: make([]rune, 0, runeLimit),
}
}
func (c *Chat) AddMessage(playerID int32, content string) {
msg := types.ChatMessage{
PlayerID: playerID,
Content: content,
Time: time.Now(),
}
if len(c.messages) >= maxMessages {
c.messages = c.messages[1:]
}
c.messages = append(c.messages, msg)
c.scrollOffset = 0 // Reset scroll position for new messages
}
func (c *Chat) HandleServerMessages(messages []*pb.ChatMessage) {
c.Lock()
defer c.Unlock()
// Convert protobuf messages to our local type
for _, msg := range messages {
localMsg := types.ChatMessage{
PlayerID: msg.PlayerId,
Username: msg.Username,
Content: msg.Content,
Time: time.Unix(0, msg.Timestamp),
}
// Only add if it's not already in our history
if len(c.messages) == 0 || c.messages[len(c.messages)-1].Time.UnixNano() < msg.Timestamp {
if len(c.messages) >= maxMessages {
c.messages = c.messages[1:]
}
c.messages = append(c.messages, localMsg)
// Scroll to latest message if it's not already visible
visibleMessages := int((chatHeight - inputHeight) / messageHeight)
if len(c.messages) > visibleMessages {
c.scrollOffset = len(c.messages) - visibleMessages
}
// Add floating message to the player
if game, ok := c.userData.(*Game); ok {
if msg.PlayerId == game.Player.ID {
game.Player.Lock()
game.Player.FloatingMessage = &types.FloatingMessage{
Content: msg.Content,
ExpireTime: time.Now().Add(6 * time.Second),
}
game.Player.Unlock()
} else if otherPlayer, exists := game.OtherPlayers.Load(msg.PlayerId); exists {
other := otherPlayer.(*types.Player)
other.Lock()
other.FloatingMessage = &types.FloatingMessage{
Content: msg.Content,
ExpireTime: time.Now().Add(6 * time.Second),
}
other.Unlock()
}
}
}
}
}
func (c *Chat) Draw(screenWidth, screenHeight int32) {
c.RLock()
defer c.RUnlock()
// Calculate chat window width based on screen width
chatWindowWidth := screenWidth - (chatMargin * 2)
// Draw chat window background
chatX := float32(chatMargin)
chatY := float32(screenHeight - chatHeight - chatMargin)
rl.DrawRectangle(int32(chatX), int32(chatY), chatWindowWidth, chatHeight, rl.ColorAlpha(rl.Black, 0.5))
// Draw messages from oldest to newest
messageY := chatY + 5
visibleMessages := int((chatHeight - inputHeight) / messageHeight)
// Auto-scroll to bottom if no manual scrolling has occurred
if c.scrollOffset == 0 {
if len(c.messages) > visibleMessages {
c.scrollOffset = len(c.messages) - visibleMessages
}
}
startIdx := max(0, c.scrollOffset)
endIdx := min(len(c.messages), startIdx+visibleMessages)
for i := startIdx; i < endIdx; i++ {
msg := c.messages[i]
var color rl.Color
if msg.PlayerID == 0 { // System message
color = rl.Gold
} else {
color = rl.White
}
text := fmt.Sprintf("%s: %s", msg.Username, msg.Content)
rl.DrawText(text, int32(chatX)+5, int32(messageY), 20, color)
messageY += messageHeight
}
// Draw input field
inputY := chatY + float32(chatHeight-inputHeight)
rl.DrawRectangle(int32(chatX), int32(inputY), chatWindowWidth, inputHeight, rl.ColorAlpha(rl.White, 0.3))
if c.isTyping {
inputText := string(c.inputBuffer)
rl.DrawText(inputText, int32(chatX)+5, int32(inputY)+5, 20, rl.White)
// Draw cursor
cursorX := rl.MeasureText(inputText[:c.cursorPos], 20)
rl.DrawRectangle(int32(chatX)+5+cursorX, int32(inputY)+5, 2, 20, rl.White)
} else {
rl.DrawText("Press T to chat", int32(chatX)+5, int32(inputY)+5, 20, rl.Gray)
}
}
func (c *Chat) Update() (string, bool) {
// Handle scrolling with mouse wheel when not typing
if !c.isTyping {
wheelMove := rl.GetMouseWheelMove()
if wheelMove != 0 {
maxScroll := max(0, len(c.messages)-int((chatHeight-inputHeight)/messageHeight))
c.scrollOffset = clamp(c.scrollOffset-int(wheelMove), 0, maxScroll)
}
if rl.IsKeyPressed(rl.KeyT) {
c.isTyping = true
return "", false
}
return "", false
}
key := rl.GetCharPressed()
for key > 0 {
if len(c.inputBuffer) < runeLimit {
c.inputBuffer = append(c.inputBuffer[:c.cursorPos], append([]rune{key}, c.inputBuffer[c.cursorPos:]...)...)
c.cursorPos++
}
key = rl.GetCharPressed()
}
if rl.IsKeyPressed(rl.KeyEnter) || rl.IsKeyPressed(rl.KeyKpEnter) {
if len(c.inputBuffer) > 0 {
message := string(c.inputBuffer)
c.inputBuffer = c.inputBuffer[:0]
c.cursorPos = 0
c.isTyping = false
return message, true
}
c.isTyping = false
}
if rl.IsKeyPressed(rl.KeyEscape) && c.isTyping {
c.inputBuffer = c.inputBuffer[:0]
c.cursorPos = 0
c.isTyping = false
}
if rl.IsKeyPressed(rl.KeyBackspace) && c.cursorPos > 0 {
c.inputBuffer = append(c.inputBuffer[:c.cursorPos-1], c.inputBuffer[c.cursorPos:]...)
c.cursorPos--
}
if rl.IsKeyPressed(rl.KeyLeft) && c.cursorPos > 0 {
c.cursorPos--
}
if rl.IsKeyPressed(rl.KeyRight) && c.cursorPos < len(c.inputBuffer) {
c.cursorPos++
}
return "", false
}
// Add helper functions
func max(a, b int) int {
if a > b {
return a
}
return b
}
func min(a, b int) int {
if a < b {
return a
}
return b
}
func clamp(value, min, max int) int {
if value < min {
return min
}
if value > max {
return max
}
return value
}

38
game/context.go
View File

@ -1,38 +0,0 @@
package game
import (
"context"
"sync"
)
type GameContext struct {
ctx context.Context
cancel context.CancelFunc
wg sync.WaitGroup
assetsLock sync.RWMutex
}
func NewGameContext() *GameContext {
ctx, cancel := context.WithCancel(context.Background())
return &GameContext{
ctx: ctx,
cancel: cancel,
}
}
func (gc *GameContext) Shutdown() {
gc.cancel()
gc.wg.Wait()
}
func (gc *GameContext) LoadAssets(fn func() error) error {
gc.assetsLock.Lock()
defer gc.assetsLock.Unlock()
return fn()
}
func (gc *GameContext) UnloadAssets(fn func()) {
gc.assetsLock.Lock()
defer gc.assetsLock.Unlock()
fn()
}

469
game/game.go
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@ -1,469 +0,0 @@
package game
import (
"fmt"
"os"
"sync"
"time"
"sync/atomic"
"gitea.boner.be/bdnugget/goonscape/assets"
"gitea.boner.be/bdnugget/goonscape/config"
"gitea.boner.be/bdnugget/goonscape/logging"
"gitea.boner.be/bdnugget/goonscape/network"
"gitea.boner.be/bdnugget/goonscape/types"
pb "gitea.boner.be/bdnugget/goonserver/actions"
rl "github.com/gen2brain/raylib-go/raylib"
)
var audioMutex sync.Mutex
var audioInitOnce sync.Once
type Game struct {
ctx *GameContext
Player *types.Player
OtherPlayers sync.Map // Using sync.Map for concurrent access
Camera rl.Camera3D
Models []types.ModelAsset
Music rl.Music
Chat *Chat
MenuOpen atomic.Bool
QuitChan chan struct{} // Channel to signal shutdown
loginScreen *LoginScreen
isLoggedIn atomic.Bool
}
func New() *Game {
InitWorld()
game := &Game{
ctx: NewGameContext(),
OtherPlayers: sync.Map{},
Camera: rl.Camera3D{
Position: rl.NewVector3(0, 10, 10),
Target: rl.NewVector3(0, 0, 0),
Up: rl.NewVector3(0, 1, 0),
Fovy: 45.0,
Projection: rl.CameraPerspective,
},
Chat: NewChat(),
QuitChan: make(chan struct{}),
loginScreen: NewLoginScreen(),
}
game.Chat.userData = game
return game
}
func (g *Game) LoadAssets() error {
audioMutex.Lock()
defer audioMutex.Unlock()
logging.Info.Println("Loading game assets")
var err error
// Load models first
g.Models, err = assets.LoadModels()
if err != nil {
logging.Error.Printf("Failed to load models: %v", err)
return err
}
// Load music only if enabled
if config.Current.PlayMusic {
logging.Info.Println("Loading music stream")
g.Music = rl.LoadMusicStream("resources/audio/GoonScape2.mp3")
if g.Music.CtxType == 0 {
logging.Error.Println("Failed to load music stream")
return fmt.Errorf("failed to load music stream")
}
logging.Info.Println("Music stream loaded successfully")
} else {
logging.Info.Println("Music disabled by config")
}
logging.Info.Println("Assets loaded successfully")
return nil
}
func (g *Game) Update(deltaTime float32) {
if !g.isLoggedIn.Load() {
username, password, isRegistering, submitted := g.loginScreen.Update()
if submitted {
conn, playerID, err := network.ConnectToServer(username, password, isRegistering)
if err != nil {
g.loginScreen.SetError(err.Error())
return
}
g.Player = &types.Player{
Speed: 50.0,
TargetPath: []types.Tile{},
UserData: g,
QuitDone: make(chan struct{}),
ID: playerID,
}
g.AssignModelToPlayer(g.Player)
go network.HandleServerCommunication(conn, playerID, g.Player, &g.OtherPlayers, g.QuitChan)
g.isLoggedIn.Store(true)
return
}
g.loginScreen.Draw()
return
}
// Handle ESC for menu
if rl.IsKeyPressed(rl.KeyEscape) {
g.MenuOpen.Store(!g.MenuOpen.Load())
return
}
// Don't process other inputs if menu is open
if g.MenuOpen.Load() {
return
}
if message, sent := g.Chat.Update(); sent {
g.Player.Lock()
g.Player.ActionQueue = append(g.Player.ActionQueue, &pb.Action{
Type: pb.Action_CHAT,
ChatMessage: message,
PlayerId: g.Player.ID,
})
g.Player.Unlock()
}
g.HandleInput()
if len(g.Player.TargetPath) > 0 {
g.Player.Lock()
if len(g.Player.TargetPath) > 0 {
g.Player.MoveTowards(g.Player.TargetPath[0], deltaTime, GetMapGrid())
}
g.Player.Unlock()
}
g.OtherPlayers.Range(func(key, value any) bool {
other := value.(*types.Player)
if len(other.TargetPath) > 0 {
other.MoveTowards(other.TargetPath[0], deltaTime, GetMapGrid())
}
return true
})
UpdateCamera(&g.Camera, g.Player.PosActual, deltaTime)
}
func (g *Game) DrawMap() {
for x := 0; x < types.MapWidth; x++ {
for y := 0; y < types.MapHeight; y++ {
height := GetTileHeight(x, y)
// Interpolate height for smoother landscape
if x > 0 {
height += GetTileHeight(x-1, y)
}
if y > 0 {
height += GetTileHeight(x, y-1)
}
if x > 0 && y > 0 {
height += GetTileHeight(x-1, y-1)
}
height /= 4.0
tilePos := rl.Vector3{
X: float32(x * types.TileSize),
Y: height * types.TileHeight,
Z: float32(y * types.TileSize),
}
color := rl.Color{R: uint8(height * 25), G: 100, B: 100, A: 64}
rl.DrawCube(tilePos, types.TileSize, types.TileHeight, types.TileSize, color)
}
}
}
func (g *Game) DrawPlayer(player *types.Player) {
player.Lock()
defer player.Unlock()
if player.Model.Meshes == nil {
logging.Error.Println("Player model not initialized")
return
}
grid := GetMapGrid()
modelIndex := int(player.ID) % len(g.Models)
modelAsset := g.Models[modelIndex]
const defaultHeight = 8.0 // Default height above tile, fine tune per model in types.ModelAsset
playerPos := rl.Vector3{
X: player.PosActual.X,
Y: grid[player.PosTile.X][player.PosTile.Y].Height*types.TileHeight + defaultHeight + modelAsset.YOffset,
Z: player.PosActual.Z,
}
// Check if model has animations
if modelAsset.Animations.Idle != nil || modelAsset.Animations.Walk != nil {
if player.IsMoving && len(modelAsset.Animations.Walk) > 0 {
anim := modelAsset.Animations.Walk[0] // Use first walk animation
player.AnimationFrame = player.AnimationFrame % anim.FrameCount
rl.UpdateModelAnimation(player.Model, anim, player.AnimationFrame)
} else if len(modelAsset.Animations.Idle) > 0 {
anim := modelAsset.Animations.Idle[0] // Use first idle animation
player.AnimationFrame = player.AnimationFrame % anim.FrameCount
rl.UpdateModelAnimation(player.Model, anim, player.AnimationFrame)
}
}
rl.DrawModel(player.Model, playerPos, 16, rl.White)
// Draw floating messages and path indicators
if player.FloatingMessage != nil {
screenPos := rl.GetWorldToScreen(rl.Vector3{
X: playerPos.X,
Y: playerPos.Y + 24.0,
Z: playerPos.Z,
}, g.Camera)
player.FloatingMessage.ScreenPos = screenPos
}
if len(player.TargetPath) > 0 {
targetTile := player.TargetPath[len(player.TargetPath)-1]
targetPos := rl.Vector3{
X: float32(targetTile.X * types.TileSize),
Y: grid[targetTile.X][targetTile.Y].Height * types.TileHeight,
Z: float32(targetTile.Y * types.TileSize),
}
rl.DrawCubeWires(targetPos, types.TileSize, types.TileHeight, types.TileSize, rl.Green)
nextTile := player.TargetPath[0]
nextPos := rl.Vector3{
X: float32(nextTile.X * types.TileSize),
Y: grid[nextTile.X][nextTile.Y].Height * types.TileHeight,
Z: float32(nextTile.Y * types.TileSize),
}
rl.DrawCubeWires(nextPos, types.TileSize, types.TileHeight, types.TileSize, rl.Yellow)
}
}
func (g *Game) Render() {
if !rl.IsWindowReady() {
logging.Error.Println("Window not ready for rendering")
return
}
rl.BeginDrawing()
defer func() {
if rl.IsWindowReady() {
rl.EndDrawing()
}
}()
if !g.isLoggedIn.Load() {
g.loginScreen.Draw()
return
}
rl.BeginMode3D(g.Camera)
g.DrawMap()
g.DrawPlayer(g.Player)
g.OtherPlayers.Range(func(key, value any) bool {
other := value.(*types.Player)
if other.Model.Meshes == nil {
g.AssignModelToPlayer(other)
}
g.DrawPlayer(other)
return true
})
rl.EndMode3D()
// Draw floating messages
drawFloatingMessage := func(msg *types.FloatingMessage) {
if msg == nil || time.Now().After(msg.ExpireTime) {
return
}
pos := msg.ScreenPos
text := msg.Content
textWidth := rl.MeasureText(text, 20)
for offsetX := -2; offsetX <= 2; offsetX++ {
for offsetY := -2; offsetY <= 2; offsetY++ {
rl.DrawText(text,
int32(pos.X)-textWidth/2+int32(offsetX),
int32(pos.Y)+int32(offsetY),
20,
rl.Black)
}
}
rl.DrawText(text, int32(pos.X)-textWidth/2, int32(pos.Y), 20, rl.Yellow)
}
if g.Player.FloatingMessage != nil {
drawFloatingMessage(g.Player.FloatingMessage)
}
g.OtherPlayers.Range(func(key, value any) bool {
other := value.(*types.Player)
drawFloatingMessage(other.FloatingMessage)
return true
})
// Draw menu if open
if g.MenuOpen.Load() {
g.DrawMenu()
}
// Only draw chat if menu is not open
if !g.MenuOpen.Load() {
g.Chat.Draw(int32(rl.GetScreenWidth()), int32(rl.GetScreenHeight()))
}
rl.DrawFPS(10, 10)
}
func (g *Game) Cleanup() {
// Unload models
if g.Models != nil {
assets.UnloadModels(g.Models)
}
// Stop and unload music if enabled
if config.Current.PlayMusic && g.Music.CtxType != 0 {
rl.StopMusicStream(g.Music)
rl.UnloadMusicStream(g.Music)
}
// Close audio device if it's ready
if rl.IsAudioDeviceReady() {
rl.CloseAudioDevice()
}
}
func (g *Game) HandleInput() {
clickedTile, clicked := g.GetTileAtMouse()
if clicked {
path := FindPath(GetTile(g.Player.PosTile.X, g.Player.PosTile.Y), clickedTile)
if len(path) > 1 {
g.Player.Lock()
g.Player.TargetPath = path[1:]
g.Player.ActionQueue = append(g.Player.ActionQueue, &pb.Action{
Type: pb.Action_MOVE,
X: int32(clickedTile.X),
Y: int32(clickedTile.Y),
PlayerId: g.Player.ID,
})
g.Player.Unlock()
}
}
}
func (g *Game) DrawMenu() {
screenWidth := float32(rl.GetScreenWidth())
screenHeight := float32(rl.GetScreenHeight())
// Semi-transparent background
rl.DrawRectangle(0, 0, int32(screenWidth), int32(screenHeight), rl.ColorAlpha(rl.Black, 0.7))
// Menu title
title := "Menu"
titleSize := int32(40)
titleWidth := rl.MeasureText(title, titleSize)
rl.DrawText(title, int32(screenWidth/2)-titleWidth/2, 100, titleSize, rl.White)
// Menu buttons
buttonWidth := float32(200)
buttonHeight := float32(40)
buttonY := float32(200)
buttonSpacing := float32(60)
menuItems := []string{"Resume", "Settings", "Exit Game"}
for _, item := range menuItems {
buttonRect := rl.Rectangle{
X: screenWidth/2 - buttonWidth/2,
Y: buttonY,
Width: buttonWidth,
Height: buttonHeight,
}
// Check mouse hover
mousePoint := rl.GetMousePosition()
mouseHover := rl.CheckCollisionPointRec(mousePoint, buttonRect)
// Draw button
if mouseHover {
rl.DrawRectangleRec(buttonRect, rl.ColorAlpha(rl.White, 0.3))
if rl.IsMouseButtonPressed(rl.MouseLeftButton) {
switch item {
case "Resume":
g.MenuOpen.Store(false)
case "Settings":
// TODO: Implement settings
case "Exit Game":
g.Shutdown()
}
}
}
// Draw button text
textSize := int32(20)
textWidth := rl.MeasureText(item, textSize)
textX := int32(buttonRect.X+buttonRect.Width/2) - textWidth/2
textY := int32(buttonRect.Y + buttonRect.Height/2 - float32(textSize)/2)
rl.DrawText(item, textX, textY, textSize, rl.White)
buttonY += buttonSpacing
}
}
func (g *Game) Shutdown() {
close(g.QuitChan)
<-g.Player.QuitDone
rl.CloseWindow()
os.Exit(0)
}
func (g *Game) HandleServerMessages(messages []*pb.ChatMessage) {
g.Chat.HandleServerMessages(messages)
}
func (g *Game) AssignModelToPlayer(player *types.Player) {
modelIndex := int(player.ID) % len(g.Models)
modelAsset := g.Models[modelIndex]
player.Model = modelAsset.Model
player.Texture = modelAsset.Texture
player.AnimationFrame = 0
}
func (g *Game) Run() {
if config.Current.PlayMusic {
audioInitOnce.Do(func() {
logging.Info.Println("Initializing audio device")
rl.InitAudioDevice()
if !rl.IsAudioDeviceReady() {
logging.Error.Println("Failed to initialize audio device")
}
})
defer func() {
logging.Info.Println("Closing audio device")
rl.CloseAudioDevice()
}()
}
logging.Info.Println("Starting game loop")
for !rl.WindowShouldClose() {
deltaTime := rl.GetFrameTime()
if config.Current.PlayMusic {
rl.UpdateMusicStream(g.Music)
}
g.Update(deltaTime)
g.Render()
}
logging.Info.Println("Game loop ended")
logging.Info.Println("Closing quit channel")
close(g.QuitChan)
}

31
game/input.go
View File

@ -1,31 +0,0 @@
package game
import (
"fmt"
"gitea.boner.be/bdnugget/goonscape/types"
rl "github.com/gen2brain/raylib-go/raylib"
)
func (g *Game) GetTileAtMouse() (types.Tile, bool) {
if !rl.IsMouseButtonPressed(rl.MouseLeftButton) {
return types.Tile{}, false
}
mouse := rl.GetMousePosition()
ray := rl.GetMouseRay(mouse, g.Camera)
for x := 0; x < types.MapWidth; x++ {
for y := 0; y < types.MapHeight; y++ {
tile := GetTile(x, y)
tilePos := rl.NewVector3(float32(x*types.TileSize), tile.Height*types.TileHeight, float32(y*types.TileSize))
boxMin := rl.Vector3Subtract(tilePos, rl.NewVector3(types.TileSize/2, types.TileHeight/2, types.TileSize/2))
boxMax := rl.Vector3Add(tilePos, rl.NewVector3(types.TileSize/2, types.TileHeight/2, types.TileSize/2))
if RayIntersectsBox(ray, boxMin, boxMax) {
fmt.Printf("Clicked: %d, %d\n", tile.X, tile.Y)
return tile, true
}
}
}
return types.Tile{}, false
}

185
game/login.go
View File

@ -1,185 +0,0 @@
package game
import (
rl "github.com/gen2brain/raylib-go/raylib"
)
type LoginScreen struct {
username string
password string
errorMessage string
isRegistering bool
focusedField int // 0 = username, 1 = password
}
func NewLoginScreen() *LoginScreen {
return &LoginScreen{}
}
func (l *LoginScreen) Draw() {
screenWidth := float32(rl.GetScreenWidth())
screenHeight := float32(rl.GetScreenHeight())
// Draw background
rl.DrawRectangle(0, 0, int32(screenWidth), int32(screenHeight), rl.RayWhite)
// Draw title
title := "GoonScape"
if l.isRegistering {
title += " - Register"
} else {
title += " - Login"
}
titleSize := int32(40)
titleWidth := rl.MeasureText(title, titleSize)
rl.DrawText(title, int32(screenWidth/2)-titleWidth/2, 100, titleSize, rl.Black)
// Draw input fields
inputWidth := float32(200)
inputHeight := float32(30)
inputX := screenWidth/2 - inputWidth/2
// Username field
rl.DrawRectangleRec(rl.Rectangle{
X: inputX, Y: 200,
Width: inputWidth, Height: inputHeight,
}, rl.LightGray)
rl.DrawText(l.username, int32(inputX)+5, 205, 20, rl.Black)
if l.focusedField == 0 {
rl.DrawRectangleLinesEx(rl.Rectangle{
X: inputX - 2, Y: 198,
Width: inputWidth + 4, Height: inputHeight + 4,
}, 2, rl.Blue)
}
// Password field
rl.DrawRectangleRec(rl.Rectangle{
X: inputX, Y: 250,
Width: inputWidth, Height: inputHeight,
}, rl.LightGray)
masked := ""
for range l.password {
masked += "*"
}
rl.DrawText(masked, int32(inputX)+5, 255, 20, rl.Black)
if l.focusedField == 1 {
rl.DrawRectangleLinesEx(rl.Rectangle{
X: inputX - 2, Y: 248,
Width: inputWidth + 4, Height: inputHeight + 4,
}, 2, rl.Blue)
}
// Draw error message
if l.errorMessage != "" {
msgWidth := rl.MeasureText(l.errorMessage, 20)
rl.DrawText(l.errorMessage, int32(screenWidth/2)-msgWidth/2, 300, 20, rl.Red)
}
// Draw buttons
buttonWidth := float32(100)
buttonHeight := float32(30)
buttonY := float32(350)
// Login/Register button
actionBtn := rl.Rectangle{
X: screenWidth/2 - buttonWidth - 10,
Y: buttonY,
Width: buttonWidth,
Height: buttonHeight,
}
rl.DrawRectangleRec(actionBtn, rl.Blue)
actionText := "Login"
if l.isRegistering {
actionText = "Register"
}
actionWidth := rl.MeasureText(actionText, 20)
rl.DrawText(actionText,
int32(actionBtn.X+actionBtn.Width/2)-actionWidth/2,
int32(actionBtn.Y+5),
20, rl.White)
// Switch mode button
switchBtn := rl.Rectangle{
X: screenWidth/2 + 10,
Y: buttonY,
Width: buttonWidth,
Height: buttonHeight,
}
rl.DrawRectangleRec(switchBtn, rl.DarkGray)
switchText := "Register"
if l.isRegistering {
switchText = "Login"
}
switchWidth := rl.MeasureText(switchText, 20)
rl.DrawText(switchText,
int32(switchBtn.X+switchBtn.Width/2)-switchWidth/2,
int32(switchBtn.Y+5),
20, rl.White)
}
func (l *LoginScreen) Update() (string, string, bool, bool) {
// Handle input field focus
if rl.IsMouseButtonPressed(rl.MouseLeftButton) {
mousePos := rl.GetMousePosition()
screenWidth := float32(rl.GetScreenWidth())
inputWidth := float32(200)
inputX := screenWidth/2 - inputWidth/2
// Check username field
if mousePos.X >= inputX && mousePos.X <= inputX+inputWidth &&
mousePos.Y >= 200 && mousePos.Y <= 230 {
l.focusedField = 0
}
// Check password field
if mousePos.X >= inputX && mousePos.X <= inputX+inputWidth &&
mousePos.Y >= 250 && mousePos.Y <= 280 {
l.focusedField = 1
}
// Check buttons
buttonWidth := float32(100)
if mousePos.Y >= 350 && mousePos.Y <= 380 {
// Action button
if mousePos.X >= screenWidth/2-buttonWidth-10 &&
mousePos.X <= screenWidth/2-10 {
return l.username, l.password, l.isRegistering, true
}
// Switch mode button
if mousePos.X >= screenWidth/2+10 &&
mousePos.X <= screenWidth/2+buttonWidth+10 {
l.isRegistering = !l.isRegistering
}
}
}
// Handle text input
key := rl.GetCharPressed()
for key > 0 {
if l.focusedField == 0 && len(l.username) < 12 {
l.username += string(key)
} else if l.focusedField == 1 && len(l.password) < 20 {
l.password += string(key)
}
key = rl.GetCharPressed()
}
// Handle backspace
if rl.IsKeyPressed(rl.KeyBackspace) {
if l.focusedField == 0 && len(l.username) > 0 {
l.username = l.username[:len(l.username)-1]
} else if l.focusedField == 1 && len(l.password) > 0 {
l.password = l.password[:len(l.password)-1]
}
}
// Handle tab to switch fields
if rl.IsKeyPressed(rl.KeyTab) {
l.focusedField = (l.focusedField + 1) % 2
}
return "", "", false, false
}
func (l *LoginScreen) SetError(msg string) {
l.errorMessage = msg
}

113
game/pathfinding.go
View File

@ -1,113 +0,0 @@
package game
import (
"fmt"
"gitea.boner.be/bdnugget/goonscape/types"
)
type Node struct {
Tile types.Tile
Parent *Node
G, H, F float32
}
func FindPath(start, end types.Tile) []types.Tile {
openList := []*Node{}
closedList := make(map[[2]int]bool)
startNode := &Node{Tile: start, G: 0, H: heuristic(start, end)}
startNode.F = startNode.G + startNode.H
openList = append(openList, startNode)
for len(openList) > 0 {
current := openList[0]
currentIndex := 0
for i, node := range openList {
if node.F < current.F {
current = node
currentIndex = i
}
}
openList = append(openList[:currentIndex], openList[currentIndex+1:]...)
closedList[[2]int{current.Tile.X, current.Tile.Y}] = true
if current.Tile.X == end.X && current.Tile.Y == end.Y {
path := []types.Tile{}
node := current
for node != nil {
path = append([]types.Tile{node.Tile}, path...)
node = node.Parent
}
fmt.Printf("Path found: %v\n", path)
return path
}
neighbors := GetNeighbors(current.Tile)
for _, neighbor := range neighbors {
if !neighbor.Walkable || closedList[[2]int{neighbor.X, neighbor.Y}] {
continue
}
tentativeG := current.G + distance(current.Tile, neighbor)
inOpen := false
var existingNode *Node
for _, node := range openList {
if node.Tile.X == neighbor.X && node.Tile.Y == neighbor.Y {
existingNode = node
inOpen = true
break
}
}
if !inOpen || tentativeG < existingNode.G {
newNode := &Node{
Tile: neighbor,
Parent: current,
G: tentativeG,
H: heuristic(neighbor, end),
}
newNode.F = newNode.G + newNode.H
if !inOpen {
openList = append(openList, newNode)
}
}
}
}
return nil
}
func heuristic(a, b types.Tile) float32 {
return float32(abs(a.X-b.X) + abs(a.Y-b.Y))
}
func distance(a, b types.Tile) float32 {
_, _ = a, b
return 1.0 // uniform cost for now
}
func GetNeighbors(tile types.Tile) []types.Tile {
directions := [][2]int{
{1, 0}, {-1, 0}, {0, 1}, {0, -1},
{1, 1}, {-1, -1}, {1, -1}, {-1, 1},
}
neighbors := []types.Tile{}
grid := GetMapGrid()
for _, dir := range directions {
nx, ny := tile.X+dir[0], tile.Y+dir[1]
if nx >= 0 && nx < types.MapWidth && ny >= 0 && ny < types.MapHeight {
if grid[nx][ny].Walkable {
neighbors = append(neighbors, grid[nx][ny])
}
}
}
return neighbors
}
func abs(x int) int {
if x < 0 {
return -x
}
return x
}

45
game/utils.go
View File

@ -1,45 +0,0 @@
package game
import (
rl "github.com/gen2brain/raylib-go/raylib"
)
func RayIntersectsBox(ray rl.Ray, boxMin, boxMax rl.Vector3) bool {
tmin := (boxMin.X - ray.Position.X) / ray.Direction.X
tmax := (boxMax.X - ray.Position.X) / ray.Direction.X
if tmin > tmax {
tmin, tmax = tmax, tmin
}
tymin := (boxMin.Z - ray.Position.Z) / ray.Direction.Z
tymax := (boxMax.Z - ray.Position.Z) / ray.Direction.Z
if tymin > tymax {
tymin, tymax = tymax, tymin
}
if (tmin > tymax) || (tymin > tmax) {
return false
}
if tymin > tmin {
tmin = tymin
}
if tymax < tmax {
tmax = tymax
}
tzmin := (boxMin.Y - ray.Position.Y) / ray.Direction.Y
tzmax := (boxMax.Y - ray.Position.Y) / ray.Direction.Y
if tzmin > tzmax {
tzmin, tzmax = tzmax, tzmin
}
if (tmin > tzmax) || (tzmin > tmax) {
return false
}
return true
}

39
game/world.go
View File

@ -1,39 +0,0 @@
package game
import (
"gitea.boner.be/bdnugget/goonscape/types"
)
var (
mapGrid [][]types.Tile
)
func GetMapGrid() [][]types.Tile {
return mapGrid
}
func InitWorld() {
mapGrid = make([][]types.Tile, types.MapWidth)
for x := 0; x < types.MapWidth; x++ {
mapGrid[x] = make([]types.Tile, types.MapHeight)
for y := 0; y < types.MapHeight; y++ {
mapGrid[x][y] = types.Tile{
X: x,
Y: y,
Height: 1.0 + float32(x%5),
Walkable: true,
}
}
}
}
func GetTile(x, y int) types.Tile {
if x >= 0 && x < types.MapWidth && y >= 0 && y < types.MapHeight {
return mapGrid[x][y]
}
return types.Tile{}
}
func GetTileHeight(x, y int) float32 {
return mapGrid[x][y].Height
}

16
go.mod
View File

@ -1,17 +1,15 @@
module gitea.boner.be/bdnugget/goonscape module goonscape
go 1.23.0 go 1.23.0
require ( require (
gitea.boner.be/bdnugget/goonserver v1.1.0 gitea.boner.be/bdnugget/goonserver v0.0.0-20241011122434-4bd5303cfd46
github.com/gen2brain/raylib-go/raylib v0.0.0-20250109172833-6dbba4f81a9b github.com/gen2brain/raylib-go/raylib v0.0.0-20240930075631-c66f9e2942fe
google.golang.org/protobuf v1.36.3 google.golang.org/protobuf v1.35.1
) )
require ( require (
github.com/ebitengine/purego v0.8.2 // indirect github.com/ebitengine/purego v0.8.0 // indirect
golang.org/x/exp v0.0.0-20250207012021-f9890c6ad9f3 // indirect golang.org/x/exp v0.0.0-20241009180824-f66d83c29e7c // indirect
golang.org/x/sys v0.30.0 // indirect golang.org/x/sys v0.26.0 // indirect
) )
replace gitea.boner.be/bdnugget/goonserver => ./goonserver

26
go.sum
View File

@ -1,16 +1,14 @@
github.com/ebitengine/purego v0.8.2 h1:jPPGWs2sZ1UgOSgD2bClL0MJIqu58nOmIcBuXr62z1I= gitea.boner.be/bdnugget/goonserver v0.0.0-20241011122434-4bd5303cfd46 h1:T2D4QcmvBqzGoHO0VJGNUd1k2lLmUcyg6Rc/vN4/Im8=
github.com/ebitengine/purego v0.8.2/go.mod h1:iIjxzd6CiRiOG0UyXP+V1+jWqUXVjPKLAI0mRfJZTmQ= gitea.boner.be/bdnugget/goonserver v0.0.0-20241011122434-4bd5303cfd46/go.mod h1:inR1bKrr/vcTba+G1KzmmY6vssMq9oGNOk836VwPa4c=
github.com/gen2brain/raylib-go/raylib v0.0.0-20250109172833-6dbba4f81a9b h1:JJfspevP3YOXcSKVABizYOv++yMpTJIdPUtoDzF/RWw= github.com/ebitengine/purego v0.8.0 h1:JbqvnEzRvPpxhCJzJJ2y0RbiZ8nyjccVUrSM3q+GvvE=
github.com/gen2brain/raylib-go/raylib v0.0.0-20250109172833-6dbba4f81a9b/go.mod h1:BaY76bZk7nw1/kVOSQObPY1v1iwVE1KHAGMfvI6oK1Q= github.com/ebitengine/purego v0.8.0/go.mod h1:iIjxzd6CiRiOG0UyXP+V1+jWqUXVjPKLAI0mRfJZTmQ=
github.com/gen2brain/raylib-go/raylib v0.0.0-20240930075631-c66f9e2942fe h1:mInjrbJkUglTM7tBmXG+epnPCE744aj15J7vjJwM4gs=
github.com/gen2brain/raylib-go/raylib v0.0.0-20240930075631-c66f9e2942fe/go.mod h1:BaY76bZk7nw1/kVOSQObPY1v1iwVE1KHAGMfvI6oK1Q=
github.com/google/go-cmp v0.6.0 h1:ofyhxvXcZhMsU5ulbFiLKl/XBFqE1GSq7atu8tAmTRI= github.com/google/go-cmp v0.6.0 h1:ofyhxvXcZhMsU5ulbFiLKl/XBFqE1GSq7atu8tAmTRI=
github.com/google/go-cmp v0.6.0/go.mod h1:17dUlkBOakJ0+DkrSSNjCkIjxS6bF9zb3elmeNGIjoY= github.com/google/go-cmp v0.6.0/go.mod h1:17dUlkBOakJ0+DkrSSNjCkIjxS6bF9zb3elmeNGIjoY=
golang.org/x/exp v0.0.0-20250106191152-7588d65b2ba8 h1:yqrTHse8TCMW1M1ZCP+VAR/l0kKxwaAIqN/il7x4voA= golang.org/x/exp v0.0.0-20241009180824-f66d83c29e7c h1:7dEasQXItcW1xKJ2+gg5VOiBnqWrJc+rq0DPKyvvdbY=
golang.org/x/exp v0.0.0-20250106191152-7588d65b2ba8/go.mod h1:tujkw807nyEEAamNbDrEGzRav+ilXA7PCRAd6xsmwiU= golang.org/x/exp v0.0.0-20241009180824-f66d83c29e7c/go.mod h1:NQtJDoLvd6faHhE7m4T/1IY708gDefGGjR/iUW8yQQ8=
golang.org/x/exp v0.0.0-20250207012021-f9890c6ad9f3 h1:qNgPs5exUA+G0C96DrPwNrvLSj7GT/9D+3WMWUcUg34= golang.org/x/sys v0.26.0 h1:KHjCJyddX0LoSTb3J+vWpupP9p0oznkqVk/IfjymZbo=
golang.org/x/exp v0.0.0-20250207012021-f9890c6ad9f3/go.mod h1:tujkw807nyEEAamNbDrEGzRav+ilXA7PCRAd6xsmwiU= golang.org/x/sys v0.26.0/go.mod h1:/VUhepiaJMQUp4+oa/7Zr1D23ma6VTLIYjOOTFZPUcA=
golang.org/x/sys v0.29.0 h1:TPYlXGxvx1MGTn2GiZDhnjPA9wZzZeGKHHmKhHYvgaU= google.golang.org/protobuf v1.35.1 h1:m3LfL6/Ca+fqnjnlqQXNpFPABW1UD7mjh8KO2mKFytA=
golang.org/x/sys v0.29.0/go.mod h1:/VUhepiaJMQUp4+oa/7Zr1D23ma6VTLIYjOOTFZPUcA= google.golang.org/protobuf v1.35.1/go.mod h1:9fA7Ob0pmnwhb644+1+CVWFRbNajQ6iRojtC/QF5bRE=
golang.org/x/sys v0.30.0 h1:QjkSwP/36a20jFYWkSue1YwXzLmsV5Gfq7Eiy72C1uc=
golang.org/x/sys v0.30.0/go.mod h1:/VUhepiaJMQUp4+oa/7Zr1D23ma6VTLIYjOOTFZPUcA=
google.golang.org/protobuf v1.36.3 h1:82DV7MYdb8anAVi3qge1wSnMDrnKK7ebr+I0hHRN1BU=
google.golang.org/protobuf v1.36.3/go.mod h1:9fA7Ob0pmnwhb644+1+CVWFRbNajQ6iRojtC/QF5bRE=

1
goonserver

@ -1 +0,0 @@
Subproject commit f9ec811b10bbab54e843199eb68156e9e7c143cc

16
logging/logging.go
View File

@ -1,16 +0,0 @@
package logging
import (
"log"
"os"
)
var (
Info *log.Logger
Error *log.Logger
)
func init() {
Info = log.New(os.Stdout, "INFO: ", log.Ldate|log.Ltime|log.Lshortfile)
Error = log.New(os.Stderr, "ERROR: ", log.Ldate|log.Ltime|log.Lshortfile)
}

590
main.go
View File

@ -1,79 +1,547 @@
package main package main
import ( import (
"flag" "fmt"
"log" "log"
"strings" "math"
"net"
"time"
"gitea.boner.be/bdnugget/goonscape/config" pb "gitea.boner.be/bdnugget/goonserver/actions"
"gitea.boner.be/bdnugget/goonscape/game"
"gitea.boner.be/bdnugget/goonscape/logging"
"gitea.boner.be/bdnugget/goonscape/network"
rl "github.com/gen2brain/raylib-go/raylib" rl "github.com/gen2brain/raylib-go/raylib"
"google.golang.org/protobuf/proto"
) )
const (
MapWidth = 50
MapHeight = 50
TileSize = 32
TileHeight = 2.0
TickRate = 2600 * time.Millisecond // Server tick rate (600ms)
serverAddr = "localhost:6969"
)
var (
cameraDistance = float32(20.0)
cameraYaw = float32(145.0)
cameraPitch = float32(45.0) // Adjusted for a more overhead view
)
type Tile struct {
X, Y int
Height float32
Walkable bool
}
type ActionType int
const (
MoveAction ActionType = iota
)
type Action struct {
Type ActionType
X, Y int // Target position for movement
}
type Player struct {
PosActual rl.Vector3
PosTile Tile
TargetPath []Tile
Speed float32
ActionQueue []Action // Queue for player actions
}
// Initialize the map with some height data
func InitMap() [][]Tile {
mapGrid := make([][]Tile, MapWidth)
for x := 0; x < MapWidth; x++ {
mapGrid[x] = make([]Tile, MapHeight)
for y := 0; y < MapHeight; y++ {
mapGrid[x][y] = Tile{
X: x,
Y: y,
Height: 1.0 + float32(x%5), // Example height
Walkable: true, // Set to false for obstacles
}
}
}
return mapGrid
}
func DrawMap(mapGrid [][]Tile) {
for x := 0; x < MapWidth; x++ {
for y := 0; y < MapHeight; y++ {
tile := mapGrid[x][y]
// Interpolate height between adjacent tiles for a smoother landscape
height := tile.Height
if x > 0 {
height += mapGrid[x-1][y].Height
}
if y > 0 {
height += mapGrid[x][y-1].Height
}
if x > 0 && y > 0 {
height += mapGrid[x-1][y-1].Height
}
height /= 4.0
// Draw each tile as a 3D cube based on its height
tilePos := rl.Vector3{
X: float32(x * TileSize), // X-axis for horizontal position
Y: height * TileHeight, // Y-axis for height (Z in 3D is Y here)
Z: float32(y * TileSize), // Z-axis for depth (Y in 3D is Z here)
}
color := rl.Color{R: uint8(height * 25), G: 100, B: 100, A: 64}
rl.DrawCube(tilePos, TileSize, TileHeight, TileSize, color) // Draw a cube representing the tile
}
}
}
func DrawPlayer(player Player, model *rl.Model, mapGrid [][]Tile) {
// Draw the player based on its actual position (PosActual) and current tile height
playerPos := rl.Vector3{
X: player.PosActual.X,
Y: mapGrid[player.PosTile.X][player.PosTile.Y].Height*TileHeight + 16.0,
Z: player.PosActual.Z,
}
// rl.DrawCube(playerPos, 16, 16, 16, rl.Green) // Draw player cube
rl.DrawModel(*model, playerPos, 16, rl.White)
// Draw highlight around target tile
if len(player.TargetPath) > 0 {
targetTile := player.TargetPath[len(player.TargetPath)-1] // last tile in the slice
targetPos := rl.Vector3{
X: float32(targetTile.X * TileSize),
Y: mapGrid[targetTile.X][targetTile.Y].Height * TileHeight,
Z: float32(targetTile.Y * TileSize),
}
rl.DrawCubeWires(targetPos, TileSize, TileHeight, TileSize, rl.Green)
nextTile := player.TargetPath[0] // first tile in the slice
nextPos := rl.Vector3{
X: float32(nextTile.X * TileSize),
Y: mapGrid[nextTile.X][nextTile.Y].Height * TileHeight,
Z: float32(nextTile.Y * TileSize),
}
rl.DrawCubeWires(nextPos, TileSize, TileHeight, TileSize, rl.Yellow)
}
}
// Helper function to test ray-box intersection (slab method)
func RayIntersectsBox(ray rl.Ray, boxMin, boxMax rl.Vector3) bool {
tmin := (boxMin.X - ray.Position.X) / ray.Direction.X
tmax := (boxMax.X - ray.Position.X) / ray.Direction.X
if tmin > tmax {
tmin, tmax = tmax, tmin
}
tymin := (boxMin.Z - ray.Position.Z) / ray.Direction.Z
tymax := (boxMax.Z - ray.Position.Z) / ray.Direction.Z
if tymin > tymax {
tymin, tymax = tymax, tymin
}
if (tmin > tymax) || (tymin > tmax) {
return false
}
if tymin > tmin {
tmin = tymin
}
if tymax < tmax {
tmax = tymax
}
tzmin := (boxMin.Y - ray.Position.Y) / ray.Direction.Y
tzmax := (boxMax.Y - ray.Position.Y) / ray.Direction.Y
if tzmin > tzmax {
tzmin, tzmax = tzmax, tzmin
}
if (tmin > tzmax) || (tzmin > tmax) {
return false
}
return true
}
func GetTileAtMouse(mapGrid [][]Tile, camera *rl.Camera3D) (Tile, bool) {
if !rl.IsMouseButtonPressed(rl.MouseLeftButton) {
return Tile{}, false
}
mouse := rl.GetMousePosition()
ray := rl.GetMouseRay(mouse, *camera)
for x := 0; x < MapWidth; x++ {
for y := 0; y < MapHeight; y++ {
tile := mapGrid[x][y]
// Define the bounding box for each tile based on its position and height
tilePos := rl.NewVector3(float32(x*TileSize), tile.Height*TileHeight, float32(y*TileSize))
boxMin := rl.Vector3Subtract(tilePos, rl.NewVector3(TileSize/2, TileHeight/2, TileSize/2))
boxMax := rl.Vector3Add(tilePos, rl.NewVector3(TileSize/2, TileHeight/2, TileSize/2))
// Check if the ray intersects the bounding box
if RayIntersectsBox(ray, boxMin, boxMax) {
fmt.Println("Clicked:", tile.X, tile.Y)
return tile, true
}
}
}
return Tile{}, false
}
func (player *Player) MoveTowards(target Tile, deltaTime float32, mapGrid [][]Tile) {
// Calculate the direction vector to the target tile
targetPos := rl.Vector3{
X: float32(target.X * TileSize),
Y: mapGrid[target.X][target.Y].Height * TileHeight,
Z: float32(target.Y * TileSize),
}
// Calculate direction and normalize it for smooth movement
direction := rl.Vector3Subtract(targetPos, player.PosActual)
distance := rl.Vector3Length(direction)
if distance > 0 {
direction = rl.Vector3Scale(direction, player.Speed*deltaTime/distance)
}
// Move the player towards the target tile
if distance > 1.0 {
player.PosActual = rl.Vector3Add(player.PosActual, direction)
} else {
// Snap to the target tile when close enough
player.PosActual = targetPos
player.PosTile = target // Update player's tile
player.TargetPath = player.TargetPath[1:] // Move to next tile in path if any
}
}
func HandleInput(player *Player, mapGrid [][]Tile, camera *rl.Camera) {
clickedTile, clicked := GetTileAtMouse(mapGrid, camera)
if clicked {
path := FindPath(mapGrid, mapGrid[player.PosTile.X][player.PosTile.Y], clickedTile)
if path != nil {
// Exclude the first tile (current position)
if len(path) > 1 {
player.TargetPath = path[1:]
player.ActionQueue = append(player.ActionQueue, Action{Type: MoveAction, X: clickedTile.X, Y: clickedTile.Y})
}
}
}
}
func UpdateCamera(camera *rl.Camera3D, player rl.Vector3, deltaTime float32) {
// Update camera based on mouse wheel
wheelMove := rl.GetMouseWheelMove()
if wheelMove != 0 {
cameraDistance += -wheelMove * 5
if cameraDistance < 10 {
cameraDistance = 10
}
if cameraDistance > 250 {
cameraDistance = 250
}
}
// Orbit camera around the player using arrow keys
if rl.IsKeyDown(rl.KeyRight) {
cameraYaw += 100 * deltaTime
}
if rl.IsKeyDown(rl.KeyLeft) {
cameraYaw -= 100 * deltaTime
}
if rl.IsKeyDown(rl.KeyUp) {
cameraPitch -= 50 * deltaTime
if cameraPitch < 20 {
cameraPitch = 20
}
}
if rl.IsKeyDown(rl.KeyDown) {
cameraPitch += 50 * deltaTime
if cameraPitch > 85 {
cameraPitch = 85
}
}
// Calculate the new camera position using spherical coordinates
cameraYawRad := float64(cameraYaw) * rl.Deg2rad
cameraPitchRad := float64(cameraPitch) * rl.Deg2rad
cameraPos := rl.Vector3{
X: player.X + cameraDistance*float32(math.Cos(cameraYawRad))*float32(math.Cos(cameraPitchRad)),
Y: player.Y + cameraDistance*float32(math.Sin(cameraPitchRad)),
Z: player.Z + cameraDistance*float32(math.Sin(cameraYawRad))*float32(math.Cos(cameraPitchRad)),
}
// Update the camera's position and target
camera.Position = cameraPos
camera.Target = rl.NewVector3(player.X, player.Y, player.Z)
}
func main() { func main() {
logging.Info.Println("Starting GoonScape client")
// Raylib log level warn
rl.SetTraceLogLevel(rl.LogWarning)
// Parse command line flags
local := flag.Bool("local", false, "Connect to local server")
addr := flag.String("addr", "", "Server address (host or host:port)")
noMusic := flag.Bool("no-music", false, "Disable music playback")
flag.Parse()
// Set config before any game initialization
config.Current.PlayMusic = !*noMusic
// Set server address based on flags
if *local {
if *addr != "" {
log.Fatal("Cannot use -local and -addr together")
}
network.SetServerAddr("localhost:6969")
} else if *addr != "" {
// If port is not specified, append default port
if !strings.Contains(*addr, ":") {
*addr += ":6969"
}
network.SetServerAddr(*addr)
}
logging.Info.Println("Initializing window")
rl.InitWindow(1024, 768, "GoonScape") rl.InitWindow(1024, 768, "GoonScape")
defer func() { defer rl.CloseWindow()
logging.Info.Println("Closing window")
rl.CloseWindow()
}()
// Initialize audio device first
if !rl.IsAudioDeviceReady() {
rl.InitAudioDevice() rl.InitAudioDevice()
if !rl.IsAudioDeviceReady() {
log.Fatal("Failed to initialize audio device")
}
}
defer rl.CloseAudioDevice() defer rl.CloseAudioDevice()
game := game.New() mapGrid := InitMap()
logging.Info.Println("Loading game assets")
if err := game.LoadAssets(); err != nil {
log.Fatalf("Failed to load assets: %v", err)
}
defer func() {
logging.Info.Println("Cleaning up game resources")
game.Cleanup()
}()
if config.Current.PlayMusic { player := Player{
logging.Info.Println("Starting music playback") PosActual: rl.NewVector3(5*TileSize, 0, 5*TileSize),
rl.PlayMusicStream(game.Music) PosTile: mapGrid[5][5],
rl.SetMusicVolume(game.Music, 0.5) Speed: 50.0,
TargetPath: []Tile{},
} }
camera := rl.Camera3D{
Position: rl.NewVector3(0, 10, 10), // Will be updated every frame
Target: player.PosActual,
Up: rl.NewVector3(0, 1, 0), // Y is up in 3D
Fovy: 45.0,
Projection: rl.CameraPerspective,
}
conn, playerID, err := ConnectToServer()
if err != nil {
log.Fatalf("Failed to connect to server: %v", err)
}
log.Printf("Player ID: %d", playerID)
defer conn.Close()
go HandleServerCommunication(conn, playerID, &player)
playerModel := rl.LoadModel("resources/models/goonion.obj")
defer rl.UnloadModel(playerModel)
playerTexture := rl.LoadTexture("resources/models/goonion.png")
defer rl.UnloadTexture(playerTexture)
rl.SetMaterialTexture(playerModel.Materials, rl.MapDiffuse, playerTexture)
coomerModel := rl.LoadModel("resources/models/coomer.obj")
defer rl.UnloadModel(coomerModel)
coomerTexture := rl.LoadTexture("resources/models/coomer.png")
defer rl.UnloadTexture(coomerTexture)
rl.SetMaterialTexture(coomerModel.Materials, rl.MapDiffuse, coomerTexture)
rl.SetTargetFPS(60) rl.SetTargetFPS(60)
logging.Info.Println("Starting game loop")
game.Run() // Music
logging.Info.Println("Game exited cleanly") music := rl.LoadMusicStream("resources/audio/GoonScape2.mp3")
rl.PlayMusicStream(music)
rl.SetMusicVolume(music, 0.5)
defer rl.UnloadMusicStream(music)
for !rl.WindowShouldClose() {
rl.UpdateMusicStream(music)
// Time management
deltaTime := rl.GetFrameTime()
// Handle input
HandleInput(&player, mapGrid, &camera)
// Update player
if len(player.TargetPath) > 0 {
player.MoveTowards(player.TargetPath[0], deltaTime, mapGrid)
}
// Update camera
UpdateCamera(&camera, player.PosActual, deltaTime)
// Rendering
rl.BeginDrawing()
rl.ClearBackground(rl.RayWhite)
rl.BeginMode3D(camera)
DrawMap(mapGrid)
DrawPlayer(player, &playerModel, mapGrid)
rl.DrawModel(coomerModel, rl.NewVector3(5*TileSize+32, 32, 5*TileSize+32), 16, rl.White)
rl.DrawFPS(10, 10)
rl.EndMode3D()
rl.EndDrawing()
}
}
func ConnectToServer() (net.Conn, int32, error) {
// Attempt to connect to the server
conn, err := net.Dial("tcp", serverAddr)
if err != nil {
log.Printf("Failed to dial server: %v", err)
return nil, 0, err
}
log.Println("Connected to server. Waiting for player ID...")
// Buffer for incoming server message
buf := make([]byte, 1024)
n, err := conn.Read(buf)
if err != nil {
log.Printf("Error reading player ID from server: %v", err)
return nil, 0, err
}
log.Printf("Received data: %x", buf[:n])
// Unmarshal server message to extract the player ID
var response pb.ServerMessage
if err := proto.Unmarshal(buf[:n], &response); err != nil {
log.Printf("Failed to unmarshal server response: %v", err)
return nil, 0, err
}
playerID := response.GetPlayerId()
log.Printf("Successfully connected with player ID: %d", playerID)
return conn, playerID, nil
}
func HandleServerCommunication(conn net.Conn, playerID int32, player *Player) {
for {
// Check if there are actions in the player's queue
if len(player.ActionQueue) > 0 {
// Process the first action in the queue
actionData := player.ActionQueue[0]
action := &pb.Action{
PlayerId: playerID,
Type: pb.Action_MOVE,
X: int32(actionData.X),
Y: int32(actionData.Y),
}
// Serialize the action
data, err := proto.Marshal(action)
if err != nil {
log.Printf("Failed to marshal action: %v", err)
continue
}
// Send action to server
_, err = conn.Write(data)
if err != nil {
log.Printf("Failed to send action to server: %v", err)
return
}
// Remove the action from the queue once it's sent
player.ActionQueue = player.ActionQueue[1:]
}
// Add a delay based on the server's tick rate
time.Sleep(TickRate)
}
}
// pathfinding
type Node struct {
Tile Tile
Parent *Node
G, H, F float32
}
func FindPath(mapGrid [][]Tile, start, end Tile) []Tile {
openList := []*Node{}
closedList := make(map[[2]int]bool)
startNode := &Node{Tile: start, G: 0, H: heuristic(start, end)}
startNode.F = startNode.G + startNode.H
openList = append(openList, startNode)
for len(openList) > 0 {
// Find node with lowest F
current := openList[0]
currentIndex := 0
for i, node := range openList {
if node.F < current.F {
current = node
currentIndex = i
}
}
// Move current to closed list
openList = append(openList[:currentIndex], openList[currentIndex+1:]...)
closedList[[2]int{current.Tile.X, current.Tile.Y}] = true
// Check if reached the end
if current.Tile.X == end.X && current.Tile.Y == end.Y {
path := []Tile{}
node := current
for node != nil {
path = append([]Tile{node.Tile}, path...)
node = node.Parent
}
fmt.Printf("Path found: %v\n", path)
return path
}
// Generate neighbors
neighbors := GetNeighbors(mapGrid, current.Tile)
for _, neighbor := range neighbors {
if !neighbor.Walkable || closedList[[2]int{neighbor.X, neighbor.Y}] {
continue
}
tentativeG := current.G + distance(current.Tile, neighbor)
inOpen := false
var existingNode *Node
for _, node := range openList {
if node.Tile.X == neighbor.X && node.Tile.Y == neighbor.Y {
existingNode = node
inOpen = true
break
}
}
if !inOpen || tentativeG < existingNode.G {
newNode := &Node{
Tile: neighbor,
Parent: current,
G: tentativeG,
H: heuristic(neighbor, end),
}
newNode.F = newNode.G + newNode.H
if !inOpen {
openList = append(openList, newNode)
}
}
}
}
// No path found
fmt.Println("No path found")
return nil
}
func heuristic(a, b Tile) float32 {
return float32(abs(a.X-b.X) + abs(a.Y-b.Y))
}
func distance(a, b Tile) float32 {
_ = a
_ = b
return 1.0 //uniform cost for now
}
func GetNeighbors(mapGrid [][]Tile, tile Tile) []Tile {
directions := [][2]int{
{1, 0}, {-1, 0}, {0, 1}, {0, -1},
{1, 1}, {-1, -1}, {1, -1}, {-1, 1},
}
neighbors := []Tile{}
for _, dir := range directions {
nx, ny := tile.X+dir[0], tile.Y+dir[1]
if nx >= 0 && nx < MapWidth && ny >= 0 && ny < MapHeight {
neighbors = append(neighbors, mapGrid[nx][ny])
}
}
return neighbors
}
func abs(x int) int {
if x < 0 {
return -x
}
return x
} }

240
network/network.go
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package network
import (
"bufio"
"context"
"encoding/binary"
"fmt"
"io"
"log"
"net"
"sync"
"time"
"gitea.boner.be/bdnugget/goonscape/logging"
"gitea.boner.be/bdnugget/goonscape/types"
pb "gitea.boner.be/bdnugget/goonserver/actions"
"google.golang.org/protobuf/proto"
)
const protoVersion = 1
var serverAddr = "boner.be:6969"
type NetworkManager struct {
ctx context.Context
conn net.Conn
reader *bufio.Reader
writer *bufio.Writer
mu sync.Mutex
}
func NewNetworkManager(ctx context.Context) *NetworkManager {
return &NetworkManager{
ctx: ctx,
}
}
func SetServerAddr(addr string) {
serverAddr = addr
}
func (nm *NetworkManager) Connect(addr string) error {
nm.mu.Lock()
defer nm.mu.Unlock()
var err error
nm.conn, err = net.Dial("tcp", addr)
if err != nil {
return err
}
nm.reader = bufio.NewReader(nm.conn)
nm.writer = bufio.NewWriter(nm.conn)
go nm.readLoop()
return nil
}
func (nm *NetworkManager) readLoop() {
for {
select {
case <-nm.ctx.Done():
return
default:
// Read and process messages
}
}
}
func (nm *NetworkManager) Send(message proto.Message) error {
nm.mu.Lock()
defer nm.mu.Unlock()
data, err := proto.Marshal(message)
if err != nil {
return err
}
// Write length prefix
lengthBuf := make([]byte, 4)
binary.BigEndian.PutUint32(lengthBuf, uint32(len(data)))
if _, err := nm.writer.Write(lengthBuf); err != nil {
return err
}
// Write message body
if _, err := nm.writer.Write(data); err != nil {
return err
}
return nm.writer.Flush()
}
func ConnectToServer(username, password string, isRegistering bool) (net.Conn, int32, error) {
logging.Info.Println("Attempting to connect to server at", serverAddr)
conn, err := net.Dial("tcp", serverAddr)
if err != nil {
logging.Error.Printf("Failed to dial server: %v", err)
return nil, 0, err
}
logging.Info.Println("Connected to server. Authenticating...")
// Send auth message
authAction := &pb.Action{
Type: pb.Action_LOGIN,
Username: username,
Password: password,
}
if isRegistering {
authAction.Type = pb.Action_REGISTER
}
authBatch := &pb.ActionBatch{
Actions: []*pb.Action{authAction},
ProtocolVersion: protoVersion,
}
if err := writeMessage(conn, authBatch); err != nil {
conn.Close()
return nil, 0, fmt.Errorf("failed to send auth: %v", err)
}
// Read server response
reader := bufio.NewReader(conn)
lengthBuf := make([]byte, 4)
if _, err := io.ReadFull(reader, lengthBuf); err != nil {
conn.Close()
return nil, 0, fmt.Errorf("failed to read auth response: %v", err)
}
messageLength := binary.BigEndian.Uint32(lengthBuf)
messageBuf := make([]byte, messageLength)
if _, err := io.ReadFull(reader, messageBuf); err != nil {
conn.Close()
return nil, 0, fmt.Errorf("failed to read auth response body: %v", err)
}
var response pb.ServerMessage
if err := proto.Unmarshal(messageBuf, &response); err != nil {
conn.Close()
return nil, 0, fmt.Errorf("failed to unmarshal auth response: %v", err)
}
if response.ProtocolVersion > protoVersion {
conn.Close()
return nil, 0, fmt.Errorf("server requires newer protocol version (server: %d, client: %d)",
response.ProtocolVersion, protoVersion)
}
if !response.AuthSuccess {
conn.Close()
return nil, 0, fmt.Errorf("authentication failed: %s", response.ErrorMessage)
}
playerID := response.GetPlayerId()
log.Printf("Successfully authenticated with player ID: %d", playerID)
return conn, playerID, nil
}
func HandleServerCommunication(conn net.Conn, playerID int32, player *types.Player, otherPlayers *sync.Map, quitChan <-chan struct{}) {
defer func() {
logging.Info.Println("Closing connection and cleaning up for player", playerID)
conn.Close()
close(player.QuitDone)
}()
reader := bufio.NewReader(conn)
ticker := time.NewTicker(100 * time.Millisecond)
defer ticker.Stop()
for {
select {
case <-quitChan:
return
case <-ticker.C:
// Read message length
lengthBuf := make([]byte, 4)
if _, err := io.ReadFull(reader, lengthBuf); err != nil {
log.Printf("Failed to read message length: %v", err)
continue
}
messageLength := binary.BigEndian.Uint32(lengthBuf)
// Read message body
messageBuf := make([]byte, messageLength)
if _, err := io.ReadFull(reader, messageBuf); err != nil {
log.Printf("Failed to read message body: %v", err)
continue
}
// Process server message
var serverMessage pb.ServerMessage
if err := proto.Unmarshal(messageBuf, &serverMessage); err != nil {
log.Printf("Failed to unmarshal server message: %v", err)
continue
}
// Update player states
for _, state := range serverMessage.Players {
if state == nil {
logging.Error.Println("Received nil player state")
continue
}
if state.PlayerId == playerID {
player.UpdatePosition(state, types.ServerTickRate)
} else if existing, ok := otherPlayers.Load(state.PlayerId); ok {
existing.(*types.Player).UpdatePosition(state, types.ServerTickRate)
} else {
newPlayer := types.NewPlayer(state)
otherPlayers.Store(state.PlayerId, newPlayer)
}
}
// Handle chat messages
if handler, ok := player.UserData.(types.ChatMessageHandler); ok {
handler.HandleServerMessages(serverMessage.ChatMessages)
}
}
}
}
// Helper function to write length-prefixed messages
func writeMessage(conn net.Conn, msg proto.Message) error {
data, err := proto.Marshal(msg)
if err != nil {
return err
}
// Write length prefix
lengthBuf := make([]byte, 4)
binary.BigEndian.PutUint32(lengthBuf, uint32(len(data)))
if _, err := conn.Write(lengthBuf); err != nil {
return err
}
// Write message body
_, err = conn.Write(data)
return err
}

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resources/models/coomer/Animation_Confused_Scratch_withSkin.glb
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12
resources/models/shreke.mtl
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@ -1,12 +0,0 @@
# Blender 3.6.0 MTL File: 'None'
# www.blender.org
newmtl Material.001
Ns 250.000000
Ka 1.000000 1.000000 1.000000
Ks 0.500000 0.500000 0.500000
Ke 0.000000 0.000000 0.000000
Ni 1.450000
d 1.000000
illum 2
map_Kd shreke.png

210035
resources/models/shreke.obj
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27
scripts/build.sh
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@ -1,27 +0,0 @@
#!/bin/bash
# Main build process
build() {
local os=$1
local arch=$2
local output=$3
# Set GOOS and GOARCH for cross-compilation
export GOOS=$os
export GOARCH=$arch
# Disable CGO only for cross-compilation
if [ "$os" != "$(go env GOOS)" ] || [ "$arch" != "$(go env GOARCH)" ]; then
export CGO_ENABLED=0
fi
if [ "$os" = "windows" ]; then
export CC=x86_64-w64-mingw32-gcc
export CXX=x86_64-w64-mingw32-g++
fi
go build -buildvcs=false -ldflags="-s -w" -o $output
}
# Call build with provided arguments
build "$1" "$2" "$3"

1
scripts/platforms.mk
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@ -1 +0,0 @@
PLATFORMS=windows/amd64 linux/amd64

126
segfault.txt
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@ -1,126 +0,0 @@
INFO: 2025/02/10 15:53:21 main.go:16: Starting GoonScape client
INFO: 2025/02/10 15:53:21 main.go:43: Initializing window
INFO: 2025/02/10 15:53:21 main.go:60: Loading game assets
INFO: 2025/02/10 15:53:21 game.go:61: Loading game assets
INFO: 2025/02/10 15:53:21 assets.go:51: Loading models
INFO: 2025/02/10 15:53:21 game.go:81: Music disabled by config
INFO: 2025/02/10 15:53:21 game.go:84: Assets loaded successfully
INFO: 2025/02/10 15:53:21 main.go:76: Starting game loop
INFO: 2025/02/10 15:53:21 game.go:456: Starting game loop
malloc(): unsorted double linked list corrupted
SIGABRT: abort
PC=0x78a790604c4c m=0 sigcode=18446744073709551610
signal arrived during cgo execution
goroutine 1 gp=0xc0000061c0 m=0 mp=0xaf8e20 [syscall, locked to thread]:
runtime.cgocall(0x6da9a0, 0xc00002da50)
/usr/lib/go/src/runtime/cgocall.go:167 +0x5b fp=0xc00002da28 sp=0xc00002d9f0 pc=0x46d0fb
github.com/gen2brain/raylib-go/raylib._Cfunc_EndDrawing()
_cgo_gotypes.go:2539 +0x3f fp=0xc00002da50 sp=0xc00002da28 pc=0x51cdbf
github.com/gen2brain/raylib-go/raylib.EndDrawing(...)
/home/bd/.cache/go/mod/github.com/gen2brain/raylib-go/raylib@v0.0.0-20250109172833-6dbba4f81a9b/rcore.go:464
gitea.boner.be/bdnugget/goonscape/game.(*Game).Render.func1()
/home/bd/Projects/go/goonscape/game/game.go:259 +0x36 fp=0xc00002da68 sp=0xc00002da50 pc=0x6b6fb6
runtime.deferreturn()
/usr/lib/go/src/runtime/panic.go:605 +0x5e fp=0xc00002daf8 sp=0xc00002da68 pc=0x4396fe
gitea.boner.be/bdnugget/goonscape/game.(*Game).Render(0xc0001ae000)
/home/bd/Projects/go/goonscape/game/game.go:265 +0x405 fp=0xc00002dbf8 sp=0xc00002daf8 pc=0x6b27a5
gitea.boner.be/bdnugget/goonscape/game.(*Game).Run(0xc0001ae000)
/home/bd/Projects/go/goonscape/game/game.go:463 +0x105 fp=0xc00002dcc0 sp=0xc00002dbf8 pc=0x6b3e85
main.main()
/home/bd/Projects/go/goonscape/main.go:77 +0xb85 fp=0xc00002df50 sp=0xc00002dcc0 pc=0x6b8345
runtime.main()
/usr/lib/go/src/runtime/proc.go:272 +0x28b fp=0xc00002dfe0 sp=0xc00002df50 pc=0x43d84b
runtime.goexit({})
/usr/lib/go/src/runtime/asm_amd64.s:1700 +0x1 fp=0xc00002dfe8 sp=0xc00002dfe0 pc=0x47ac81
goroutine 2 gp=0xc000006c40 m=nil [force gc (idle)]:
runtime.gopark(0xaedc20?, 0xaf8e20?, 0x0?, 0x0?, 0x0?)
/usr/lib/go/src/runtime/proc.go:424 +0xce fp=0xc0000567a8 sp=0xc000056788 pc=0x47356e
runtime.goparkunlock(...)
/usr/lib/go/src/runtime/proc.go:430
runtime.forcegchelper()
/usr/lib/go/src/runtime/proc.go:337 +0xb3 fp=0xc0000567e0 sp=0xc0000567a8 pc=0x43db93
runtime.goexit({})
/usr/lib/go/src/runtime/asm_amd64.s:1700 +0x1 fp=0xc0000567e8 sp=0xc0000567e0 pc=0x47ac81
created by runtime.init.7 in goroutine 1
/usr/lib/go/src/runtime/proc.go:325 +0x1a
goroutine 3 gp=0xc000007180 m=nil [GC sweep wait]:
runtime.gopark(0x0?, 0x0?, 0x0?, 0x0?, 0x0?)
/usr/lib/go/src/runtime/proc.go:424 +0xce fp=0xc00006af80 sp=0xc00006af60 pc=0x47356e
runtime.goparkunlock(...)
/usr/lib/go/src/runtime/proc.go:430
runtime.bgsweep(0xc000080000)
/usr/lib/go/src/runtime/mgcsweep.go:277 +0x94 fp=0xc00006afc8 sp=0xc00006af80 pc=0x428714
runtime.gcenable.gowrap1()
/usr/lib/go/src/runtime/mgc.go:204 +0x25 fp=0xc00006afe0 sp=0xc00006afc8 pc=0x41ce25
runtime.goexit({})
/usr/lib/go/src/runtime/asm_amd64.s:1700 +0x1 fp=0xc00006afe8 sp=0xc00006afe0 pc=0x47ac81
created by runtime.gcenable in goroutine 1
/usr/lib/go/src/runtime/mgc.go:204 +0x66
goroutine 4 gp=0xc000007340 m=nil [GC scavenge wait]:
runtime.gopark(0xc000080000?, 0x8e5b60?, 0x1?, 0x0?, 0xc000007340?)
/usr/lib/go/src/runtime/proc.go:424 +0xce fp=0xc000064f78 sp=0xc000064f58 pc=0x47356e
runtime.goparkunlock(...)
/usr/lib/go/src/runtime/proc.go:430
runtime.(*scavengerState).park(0xaf8060)
/usr/lib/go/src/runtime/mgcscavenge.go:425 +0x49 fp=0xc000064fa8 sp=0xc000064f78 pc=0x426149
runtime.bgscavenge(0xc000080000)
/usr/lib/go/src/runtime/mgcscavenge.go:653 +0x3c fp=0xc000064fc8 sp=0xc000064fa8 pc=0x4266bc
runtime.gcenable.gowrap2()
/usr/lib/go/src/runtime/mgc.go:205 +0x25 fp=0xc000064fe0 sp=0xc000064fc8 pc=0x41cdc5
runtime.goexit({})
/usr/lib/go/src/runtime/asm_amd64.s:1700 +0x1 fp=0xc000064fe8 sp=0xc000064fe0 pc=0x47ac81
created by runtime.gcenable in goroutine 1
/usr/lib/go/src/runtime/mgc.go:205 +0xa5
goroutine 18 gp=0xc000104700 m=nil [finalizer wait]:
runtime.gopark(0x0?, 0x0?, 0x0?, 0x0?, 0x0?)
/usr/lib/go/src/runtime/proc.go:424 +0xce fp=0xc000184e20 sp=0xc000184e00 pc=0x47356e
runtime.runfinq()
/usr/lib/go/src/runtime/mfinal.go:193 +0x145 fp=0xc000184fe0 sp=0xc000184e20 pc=0x41bea5
runtime.goexit({})
/usr/lib/go/src/runtime/asm_amd64.s:1700 +0x1 fp=0xc000184fe8 sp=0xc000184fe0 pc=0x47ac81
created by runtime.createfing in goroutine 1
/usr/lib/go/src/runtime/mfinal.go:163 +0x3d
goroutine 19 gp=0xc0001048c0 m=nil [chan receive]:
runtime.gopark(0x0?, 0x0?, 0x0?, 0x0?, 0x0?)
/usr/lib/go/src/runtime/proc.go:424 +0xce fp=0xc00006bf18 sp=0xc00006bef8 pc=0x47356e
runtime.chanrecv(0xc0001140e0, 0x0, 0x1)
/usr/lib/go/src/runtime/chan.go:639 +0x3bc fp=0xc00006bf90 sp=0xc00006bf18 pc=0x40c89c
runtime.chanrecv1(0x0?, 0x0?)
/usr/lib/go/src/runtime/chan.go:489 +0x12 fp=0xc00006bfb8 sp=0xc00006bf90 pc=0x40c4d2
runtime.unique_runtime_registerUniqueMapCleanup.func1(...)
/usr/lib/go/src/runtime/mgc.go:1781
runtime.unique_runtime_registerUniqueMapCleanup.gowrap1()
/usr/lib/go/src/runtime/mgc.go:1784 +0x2f fp=0xc00006bfe0 sp=0xc00006bfb8 pc=0x41fe4f
runtime.goexit({})
/usr/lib/go/src/runtime/asm_amd64.s:1700 +0x1 fp=0xc00006bfe8 sp=0xc00006bfe0 pc=0x47ac81
created by unique.runtime_registerUniqueMapCleanup in goroutine 1
/usr/lib/go/src/runtime/mgc.go:1779 +0x96
rax 0x0
rbx 0x4829
rcx 0x78a790604c4c
rdx 0x6
rdi 0x4829
rsi 0x4829
rbp 0x78a7902fc740
rsp 0x7ffd63425870
r8 0xffffffff
r9 0x0
r10 0x8
r11 0x246
r12 0x7ffd634259d0
r13 0x6
r14 0x7ffd634259d0
r15 0x7ffd634259d0
rip 0x78a790604c4c
rflags 0x246
cs 0x33
fs 0x0
gs 0x0
exit status 2

128
types/player.go
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@ -1,128 +0,0 @@
package types
import (
"sync"
"time"
pb "gitea.boner.be/bdnugget/goonserver/actions"
rl "github.com/gen2brain/raylib-go/raylib"
)
type Player struct {
sync.RWMutex
PosActual rl.Vector3
PosTile Tile
TargetPath []Tile
ActionQueue []*pb.Action
Speed float32
ID int32
IsMoving bool
AnimationFrame int32
LastAnimUpdate time.Time
LastUpdateTime time.Time
InterpolationProgress float32
FloatingMessage *FloatingMessage
QuitDone chan struct{}
UserData interface{}
Model rl.Model
Texture rl.Texture2D
Username string
}
func (p *Player) MoveTowards(target Tile, deltaTime float32, mapGrid [][]Tile) {
p.Lock()
defer p.Unlock()
targetPos := rl.Vector3{
X: float32(target.X * TileSize),
Y: mapGrid[target.X][target.Y].Height * TileHeight,
Z: float32(target.Y * TileSize),
}
direction := rl.Vector3Subtract(targetPos, p.PosActual)
distance := rl.Vector3Length(direction)
if distance > 1.0 {
wasMoving := p.IsMoving
p.IsMoving = true
if !wasMoving {
p.AnimationFrame = 0
}
oldFrame := p.AnimationFrame
p.AnimationFrame += int32(deltaTime * 60)
rl.TraceLog(rl.LogInfo, "Walk frame update: %d -> %d (delta: %f)",
oldFrame, p.AnimationFrame, deltaTime)
} else {
wasMoving := p.IsMoving
p.IsMoving = false
if wasMoving {
p.AnimationFrame = 0
}
oldFrame := p.AnimationFrame
p.AnimationFrame += int32(deltaTime * 60)
rl.TraceLog(rl.LogInfo, "Idle frame update: %d -> %d (delta: %f)",
oldFrame, p.AnimationFrame, deltaTime)
}
if distance > 0 {
direction = rl.Vector3Scale(direction, p.Speed*deltaTime/distance)
}
if distance > 1.0 {
p.PosActual = rl.Vector3Add(p.PosActual, direction)
} else {
p.PosActual = targetPos
p.PosTile = target
if len(p.TargetPath) > 1 {
p.TargetPath = p.TargetPath[1:]
}
}
}
func NewPlayer(state *pb.PlayerState) *Player {
return &Player{
PosActual: rl.Vector3{
X: float32(state.X * TileSize),
Y: float32(state.Y * TileHeight),
Z: float32(state.Y * TileSize),
},
PosTile: Tile{X: int(state.X), Y: int(state.Y)},
Speed: 50.0,
ID: state.PlayerId,
IsMoving: false,
AnimationFrame: 0,
LastAnimUpdate: time.Now(),
}
}
func (p *Player) UpdatePosition(state *pb.PlayerState, tickRate time.Duration) {
p.Lock()
defer p.Unlock()
targetTile := Tile{X: int(state.X), Y: int(state.Y)}
if p.PosTile != targetTile {
p.PosTile = targetTile
p.LastUpdateTime = time.Now()
p.InterpolationProgress = 0
p.TargetPath = []Tile{targetTile}
}
}
func (p *Player) ForceResync(state *pb.PlayerState) {
p.Lock()
defer p.Unlock()
p.PosTile = Tile{X: int(state.X), Y: int(state.Y)}
p.PosActual = rl.Vector3{
X: float32(state.X * TileSize),
Y: float32(state.Y * TileHeight),
Z: float32(state.Y * TileSize),
}
p.TargetPath = nil
p.ActionQueue = nil
p.InterpolationProgress = 1.0
}

68
types/types.go
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@ -1,68 +0,0 @@
package types
import (
"time"
pb "gitea.boner.be/bdnugget/goonserver/actions"
rl "github.com/gen2brain/raylib-go/raylib"
)
type Tile struct {
X, Y int
Height float32
Walkable bool
}
type AnimationSet struct {
Idle []rl.ModelAnimation
Walk []rl.ModelAnimation
// Can add more animation types later like:
// Attack []ModelAnimation
// Jump []ModelAnimation
}
type ModelAsset struct {
Model rl.Model
Texture rl.Texture2D
Animation []rl.ModelAnimation // Keep this for compatibility
AnimFrames int32 // Keep this for compatibility
Animations AnimationSet // New field for organized animations
YOffset float32 // Additional height offset (added to default 8.0)
Name string
}
type ChatMessage struct {
PlayerID int32
Username string
Content string
Time time.Time
}
type FloatingMessage struct {
Content string
ExpireTime time.Time
ScreenPos rl.Vector2 // Store the screen position for 2D rendering
}
type ChatMessageHandler interface {
HandleServerMessages([]*pb.ChatMessage)
}
type PlayerState struct {
PlayerId int32
X int32
Y int32
Username string
}
const (
MapWidth = 50
MapHeight = 50
TileSize = 32
TileHeight = 2.0
// RuneScape-style tick rate (600ms)
ServerTickRate = 600 * time.Millisecond
ClientTickRate = 50 * time.Millisecond
MaxTickDesync = 5
)

1
utils/pathfinding.go Normal file
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@ -0,0 +1 @@
package utils