Compare commits

...

44 Commits

Author SHA1 Message Date
d0e6721953 Changed appearance of close button on (large) dialogs back to original. 2020-05-26 18:59:59 +02:00
1ae7e9ebe4 Added Mac OS X cross-compilation to release script (only SDL). 2020-05-26 18:58:17 +02:00
8264942602 Combined two Allegro related code units. 2020-05-26 18:54:26 +02:00
6ce7baed2b Removed (already redundant) resources.go. 2020-05-26 09:05:08 +02:00
bd1d685c20 Hid console window for Windows Allegro builds.
Removed explicit SDL dependency in game.
2020-05-25 22:54:58 +02:00
93002a784b Added hints on keyboard shortcuts. 2020-05-25 22:26:08 +02:00
7230ac966b Using the refactored Resources system. 2020-05-25 22:24:58 +02:00
62cbe14170 Updated README.md on CLI. 2020-05-25 20:03:30 +02:00
df97e826c8 Replacing dots with underscores in the version used in the filenames. 2020-05-25 20:02:19 +02:00
1bea3dd412 Fixed bug where the buy flower button wasn't enabled on load. 2020-05-24 19:57:39 +02:00
ddef723f80 Added keyboard shortcuts for load/new/save game. 2020-05-24 19:57:20 +02:00
cb58ebdf77 Added confirmation dialogs for save/load/new game. 2020-05-24 19:52:46 +02:00
6a8a23bf61 Elaborated README a bit on using the Allegro backend. 2020-05-23 19:14:45 +02:00
820d0f109a Cursor changes when tool is selected. 2020-05-23 16:03:18 +02:00
2f5f682a59 Fixed bug where hovering a buy flower button wasn't visualized properly. 2020-05-23 12:36:44 +02:00
064ec4619d Added tooltips when planting flowers. 2020-05-23 12:34:17 +02:00
ef6a60e155 Made coneflower prefer cold climates more. 2020-05-23 12:34:09 +02:00
ea26db29f3 Added allegro build tag to the README. 2020-05-23 12:08:29 +02:00
d24b4eb376 Updated release script to produce Allegro build as well.
Moved zipping directly after the build folder is ready.
2020-05-23 12:03:45 +02:00
855db3375c Added build flag to switch to Allegro backend.
Added logs that print which backend is used.
2020-05-23 11:08:50 +02:00
822d8ab584 Fixed incorrect panning. 2020-05-23 11:02:30 +02:00
b7b663ddb5 Fixed bug where mouse was released outside terrain area when dragging it kept dragging. 2020-05-23 10:43:05 +02:00
66eaa054c5 Refactored Botanim to use zntg (rendering abstraction). 2020-05-23 10:30:49 +02:00
a139b87d58 Add go generate to release script. 2020-05-14 14:45:40 +02:00
093cef549c Added extract command (extracts resources to the current working directory). 2020-05-14 14:43:13 +02:00
b68107b74a Added release script. 2020-05-14 14:37:06 +02:00
ad7c149baf Changed appearance of tooltips a bit.
- Bit smaller text, background half transparent.
2020-05-14 12:59:46 +02:00
7150d03d16 Enabled the mouse for dialing digits.
Changed intro/readme a bit (dig -> harvest).
2020-05-14 12:59:11 +02:00
c926ae2ef9 Added bonusses when flower is adjacent to more flowers 2020-05-14 08:39:42 +02:00
013fe4bdb6 Added tooltips. 2020-05-14 08:29:23 +02:00
f57a9dd845 Extended README. 2020-05-14 07:47:45 +02:00
76ac685cbb Added panning with keyboard.
Changed D for digging into H for harvesting.
2020-05-14 07:47:29 +02:00
c27d43e323 Rename Rect to RectAbs and renamed RectSize to Rect. 2020-05-12 13:55:30 +02:00
8e7101e67d Updated/extended README. 2020-05-12 08:51:10 +02:00
3717cfd872 Fixed bug where double digits in phone number weren't accepted properly (second digit required 10-digit strokes, third digit was impossible). 2020-05-11 15:52:43 +02:00
ee7f99166c Command (Windows) key is now supported as modifier key for dragging. 2020-05-11 15:48:18 +02:00
bfe0c9003d Made settings button disabled for now. 2020-05-11 15:45:55 +02:00
8236b65c06 No click event is generated when control is disabled. 2020-05-11 15:38:34 +02:00
1008b7b34b Can't plant flower when the control key is still down. 2020-05-11 15:32:41 +02:00
905aad2afa Can't plant flower over existing flower. 2020-05-11 15:27:22 +02:00
9f19e4bd92 Updating flower texts after closing a dialog to be sure. 2020-05-11 15:23:07 +02:00
cc8f8da5df Switched to regular embedding of resources. 2020-05-11 15:03:06 +02:00
c8cb0095a1 Added generation for embedding resources. 2020-05-11 14:59:08 +02:00
5e822d0cf9 Implemented research. 2020-05-11 14:41:42 +02:00
49 changed files with 1604 additions and 1849 deletions

3
.gitignore vendored
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@ -1 +1,4 @@
.vscode/launch.json .vscode/launch.json
cmd/tins2020/*rice-box.*
scripts/build

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@ -1,7 +1,64 @@
# TINS 2020 # TINS 2020
## Content
- [Introduction](##Introduction)
- [Additional Rules](##Additional-Rules)
* [Implementation](###Implementation)
* [Definition](###Definition)
- [Building](##Building)
- [Sources](##Sources)
- [Licenses (third party)](##Licenses)
* [Go-SDL2](###Go-SDL2)
* [SDL 2.0](###SDL-2.0)
* [Fira Mono font](###Fira-Mono-font)
* [Open Sans font](###Open-Sans-font)
## Introduction
**Welcome to Botanim!**
In Botanim you play the role of botanist and your goal is to cultivate flowers in an open landscape.
Flowers can only grow (well) in certain climates based on two properties: humidity and temperature. Watch out for existing vegetation to get an idea how humid the land is and check the appearance of the tile to see how hot it is. When well placed your planted flower will spread soon but an odd choice might kill your flower almost instantly. So choose carefully. When the flower spread significantly you can harvest flowers again to collect more money.
**Controls:**
- H: Selects harvest tool
- R: Selects research
- Spacebar: pauses game
- 1: runs game at normal speed
- 2: runs game extra fast
- Mouse wheel or plus/minus: zooms landscape
- W, A, S, D keys or CTRL + left mouse button or middle mouse button: pans landscape
** On screen **
On the left side of the playing screen you'll find several buttons:
- Settings: disabled.
- Save: saves the game instantly, only single slot.
- Load: loads previously saved game instantly.
- New: starts a new game with a different terrain.
- Information: shows the intro/information screen (again, also accessible with the Escape key).
Have fun playing!
## Additional Rules ## Additional Rules
### Implementation
**genre rule #130**
This rule is the most obvious. The goal of the game is to grow flowers so given enough time and a bit of luck your screen will be full of flowers.
**artistical rule #60**
The least obvious and not finished within the time contraint: when researching you'll have to dial a phone number like you used to do with an old rotary dial (works by repeating the number on the keyboard an exact number of times).
**technical rule #10**
The terrain is based on (several: humidity, temperature, placement of props, variants of props) perlin noise functions.
**technical rule #68**
The description of the flowers will scroll below the icon of the "buy flower" buttons when hovered.
### Definition
### Genre requirement ### Genre requirement
**** There will be 1 genre rule **** There will be 1 genre rule
@ -15,7 +72,7 @@ Comments: This rule just reminds me of my favourite platformer, Super Mario Worl
**artistical rule #60** **artistical rule #60**
make fun of old-fashioned things. make fun of old-fashioned things.
Comments:E.g. have a mode in which the game plays in black and white, featuring an old granny in the corner saying "I didn't pay my colour television license for this", or occasionally "I was in a war" Some more inspirations [here](https://www.youtube.com/watch?v=67OPI3cXAaE) and [here](https://twitter.com/Bill_Gross/status/920406104911233024) Comments: e.g. have a mode in which the game plays in black and white, featuring an old granny in the corner saying "I didn't pay my colour television license for this", or occasionally "I was in a war" Some more inspirations [here](https://www.youtube.com/watch?v=67OPI3cXAaE) and [here](https://twitter.com/Bill_Gross/status/920406104911233024)
### Technical requirement ### Technical requirement
**** There will be 2 technical rules **** There will be 2 technical rules
@ -45,16 +102,31 @@ Comments: Lots of wiggle room here. For example, you could revert the last techn
## Building ## Building
Prerequisites: Prerequisites:
- [SDL 2.0](https://www.libsdl.org/) (SDL2, SDL2_image, SDL2_ttf and SDL2_gfx development libraries are required). - [SDL 2.0](https://www.libsdl.org/) (SDL2, SDL2_image, SDL2_ttf and SDL2_gfx development libraries are required; for [more information](https://github.com/veandco/go-sdl2)).
- [Go](https://golang.org/dl/) 1.12 or later. - [Go](https://golang.org/dl/) 1.12 or later.
- GCC. - GCC or a compatible compiler.
- Git. - [Git](https://git-scm.com/download).
With all prequisites installed you can run: With all prequisites installed you can run:
``` ```
go get -u opslag.de/schobers/tins2020/cmd/tins2020 go get -u opslag.de/schobers/tins2020/cmd/tins2020
``` ```
This will create the binary `$HOME/go/bin/tins2020`. Additionally you can embed the resources and build a static release with the following commands (this assumes `$HOME/go/bin` is available in the `PATH`):
```
go generate opslag.de/schobers/tins2020/cmd/tins2020
go install opslag.de/schobers/tins2020/cmd/tins2020 -tags static -ldflags "-s -w"
```
If you want to use the Allegro backend you can add the build tag `allegro` to the `go install` command. E.g.:
```
go install opslag.de/schobers/tins2020/cmd/tins2020 -tags static,allegro -ldflags "-s -w"
```
In this case the SDL 2.0 prerequisite is replaced by the Allegro 5.2 (development libraries must be available for your C compiler).
## Command line interface
You can extract all resources embedded in the executable by running it from the command line with the `--extract-resources` flag. The resources will be extract in the current working directory. Note that the game will use the resources on disk first if they are available.
## Sources ## Sources
Can be found at https://opslag.de/schobers/tins2020 (Git repository). Can be found at https://opslag.de/schobers/tins2020 (Git repository).

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@ -1,56 +0,0 @@
package tins2020
import "time"
type Animation struct {
active bool
start time.Time
interval time.Duration
lastUpdate time.Duration
}
func NewAnimation(interval time.Duration) Animation {
return Animation{
active: true,
start: time.Now(),
interval: interval,
}
}
func NewAnimationPtr(interval time.Duration) *Animation {
ani := NewAnimation(interval)
return &ani
}
func (a *Animation) Animate() bool {
since := time.Since(a.start)
if !a.active || since < a.lastUpdate+a.interval {
return false
}
a.lastUpdate += a.interval
return true
}
func (a *Animation) AnimateFn(fn func()) {
since := time.Since(a.start)
for a.active && since > a.lastUpdate+a.interval {
fn()
a.lastUpdate += a.interval
}
}
func (a *Animation) Pause() {
a.active = false
}
func (a *Animation) Run() {
if a.active {
return
}
a.active = true
a.start = time.Now()
}
func (a *Animation) SetInterval(interval time.Duration) {
a.interval = interval
}

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@ -1,59 +0,0 @@
package tins2020
import "github.com/veandco/go-sdl2/sdl"
type ButtonBar struct {
Container
Background sdl.Color
ButtonLength int32
Orientation Orientation
Buttons []Control
}
const buttonBarWidth = 96
func (b *ButtonBar) Init(ctx *Context) error {
for i := range b.Buttons {
b.AddChild(b.Buttons[i])
}
return b.Container.Init(ctx)
}
func (b *ButtonBar) Arrange(ctx *Context, bounds Rectangle) {
b.Container.Arrange(ctx, bounds)
length := b.ButtonLength
switch b.Orientation {
case OrientationHorizontal:
if length == 0 {
length = bounds.H
}
offset := bounds.X
for i := range b.Buttons {
b.Buttons[i].Arrange(ctx, RectSize(offset, bounds.Y, length, bounds.H))
offset += length
}
default:
if length == 0 {
length = bounds.W
}
offset := bounds.Y
for i := range b.Buttons {
b.Buttons[i].Arrange(ctx, RectSize(bounds.X, offset, bounds.W, length))
offset += length
}
}
}
func (b *ButtonBar) Render(ctx *Context) {
SetDrawColor(ctx.Renderer, b.Background)
ctx.Renderer.FillRect(b.Bounds.SDLPtr())
b.Container.Render(ctx)
}
type Orientation int
const (
OrientationVertical Orientation = iota
OrientationHorizontal
)

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@ -2,29 +2,68 @@ package tins2020
import ( import (
"fmt" "fmt"
"image/color"
"time" "time"
"github.com/veandco/go-sdl2/sdl" "opslag.de/schobers/geom"
"opslag.de/schobers/zntg"
"opslag.de/schobers/zntg/ui"
) )
type TextureCache struct {
Value ui.Texture
}
func (c *TextureCache) Height() float32 {
if c.Value == nil {
return 0
}
return c.Value.Height()
}
func (c *TextureCache) Update(update func() (ui.Texture, error)) error {
texture, err := update()
if err != nil {
return err
}
if c.Value != nil {
c.Value.Destroy()
}
c.Value = texture
return nil
}
func (c *TextureCache) Width() float32 {
if c.Value == nil {
return 0
}
return c.Value.Width()
}
func textUpdate(render ui.Renderer, font ui.Font, color color.Color, text string) func() (ui.Texture, error) {
return func() (ui.Texture, error) { return render.TextTexture(font, color, text) }
}
type BuyFlowerButton struct { type BuyFlowerButton struct {
IconButton IconButton
IconDisabled string
FlowerID string FlowerID string
Flower FlowerDescriptor Flower FlowerDescriptor
hoverAnimation *Animation upToDate bool
hoverOffset int32 hoverAnimation zntg.Animation
hoverTexture *Texture hoverOffset float32
priceTexture *Texture hoverTexture TextureCache
priceTexture TextureCache
} }
func NewBuyFlowerButton(icon, iconDisabled, flowerID string, flower FlowerDescriptor, onClick EventContextFn) *BuyFlowerButton { func NewBuyFlowerButton(icon, iconDisabled, flowerID string, flower FlowerDescriptor, click ui.EventEmptyFn) *BuyFlowerButton {
return &BuyFlowerButton{ return &BuyFlowerButton{
IconButton: *NewIconButtonConfig(icon, onClick, func(b *IconButton) { IconButton: *NewIconButtonConfigure(icon, click, func(b *IconButton) {
b.IconDisabled = iconDisabled b.Disabled = !flower.Unlocked
b.IsDisabled = !flower.Unlocked
}), }),
IconDisabled: iconDisabled,
FlowerID: flowerID, FlowerID: flowerID,
Flower: flower, Flower: flower,
} }
@ -32,7 +71,7 @@ func NewBuyFlowerButton(icon, iconDisabled, flowerID string, flower FlowerDescri
func (b *BuyFlowerButton) animate() { func (b *BuyFlowerButton) animate() {
b.hoverOffset++ b.hoverOffset++
if b.hoverOffset > b.hoverTexture.Size().X+b.Bounds.W { if b.hoverOffset > b.hoverTexture.Width()+b.Bounds().Dx() {
b.hoverOffset = 0 b.hoverOffset = 0
} }
} }
@ -44,75 +83,70 @@ func (b *BuyFlowerButton) fmtTooltipText() string {
return fmt.Sprintf("%s - %s - %s", FmtMoney(b.Flower.BuyPrice), b.Flower.Name, b.Flower.Description) return fmt.Sprintf("%s - %s - %s", FmtMoney(b.Flower.BuyPrice), b.Flower.Name, b.Flower.Description)
} }
func (b *BuyFlowerButton) updateTexts(ctx *Context) error { func (b *BuyFlowerButton) updateTexts(ctx ui.Context) error {
if b.upToDate {
return nil
}
text := b.fmtTooltipText() text := b.fmtTooltipText()
font := ctx.Fonts.Font("small") font := ctx.Fonts().Font("small")
color := MustHexColor("#ffffff") color := zntg.MustHexColor("#FFFFFF")
texture, err := font.Render(ctx.Renderer, text, color) if err := b.hoverTexture.Update(textUpdate(ctx.Renderer(), font, color, text)); err != nil {
if err != nil {
return err return err
} }
if b.hoverTexture != nil { if err := b.priceTexture.Update(textUpdate(ctx.Renderer(), font, color, FmtMoney(b.Flower.BuyPrice))); err != nil {
b.hoverTexture.Destroy()
}
b.hoverTexture = texture
texture, err = font.Render(ctx.Renderer, FmtMoney(b.Flower.BuyPrice), color)
if err != nil {
return err return err
} }
if b.priceTexture != nil { b.Disabled = !b.Flower.Unlocked
b.priceTexture.Destroy() b.upToDate = true
}
b.priceTexture = texture
return nil return nil
} }
func (b *BuyFlowerButton) Init(ctx *Context) error { func (b *BuyFlowerButton) Handle(ctx ui.Context, e ui.Event) bool {
return b.updateTexts(ctx) b.updateTexts(ctx)
} b.IconButton.Handle(ctx, e)
if b.IsOver() && !b.hoverAnimation.IsActive() {
func (b *BuyFlowerButton) Handle(ctx *Context, event sdl.Event) bool { b.hoverAnimation.Interval = 10 * time.Millisecond
if b.IconButton.Handle(ctx, event) { b.hoverAnimation.Start()
return true b.hoverOffset = b.priceTexture.Width()
} } else if !b.IsOver() {
if b.IsMouseOver && b.hoverAnimation == nil { b.hoverAnimation.Pause()
b.hoverAnimation = NewAnimationPtr(10 * time.Millisecond)
b.hoverOffset = b.priceTexture.Size().X
} else if !b.IsMouseOver {
b.hoverAnimation = nil
} }
return false return false
} }
func (b *BuyFlowerButton) Render(ctx *Context) { func (b *BuyFlowerButton) Render(ctx ui.Context) {
iconTexture := b.activeTexture(ctx)
pos := Pt(b.Bounds.X, b.Bounds.Y)
iconTexture.CopyResize(ctx.Renderer, RectSize(pos.X, pos.Y-60, b.Bounds.W, 120))
if (b.IsMouseOver && !b.IsDisabled) || b.IsActive {
SetDrawColor(ctx.Renderer, TransparentWhite)
ctx.Renderer.FillRect(b.Bounds.SDLPtr())
}
if b.hoverAnimation != nil {
b.hoverAnimation.AnimateFn(b.animate)
}
if b.IsMouseOver {
left := b.Bounds.W - 8 - b.hoverOffset
top := pos.Y + b.Bounds.H - 20
if left < 0 {
part := Rect(-left, 0, b.hoverTexture.Size().X, b.hoverTexture.Size().Y)
b.hoverTexture.CopyPart(ctx.Renderer, part, Pt(pos.X, top))
} else {
b.hoverTexture.Copy(ctx.Renderer, Pt(pos.X+left, top))
}
} else {
b.priceTexture.Copy(ctx.Renderer, Pt(pos.X+b.Bounds.W-8-b.priceTexture.Size().X, pos.Y+b.Bounds.H-20))
}
}
func (b *BuyFlowerButton) Update(ctx *Context, desc FlowerDescriptor) {
b.Flower = desc
b.updateTexts(ctx) b.updateTexts(ctx)
bounds := b.Bounds()
pos := bounds.Min
icon := ctx.Textures().Texture(b.Icon)
if !b.Flower.Unlocked {
disabled := ctx.Textures().Texture(b.IconDisabled)
if disabled != nil {
icon = disabled
}
}
ctx.Renderer().DrawTexture(icon, geom.RectRelF32(pos.X, pos.Y-60, bounds.Dx(), 120))
b.RenderActive(ctx)
b.hoverAnimation.AnimateFn(b.animate)
if b.IsOver() {
left := bounds.Dx() - 8 - b.hoverOffset
top := pos.Y + bounds.Dy() - 20
if left < 0 {
part := geom.RectF32(-left, 0, b.hoverTexture.Width(), b.hoverTexture.Height())
ctx.Renderer().DrawTexturePointOptions(b.hoverTexture.Value, geom.PtF32(pos.X, top), ui.DrawOptions{Source: &part})
} else {
ctx.Renderer().DrawTexturePoint(b.hoverTexture.Value, geom.PtF32(pos.X+left, top))
}
} else {
ctx.Renderer().DrawTexturePoint(b.priceTexture.Value, geom.PtF32(pos.X+bounds.Dx()-8-b.priceTexture.Width(), pos.Y+bounds.Dy()-20))
}
}
func (b *BuyFlowerButton) Update(desc FlowerDescriptor) {
b.Flower = desc
b.upToDate = false
} }

37
cmd/tins2020/extract.go Normal file
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@ -0,0 +1,37 @@
package main
import (
"io"
"os"
"path/filepath"
rice "github.com/GeertJohan/go.rice"
)
func copyFile(path string, file *rice.File) error {
dir := filepath.Dir(path)
os.MkdirAll(dir, 0777)
dst, err := os.Create(path)
if err != nil {
return err
}
defer dst.Close()
_, err = io.Copy(dst, file)
return err
}
func copyBoxToDisk(box *rice.Box) error {
return box.Walk("", func(path string, info os.FileInfo, err error) error {
if err != nil {
return err
}
if info.IsDir() {
return nil
}
src, err := box.Open(path)
if err != nil {
return err
}
return copyFile(filepath.Join(box.Name(), path), src)
})
}

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@ -1,14 +1,23 @@
package main package main
import ( import (
"flag"
"image/color"
"log" "log"
"opslag.de/schobers/geom"
"opslag.de/schobers/zntg"
"opslag.de/schobers/zntg/addons/riceres"
"opslag.de/schobers/zntg/play"
"opslag.de/schobers/zntg/ui"
rice "github.com/GeertJohan/go.rice" rice "github.com/GeertJohan/go.rice"
"github.com/veandco/go-sdl2/sdl"
"github.com/veandco/go-sdl2/ttf"
"opslag.de/schobers/tins2020" "opslag.de/schobers/tins2020"
) )
//go:generate go get -u github.com/GeertJohan/go.rice/rice
//go:generate rice embed
func main() { func main() {
err := run() err := run()
if err != nil { if err != nil {
@ -16,136 +25,158 @@ func main() {
} }
} }
func logSDLVersion() { func openResources(box *rice.Box) ui.Resources {
var version sdl.Version embedded := riceres.New(box)
sdl.GetVersion(&version) return ui.NewFallbackResources(ui.NewPathResources(nil, box.Name()), embedded)
log.Printf("SDL version: %d.%d.%d", version.Major, version.Minor, version.Patch) }
type app struct {
ui.Proxy
settings *tins2020.Settings
game *tins2020.Game
dialogs *tins2020.Dialogs
}
type fontDescriptor struct {
Name string
Path string
Size int
}
func (a *app) loadFonts(ctx ui.Context, descriptors ...fontDescriptor) error {
fonts := ctx.Fonts()
for _, desc := range descriptors {
_, err := fonts.CreateFontPath(desc.Name, desc.Path, desc.Size)
if err != nil {
return err
}
}
return nil
}
func (a *app) Init(ctx ui.Context) error {
if err := a.loadFonts(ctx,
fontDescriptor{"balance", "fonts/OpenSans-Bold.ttf", 40},
fontDescriptor{"debug", "fonts/FiraMono-Regular.ttf", 12},
fontDescriptor{"default", "fonts/OpenSans-Regular.ttf", 14},
fontDescriptor{"small", "fonts/OpenSans-Regular.ttf", 12},
fontDescriptor{"title", "fonts/OpenSans-Bold.ttf", 40},
); err != nil {
return err
}
textureLoader := tins2020.NewResourceLoader()
textures := ctx.Textures()
if err := textureLoader.LoadFromFile(ctx.Resources(), "textures.txt", func(name, content string) error {
_, err := textures.CreateTexturePath(name, content, true)
return err
}); err != nil {
return err
}
ctx.Overlays().AddOnTop("fps", &play.FPS{}, false)
content := tins2020.NewContent(a.dialogs)
content.AddChild(tins2020.NewTerrainRenderer(a.game))
controls := tins2020.NewGameControls(a.game, a.dialogs)
content.AddChild(controls)
a.Content = content
a.dialogs.Init(ctx)
a.game.Reset(ctx)
controls.Init(ctx)
a.dialogs.ShowIntro(ctx)
return nil
}
func (a *app) Handle(ctx ui.Context, e ui.Event) bool {
switch e := e.(type) {
case *ui.DisplayMoveEvent:
location := e.Bounds.Min.ToInt()
a.settings.Window.Location = &location
case *ui.DisplayResizeEvent:
a.Arrange(ctx, e.Bounds, geom.ZeroPtF32, nil)
size := e.Bounds.Size().ToInt()
a.settings.Window.Size = &size
}
return a.Proxy.Handle(ctx, e)
}
func (a *app) Render(ctx ui.Context) {
a.game.Update()
ctx.Renderer().Clear(color.White)
a.Proxy.Render(ctx)
} }
func run() error { func run() error {
if err := sdl.Init(sdl.INIT_EVERYTHING); err != nil { var extract bool
return err flag.BoolVar(&extract, "extract-resources", false, "extracts all resources to the current working directory")
flag.Parse()
box := rice.MustFindBox(`res`)
if extract {
return copyBoxToDisk(box)
} }
defer sdl.Quit() res := openResources(box)
logSDLVersion() ptPtr := func(x, y int) *geom.Point {
p := geom.Pt(x, y)
if err := ttf.Init(); err != nil { return &p
return err
} }
defer ttf.Quit()
ctx, err := tins2020.NewContext(rice.MustFindBox("res")) settings := &tins2020.Settings{}
err := settings.Init()
if err != nil { if err != nil {
return err return err
} }
defer ctx.Destroy() defer settings.Store()
if ctx.Settings.Window.Location == nil { var location *geom.PointF32
ctx.Settings.Window.Location = tins2020.PtPtr(sdl.WINDOWPOS_UNDEFINED, sdl.WINDOWPOS_UNDEFINED) if settings.Window.Location != nil {
location = &geom.PointF32{X: float32(settings.Window.Location.X), Y: float32(settings.Window.Location.Y)}
} }
if ctx.Settings.Window.Size == nil { if settings.Window.Size == nil {
ctx.Settings.Window.Size = tins2020.PtPtr(800, 600) settings.Window.Size = ptPtr(800, 600)
} }
if ctx.Settings.Window.VSync == nil { if settings.Window.VSync == nil {
vsync := true vsync := true
ctx.Settings.Window.VSync = &vsync settings.Window.VSync = &vsync
} }
renderer, err := ui.NewRenderer("Botanim - TINS 2020", settings.Window.Size.X, settings.Window.Size.Y, ui.NewRendererOptions{
if *ctx.Settings.Window.VSync { Location: location,
sdl.SetHint(sdl.HINT_RENDER_VSYNC, "1") Resizable: true,
} VSync: *settings.Window.VSync,
sdl.SetHint(sdl.HINT_RENDER_SCALE_QUALITY, "1")
window, err := sdl.CreateWindow("Botanim - TINS 2020",
ctx.Settings.Window.Location.X, ctx.Settings.Window.Location.Y,
ctx.Settings.Window.Size.X, ctx.Settings.Window.Size.Y,
sdl.WINDOW_SHOWN|sdl.WINDOW_RESIZABLE)
if err != nil {
return err
}
defer window.Destroy()
renderer, err := sdl.CreateRenderer(window, -1, sdl.RENDERER_ACCELERATED)
if err != nil {
return err
}
defer renderer.Destroy()
ctx.Init(renderer)
err = ctx.Fonts.LoadDesc(
tins2020.FontDescriptor{Name: "balance", Path: "fonts/OpenSans-Bold.ttf", Size: 40},
tins2020.FontDescriptor{Name: "debug", Path: "fonts/FiraMono-Regular.ttf", Size: 12},
tins2020.FontDescriptor{Name: "default", Path: "fonts/OpenSans-Regular.ttf", Size: 14},
tins2020.FontDescriptor{Name: "small", Path: "fonts/OpenSans-Regular.ttf", Size: 12},
tins2020.FontDescriptor{Name: "title", Path: "fonts/OpenSans-Bold.ttf", Size: 40},
)
if err != nil {
return err
}
textureLoader := tins2020.NewResourceLoader()
err = textureLoader.LoadFromFile(&ctx.Resources, "textures.txt", func(name, content string) error {
return ctx.Textures.Load(name, content)
}) })
if err != nil { if err != nil {
return err return err
} }
defer renderer.Destroy()
renderer.SetResourceProvider(func() ui.Resources { return res })
game := tins2020.NewGame() game := tins2020.NewGame()
app := &app{
app := tins2020.NewContainer() game: game,
dialogs: tins2020.NewDialogs(game),
overlays := tins2020.NewContainer() settings: settings,
dialogs := tins2020.NewDialogs()
overlays.AddChild(dialogs)
overlays.AddChild(&tins2020.FPS{Show: &game.Debug})
content := tins2020.NewContent(dialogs)
content.AddChild(tins2020.NewTerrainRenderer(game))
content.AddChild(tins2020.NewGameControls(game, dialogs))
app.AddChild(content)
app.AddChild(overlays)
err = app.Init(ctx)
if err != nil {
return err
} }
dialogs.ShowIntro() style := ui.DefaultStyle()
style.Palette = &ui.Palette{
w, h := window.GetSize() Background: zntg.MustHexColor(`#356DAD`),
app.Arrange(ctx, tins2020.Rect(0, 0, w, h)) Disabled: zntg.MustHexColor(`#DEDEDE`),
Primary: zntg.MustHexColor(`#356DAD`),
for { PrimaryDark: zntg.MustHexColor(`#15569F`),
for event := sdl.PollEvent(); event != nil; event = sdl.PollEvent() { PrimaryLight: zntg.MustHexColor(`#ABCAED`),
switch e := event.(type) { Secondary: zntg.MustHexColor(`#4AC69A`),
case *sdl.QuitEvent: SecondaryDark: zntg.MustHexColor(`#0AA36D`),
ctx.Quit() SecondaryLight: zntg.MustHexColor(`#A6EED4`),
break Text: color.White,
case *sdl.WindowEvent: TextOnPrimary: color.White,
switch e.Event { TextOnSecondary: color.White,
case sdl.WINDOWEVENT_MOVED: TextNegative: zntg.MustHexColor(`#F3590E`),
x, y := window.GetPosition() TextPositive: zntg.MustHexColor(`#65D80D`),
ctx.Settings.Window.Location = tins2020.PtPtr(x, y)
case sdl.WINDOWEVENT_SIZE_CHANGED:
w, h := window.GetSize()
app.Arrange(ctx, tins2020.Rect(0, 0, w, h))
ctx.Settings.Window.Size = tins2020.PtPtr(w, h)
} }
} return ui.Run(renderer, style, app)
app.Handle(ctx, event)
}
game.Update()
if ctx.ShouldQuit {
break
}
renderer.SetDrawColor(0, 0, 0, 255)
renderer.Clear()
app.Render(ctx)
renderer.Present()
}
return nil
} }

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@ -0,0 +1,16 @@
// +build allegro
package main
import (
"log"
_ "opslag.de/schobers/zntg/allg5ui" // rendering backend
)
// #cgo windows,allegro LDFLAGS: -Wl,-subsystem,windows
import "C"
func init() {
log.Println("Using Allegro5 rendering backend")
}

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@ -0,0 +1,13 @@
// +build !allegro
package main
import (
"log"
_ "opslag.de/schobers/zntg/sdlui" // SDL rendering backend
)
func init() {
log.Println("Using SDL rendering backend")
}

View File

@ -1,22 +0,0 @@
package tins2020
import (
"opslag.de/schobers/tins2020/img"
"github.com/veandco/go-sdl2/sdl"
)
var Black = sdl.Color{R: 0, G: 0, B: 0, A: 255}
var Transparent = sdl.Color{R: 0, G: 0, B: 0, A: 0}
var TransparentWhite = sdl.Color{R: 255, G: 255, B: 255, A: 31}
var White = sdl.Color{R: 255, G: 255, B: 255, A: 255}
func MustHexColor(s string) sdl.Color { return sdl.Color(img.MustHexColor(s)) }
func SetDrawColor(renderer *sdl.Renderer, color sdl.Color) {
renderer.SetDrawColor(color.R, color.G, color.B, color.A)
}
func SetDrawColorHex(renderer *sdl.Renderer, s string) {
SetDrawColor(renderer, MustHexColor(s))
}

View File

@ -1,33 +0,0 @@
package tins2020
import (
"testing"
"github.com/stretchr/testify/assert"
"github.com/veandco/go-sdl2/sdl"
)
func TestHexColor(t *testing.T) {
type test struct {
Hex string
Success bool
Expected sdl.Color
}
tests := []test{
test{Hex: "#AA3939", Success: true, Expected: sdl.Color{R: 170, G: 57, B: 57, A: 255}},
test{Hex: "AA3939", Success: true, Expected: sdl.Color{R: 170, G: 57, B: 57, A: 255}},
test{Hex: "#AA3939BB", Success: true, Expected: sdl.Color{R: 170, G: 57, B: 57, A: 187}},
test{Hex: "AG3939", Success: false, Expected: sdl.Color{}},
test{Hex: "AA3939A", Success: false, Expected: sdl.Color{}},
test{Hex: "AA39A", Success: false, Expected: sdl.Color{}},
}
for _, test := range tests {
color, err := HexColor(test.Hex)
if test.Success {
assert.Nil(t, err)
assert.Equal(t, color, test.Expected)
} else {
assert.NotNil(t, err)
}
}
}

140
confirmationdialog.go Normal file
View File

@ -0,0 +1,140 @@
package tins2020
import (
"opslag.de/schobers/geom"
"opslag.de/schobers/zntg"
"opslag.de/schobers/zntg/ui"
)
type confirmationDialog struct {
ui.Proxy
active string
cancel ui.Button
confirm ui.Button
question ui.Paragraph
userDecided ui.Events
}
func newConfirmationDialog(caption, question string) *confirmationDialog {
dialog := &confirmationDialog{}
dialog.active = "confirm"
dialog.cancel.Text = "Cancel"
dialog.cancel.ButtonClicked().AddHandler(func(ctx ui.Context, _ ui.ControlClickedArgs) { dialog.userCanceled(ctx) })
dialog.cancel.Type = ui.ButtonTypeText
dialog.cancel.HoverColor = zntg.MustHexColor(`FFFFFF1F`)
dialog.confirm.Text = "OK"
dialog.confirm.ButtonClicked().AddHandler(func(ctx ui.Context, _ ui.ControlClickedArgs) { dialog.userConfirmed(ctx) })
dialog.confirm.Type = ui.ButtonTypeText
dialog.confirm.HoverColor = zntg.MustHexColor(`FFFFFF1F`)
dialog.question.Text = question
dialog.updateActive()
responses := ui.BuildStackPanel(ui.OrientationHorizontal, func(p *ui.StackPanel) {
p.AddChild(ui.FixedWidth(&dialog.cancel, 160))
p.AddChild(ui.FixedWidth(&dialog.confirm, 160))
})
content := &dialogBase{}
content.Background = zntg.MustHexColor(`#0000007F`)
content.Init(caption, ui.BuildStackPanel(ui.OrientationVertical, func(p *ui.StackPanel) {
p.AddChild(&dialog.question)
p.AddChild(responses)
}))
dialog.Content = ui.Background(ui.BuildSpacing(content, func(s *ui.Spacing) {
s.Width = ui.Fixed(320)
s.Center()
}), zntg.MustHexColor(`#0000007F`))
return dialog
}
func (d *confirmationDialog) toggleActive() {
if d.active == "confirm" {
d.active = "cancel"
} else {
d.active = "confirm"
}
d.updateActive()
}
func (d *confirmationDialog) updateActive() {
d.cancel.Background = nil
d.confirm.Background = nil
switch d.active {
case "cancel":
d.cancel.Background = hoverTransparentColor
case "confirm":
d.confirm.Background = hoverTransparentColor
}
}
func (d *confirmationDialog) userCanceled(ctx ui.Context) {
d.userDecided.Notify(ctx, false)
}
func (d *confirmationDialog) userConfirmed(ctx ui.Context) {
d.userDecided.Notify(ctx, true)
}
func (d *confirmationDialog) Handle(ctx ui.Context, e ui.Event) bool {
if d.Proxy.Handle(ctx, e) {
return true
}
switch e := e.(type) {
case *ui.MouseButtonDownEvent:
if e.Button == ui.MouseButtonRight {
d.userCanceled(ctx)
return true
}
case *ui.MouseMoveEvent:
if d.cancel.IsOver() {
d.active = "cancel"
}
if d.confirm.IsOver() {
d.active = "confirm"
}
d.updateActive()
case *ui.KeyDownEvent:
switch e.Key {
case ui.KeyEscape:
d.userCanceled(ctx)
return true
case ui.KeyEnter:
switch d.active {
case "cancel":
d.userCanceled(ctx)
case "confirm":
d.userConfirmed(ctx)
}
return true
case ui.KeyLeft:
d.toggleActive()
case ui.KeyRight:
d.toggleActive()
case ui.KeyTab:
d.toggleActive()
}
}
return false
}
type dialogBase struct {
ui.StackPanel
caption ui.Label
content ui.Proxy
}
func (d *dialogBase) DesiredSize(ctx ui.Context, size geom.PointF32) geom.PointF32 {
return d.StackPanel.DesiredSize(ctx, size)
}
func (d *dialogBase) Init(caption string, content ui.Control) {
d.caption.Text = caption
d.content.Content = content
d.Children = []ui.Control{&d.caption, &d.content}
}

View File

@ -1,58 +0,0 @@
package tins2020
import (
"github.com/veandco/go-sdl2/sdl"
)
type Container struct {
ControlBase
Children []Control
}
func NewContainer() *Container {
return &Container{}
}
func (c *Container) AddChild(child Control) {
c.Children = append(c.Children, child)
}
func (c *Container) Arrange(ctx *Context, bounds Rectangle) {
c.ControlBase.Arrange(ctx, bounds)
for _, child := range c.Children {
child.Arrange(ctx, bounds)
}
}
func (c *Container) Handle(ctx *Context, event sdl.Event) bool {
if c.ControlBase.Handle(ctx, event) {
return true
}
for _, child := range c.Children {
if child.Handle(ctx, event) {
return true
}
}
return false
}
func (c *Container) Init(ctx *Context) error {
c.ControlBase.Init(ctx)
for _, child := range c.Children {
err := child.Init(ctx)
if err != nil {
return err
}
}
return nil
}
func (c *Container) Render(ctx *Context) {
c.ControlBase.Render(ctx)
for _, child := range c.Children {
child.Render(ctx)
}
}

View File

@ -1,28 +1,34 @@
package tins2020 package tins2020
import "github.com/veandco/go-sdl2/sdl" import (
"opslag.de/schobers/zntg/ui"
)
// Content shortcuts events when a dialog is opened. // Content shortcuts events when a dialog is opened.
type Content struct { type Content struct {
Container ui.Proxy
dialogOverlayed bool content ui.ContainerBase
shortcut bool
} }
func NewContent(dialogs *Dialogs) *Content { func NewContent(dialogs *Dialogs) *Content {
content := &Content{} content := &Content{}
dialogs.DialogOpened().Register(func() { content.Proxy.Content = &content.content
content.dialogOverlayed = true dialogs.DialogOpened().AddHandlerEmpty(func(ui.Context) {
content.shortcut = true
}) })
dialogs.DialogClosed().Register(func() { dialogs.DialogClosed().AddHandlerEmpty(func(ui.Context) {
content.dialogOverlayed = false content.shortcut = false
}) })
return content return content
} }
func (c *Content) Handle(ctx *Context, event sdl.Event) bool { func (c *Content) AddChild(child ui.Control) { c.content.AddChild(child) }
if c.dialogOverlayed {
func (c *Content) Handle(ctx ui.Context, event ui.Event) bool {
if c.shortcut {
return false return false
} }
return c.Container.Handle(ctx, event) return c.Proxy.Handle(ctx, event)
} }

View File

@ -1,45 +0,0 @@
package tins2020
import (
rice "github.com/GeertJohan/go.rice"
"github.com/veandco/go-sdl2/sdl"
)
type Context struct {
Renderer *sdl.Renderer
Fonts Fonts
Resources Resources
Textures Textures
Settings Settings
ShouldQuit bool
}
func NewContext(res *rice.Box) (*Context, error) {
ctx := &Context{}
err := ctx.Settings.Init()
if err != nil {
return nil, err
}
err = ctx.Resources.Open(res)
if err != nil {
return nil, err
}
return ctx, nil
}
func (c *Context) Destroy() {
c.Fonts.Destroy()
c.Resources.Destroy()
c.Textures.Destroy()
c.Settings.Store()
}
func (c *Context) Init(renderer *sdl.Renderer) {
c.Renderer = renderer
c.Fonts.Init(c.Resources.Copy())
c.Textures.Init(renderer, c.Resources.Copy())
c.Renderer.SetDrawBlendMode(sdl.BLENDMODE_BLEND)
}
func (c *Context) Quit() { c.ShouldQuit = true }

View File

@ -1,61 +0,0 @@
package tins2020
import "github.com/veandco/go-sdl2/sdl"
type Control interface {
Init(*Context) error
Arrange(*Context, Rectangle)
Handle(*Context, sdl.Event) bool
Render(*Context)
}
type EventContextFn func(*Context)
type EventFn func()
type EventInterfaceFn func(interface{})
func EmptyEvent(fn EventFn) EventContextFn {
return func(*Context) { fn() }
}
type ControlBase struct {
Bounds Rectangle
IsMouseOver bool
OnLeftMouseButtonClick EventContextFn
}
func (b *ControlBase) Arrange(ctx *Context, bounds Rectangle) { b.Bounds = bounds }
func (b *ControlBase) Init(*Context) error { return nil }
func (b *ControlBase) Handle(ctx *Context, event sdl.Event) bool {
b.HandleNoFeedback(ctx, event)
return false
}
func (b *ControlBase) HandleNoFeedback(ctx *Context, event sdl.Event) {
switch e := event.(type) {
case *sdl.MouseMotionEvent:
b.IsMouseOver = b.Bounds.IsPointInside(e.X, e.Y)
case *sdl.MouseButtonEvent:
if b.IsMouseOver && e.Button == sdl.BUTTON_LEFT && e.Type == sdl.MOUSEBUTTONDOWN {
b.Invoke(ctx, b.OnLeftMouseButtonClick)
}
case *sdl.WindowEvent:
if e.Event == sdl.WINDOWEVENT_LEAVE {
b.IsMouseOver = false
}
}
}
func (b *ControlBase) Invoke(ctx *Context, fn EventContextFn) {
if fn == nil {
return
}
fn(ctx)
}
func (b *ControlBase) Render(*Context) {}

137
dial.go Normal file
View File

@ -0,0 +1,137 @@
package tins2020
import (
"math"
"strconv"
"opslag.de/schobers/geom"
"opslag.de/schobers/zntg/ui"
)
type Dial struct {
ui.ContainerBase
dialer Dialer
typing string // current digit
digitCount int // number of times the digit is pressed
digits []DialDigit // digits
}
func NewDial(dialer Dialer) *Dial {
dial := &Dial{dialer: dialer}
dial.digits = make([]DialDigit, 10)
for i := range dial.digits {
j := i
dial.digits[i].Value = strconv.Itoa(i)
dial.digits[i].ControlClicked().AddHandler(func(ctx ui.Context, _ ui.ControlClickedArgs) {
dial.userTyped(ctx, j)
})
dial.AddChild(&dial.digits[i])
}
return dial
}
func (d *Dial) userTyped(ctx ui.Context, i int) {
d.digits[i].Blink()
digit := strconv.Itoa(i)
if len(d.typing) == 0 || digit != d.typing {
d.typing = digit
d.digitCount = 1
} else {
d.digitCount++
}
if !d.dialer.CanUserType(i) {
d.typing = ""
d.digitCount = 0
d.dialer.UserGaveWrongInput()
} else if d.digitCount == i || d.digitCount == 10 {
d.typing = ""
d.digitCount = 0
d.dialer.UserTyped(ctx, i)
}
}
func (d *Dial) Arrange(ctx ui.Context, bounds geom.RectangleF32, offset geom.PointF32, parent ui.Control) {
d.ControlBase.Arrange(ctx, bounds, offset, parent)
center := bounds.Center()
size := bounds.Size()
distance := size.Y * .3
for i := range d.digits {
angle := (float32((10-i)%10)*0.16 + .2) * math.Pi
pos := geom.PtF32(distance*geom.Cos32(angle), .8*distance*geom.Sin32(angle))
digitCenter := center.Add(pos)
d.digits[i].Arrange(ctx, geom.RectRelF32(digitCenter.X-24, digitCenter.Y-24, 48, 48), offset, d)
}
}
func (d *Dial) DesiredSize(ctx ui.Context, size geom.PointF32) geom.PointF32 {
return geom.PtF32(size.X, geom.NaN32())
}
func (d *Dial) Handle(ctx ui.Context, event ui.Event) bool {
if d.ContainerBase.Handle(ctx, event) {
return true
}
switch e := event.(type) {
case *ui.KeyDownEvent:
switch e.Key {
case ui.Key0:
d.userTyped(ctx, 0)
case ui.KeyPad0:
d.userTyped(ctx, 0)
case ui.Key1:
d.userTyped(ctx, 1)
case ui.KeyPad1:
d.userTyped(ctx, 1)
case ui.Key2:
d.userTyped(ctx, 2)
case ui.KeyPad2:
d.userTyped(ctx, 2)
case ui.Key3:
d.userTyped(ctx, 3)
case ui.KeyPad3:
d.userTyped(ctx, 3)
case ui.Key4:
d.userTyped(ctx, 4)
case ui.KeyPad4:
d.userTyped(ctx, 4)
case ui.Key5:
d.userTyped(ctx, 5)
case ui.KeyPad5:
d.userTyped(ctx, 5)
case ui.Key6:
d.userTyped(ctx, 6)
case ui.KeyPad6:
d.userTyped(ctx, 6)
case ui.Key7:
d.userTyped(ctx, 7)
case ui.KeyPad7:
d.userTyped(ctx, 7)
case ui.Key8:
d.userTyped(ctx, 8)
case ui.KeyPad8:
d.userTyped(ctx, 8)
case ui.Key9:
d.userTyped(ctx, 9)
case ui.KeyPad9:
d.userTyped(ctx, 9)
}
}
return false
}
func (d *Dial) Reset() {
d.typing = ""
d.digitCount = 0
}
func (d *Dial) Tick() {
for i := range d.digits {
d.digits[i].Tick()
}
}

34
dialdigit.go Normal file
View File

@ -0,0 +1,34 @@
package tins2020
import (
"opslag.de/schobers/geom"
"opslag.de/schobers/zntg"
"opslag.de/schobers/zntg/ui"
)
type DialDigit struct {
ui.ControlBase
Value string
highlight int
}
func (d *DialDigit) Blink() {
d.highlight = 4
}
func (d *DialDigit) Render(ctx ui.Context) {
color := zntg.MustHexColor(`#FFFFFF`)
if d.highlight > 0 {
color = zntg.MustHexColor(`#15569F`)
}
bounds := d.Bounds()
ctx.Fonts().TextAlign("title", geom.PtF32(bounds.Center().X, bounds.Min.Y), color, d.Value, ui.AlignCenter)
}
func (d *DialDigit) Tick() {
if d.highlight > 0 {
d.highlight--
}
}

View File

@ -1,53 +1,98 @@
package tins2020 package tins2020
import (
"opslag.de/schobers/zntg/ui"
)
type Dialogs struct { type Dialogs struct {
Proxy ui.Proxy
intro Control intro ui.Overlay
settings Control research ui.Overlay
settings ui.Overlay
nothing ui.Control
dialogClosed *Events closed ui.Events
dialogOpened *Events opened ui.Events
} }
func NewDialogs() *Dialogs { const dialogsOverlayName = "dialogs"
return &Dialogs{
dialogClosed: NewEvents(), func NewDialogs(game *Game) *Dialogs {
dialogOpened: NewEvents(), intro := NewIntro()
research := NewResearch(game)
settings := NewLargeDialog("Settings", &ui.Label{})
dialogs := &Dialogs{
intro: intro,
settings: settings,
research: research,
nothing: &ui.ControlBase{},
}
intro.CloseRequested().AddHandlerEmpty(dialogs.Close)
research.CloseRequested().AddHandlerEmpty(dialogs.Close)
settings.CloseRequested().AddHandlerEmpty(dialogs.Close)
return dialogs
}
func (d *Dialogs) Init(ctx ui.Context) {
overlays := ctx.Overlays()
overlays.AddOnTop(dialogsOverlayName, d, false)
d.Content = d.nothing
}
func (d *Dialogs) showDialog(ctx ui.Context, control ui.Control) {
if control == nil {
ctx.Overlays().Hide(dialogsOverlayName)
d.closed.Notify(ctx, control)
d.Content = d.nothing
} else {
d.Content = control
ctx.Overlays().Show(dialogsOverlayName)
d.opened.Notify(ctx, control)
} }
} }
func (d *Dialogs) DialogClosed() EventHandler { return d.dialogClosed } func (d *Dialogs) Close(ctx ui.Context) {
func (d *Dialogs) DialogOpened() EventHandler { return d.dialogOpened } d.showDialog(ctx, nil)
}
func (d *Dialogs) Init(ctx *Context) error { func (d *Dialogs) DialogClosed() ui.EventHandler { return &d.closed }
d.intro = &Intro{} func (d *Dialogs) DialogOpened() ui.EventHandler { return &d.opened }
d.settings = &DialogBase{}
err := d.intro.Init(ctx) func (d *Dialogs) Hidden() {
if err != nil { d.Proxy.Hidden()
return err }
func (d *Dialogs) AskConfirmation(ctx ui.Context, caption, question string, confirm, cancel ui.EventFn) {
dialog := newConfirmationDialog(caption, question)
dialog.userDecided.AddHandler(func(ctx ui.Context, state interface{}) {
decision := state.(bool)
if decision {
confirm(ctx, nil)
} else {
cancel(ctx, nil)
} }
err = d.settings.Init(ctx) d.Close(ctx)
if err != nil { })
return err d.showDialog(ctx, dialog)
}
return nil
} }
func (d *Dialogs) Close() { func (d *Dialogs) ShowIntro(ctx ui.Context) {
d.Proxied = nil d.showDialog(ctx, d.intro)
d.dialogClosed.Notify(nil)
} }
func (d *Dialogs) ShowIntro() { func (d *Dialogs) Shown() {
d.Proxied = d.intro d.Proxy.Shown()
d.intro.(Dialog).ShowDialog(d.Close)
d.dialogOpened.Notify(nil)
} }
func (d *Dialogs) ShowSettings() { func (d *Dialogs) ShowResearch(ctx ui.Context) {
d.Proxied = d.settings d.showDialog(ctx, d.research)
d.settings.(Dialog).ShowDialog(d.Close) }
d.dialogOpened.Notify(nil)
func (d *Dialogs) ShowSettings(ctx ui.Context) {
d.showDialog(ctx, d.settings)
} }

View File

@ -1,24 +0,0 @@
package tins2020
type Drageable struct {
start *Point
dragged bool
}
func (d *Drageable) Cancel() { d.start = nil }
func (d *Drageable) IsDragging() bool { return d.start != nil }
func (d *Drageable) HasDragged() bool { return d.dragged }
func (d *Drageable) Move(p Point) Point {
delta := p.Sub(*d.start)
d.start = &p
d.dragged = true
return delta
}
func (d *Drageable) Start(p Point) {
d.start = &p
d.dragged = false
}

View File

@ -1,33 +0,0 @@
package tins2020
func NewEvents() *Events {
return &Events{events: map[int]EventInterfaceFn{}}
}
type Events struct {
nextID int
events map[int]EventInterfaceFn
}
type EventHandler interface {
Register(EventFn) int
RegisterItf(EventInterfaceFn) int
Unregister(int)
}
func (h *Events) Notify(state interface{}) {
for _, event := range h.events {
event(state)
}
}
func (h *Events) Register(fn EventFn) int { return h.RegisterItf(func(interface{}) { fn() }) }
func (h *Events) RegisterItf(fn EventInterfaceFn) int {
id := h.nextID
h.nextID++
h.events[id] = fn
return id
}
func (h *Events) Unregister(id int) { delete(h.events, id) }

View File

@ -64,8 +64,8 @@ func NewConeflowerTraits() FlowerTraits {
Spread: 0.0005, Spread: 0.0005,
Life: 0.99993, Life: 0.99993,
Resistance: FlowerResistance{ Resistance: FlowerResistance{
Cold: 0.7, Cold: 0.6,
Hot: 0.8, Hot: 0.9,
Dry: 0.8, Dry: 0.8,
Wet: 0.5, Wet: 0.5,
}, },

109
fonts.go
View File

@ -1,109 +0,0 @@
package tins2020
import (
"fmt"
"github.com/veandco/go-sdl2/sdl"
"github.com/veandco/go-sdl2/ttf"
"opslag.de/schobers/fs/vfs"
)
type TextAlignment int
const (
TextAlignmentLeft TextAlignment = iota
TextAlignmentCenter
TextAlignmentRight
)
type Font struct {
*ttf.Font
}
func (f *Font) Render(renderer *sdl.Renderer, text string, color sdl.Color) (*Texture, error) {
surface, err := f.RenderUTF8Blended(text, color)
if err != nil {
return nil, err
}
defer surface.Free()
texture, err := NewTextureFromSurface(renderer, surface)
if err != nil {
return nil, err
}
return texture, nil
}
func (f *Font) RenderCopyAlign(renderer *sdl.Renderer, text string, pos Point, color sdl.Color, align TextAlignment) error {
texture, err := f.Render(renderer, text, color)
if err != nil {
return err
}
defer texture.Destroy()
size := texture.Size()
switch align {
case TextAlignmentLeft:
texture.Copy(renderer, Pt(pos.X, pos.Y-size.Y))
case TextAlignmentCenter:
texture.Copy(renderer, Pt(pos.X-(size.X/2), pos.Y-size.Y))
case TextAlignmentRight:
texture.Copy(renderer, Pt(pos.X-size.X, pos.Y-size.Y))
}
return nil
}
func (f *Font) RenderCopy(renderer *sdl.Renderer, text string, pos Point, color sdl.Color) error {
return f.RenderCopyAlign(renderer, text, pos, color, TextAlignmentLeft)
}
type Fonts struct {
dir vfs.CopyDir
fonts map[string]*Font
}
func (f *Fonts) Init(dir vfs.CopyDir) {
f.dir = dir
f.fonts = map[string]*Font{}
}
func (f *Fonts) Font(name string) *Font { return f.fonts[name] }
type FontDescriptor struct {
Name string
Path string
Size int
}
func (f *Fonts) LoadDesc(fonts ...FontDescriptor) error {
for _, desc := range fonts {
err := f.Load(desc.Name, desc.Path, desc.Size)
if err != nil {
return fmt.Errorf("error loading '%s'; error: %v", desc.Name, err)
}
}
return nil
}
func (f *Fonts) Load(name, path string, size int) error {
fontPath, err := f.dir.Retrieve(path)
if err != nil {
return err
}
font, err := ttf.OpenFont(fontPath, size)
if err != nil {
return err
}
if font, ok := f.fonts[name]; ok {
font.Close()
}
f.fonts[name] = &Font{font}
return nil
}
func (f *Fonts) Destroy() {
if f.fonts == nil {
return
}
for _, f := range f.fonts {
f.Close()
}
}

View File

@ -1,46 +0,0 @@
package tins2020
import (
"fmt"
"time"
"github.com/veandco/go-sdl2/sdl"
)
type FPS struct {
ControlBase
Show *bool
start time.Time
stamp time.Duration
slot int
ticks []int
total int
}
func (f *FPS) Init(*Context) error {
f.start = time.Now()
f.stamp = 0
f.ticks = make([]int, 51)
return nil
}
func (f *FPS) Render(ctx *Context) {
if f.Show == nil || !*f.Show {
return
}
elapsed := time.Since(f.start)
stamp := elapsed / (20 * time.Millisecond)
for f.stamp < stamp {
f.total += f.ticks[f.slot]
f.slot = (f.slot + 1) % len(f.ticks)
f.total -= f.ticks[f.slot]
f.ticks[f.slot] = 0
f.stamp++
}
f.ticks[f.slot]++
font := ctx.Fonts.Font("debug")
font.RenderCopy(ctx.Renderer, fmt.Sprintf("FPS: %d", f.total), Pt(5, 17), sdl.Color{R: 255, G: 255, B: 255, A: 255})
}

142
game.go
View File

@ -4,6 +4,10 @@ import (
"log" "log"
"math/rand" "math/rand"
"time" "time"
"opslag.de/schobers/geom"
"opslag.de/schobers/zntg"
"opslag.de/schobers/zntg/ui"
) )
type Game struct { type Game struct {
@ -16,10 +20,10 @@ type Game struct {
Terrain *Map Terrain *Map
tool Tool tool Tool
centerChanged *Events centerChanged ui.Events
toolChanged *Events toolChanged ui.Events
speedChanged *Events speedChanged ui.Events
simulation Animation simulation zntg.Animation
} }
type GameSpeed string type GameSpeed string
@ -35,21 +39,17 @@ const fastSimulationInterval = 20 * time.Millisecond
func NewGame() *Game { func NewGame() *Game {
game := &Game{ game := &Game{
centerChanged: NewEvents(), simulation: zntg.Animation{Interval: time.Millisecond * 10},
speedChanged: NewEvents(),
toolChanged: NewEvents(),
simulation: NewAnimation(time.Millisecond * 10),
} }
game.Reset()
return game return game
} }
func (g *Game) selectTool(t Tool) { func (g *Game) selectTool(ctx ui.Context, t Tool) {
g.tool = t g.tool = t
g.toolChanged.Notify(t) g.toolChanged.Notify(ctx, t)
} }
func (g *Game) setSpeed(speed GameSpeed) { func (g *Game) setSpeed(ctx ui.Context, speed GameSpeed) {
if speed == g.Speed { if speed == g.Speed {
return return
} }
@ -57,35 +57,35 @@ func (g *Game) setSpeed(speed GameSpeed) {
g.SpeedBeforePause = g.Speed g.SpeedBeforePause = g.Speed
} }
g.Speed = speed g.Speed = speed
g.speedChanged.Notify(speed) g.speedChanged.Notify(ctx, speed)
switch speed { switch speed {
case GameSpeedPaused: case GameSpeedPaused:
g.simulation.Pause() g.simulation.Pause()
case GameSpeedNormal: case GameSpeedNormal:
g.simulation.SetInterval(simulationInterval) g.simulation.Interval = simulationInterval
g.simulation.Run() g.simulation.Start()
case GameSpeedFast: case GameSpeedFast:
g.simulation.SetInterval(fastSimulationInterval) g.simulation.Interval = fastSimulationInterval
g.simulation.Run() g.simulation.Start()
} }
} }
func (g *Game) tick() { func (g *Game) tick() {
randomNeighbor := func(pos Point) Point { randomNeighbor := func(pos geom.Point) geom.Point {
switch rand.Intn(4) { switch rand.Intn(4) {
case 0: case 0:
return Pt(pos.X-1, pos.Y) return geom.Pt(pos.X-1, pos.Y)
case 1: case 1:
return Pt(pos.X, pos.Y-1) return geom.Pt(pos.X, pos.Y-1)
case 2: case 2:
return Pt(pos.X+1, pos.Y) return geom.Pt(pos.X+1, pos.Y)
case 3: case 3:
return Pt(pos.X, pos.Y+1) return geom.Pt(pos.X, pos.Y+1)
} }
return pos return pos
} }
flowers := map[Point]Flower{} flowers := map[geom.Point]Flower{}
for pos, flower := range g.Terrain.Flowers { for pos, flower := range g.Terrain.Flowers {
if rand.Float32() < flower.Traits.Spread { if rand.Float32() < flower.Traits.Spread {
dst := randomNeighbor(pos) dst := randomNeighbor(pos)
@ -102,29 +102,37 @@ func (g *Game) tick() {
g.Terrain.Flowers = flowers g.Terrain.Flowers = flowers
} }
func (g *Game) CancelTool() { func (g *Game) CancelTool(ctx ui.Context) {
g.selectTool(nil) g.selectTool(ctx, nil)
} }
func (g *Game) CenterChanged() EventHandler { return g.centerChanged } func (g *Game) CenterChanged() ui.EventHandler { return &g.centerChanged }
func (g *Game) Dig(tile Point) { func (g *Game) Dig(tile geom.Point) {
id := g.Terrain.DigFlower(tile) id := g.Terrain.DigFlower(tile)
desc, ok := g.Herbarium.Find(id) desc, ok := g.Herbarium.Find(id)
if !ok { if !ok {
return return
} }
adjacent := g.Terrain.FlowersOnAdjacentTiles(tile)
switch adjacent {
case 3:
g.Balance += (desc.SellPrice * 3 / 2) // 50% bonus
case 4:
g.Balance += (desc.SellPrice * 2) // 100% bonus
default:
g.Balance += desc.SellPrice g.Balance += desc.SellPrice
}
} }
func (g *Game) New() { func (g *Game) New(ctx ui.Context) {
g.Pause() g.Pause(ctx)
g.Reset() g.Reset(ctx)
} }
func (g *Game) Load() { func (g *Game) Load(ctx ui.Context) {
g.CancelTool() g.CancelTool(ctx)
g.Pause() g.Pause(ctx)
var state GameState var state GameState
err := state.Deserialize(SaveGameName()) err := state.Deserialize(SaveGameName())
@ -147,22 +155,25 @@ func (g *Game) Load() {
Variant: NewRandomNoiseMap(state.Terrain.Variant), Variant: NewRandomNoiseMap(state.Terrain.Variant),
PlaceX: NewRandomNoiseMap(state.Terrain.PlaceX), PlaceX: NewRandomNoiseMap(state.Terrain.PlaceX),
PlaceY: NewRandomNoiseMap(state.Terrain.PlaceY), PlaceY: NewRandomNoiseMap(state.Terrain.PlaceY),
Flowers: map[Point]Flower{}, Flowers: map[geom.Point]Flower{},
} }
for _, flower := range state.Terrain.Flowers { for _, flower := range state.Terrain.Flowers {
desc, _ := g.Herbarium.Find(flower.ID) desc, _ := g.Herbarium.Find(flower.ID)
g.Terrain.AddFlower(flower.Location, flower.ID, desc.Traits) g.Terrain.AddFlower(flower.Location, flower.ID, desc.Traits)
} }
g.Terrain.Center = state.View.Center g.Terrain.Center = state.View.Center
g.centerChanged.Notify(g.Terrain.Center) g.centerChanged.Notify(ctx, g.Terrain.Center)
g.setSpeed(ctx, state.Speed)
g.CancelTool()
g.setSpeed(state.Speed)
} }
func (g *Game) Pause() { g.setSpeed(GameSpeedPaused) } func (g *Game) Pause(ctx ui.Context) { g.setSpeed(ctx, GameSpeedPaused) }
func (g *Game) PlantFlower(id string, tile geom.Point) {
if g.Terrain.HasFlower(tile) {
// TODO: notify user it tried to plant on tile with flower?
return
}
func (g *Game) PlantFlower(id string, tile Point) {
flower, ok := g.Herbarium.Find(id) flower, ok := g.Herbarium.Find(id)
if !ok { if !ok {
log.Println("user was able to plant a flower that doesn't exist") log.Println("user was able to plant a flower that doesn't exist")
@ -176,7 +187,7 @@ func (g *Game) PlantFlower(id string, tile Point) {
g.Terrain.AddFlower(tile, id, flower.Traits) g.Terrain.AddFlower(tile, id, flower.Traits)
} }
func (g *Game) Reset() { func (g *Game) Reset(ctx ui.Context) {
g.Balance = 100 g.Balance = 100
g.Herbarium = NewHerbarium() g.Herbarium = NewHerbarium()
g.Terrain = &Map{ g.Terrain = &Map{
@ -185,17 +196,17 @@ func (g *Game) Reset() {
Variant: NewRandomNoiseMap(rand.Int63()), Variant: NewRandomNoiseMap(rand.Int63()),
PlaceX: NewRandomNoiseMap(rand.Int63()), PlaceX: NewRandomNoiseMap(rand.Int63()),
PlaceY: NewRandomNoiseMap(rand.Int63()), PlaceY: NewRandomNoiseMap(rand.Int63()),
Flowers: map[Point]Flower{}, Flowers: map[geom.Point]Flower{},
} }
g.CancelTool() g.CancelTool(ctx)
g.setSpeed(GameSpeedNormal) g.setSpeed(ctx, GameSpeedNormal)
} }
func (g *Game) Resume() { g.setSpeed(g.SpeedBeforePause) } func (g *Game) Resume(ctx ui.Context) { g.setSpeed(ctx, g.SpeedBeforePause) }
func (g *Game) Run() { g.setSpeed(GameSpeedNormal) } func (g *Game) Run(ctx ui.Context) { g.setSpeed(ctx, GameSpeedNormal) }
func (g *Game) RunFast() { g.setSpeed(GameSpeedFast) } func (g *Game) RunFast(ctx ui.Context) { g.setSpeed(ctx, GameSpeedFast) }
func (g *Game) Save() { func (g *Game) Save() {
state := g.State() state := g.State()
@ -205,19 +216,15 @@ func (g *Game) Save() {
} }
} }
func (g *Game) SelectPlantFlowerTool(id string) { func (g *Game) SelectPlantFlowerTool(ctx ui.Context, id string) {
g.selectTool(&PlantFlowerTool{FlowerID: id}) g.selectTool(ctx, &PlantFlowerTool{FlowerID: id})
} }
func (g *Game) SelectShovel() { func (g *Game) SelectShovel(ctx ui.Context) {
g.selectTool(&ShovelTool{}) g.selectTool(ctx, &ShovelTool{})
} }
func (g *Game) SelectResearch() { func (g *Game) SpeedChanged() ui.EventHandler { return &g.speedChanged }
g.Pause()
}
func (g *Game) SpeedChanged() EventHandler { return g.speedChanged }
func (g *Game) State() GameState { func (g *Game) State() GameState {
var state GameState var state GameState
@ -246,17 +253,28 @@ func (g *Game) State() GameState {
return state return state
} }
func (g *Game) TogglePause() { func (g *Game) TogglePause(ctx ui.Context) {
if g.Speed == GameSpeedPaused { if g.Speed == GameSpeedPaused {
g.Resume() g.Resume(ctx)
} else { } else {
g.Pause() g.Pause(ctx)
} }
} }
func (g *Game) Tool() Tool { return g.tool } func (g *Game) Tool() Tool {
if g.tool == nil {
return &NoTool{}
}
return g.tool
}
func (g *Game) ToolChanged() EventHandler { return g.toolChanged } func (g *Game) ToolChanged() ui.EventHandler { return &g.toolChanged }
func (g *Game) UnlockNextFlower(ctx ui.Context) {
price := g.Herbarium.UnlockNext()
g.Balance -= price
g.selectTool(ctx, nil)
}
func (g *Game) Update() { func (g *Game) Update() {
for g.simulation.Animate() { for g.simulation.Animate() {
@ -264,7 +282,7 @@ func (g *Game) Update() {
} }
} }
func (g *Game) UserClickedTile(pos Point) { func (g *Game) UserClickedTile(pos geom.Point) {
if g.tool == nil { if g.tool == nil {
return return
} }

View File

@ -1,19 +1,24 @@
package tins2020 package tins2020
import ( import (
"github.com/veandco/go-sdl2/sdl" "opslag.de/schobers/geom"
"opslag.de/schobers/zntg"
"opslag.de/schobers/zntg/play"
"opslag.de/schobers/zntg/ui"
) )
const fpsOverlayName = "fps"
type GameControls struct { type GameControls struct {
Container ui.ContainerBase
game *Game game *Game
dialogs *Dialogs dialogs *Dialogs
menu ButtonBar menu ui.StackPanel
top ButtonBar top ui.StackPanel
flowers ButtonBar flowers ui.StackPanel
otherTools ButtonBar otherTools ui.StackPanel
pause *IconButton pause *IconButton
run *IconButton run *IconButton
@ -27,6 +32,114 @@ func NewGameControls(game *Game, dialogs *Dialogs) *GameControls {
return &GameControls{game: game, dialogs: dialogs} return &GameControls{game: game, dialogs: dialogs}
} }
func (c *GameControls) askUserBeforeLoad(ctx ui.Context) {
c.dialogs.AskConfirmation(ctx,
"Do you want to load?",
"You will lose any progress you made during this session.",
func(ui.Context, interface{}) {
c.game.Load(ctx)
c.updateFlowerControls()
},
func(ui.Context, interface{}) {})
}
func (c *GameControls) askUserBeforeNew(ctx ui.Context) {
c.dialogs.AskConfirmation(ctx,
"Do you want to start a new game?",
"You will lose any progress you made during this session.",
func(ui.Context, interface{}) {
c.game.New(ctx)
c.updateFlowerControls()
},
func(ui.Context, interface{}) {})
}
func (c *GameControls) askUserBeforeSave(ctx ui.Context) {
c.dialogs.AskConfirmation(ctx,
"Do you want to save?",
"Saving will overwrite any previous save game.",
func(ui.Context, interface{}) { c.game.Save() },
func(ui.Context, interface{}) {})
}
func (c *GameControls) Init(ctx ui.Context) {
ctx.Overlays().AddOnTop(fpsOverlayName, &play.FPS{}, false)
c.game.SpeedChanged().AddHandler(c.speedChanged)
c.game.ToolChanged().AddHandler(c.toolChanged)
c.dialogs.DialogOpened().AddHandlerEmpty(func(ctx ui.Context) { c.game.Pause(ctx) })
c.dialogs.DialogClosed().AddHandlerEmpty(func(ctx ui.Context) {
c.updateFlowerControls()
c.game.Resume(ctx)
})
c.flowers.Background = zntg.MustHexColor("#356DAD")
for _, id := range c.game.Herbarium.Flowers() {
c.flowers.Children = append(c.flowers.Children, c.createBuyFlowerButton(id))
}
c.top.Orientation = ui.OrientationHorizontal
c.pause = NewIconButtonConfigure("control-pause", func(ctx ui.Context) {
c.game.Pause(ctx)
}, func(b *IconButton) {
b.DisabledColor = ctx.Style().Palette.Secondary
b.Tooltip = "Pause game"
})
c.run = NewIconButtonConfigure("control-run", func(ctx ui.Context) {
c.game.Run(ctx)
}, func(b *IconButton) {
b.DisabledColor = ctx.Style().Palette.Secondary
b.Tooltip = "Run game at normal speed"
})
c.runFast = NewIconButtonConfigure("control-run-fast", func(ctx ui.Context) {
c.game.RunFast(ctx)
}, func(b *IconButton) {
b.DisabledColor = ctx.Style().Palette.Secondary
b.Tooltip = "Run game at fast speed"
})
c.speedChanged(nil, c.game.Speed)
c.top.Children = []ui.Control{c.pause, c.run, c.runFast}
c.menu.Background = zntg.MustHexColor("#356DAD")
c.menu.Children = []ui.Control{
NewIconButtonConfigure("control-settings", c.dialogs.ShowSettings, func(b *IconButton) {
b.Disabled = true
b.DisabledColor = zntg.MustHexColor("#AFAFAF")
}),
NewIconButtonConfigure("control-save", c.askUserBeforeSave, func(b *IconButton) {
b.Tooltip = "Save game (key: Ctrl+S)"
}),
NewIconButtonConfigure("control-load", c.askUserBeforeLoad, func(b *IconButton) {
b.Tooltip = "Load last saved game (key: Ctrl+L)"
}),
NewIconButtonConfigure("control-new", c.askUserBeforeNew, func(b *IconButton) {
b.Tooltip = "Start new game (key: Ctrl+N)"
}),
NewIconButtonConfigure("control-information", c.dialogs.ShowIntro, func(b *IconButton) {
b.Tooltip = "Show information/intro (key: Escape)"
}),
}
for i, child := range c.menu.Children {
c.menu.Children[i] = ui.FixedHeight(child, 96)
}
c.shovel = NewIconButtonConfigure("control-shovel", func(ctx ui.Context) { c.game.SelectShovel(ctx) }, func(b *IconButton) {
b.Tooltip = "Select harvest tool (key: H)"
})
c.research = NewIconButtonConfigure("control-research", c.dialogs.ShowResearch, func(b *IconButton) {
b.Tooltip = "Conduct research (key: R)"
})
c.otherTools.Children = []ui.Control{c.shovel, c.research}
for i, child := range c.otherTools.Children {
c.otherTools.Children[i] = ui.FixedHeight(child, 96)
}
c.AddChild(&c.menu)
c.AddChild(&c.top)
c.AddChild(&c.flowers)
c.AddChild(&c.otherTools)
}
func (c *GameControls) createBuyFlowerButton(id string) *BuyFlowerButton { func (c *GameControls) createBuyFlowerButton(id string) *BuyFlowerButton {
flower, _ := c.game.Herbarium.Find(id) flower, _ := c.game.Herbarium.Find(id)
return NewBuyFlowerButton( return NewBuyFlowerButton(
@ -34,153 +147,106 @@ func (c *GameControls) createBuyFlowerButton(id string) *BuyFlowerButton {
flower.IconTemplate.Disabled(), flower.IconTemplate.Disabled(),
id, id,
flower, flower,
EmptyEvent(func() { func(ctx ui.Context) {
c.game.SelectPlantFlowerTool(id) c.game.SelectPlantFlowerTool(ctx, id)
}), },
) )
} }
func (c *GameControls) speedChanged(state interface{}) { func (c *GameControls) speedChanged(_ ui.Context, state interface{}) {
speed := state.(GameSpeed) speed := state.(GameSpeed)
disable := func(b *IconButton, expected GameSpeed) { disable := func(b *IconButton, expected GameSpeed) {
b.IsDisabled = speed == expected b.Disabled = speed == expected
} }
disable(c.pause, GameSpeedPaused) disable(c.pause, GameSpeedPaused)
disable(c.run, GameSpeedNormal) disable(c.run, GameSpeedNormal)
disable(c.runFast, GameSpeedFast) disable(c.runFast, GameSpeedFast)
} }
func (c *GameControls) toolChanged(state interface{}) { func (c *GameControls) toolChanged(_ ui.Context, state interface{}) {
tool, _ := state.(Tool) tool, _ := state.(Tool)
var flowerID string var flowerID string
if tool, ok := tool.(*PlantFlowerTool); ok { if tool, ok := tool.(*PlantFlowerTool); ok {
flowerID = tool.FlowerID flowerID = tool.FlowerID
} }
for _, control := range c.flowers.Buttons { for _, control := range c.flowers.Children {
button := control.(*BuyFlowerButton) button := control.(*BuyFlowerButton)
button.IsActive = button.FlowerID == flowerID button.Active = button.FlowerID == flowerID
button.IsDisabled = !c.game.Herbarium.IsUnlocked(button.FlowerID) button.Disabled = !c.game.Herbarium.IsUnlocked(button.FlowerID)
} }
_, shovel := tool.(*ShovelTool) _, shovel := tool.(*ShovelTool)
c.shovel.IsActive = shovel c.shovel.Active = shovel
} }
func (c *GameControls) updateFlowerControls(ctx *Context) { func (c *GameControls) updateFlowerControls() {
for _, b := range c.flowers.Buttons { for _, b := range c.flowers.Children {
button := b.(*BuyFlowerButton) button := b.(*BuyFlowerButton)
flower, ok := c.game.Herbarium.Find(button.FlowerID) flower, ok := c.game.Herbarium.Find(button.FlowerID)
if ok { if ok {
button.Update(ctx, flower) button.Update(flower)
} }
} }
} }
func (c *GameControls) Arrange(ctx *Context, bounds Rectangle) { const buttonBarWidth = 96
c.Bounds = bounds
c.menu.Arrange(ctx, RectSize(bounds.X, bounds.Y, buttonBarWidth, bounds.H)) func (c *GameControls) Arrange(ctx ui.Context, bounds geom.RectangleF32, offset geom.PointF32, parent ui.Control) {
c.top.Arrange(ctx, Rect(bounds.X+bounds.W/2+8, bounds.Y, bounds.Right(), bounds.Y+64)) c.ContainerBase.Arrange(ctx, bounds, offset, parent)
c.flowers.Arrange(ctx, RectSize(bounds.Right()-buttonBarWidth, bounds.Y, buttonBarWidth, bounds.H))
c.otherTools.Arrange(ctx, RectSize(bounds.Right()-buttonBarWidth, bounds.Bottom()-2*buttonBarWidth, buttonBarWidth, 2*buttonBarWidth)) c.menu.Arrange(ctx, geom.RectRelF32(bounds.Min.X, bounds.Min.Y, buttonBarWidth, bounds.Dy()), offset, c)
c.top.Arrange(ctx, geom.RectF32(bounds.Min.X+bounds.Dx()/2+8, bounds.Min.Y, bounds.Max.X, bounds.Min.Y+64), offset, c)
c.flowers.Arrange(ctx, geom.RectRelF32(bounds.Max.X-buttonBarWidth, bounds.Min.Y, buttonBarWidth, bounds.Dy()), offset, c)
otherToolsSize := c.otherTools.DesiredSize(ctx, bounds.Size())
c.otherTools.Arrange(ctx, geom.RectRelF32(bounds.Max.X-buttonBarWidth, bounds.Max.Y-otherToolsSize.Y, buttonBarWidth, 2*buttonBarWidth), offset, c)
} }
func (c *GameControls) Init(ctx *Context) error { func (c *GameControls) Handle(ctx ui.Context, event ui.Event) bool {
c.game.SpeedChanged().RegisterItf(c.speedChanged) if c.ContainerBase.Handle(ctx, event) {
c.game.ToolChanged().RegisterItf(c.toolChanged)
c.dialogs.DialogOpened().Register(func() { c.game.Pause() })
c.dialogs.DialogClosed().Register(func() { c.game.Resume() })
c.flowers.Background = MustHexColor("#356dad")
c.flowers.ButtonLength = 64
for _, id := range c.game.Herbarium.Flowers() {
c.flowers.Buttons = append(c.flowers.Buttons, c.createBuyFlowerButton(id))
}
c.top.Orientation = OrientationHorizontal
c.pause = NewIconButtonConfig("control-pause", EmptyEvent(func() {
c.game.Pause()
}), func(b *IconButton) {
b.IconDisabled = "control-pause-disabled"
})
c.run = NewIconButtonConfig("control-run", EmptyEvent(func() {
c.game.Run()
}), func(b *IconButton) {
b.IconDisabled = "control-run-disabled"
})
c.runFast = NewIconButtonConfig("control-run-fast", EmptyEvent(func() {
c.game.RunFast()
}), func(b *IconButton) {
b.IconDisabled = "control-run-fast-disabled"
})
c.speedChanged(c.game.Speed)
c.top.Buttons = []Control{c.pause, c.run, c.runFast}
c.menu.Background = MustHexColor("#356dad")
c.menu.Buttons = []Control{
NewIconButton("control-settings", func(*Context) { c.dialogs.ShowSettings() }),
NewIconButton("control-save", func(*Context) { c.game.Save() }),
NewIconButton("control-load", func(ctx *Context) {
c.game.Load()
c.updateFlowerControls(ctx)
}),
NewIconButton("control-new", func(ctx *Context) {
c.game.New()
c.updateFlowerControls(ctx)
}),
NewIconButton("control-information", func(*Context) { c.dialogs.ShowIntro() }),
}
c.shovel = NewIconButtonConfig("control-shovel", func(*Context) { c.game.SelectShovel() }, func(b *IconButton) { b.IconHeight = 32 })
c.research = NewIconButtonConfig("control-research", func(*Context) { c.game.SelectResearch() }, func(b *IconButton) { b.IconHeight = 32 })
c.otherTools.Buttons = []Control{c.shovel, c.research}
c.Container.AddChild(&c.menu)
c.Container.AddChild(&c.top)
c.Container.AddChild(&c.flowers)
c.Container.AddChild(&c.otherTools)
return c.Container.Init(ctx)
}
func (c *GameControls) Handle(ctx *Context, event sdl.Event) bool {
if c.Container.Handle(ctx, event) {
return true return true
} }
switch e := event.(type) { switch e := event.(type) {
case *sdl.KeyboardEvent: case *ui.KeyDownEvent:
if e.Type == sdl.KEYDOWN { switch e.Key {
switch e.Keysym.Sym { case ui.KeySpace:
case sdl.K_SPACE: c.game.TogglePause(ctx)
c.game.TogglePause() case ui.Key1:
case sdl.K_1: c.game.Run(ctx)
c.game.Run() case ui.Key2:
case sdl.K_2: c.game.RunFast(ctx)
c.game.RunFast() case ui.KeyH:
case sdl.K_d: c.game.SelectShovel(ctx)
c.game.SelectShovel() case ui.KeyR:
case sdl.K_r: c.dialogs.ShowResearch(ctx)
c.game.SelectResearch() case ui.KeyEscape:
case sdl.K_ESCAPE: if c.game.Tool().Type() == "none" {
if c.game.Tool() == nil { c.dialogs.ShowIntro(ctx)
c.dialogs.ShowIntro()
} else { } else {
c.game.CancelTool() c.game.CancelTool(ctx)
} }
return true return true
case sdl.K_F3: case ui.KeyF4:
c.game.Debug = !c.game.Debug c.game.Debug = !c.game.Debug
ctx.Overlays().Toggle(fpsOverlayName)
}
if e.Modifiers == ui.KeyModifierControl {
switch e.Key {
case ui.KeyL:
c.askUserBeforeLoad(ctx)
case ui.KeyN:
c.askUserBeforeNew(ctx)
case ui.KeyS:
c.askUserBeforeSave(ctx)
} }
} }
} }
return false return false
} }
func (c *GameControls) Render(ctx *Context) { func (c *GameControls) Render(ctx ui.Context) {
topBar := MustHexColor("#0000007f") topBar := zntg.MustHexColor("#0000007F")
SetDrawColor(ctx.Renderer, topBar) ctx.Renderer().FillRectangle(geom.RectF32(c.menu.Bounds().Max.X, 0, c.flowers.Bounds().Min.X, 64), topBar)
ctx.Renderer.FillRect(Rect(c.menu.Bounds.Right(), 0, c.flowers.Bounds.X, 64).SDLPtr()) ctx.Fonts().TextAlign("balance", geom.PtF32(c.top.Bounds().Min.X-8, 4), zntg.MustHexColor("#4AC69A"), FmtMoney(c.game.Balance), ui.AlignRight)
ctx.Fonts.Font("balance").RenderCopyAlign(ctx.Renderer, FmtMoney(c.game.Balance), Pt(c.top.Bounds.X-8, 58), MustHexColor("#4AC69A"), TextAlignmentRight)
c.Container.Render(ctx) c.ContainerBase.Render(ctx)
} }

View File

@ -1,8 +1,13 @@
package tins2020 package tins2020
import (
"opslag.de/schobers/geom"
"opslag.de/schobers/zntg"
)
type FlowerState struct { type FlowerState struct {
ID string ID string
Location Point Location geom.Point
} }
type GameState struct { type GameState struct {
@ -32,7 +37,7 @@ type TerrainState struct {
} }
type ViewState struct { type ViewState struct {
Center Point Center geom.Point
} }
func (s *GameState) Serialize(name string) error { func (s *GameState) Serialize(name string) error {
@ -40,7 +45,7 @@ func (s *GameState) Serialize(name string) error {
if err != nil { if err != nil {
return err return err
} }
return EncodeJSON(path, &s) return zntg.EncodeJSON(path, &s)
} }
func (s *GameState) Deserialize(name string) error { func (s *GameState) Deserialize(name string) error {
@ -48,7 +53,7 @@ func (s *GameState) Deserialize(name string) error {
if err != nil { if err != nil {
return err return err
} }
return DecodeJSON(path, &s) return zntg.DecodeJSON(path, &s)
} }
func SaveGameName() string { return "savegame.json" } func SaveGameName() string { return "savegame.json" }

View File

@ -31,12 +31,12 @@ func (h *Herbarium) Reset() {
}) })
h.Add("loosestrife", FlowerDescriptor{ h.Add("loosestrife", FlowerDescriptor{
Name: "Loosestrife", Name: "Loosestrife",
Description: "A simple flower that will spread in temperate and wet climates.", Description: "A simple flower that will spread in temperate and damp climates.",
IconTemplate: "flower-loosestrife-%s", IconTemplate: "flower-loosestrife-%s",
BuyPrice: 100, BuyPrice: 100,
SellPrice: 20, SellPrice: 20,
Traits: NewLoosestrifeTraits(), Traits: NewLoosestrifeTraits(),
Unlocked: true, Unlocked: false,
}) })
h.Add("coneflower", FlowerDescriptor{ h.Add("coneflower", FlowerDescriptor{
Name: "Coneflower", Name: "Coneflower",
@ -45,7 +45,7 @@ func (h *Herbarium) Reset() {
BuyPrice: 500, BuyPrice: 500,
SellPrice: 100, SellPrice: 100,
Traits: NewConeflowerTraits(), Traits: NewConeflowerTraits(),
Unlocked: true, Unlocked: false,
}) })
h.Add("tulip", FlowerDescriptor{ h.Add("tulip", FlowerDescriptor{
Name: "Tulip", Name: "Tulip",
@ -54,7 +54,7 @@ func (h *Herbarium) Reset() {
BuyPrice: 20000, BuyPrice: 20000,
SellPrice: 5000, SellPrice: 5000,
Traits: NewTulipTraits(), Traits: NewTulipTraits(),
Unlocked: true, Unlocked: false,
}) })
h.Add("ajuga", FlowerDescriptor{ h.Add("ajuga", FlowerDescriptor{
Name: "Ajuga", Name: "Ajuga",
@ -63,7 +63,7 @@ func (h *Herbarium) Reset() {
BuyPrice: 100000, BuyPrice: 100000,
SellPrice: 10000, SellPrice: 10000,
Traits: NewAjugaTraits(), Traits: NewAjugaTraits(),
Unlocked: true, Unlocked: false,
}) })
} }
@ -114,3 +114,28 @@ func (h *Herbarium) IsUnlocked(id string) bool {
} }
return flower.Unlocked return flower.Unlocked
} }
func (h *Herbarium) NextFlowerToUnlock() (string, FlowerDescriptor, int) {
var previous *FlowerDescriptor
for _, id := range h.Flowers() {
flower, _ := h.Find(id)
if !flower.Unlocked {
if previous == nil {
return "", FlowerDescriptor{}, 0
}
return id, flower, previous.BuyPrice * 2
}
previous = &flower
}
return "", FlowerDescriptor{}, 0
}
func (h *Herbarium) UnlockNext() int {
id, flower, price := h.NextFlowerToUnlock()
if len(id) == 0 {
return 0
}
flower.Unlocked = true
h.flowers[id] = flower
return price
}

View File

@ -1,82 +1,47 @@
package tins2020 package tins2020
type HoverEffect int import (
"image/color"
const ( "opslag.de/schobers/zntg"
HoverEffectLigthen HoverEffect = iota "opslag.de/schobers/zntg/ui"
HoverEffectColor
) )
type IconButton struct { type IconButton struct {
ControlBase ui.Button
Icon string Active bool
IconDisabled string
IconHeight int32
IconScale Scale
IconWidth int32
IconActive HoverEffect
IconHover HoverEffect
IsActive bool
IsDisabled bool
} }
func NewIconButton(icon string, onClick EventContextFn) *IconButton { func NewIconButton(icon string, click ui.EventEmptyFn) *IconButton {
return &IconButton{ b := &IconButton{
ControlBase: ControlBase{ Button: ui.Button{
OnLeftMouseButtonClick: onClick,
},
Icon: icon, Icon: icon,
IconHeight: 48,
Type: ui.ButtonTypeText,
HoverColor: hoverTransparentColor,
},
} }
b.Font.Color = color.White
b.ButtonClicked().AddHandler(func(ctx ui.Context, _ ui.ControlClickedArgs) { click(ctx) })
return b
} }
func NewIconButtonConfig(icon string, onClick EventContextFn, configure func(*IconButton)) *IconButton { func NewIconButtonConfigure(icon string, click ui.EventEmptyFn, configure func(*IconButton)) *IconButton {
button := NewIconButton(icon, onClick) button := NewIconButton(icon, click)
configure(button) configure(button)
return button return button
} }
func (b *IconButton) activeTexture(ctx *Context) *Texture { var hoverTransparentColor = zntg.MustHexColor(`#FFFFFF1F`)
if b.IsDisabled {
texture := ctx.Textures.Texture(b.IconDisabled) func (b *IconButton) Render(ctx ui.Context) {
if texture != nil { b.RenderActive(ctx)
return texture b.Button.Render(ctx)
}
}
return ctx.Textures.Texture(b.Icon)
} }
func (b *IconButton) Render(ctx *Context) { func (b *IconButton) RenderActive(ctx ui.Context) {
iconTexture := b.activeTexture(ctx) if b.Active || (!b.Disabled && b.IsOver()) {
ctx.Renderer().FillRectangle(b.Bounds(), hoverTransparentColor)
hover := b.IsMouseOver && !b.IsDisabled
if (hover && b.IconHover == HoverEffectColor) || (b.IsActive && b.IconActive == HoverEffectColor) {
iconTexture.SetColor(MustHexColor("#15569F"))
} }
if b.IconScale == ScaleCenter {
size := iconTexture.Size()
if b.IconWidth != 0 {
size = Pt(b.IconWidth, b.IconWidth*size.Y/size.X)
} else if b.IconHeight != 0 {
size = Pt(b.IconHeight*size.X/size.Y, b.IconHeight)
}
iconTexture.CopyResize(ctx.Renderer, RectSize(b.Bounds.X+(b.Bounds.W-size.X)/2, b.Bounds.Y+(b.Bounds.H-size.Y)/2, size.X, size.Y))
} else {
iconTexture.CopyResize(ctx.Renderer, b.Bounds)
}
if (hover && b.IconHover == HoverEffectLigthen) || (b.IsActive && b.IconActive == HoverEffectLigthen) {
SetDrawColor(ctx.Renderer, TransparentWhite)
ctx.Renderer.FillRect(b.Bounds.SDLPtr())
}
iconTexture.SetColor(White)
} }
type Scale int
const (
ScaleCenter Scale = iota
ScaleStretch
)

View File

@ -1,62 +0,0 @@
package img
import (
"errors"
"image/color"
"regexp"
)
var hexColorRE = regexp.MustCompile(`^#?([0-9A-Fa-f]{2})-?([0-9A-Fa-f]{2})-?([0-9A-Fa-f]{2})-?([0-9A-Fa-f]{2})?$`)
func HexColor(s string) (color.RGBA, error) {
match := hexColorRE.FindStringSubmatch(s)
if match == nil {
return color.RGBA{}, errors.New("invalid color format")
}
values, err := HexToInts(match[1:]...)
if err != nil {
return color.RGBA{}, err
}
a := 255
if len(match[4]) > 0 {
a = values[3]
}
return color.RGBA{R: uint8(values[0]), G: uint8(values[1]), B: uint8(values[2]), A: uint8(a)}, nil
}
func MustHexColor(s string) color.RGBA {
color, err := HexColor(s)
if err != nil {
panic(err)
}
return color
}
func HexToInt(s string) (int, error) {
var i int
for _, c := range s {
i *= 16
if c >= '0' && c <= '9' {
i += int(c - '0')
} else if c >= 'A' && c <= 'F' {
i += int(c - 'A' + 10)
} else if c >= 'a' && c <= 'f' {
i += int(c - 'a' + 10)
} else {
return 0, errors.New("hex digit not supported")
}
}
return i, nil
}
func HexToInts(s ...string) ([]int, error) {
ints := make([]int, len(s))
for i, s := range s {
value, err := HexToInt(s)
if err != nil {
return nil, err
}
ints[i] = value
}
return ints, nil
}

View File

@ -1,29 +0,0 @@
package img
import (
"image"
"image/png"
"os"
)
func EncodePNG(path string, im image.Image) error {
dst, err := os.Create(path)
if err != nil {
return err
}
defer dst.Close()
return png.Encode(dst, im)
}
func DecodeImage(path string) (image.Image, error) {
f, err := os.Open(path)
if err != nil {
return nil, err
}
defer f.Close()
im, _, err := image.Decode(f)
if err != nil {
return nil, err
}
return im, nil
}

View File

@ -1,27 +1,31 @@
package tins2020 package tins2020
type Intro struct { import (
LargeDialog "image/color"
welcome Paragraph "opslag.de/schobers/zntg/ui"
)
type Intro struct {
ui.Paragraph
} }
func (i *Intro) Init(ctx *Context) error { func NewIntro() *LargeDialog {
i.welcome.Text = i := &Intro{}
i.Font.Color = color.White
i.Text =
"Welcome to Botanim!\n\n" + "Welcome to Botanim!\n\n" +
"In Botanim you play the role of botanist and your goal is to cultivate flowers in an open landscape.\n\n" + "In Botanim you play the role of botanist and your goal is to cultivate flowers in an open landscape.\n\n" +
"Flowers can only grow (well) in certain climates based on two properties: humidity and temperature. Watch out for existing vegetation to get an idea how humid the land is and check the appearance of the tile to see how hot it is. When well placed your planted flower will spread soon but an odd choice might kill your flower almost instantly. So choose carefully. When the flower spread significantly you can dig up flowers again to collect more money.\n\n" + "Flowers can only grow (well) in certain climates based on two properties: humidity and temperature. Watch out for existing vegetation to get an idea how humid the land is and check the appearance of the tile to see how hot it is. When well placed your planted flower will spread soon but an odd choice might kill your flower almost instantly. So choose carefully. When the flower spread significantly you can harvest flowers again to collect more money.\n\n" +
"Controls:\n" + "Controls:\n" +
" - D: Selects shovel\n" + " - H: Selects harvest tool\n" +
" - R: Selects research\n" + " - R: Selects research\n" +
" - Spacebar: pauses game\n" + " - Spacebar: pauses game\n" +
" - 1: runs game at normal speed\n" + " - 1: runs game at normal speed\n" +
" - 2: runs game extra fast\n" + " - 2: runs game extra fast\n" +
" - Mouse wheel or plus/minus: zooms landscape\n" + " - Mouse wheel or plus/minus: zooms landscape\n" +
" - CTRL + left mouse button or middle mouse button: pans landscape\n" + " - W, A, S, D keys or CTRL + left mouse button or middle mouse button: pans landscape\n" +
"\n" + "\n" +
"Have fun playing!" "Have fun playing!"
i.SetContent(&i.welcome) return NewLargeDialog("Botanim", i)
return i.LargeDialog.Init(ctx)
} }

47
io.go
View File

@ -1,50 +1,11 @@
package tins2020 package tins2020
import ( import (
"encoding/json" "opslag.de/schobers/zntg"
"os"
"path/filepath"
) )
func DecodeJSON(path string, v interface{}) error { const appName = "tins2020_botanim"
f, err := os.Open(path)
if err != nil {
return err
}
defer f.Close()
err = json.NewDecoder(f).Decode(v)
if err != nil {
return err
}
return nil
}
func EncodeJSON(path string, v interface{}) error { func UserDir() (string, error) { return zntg.UserDir(appName) }
f, err := os.Create(path)
if err != nil {
return err
}
defer f.Close()
return json.NewEncoder(f).Encode(v)
}
func UserDir() (string, error) { func UserFile(name string) (string, error) { return zntg.UserFile(appName, name) }
config, err := os.UserConfigDir()
if err != nil {
return "", err
}
dir := filepath.Join(config, "tins2020_botanim")
err = os.MkdirAll(dir, 0777)
if err != nil {
return "", err
}
return dir, nil
}
func UserFile(name string) (string, error) {
dir, err := UserDir()
if err != nil {
return "", err
}
return filepath.Join(dir, name), nil
}

108
label.go
View File

@ -1,108 +0,0 @@
package tins2020
import (
"strings"
"github.com/veandco/go-sdl2/sdl"
)
type Label struct {
ControlBase
FontColor sdl.Color
FontName string
Text string
Alignment TextAlignment
}
func (l *Label) fontColor() sdl.Color {
var none sdl.Color
if l.FontColor == none {
return MustHexColor("#ffffff")
}
return l.FontColor
}
func (l *Label) fontName() string {
if len(l.FontName) == 0 {
return "default"
}
return l.FontName
}
func (l *Label) Render(ctx *Context) {
font := ctx.Fonts.Font(l.fontName())
color := l.fontColor()
bottom := l.Bounds.Y + l.Bounds.H
switch l.Alignment {
case TextAlignmentCenter:
font.RenderCopyAlign(ctx.Renderer, l.Text, Pt(l.Bounds.X+l.Bounds.W/2, bottom), color, TextAlignmentCenter)
case TextAlignmentLeft:
font.RenderCopyAlign(ctx.Renderer, l.Text, Pt(l.Bounds.X, bottom), color, TextAlignmentLeft)
case TextAlignmentRight:
font.RenderCopyAlign(ctx.Renderer, l.Text, Pt(l.Bounds.X+l.Bounds.W, bottom), color, TextAlignmentRight)
}
}
type Paragraph struct {
Label
}
// func (p *Paragraph) Arrange(ctx *Context, bounds Rectangle) {
// p.Label.Arrange(ctx, bounds)
// }
func (p *Paragraph) Render(ctx *Context) {
font := ctx.Fonts.Font(p.fontName())
color := p.fontColor()
fontHeight := int32(font.Height())
lines := strings.Split(p.Text, "\n")
measure := func(s string) int32 {
w, _, _ := font.SizeUTF8(s)
return int32(w)
}
spaces := func(s string) []int {
var spaces []int
offset := 0
for {
space := strings.Index(s[offset:], " ")
if space == -1 {
return spaces
}
offset += space
spaces = append(spaces, offset)
offset++
}
}
fit := func(s string) string {
if measure(s) < p.Bounds.W {
return s
}
spaces := spaces(s)
for split := len(spaces) - 1; split >= 0; split-- {
clipped := s[:spaces[split]]
if measure(clipped) < p.Bounds.W {
return clipped
}
}
return s
}
offset := p.Bounds.Y
for _, line := range lines {
if len(line) == 0 {
offset += fontHeight
continue
}
for len(line) > 0 {
offset += fontHeight
clipped := fit(line)
line = strings.TrimLeft(line[len(clipped):], " ")
font.RenderCopy(ctx.Renderer, clipped, Pt(p.Bounds.X, offset), color)
}
}
}

View File

@ -1,95 +1,100 @@
package tins2020 package tins2020
import "github.com/veandco/go-sdl2/sdl" import (
"image/color"
type DialogBase struct { "opslag.de/schobers/geom"
Container "opslag.de/schobers/zntg"
"opslag.de/schobers/zntg/ui"
)
content Proxy const titleBarHeight = 64
close EventFn
}
type Dialog interface {
CloseDialog()
ShowDialog(EventFn)
}
func (d *DialogBase) CloseDialog() {
close := d.close
if close != nil {
close()
}
}
func (d *DialogBase) SetContent(control Control) {
d.content.Proxied = control
}
func (d *DialogBase) ShowDialog(close EventFn) {
d.close = close
}
func (d *DialogBase) Init(ctx *Context) error {
d.AddChild(&d.content)
return d.Container.Init(ctx)
}
type LargeDialog struct { type LargeDialog struct {
DialogBase ui.StackPanel
title Label titleBar *LargeDialogTitleBar
close IconButton content ui.Proxy
closeRequested ui.Events
} }
func (d *LargeDialog) Arrange(ctx *Context, bounds Rectangle) { func NewLargeDialog(title string, content ui.Control) *LargeDialog {
const titleHeight = 64 dialog := &LargeDialog{}
d.ControlBase.Arrange(ctx, bounds)
d.title.Arrange(ctx, RectSize(bounds.X, bounds.Y, bounds.W, titleHeight)) dialog.Orientation = ui.OrientationVertical
d.close.Arrange(ctx, RectSize(bounds.W-64, 0, 64, 64)) dialog.titleBar = NewLargeDialogTitleBar(title, func(ctx ui.Context, state interface{}) {
d.content.Arrange(ctx, RectSize(bounds.X+titleHeight, 96, bounds.W-2*titleHeight, bounds.H-titleHeight)) dialog.closeRequested.Notify(ctx, state)
})
dialog.content.Content = ui.Margins(content, titleBarHeight, 20, titleBarHeight, 0)
dialog.Children = []ui.Control{dialog.titleBar, &dialog.content}
return dialog
} }
func (d *LargeDialog) Init(ctx *Context) error { func (d *LargeDialog) CloseRequested() ui.EventHandler { return &d.closeRequested }
d.title = Label{
Text: "Botanim",
FontName: "title",
Alignment: TextAlignmentCenter,
}
d.close = IconButton{
Icon: "control-cancel",
IconHover: HoverEffectColor,
IconWidth: 32,
}
d.close.OnLeftMouseButtonClick = EmptyEvent(d.CloseDialog)
d.AddChild(&d.title)
d.AddChild(&d.close)
return d.DialogBase.Init(ctx)
}
func (d *LargeDialog) Handle(ctx *Context, event sdl.Event) bool { func (d *LargeDialog) Handle(ctx ui.Context, e ui.Event) bool {
if d.DialogBase.Handle(ctx, event) { if d.StackPanel.Handle(ctx, e) {
return true return true
} }
switch e := event.(type) { switch e := e.(type) {
case *sdl.KeyboardEvent: case *ui.KeyDownEvent:
if e.Type == sdl.KEYDOWN { switch e.Key {
switch e.Keysym.Sym { case ui.KeyEscape:
case sdl.K_ESCAPE: d.closeRequested.Notify(ctx, nil)
d.CloseDialog()
return true return true
case sdl.K_RETURN: case ui.KeyEnter:
d.CloseDialog() d.closeRequested.Notify(ctx, nil)
return true return true
} }
} }
}
return false return false
} }
func (d *LargeDialog) Render(ctx *Context) { func (d *LargeDialog) Hidden() { d.content.Hidden() }
SetDrawColor(ctx.Renderer, MustHexColor("#356DAD"))
ctx.Renderer.FillRect(d.Bounds.SDLPtr())
d.DialogBase.Render(ctx) func (d *LargeDialog) Render(ctx ui.Context) {
ctx.Renderer().Clear(zntg.MustHexColor("#356DAD"))
d.StackPanel.Render(ctx)
}
func (d *LargeDialog) Shown() { d.content.Shown() }
type LargeDialogTitleBar struct {
ui.ContainerBase
title ui.Label
close ui.Button
}
func NewLargeDialogTitleBar(title string, closeRequested ui.EventFn) *LargeDialogTitleBar {
titleBar := &LargeDialogTitleBar{}
titleBar.Children = []ui.Control{&titleBar.title, &titleBar.close}
titleBar.close.ButtonClicked().AddHandler(func(ctx ui.Context, args ui.ControlClickedArgs) {
closeRequested(ctx, args)
})
titleBar.title.Font.Color = color.White
titleBar.title.Font.Name = "title"
titleBar.title.Text = title
titleBar.title.TextAlignment = ui.AlignCenter
titleBar.close.Icon = "control-cancel"
titleBar.close.IconHeight = 32
titleBar.close.Type = ui.ButtonTypeIcon
titleBar.close.HoverColor = zntg.MustHexColor(`#ABCAED`)
return titleBar
}
func (b *LargeDialogTitleBar) Arrange(ctx ui.Context, bounds geom.RectangleF32, offset geom.PointF32, parent ui.Control) {
b.ControlBase.Arrange(ctx, bounds, offset, parent)
b.title.Arrange(ctx, bounds, offset, parent)
height := bounds.Dy()
b.close.Arrange(ctx, geom.RectRelF32(bounds.Max.X-height, bounds.Min.Y, height, height), offset, parent)
}
func (b *LargeDialogTitleBar) DesiredSize(ctx ui.Context, size geom.PointF32) geom.PointF32 {
return geom.PtF32(size.X, titleBarHeight)
} }

34
map.go
View File

@ -1,5 +1,7 @@
package tins2020 package tins2020
import "opslag.de/schobers/geom"
type Map struct { type Map struct {
Temp NoiseMap Temp NoiseMap
Humid NoiseMap Humid NoiseMap
@ -7,15 +9,32 @@ type Map struct {
PlaceX NoiseMap // displacement map of props PlaceX NoiseMap // displacement map of props
PlaceY NoiseMap PlaceY NoiseMap
Center Point Center geom.Point
Flowers map[Point]Flower Flowers map[geom.Point]Flower
} }
func (m *Map) AddFlower(pos Point, id string, traits FlowerTraits) { func (m *Map) AddFlower(pos geom.Point, id string, traits FlowerTraits) {
m.Flowers[pos] = m.NewFlower(pos, id, traits) m.Flowers[pos] = m.NewFlower(pos, id, traits)
} }
func (m *Map) DigFlower(pos Point) string { func (m *Map) FlowersOnAdjacentTiles(pos geom.Point) int {
var count int
if _, ok := m.Flowers[geom.Pt(pos.X+1, pos.Y)]; ok {
count++
}
if _, ok := m.Flowers[geom.Pt(pos.X-1, pos.Y)]; ok {
count++
}
if _, ok := m.Flowers[geom.Pt(pos.X, pos.Y+1)]; ok {
count++
}
if _, ok := m.Flowers[geom.Pt(pos.X, pos.Y-1)]; ok {
count++
}
return count
}
func (m *Map) DigFlower(pos geom.Point) string {
flower, ok := m.Flowers[pos] flower, ok := m.Flowers[pos]
if !ok { if !ok {
return "" return ""
@ -24,7 +43,12 @@ func (m *Map) DigFlower(pos Point) string {
return flower.ID return flower.ID
} }
func (m *Map) NewFlower(pos Point, id string, traits FlowerTraits) Flower { func (m *Map) HasFlower(pos geom.Point) bool {
_, ok := m.Flowers[pos]
return ok
}
func (m *Map) NewFlower(pos geom.Point, id string, traits FlowerTraits) Flower {
flower := Flower{ flower := Flower{
ID: id, ID: id,
Traits: traits, Traits: traits,

View File

@ -14,7 +14,7 @@ func clipNormalized(x float64) float64 {
type NoiseMap interface { type NoiseMap interface {
Seed() int64 Seed() int64
Value(x, y int32) float64 Value(x, y int) float64
} }
func NewNoiseMap(seed int64) NoiseMap { func NewNoiseMap(seed int64) NoiseMap {
@ -33,7 +33,7 @@ type noiseMap struct {
} }
// Value generates the noise value for an x/y pair. // Value generates the noise value for an x/y pair.
func (m noiseMap) Value(x, y int32) float64 { func (m noiseMap) Value(x, y int) float64 {
value := m.noise.Noise2D(float64(x)*.01, float64(y)*.01, m.alpha, m.beta, m.harmonics)*.565 + .5 value := m.noise.Noise2D(float64(x)*.01, float64(y)*.01, m.alpha, m.beta, m.harmonics)*.565 + .5
return clipNormalized(value) return clipNormalized(value)
} }
@ -49,7 +49,7 @@ type randomNoiseMap struct {
} }
// Value generates the noise value for an x/y pair. // Value generates the noise value for an x/y pair.
func (m randomNoiseMap) Value(x, y int32) float64 { func (m randomNoiseMap) Value(x, y int) float64 {
value := m.Noise2D(float64(x)*.53, float64(y)*.53, 1.01, 2, 2)*.5 + .5 value := m.Noise2D(float64(x)*.53, float64(y)*.53, 1.01, 2, 2)*.5 + .5
return clipNormalized(value) return clipNormalized(value)
} }

View File

@ -1,42 +0,0 @@
package tins2020
import "github.com/veandco/go-sdl2/sdl"
type Point struct {
sdl.Point
}
func (p Point) Add(q Point) Point { return Pt(p.X+q.X, p.Y+q.Y) }
func (p Point) In(r Rectangle) bool { return r.IsPointInsidePt(p) }
func (p Point) Sub(q Point) Point { return Pt(p.X-q.X, p.Y-q.Y) }
func (p Point) ToPtF() PointF { return PtF(float32(p.X), float32(p.Y)) }
type PointF struct {
sdl.FPoint
}
func (p PointF) Add(q PointF) PointF {
return PtF(p.X+q.X, p.Y+q.Y)
}
func (p PointF) Mul(f float32) PointF {
return PtF(f*p.X, f*p.Y)
}
func (p PointF) Sub(q PointF) PointF { return PtF(p.X-q.X, p.Y-q.Y) }
func Pt(x, y int32) Point { return Point{sdl.Point{X: x, Y: y}} }
func PtF(x, y float32) PointF { return PointF{sdl.FPoint{X: x, Y: y}} }
func PtPtr(x, y int32) *Point {
p := Pt(x, y)
return &p
}
func PtFPtr(x, y float32) *PointF {
p := PtF(x, y)
return &p
}

View File

@ -1,125 +0,0 @@
package tins2020
import (
"log"
"github.com/veandco/go-sdl2/sdl"
)
func mapToTile(q PointF) Point {
return Pt(int32(Round32(q.X)), int32(Round32(q.Y)))
}
type projection struct {
center PointF
zoom float32
zoomInv float32
windowInteractRect Rectangle
windowVisibleRect Rectangle
tileScreenDelta PointF
tileScreenDeltaInv PointF
tileScreenOffset Point
tileScreenSize Point
tileFitScreenSize Point
windowCenter Point
}
func newProjection() projection {
return projection{zoom: 1, tileScreenDelta: PtF(64, 32), tileScreenDeltaInv: PtF(1./64, 1./32)}
}
func (p *projection) mapToScreen(x, y int32) Point {
return p.mapToScreenF(float32(x), float32(y))
}
func (p *projection) mapToScreenF(x, y float32) Point {
translated := PtF(x-p.center.X, y-p.center.Y)
return Pt(p.windowCenter.X+int32((translated.X-translated.Y)*64*p.zoom), p.windowCenter.Y+int32((translated.X+translated.Y)*32*p.zoom))
}
func (p *projection) screenToMap(x, y int32) PointF {
pos := p.screenToMapRel(x-p.windowCenter.X, y-p.windowCenter.Y)
return p.center.Add(pos)
}
func (p *projection) screenToMapInt(x, y int32) Point {
pos := p.screenToMap(x, y)
return mapToTile(pos)
}
func (p *projection) screenToMapRel(x, y int32) PointF {
normX := p.zoomInv * float32(x)
normY := p.zoomInv * float32(y)
return PtF(.5*(p.tileScreenDeltaInv.X*normX+p.tileScreenDeltaInv.Y*normY), .5*(-p.tileScreenDeltaInv.X*normX+p.tileScreenDeltaInv.Y*normY))
}
func (p *projection) screenToTileFitRect(pos Point) Rectangle {
return RectSize(pos.X-p.tileFitScreenSize.X, pos.Y-p.tileFitScreenSize.Y, 2*p.tileFitScreenSize.X, 2*p.tileFitScreenSize.Y)
}
func (p *projection) screenToTileRect(pos Point) Rectangle {
return RectSize(pos.X-p.tileScreenOffset.X, pos.Y-p.tileScreenOffset.Y, p.tileScreenSize.X, p.tileScreenSize.Y)
}
func (p *projection) update(renderer *sdl.Renderer) {
p.zoomInv = 1 / p.zoom
p.tileScreenOffset = Pt(int32(p.zoom*64), int32(p.zoom*112))
p.tileScreenSize = Pt(int32(p.zoom*128), int32(p.zoom*160))
p.tileFitScreenSize = Pt(int32(p.zoom*64), int32(p.zoom*32))
windowW, windowH, err := renderer.GetOutputSize()
if err != nil {
log.Fatal(err)
}
p.windowCenter = Pt(windowW/2, windowH/2)
p.windowInteractRect = Rect(buttonBarWidth, 64, windowW-buttonBarWidth, windowH)
p.windowVisibleRect = Rect(buttonBarWidth, 0, windowW-buttonBarWidth, windowH+p.tileScreenSize.Y) // Adding a tile height to the bottom for trees that stick out from the cells below.
}
func (p *projection) visibleTiles(action func(int32, int32, Point)) {
visible := p.windowVisibleRect
topLeft := p.screenToMap(visible.X, visible.Y)
topRight := p.screenToMap(visible.X+visible.W, visible.Y)
bottomLeft := p.screenToMap(visible.X, visible.Y+visible.H)
bottomRight := p.screenToMap(visible.X+visible.W, visible.Y+visible.H)
minY, maxY := int32(Floor32(topRight.Y)), int32(Ceil32(bottomLeft.Y))
minX, maxX := int32(Floor32(topLeft.X)), int32(Ceil32(bottomRight.X))
for y := minY; y <= maxY; y++ {
for x := minX; x <= maxX; x++ {
pos := p.mapToScreen(x, y)
rectFit := p.screenToTileFitRect(pos)
if rectFit.X+rectFit.W < visible.X || rectFit.Y+rectFit.H < visible.Y {
continue
}
if rectFit.X > visible.X+visible.W || rectFit.Y > visible.Y+visible.H {
break
}
action(x, y, pos)
}
}
}
func (p *projection) ZoomOut(ctx *Context, center PointF) {
if p.zoom <= .25 {
return
}
p.SetZoom(ctx, center, .5*p.zoom)
}
func (p *projection) ZoomIn(ctx *Context, center PointF) {
if p.zoom >= 2 {
return
}
p.SetZoom(ctx, center, 2*p.zoom)
}
func (p *projection) SetZoom(ctx *Context, center PointF, zoom float32) {
if p.zoom == zoom {
return
}
p.center = center.Sub(center.Sub(p.center).Mul(p.zoom / zoom))
p.zoom = zoom
p.update(ctx.Renderer)
}

View File

@ -1,37 +0,0 @@
package tins2020
import "github.com/veandco/go-sdl2/sdl"
var _ Control = &Proxy{}
type Proxy struct {
Proxied Control
}
func (p *Proxy) Arrange(ctx *Context, bounds Rectangle) {
if p.Proxied == nil {
return
}
p.Proxied.Arrange(ctx, bounds)
}
func (p *Proxy) Handle(ctx *Context, event sdl.Event) bool {
if p.Proxied == nil {
return false
}
return p.Proxied.Handle(ctx, event)
}
func (p *Proxy) Init(ctx *Context) error {
if p.Proxied == nil {
return nil
}
return p.Proxied.Init(ctx)
}
func (p *Proxy) Render(ctx *Context) {
if p.Proxied == nil {
return
}
p.Proxied.Render(ctx)
}

32
rect.go
View File

@ -1,32 +0,0 @@
package tins2020
import "github.com/veandco/go-sdl2/sdl"
type Rectangle struct {
sdl.Rect
}
func Rect(x1, y1, x2, y2 int32) Rectangle {
if x1 > x2 {
x1, x2 = x2, x1
}
if y1 > y2 {
y1, y2 = y2, y1
}
return Rectangle{sdl.Rect{X: x1, Y: y1, W: x2 - x1, H: y2 - y1}}
}
func RectSize(x, y, w, h int32) Rectangle { return Rectangle{sdl.Rect{X: x, Y: y, W: w, H: h}} }
func (r Rectangle) Bottom() int32 { return r.Y + r.H }
func (r Rectangle) IsPointInside(x, y int32) bool {
return x >= r.X && x < r.X+r.W && y >= r.Y && y < r.Y+r.H
}
func (r Rectangle) IsPointInsidePt(p Point) bool { return r.IsPointInside(p.X, p.Y) }
func (r Rectangle) Right() int32 { return r.X + r.W }
func (r Rectangle) SDL() sdl.Rect { return r.Rect }
func (r Rectangle) SDLPtr() *sdl.Rect { return &r.Rect }

120
research.go Normal file
View File

@ -0,0 +1,120 @@
package tins2020
import (
"fmt"
"math/rand"
"strconv"
"strings"
"time"
"opslag.de/schobers/geom"
"opslag.de/schobers/zntg"
"opslag.de/schobers/zntg/ui"
)
type Research struct {
ui.StackPanel
game *Game
botanist Specialist
farmer Specialist
description ui.Paragraph
specialists ui.Paragraph
dial *Dial
input ui.Label
animate zntg.Animation
closeRequested ui.Events
}
type Dialer interface {
CanUserType(int) bool
UserGaveWrongInput()
UserTyped(ui.Context, int)
}
func NewResearch(game *Game) *LargeDialog {
research := &Research{game: game}
research.animate.Interval = 20 * time.Millisecond
research.animate.Start()
research.description.Text = "Call a specialist to conduct research with."
research.dial = NewDial(research)
research.Children = []ui.Control{&research.description, &research.specialists, research.dial, &research.input}
dialog := NewLargeDialog("Research", ui.Stretch(research))
research.closeRequested.AddHandlerEmpty(func(ctx ui.Context) { dialog.closeRequested.Notify(ctx, nil) })
return dialog
}
type Specialist struct {
Cost int
Number string
}
func (r *Research) Arrange(ctx ui.Context, bounds geom.RectangleF32, offset geom.PointF32, parent ui.Control) {
r.input.TextAlignment = ui.AlignCenter
r.StackPanel.Arrange(ctx, bounds, offset, parent)
}
func (r *Research) CanUserType(digit int) bool {
typing := strconv.Itoa(digit)
return strings.HasPrefix(r.botanist.Number, r.input.Text+typing)
}
func (r *Research) Hidden() {}
func (r *Research) Render(ctx ui.Context) {
r.animate.AnimateFn(r.dial.Tick)
r.StackPanel.Render(ctx)
}
func (r *Research) Shown() {
generateNumber := func() string {
var number string
for i := 0; i < 3; i++ {
number += strconv.Itoa(rand.Intn(9) + 1)
}
return number
}
r.input.Text = ""
r.dial.Reset()
var specialists string
defer func() {
r.specialists.Text = specialists
}()
_, _, price := r.game.Herbarium.NextFlowerToUnlock()
if price == 0 {
specialists += "Botanist (unlocks next flower; unavailable)\n"
specialists += "Farmer (fertilizes land; unavailable)\n"
return
}
r.botanist.Cost = price
if r.game.Balance < r.botanist.Cost {
r.botanist.Number = "**unavailable**"
} else {
r.botanist.Number = generateNumber()
}
specialists += fmt.Sprintf("Botanist: no. %s (unlocks next flower; $ %d)\n", r.botanist.Number, r.botanist.Cost)
specialists += "Farmer: no. **unavailable** (fertilizes land; $ ---)\n"
}
func (r *Research) UserGaveWrongInput() {
r.input.Text = ""
}
func (r *Research) UserTyped(ctx ui.Context, digit int) {
r.input.Text += strconv.Itoa(digit)
if r.input.Text == r.botanist.Number {
r.game.UnlockNextFlower(ctx)
r.input.Text = ""
r.closeRequested.Notify(ctx, nil)
}
}

View File

@ -4,6 +4,8 @@ import (
"bufio" "bufio"
"fmt" "fmt"
"strings" "strings"
"opslag.de/schobers/zntg/ui"
) )
type ResourceLoader struct { type ResourceLoader struct {
@ -14,8 +16,8 @@ func NewResourceLoader() *ResourceLoader {
return &ResourceLoader{} return &ResourceLoader{}
} }
func (l *ResourceLoader) parseResourcesFile(res *Resources, name string) error { func (l *ResourceLoader) parseResourcesFile(res ui.Resources, name string) error {
f, err := res.Fs().Open(name) f, err := res.OpenResource(name)
if err != nil { if err != nil {
return err return err
} }
@ -36,7 +38,7 @@ func (l *ResourceLoader) parseResourcesFile(res *Resources, name string) error {
return nil return nil
} }
func (l *ResourceLoader) LoadFromFile(res *Resources, name string, action func(string, string) error) error { func (l *ResourceLoader) LoadFromFile(res ui.Resources, name string, action func(string, string) error) error {
err := l.parseResourcesFile(res, name) err := l.parseResourcesFile(res, name)
if err != nil { if err != nil {
return err return err

View File

@ -1,39 +0,0 @@
package tins2020
import (
rice "github.com/GeertJohan/go.rice"
"github.com/spf13/afero"
"opslag.de/schobers/fs/ricefs"
"opslag.de/schobers/fs/vfs"
)
type Resources struct {
box *rice.Box
fs afero.Fs
copy vfs.CopyDir
}
func (r *Resources) Destroy() {
r.copy.Destroy()
}
func (r *Resources) Fs() afero.Fs {
return r.fs
}
func (r *Resources) Open(box *rice.Box) error {
r.box = box
r.fs = vfs.NewOsFsFallback(r.box.Name(), ricefs.NewFs(box))
copy, err := vfs.NewCopyDir(r.fs)
if err != nil {
return err
}
r.copy = copy
return nil
}
func (r *Resources) Copy() vfs.CopyDir { return r.copy }
func (r *Resources) Retrieve(name string) (string, error) {
return r.copy.Retrieve(name)
}

60
scripts/release.sh Executable file
View File

@ -0,0 +1,60 @@
#!/bin/bash
if [ -z "$1" ]
then
version="0.0.0"
else
version="$1"
fi
version_safe=${version//\./_}
echo "Creating ${version} release"
rm -rf build/linux*
rm -rf build/macosx*
rm -rf build/windows*
mkdir -p build/release
go generate ../cmd/tins2020
mkdir -p build/linux
go build -tags static -ldflags "-s -w" -o build/linux/botanim ../cmd/tins2020
cp ../README.md build/linux
cd build/linux
zip -9 -q ../release/botanim_${version_safe}_linux_amd64.zip *
echo "Created Linux release: build/release/botanim_${version_safe}_linux_amd64.zip"
cd ../..
mkdir -p build/linux-allegro
go build -tags static,allegro -ldflags "-s -w" -o build/linux-allegro/botanim ../cmd/tins2020
cp ../README.md build/linux-allegro
cd build/linux-allegro
zip -9 -q ../release/botanim_allegro_${version_safe}_linux_amd64.zip *
echo "Created Linux (Allegro) release: build/release/botanim_allegro_${version_safe}_linux_amd64.zip"
cd ../..
mkdir -p build/macosx
CGO_ENABLED=1 CC=o64-clang CXX=o64-clang++ GOOS=darwin GOARCH=amd64 go build -tags static -ldflags "-s -w" -o build/macosx/botanim ../cmd/tins2020
cp ../README.md build/macosx
cd build/macosx
zip -9 -q ../release/botanim_${version_safe}_macosx_amd64.zip *
echo "Created Mac OS X release: build/release/botanim_${version_safe}_macosx_amd64.zip"
cd ../..
mkdir -p build/windows
CGO_ENABLED=1 CC=x86_64-w64-mingw32-gcc GOOS=windows GOARCH=amd64 go build -tags static -ldflags "-s -w" -o build/windows/botanim.exe ../cmd/tins2020
cp ../README.md build/windows
cd build/windows
zip -9 -q ../release/botanim_${version_safe}_windows_amd64.zip *
echo "Created Windows release: build/release/botanim_${version_safe}_windows_amd64.zip"
cd ../..
mkdir -p build/windows-allegro
CGO_ENABLED=1 CC=x86_64-w64-mingw32-gcc GOOS=windows GOARCH=amd64 go build -tags static,allegro,mingw64_7_3 -ldflags "-s -w" -o build/windows-allegro/botanim.exe ../cmd/tins2020
cp ../README.md build/windows-allegro
cd build/windows-allegro
zip -9 -q ../release/botanim_allegro_${version_safe}_windows_amd64.zip *
echo "Created Windows (Allegro) release: build/release/botanim_allegro_${version_safe}_windows_amd64.zip"
cd ../..

View File

@ -1,6 +1,11 @@
package tins2020 package tins2020
import "os" import (
"os"
"opslag.de/schobers/geom"
"opslag.de/schobers/zntg"
)
type Settings struct { type Settings struct {
Window WindowSettings Window WindowSettings
@ -18,7 +23,7 @@ func (s *Settings) Init() error {
if _, err := os.Stat(path); os.IsNotExist(err) { if _, err := os.Stat(path); os.IsNotExist(err) {
return nil return nil
} }
return DecodeJSON(path, s) return zntg.DecodeJSON(path, s)
} }
func (s *Settings) Store() error { func (s *Settings) Store() error {
@ -26,11 +31,11 @@ func (s *Settings) Store() error {
if err != nil { if err != nil {
return err return err
} }
return EncodeJSON(path, s) return zntg.EncodeJSON(path, s)
} }
type WindowSettings struct { type WindowSettings struct {
Location *Point Location *geom.Point
Size *Point Size *geom.Point
VSync *bool VSync *bool
} }

View File

@ -3,120 +3,165 @@ package tins2020
import ( import (
"fmt" "fmt"
"github.com/veandco/go-sdl2/sdl" "opslag.de/schobers/zntg/play"
"opslag.de/schobers/geom"
"opslag.de/schobers/zntg/ui"
) )
type terrainRenderer struct { type terrainRenderer struct {
ui.ControlBase
game *Game game *Game
hover *Point hover *geom.Point
project projection viewBounds geom.RectangleF32
interactBounds geom.RectangleF32
isometric *play.IsometricProjection
drag Drageable drag ui.Dragable
} }
func NewTerrainRenderer(game *Game) Control { func NewTerrainRenderer(game *Game) ui.Control {
return &terrainRenderer{game: game, project: newProjection()} renderer := &terrainRenderer{game: game, isometric: play.NewIsometricProjection(geom.PtF32(128, 64), geom.RectF32(0, 0, 100, 100))}
}
func (r *terrainRenderer) Arrange(ctx *Context, _ Rectangle) { renderer.game.CenterChanged().AddHandler(func(ctx ui.Context, state interface{}) {
r.project.update(ctx.Renderer) center := state.(geom.Point)
} renderer.isometric.MoveCenterTo(center.ToF32())
func (r *terrainRenderer) Init(ctx *Context) error {
r.game.CenterChanged().RegisterItf(func(state interface{}) {
center := state.(Point)
r.project.center = center.ToPtF()
r.project.update(ctx.Renderer)
}) })
r.project.update(ctx.Renderer) return renderer
return nil
} }
func isControlKeyDown() bool { func (r *terrainRenderer) Arrange(ctx ui.Context, bounds geom.RectangleF32, _ geom.PointF32, _ ui.Control) {
state := sdl.GetKeyboardState() r.viewBounds = geom.RectF32(buttonBarWidth, 0, bounds.Dx()-buttonBarWidth, bounds.Dy())
return state[sdl.SCANCODE_LCTRL] == 1 || state[sdl.SCANCODE_RCTRL] == 1 r.isometric.SetViewBounds(r.viewBounds)
r.interactBounds = r.viewBounds
r.interactBounds.Min.Y += 64
} }
func (r *terrainRenderer) Handle(ctx *Context, event sdl.Event) bool { func isControlKeyDown(ctx ui.Context) bool {
modifiers := ctx.KeyModifiers()
return modifiers&(ui.KeyModifierControl|ui.KeyModifierOSCommand) != 0
}
func (r *terrainRenderer) Handle(ctx ui.Context, event ui.Event) bool {
switch e := event.(type) { switch e := event.(type) {
case *sdl.MouseButtonEvent: case *ui.MouseButtonDownEvent:
if r.project.windowInteractRect.IsPointInside(e.X, e.Y) { pos := e.Pos()
if e.Type == sdl.MOUSEBUTTONDOWN { if pos.In(r.interactBounds) {
if e.Button == sdl.BUTTON_MIDDLE || (e.Button == sdl.BUTTON_LEFT && isControlKeyDown()) { controlKeyDown := isControlKeyDown(ctx)
if !r.drag.IsDragging() { if e.Button == ui.MouseButtonMiddle || (e.Button == ui.MouseButtonLeft && controlKeyDown) {
r.drag.Start(Pt(e.X, e.Y)) if _, ok := r.drag.IsDragging(); !ok {
r.drag.Start(pos)
} }
} }
if e.Button == sdl.BUTTON_LEFT { if e.Button == ui.MouseButtonLeft && !controlKeyDown {
pos := r.project.screenToMapInt(e.X, e.Y) pos := r.isometric.ViewToTileInt(pos)
r.game.UserClickedTile(pos) r.game.UserClickedTile(pos)
} }
if e.Button == sdl.BUTTON_RIGHT { if e.Button == ui.MouseButtonRight {
if e.Type == sdl.MOUSEBUTTONDOWN { r.game.CancelTool(ctx)
r.game.CancelTool()
} }
} }
} case *ui.MouseButtonUpEvent:
if e.Type == sdl.MOUSEBUTTONUP { if _, ok := r.drag.IsDragging(); ok {
if r.drag.IsDragging() { r.game.Terrain.Center = r.isometric.TileInt(r.isometric.Center())
r.game.Terrain.Center = mapToTile(r.project.center)
r.drag.Cancel() r.drag.Cancel()
} }
} case *ui.MouseMoveEvent:
} pos := e.Pos()
case *sdl.MouseMotionEvent: if pos.In(r.interactBounds) {
if r.project.windowInteractRect.IsPointInside(e.X, e.Y) { hover := r.isometric.ViewToTileInt(pos)
hover := r.project.screenToMapInt(e.X, e.Y)
r.hover = &hover r.hover = &hover
} else { } else {
r.hover = nil r.hover = nil
} }
if r.drag.IsDragging() { if _, ok := r.drag.IsDragging(); ok {
delta := r.drag.Move(Pt(e.X, e.Y)) delta, _ := r.drag.Move(pos)
r.project.center = r.project.center.Sub(r.project.screenToMapRel(delta.X, delta.Y)) r.isometric.Pan(delta.Invert())
r.project.update(ctx.Renderer)
} }
case *sdl.MouseWheelEvent:
if r.hover != nil { if r.hover != nil {
if e.Y < 0 { if e.MouseWheel < 0 {
r.project.ZoomOut(ctx, r.hover.ToPtF()) r.isometric.ZoomOut(r.hover.ToF32())
} else { } else if e.MouseWheel > 0 {
r.project.ZoomIn(ctx, r.hover.ToPtF()) r.isometric.ZoomIn(r.hover.ToF32())
} }
} }
case *sdl.WindowEvent: case *ui.MouseLeaveEvent:
if e.Event == sdl.WINDOWEVENT_LEAVE {
r.hover = nil r.hover = nil
r.project.update(ctx.Renderer) case *ui.KeyDownEvent:
switch e.Key {
case ui.KeyPadPlus:
r.isometric.ZoomIn(r.isometric.Center())
case ui.KeyMinus:
r.isometric.ZoomOut(r.isometric.Center())
case ui.KeyPadMinus:
r.isometric.ZoomOut(r.isometric.Center())
case ui.KeyW:
r.isometric.PanTile(geom.PtF32(-1, -1))
case ui.KeyA:
r.isometric.PanTile(geom.PtF32(-1, 1))
case ui.KeyS:
r.isometric.PanTile(geom.PtF32(1, 1))
case ui.KeyD:
r.isometric.PanTile(geom.PtF32(1, -1))
} }
case *sdl.KeyboardEvent:
if e.Type == sdl.KEYDOWN {
switch e.Keysym.Sym {
case sdl.K_PLUS:
r.project.ZoomIn(ctx, r.project.center)
case sdl.K_KP_PLUS:
r.project.ZoomIn(ctx, r.project.center)
case sdl.K_MINUS:
r.project.ZoomOut(ctx, r.project.center)
case sdl.K_KP_MINUS:
r.project.ZoomOut(ctx, r.project.center)
} }
tool := r.game.Tool().Type()
if r.hover != nil {
if tool != "none" {
ctx.Renderer().SetMouseCursor(ui.MouseCursorPointer)
}
if tool == "plant-flower" {
terrain := r.game.Terrain
temp := func() string {
temp := terrain.Temp.Value(r.hover.X, r.hover.Y)
switch {
case temp < .3:
return "very cold"
case temp < .4:
return "cold"
case temp > .7:
return "very hot"
case temp > .6:
return "hot"
default:
return "moderate"
}
}()
humid := func() string {
humid := terrain.Humid.Value(r.hover.X, r.hover.Y)
switch {
case humid < .3:
return " and very arid"
case humid < .4:
return " and arid"
case humid > .7:
return " and very damp"
case humid > .6:
return " and damp"
default:
return ""
}
}()
ctx.ShowTooltip(fmt.Sprintf("It is %s%s over here", temp, humid))
} }
} }
return false return false
} }
func (r *terrainRenderer) Render(ctx *Context) { func (r *terrainRenderer) Render(ctx ui.Context) {
zoom := r.isometric.Zoom()
terrain := r.game.Terrain terrain := r.game.Terrain
toTileTexture := func(x, y int32) *Texture { toTileTexture := func(tile geom.Point) ui.Texture {
temp := terrain.Temp.Value(x, y) temp := terrain.Temp.Value(tile.X, tile.Y)
if temp < .35 { if temp < .35 {
return ctx.Textures.Texture("tile-snow") return ctx.Textures().ScaledByName("tile-snow", zoom)
} }
if temp > .65 { if temp > .65 {
return ctx.Textures.Texture("tile-dirt") return ctx.Textures().ScaledByName("tile-dirt", zoom)
} }
return ctx.Textures.Texture("tile-grass") return ctx.Textures().ScaledByName("tile-grass", zoom)
} }
variantToInt := func(variant float64) int { variantToInt := func(variant float64) int {
@ -135,14 +180,13 @@ func (r *terrainRenderer) Render(ctx *Context) {
return -1 return -1
} }
variantToTexture := func(format string, variant float64) *Texture { variantToTexture := func(format string, variant float64) ui.Texture {
textName := fmt.Sprintf(format, variantToInt(variant)) textName := fmt.Sprintf(format, variantToInt(variant))
return ctx.Textures.Texture(textName) return ctx.Textures().ScaledByName(textName, zoom)
} }
stretch := func(x, from, to float64) float64 { return (x - from) * 1 / (to - from) } stretch := func(x, from, to float64) float64 { return (x - from) * 1 / (to - from) }
toPropTexture := func(temp, humid, variant float64) *Texture { toPropTexture := func(temp, humid, variant float64) ui.Texture {
if temp < .35 { if temp < .35 {
if humid < .2 { if humid < .2 {
return nil return nil
@ -172,12 +216,12 @@ func (r *terrainRenderer) Render(ctx *Context) {
return variantToTexture("bush-large-%d", stretch(variant, .8, 1)*multiplier) return variantToTexture("bush-large-%d", stretch(variant, .8, 1)*multiplier)
} }
toItemTexture := func(x, y int32) *Texture { toItemTexture := func(x, y int) ui.Texture {
variant := terrain.Variant.Value(x, y) variant := terrain.Variant.Value(x, y)
flower, ok := terrain.Flowers[Pt(x, y)] flower, ok := terrain.Flowers[geom.Pt(x, y)]
if ok { if ok {
desc, _ := r.game.Herbarium.Find(flower.ID) desc, _ := r.game.Herbarium.Find(flower.ID)
return ctx.Textures.Texture(desc.IconTemplate.Variant(variantToInt(variant))) return ctx.Textures().ScaledByName(desc.IconTemplate.Variant(variantToInt(variant)), zoom)
} }
temp := terrain.Temp.Value(x, y) temp := terrain.Temp.Value(x, y)
humid := terrain.Humid.Value(x, y) humid := terrain.Humid.Value(x, y)
@ -188,24 +232,35 @@ func (r *terrainRenderer) Render(ctx *Context) {
// vertical (tile): [96,160) = 64 // vertical (tile): [96,160) = 64
// vertical (total): [0,160) = 160 // vertical (total): [0,160) = 160
r.project.visibleTiles(func(x, y int32, pos Point) { topLeft := geom.PtF32(-64*zoom, -112*zoom)
text := toTileTexture(x, y) bottomRight := geom.PtF32(64*zoom, 48*zoom)
rect := r.project.screenToTileRect(pos) textureRect := func(center geom.PointF32) geom.RectangleF32 {
text.CopyResize(ctx.Renderer, rect) return geom.RectangleF32{Min: center.Add(topLeft), Max: center.Add(bottomRight)}
}
hoverTexture := ctx.Textures().ScaledByName("tile-hover", zoom)
if r.hover != nil && x == r.hover.X && y == r.hover.Y { r.isometric.EnumerateInt(func(tile geom.Point, view geom.PointF32) {
ctx.Textures.Texture("tile-hover").CopyResize(ctx.Renderer, rect) text := toTileTexture(tile)
rect := textureRect(view)
ctx.Renderer().DrawTexture(text, rect)
// if r.game.Debug {
// ctx.Renderer().FillRectangle(view.Add2D(-1, -1).RectRel2D(2, 2), color.White)
// ctx.Fonts().TextAlign("debug", view, color.White, fmt.Sprintf("%d, %d", tile.X, tile.Y), ui.AlignCenter)
// }
if r.hover != nil && tile.X == r.hover.X && tile.Y == r.hover.Y {
ctx.Renderer().DrawTexture(hoverTexture, rect)
} }
}) })
r.project.visibleTiles(func(x, y int32, pos Point) { r.isometric.EnumerateInt(func(tile geom.Point, view geom.PointF32) {
text := toItemTexture(x, y) text := toItemTexture(tile.X, tile.Y)
if text == nil { if text == nil {
return return
} }
placeX, placeY := terrain.PlaceX.Value(x, y), terrain.PlaceY.Value(x, y) placeX, placeY := terrain.PlaceX.Value(tile.X, tile.Y), terrain.PlaceY.Value(tile.X, tile.Y)
pos = r.project.mapToScreenF(float32(x)-.2+float32(.9*placeX-.45), float32(y)-.2+float32(.9*placeY-.45)) displaced := r.isometric.TileToView(tile.ToF32().Add2D(-.2+.9*float32(placeX)-.45, -.2+.9*float32(placeY)-.45))
text.CopyResize(ctx.Renderer, r.project.screenToTileRect(pos)) rect := textureRect(displaced)
ctx.Renderer().DrawTexture(text, rect)
}) })
} }

View File

@ -1,116 +0,0 @@
package tins2020
import (
"errors"
"fmt"
"github.com/veandco/go-sdl2/img"
"github.com/veandco/go-sdl2/sdl"
"opslag.de/schobers/fs/vfs"
)
type Texture struct {
texture *sdl.Texture
size Point
}
func NewTextureFromSurface(renderer *sdl.Renderer, surface *sdl.Surface) (*Texture, error) {
texture, err := renderer.CreateTextureFromSurface(surface)
if err != nil {
return nil, err
}
return &Texture{texture: texture, size: Pt(surface.W, surface.H)}, nil
}
func (t *Texture) Size() Point { return t.size }
// func (t *Texture) Rect() Rectangle { return t.rect }
// func (t *Texture) SDLRectPtr() *sdl.Rect { return t.rect.SDLPtr() }
func (t *Texture) Copy(renderer *sdl.Renderer, dst Point) {
t.CopyResize(renderer, RectSize(dst.X, dst.Y, t.size.X, t.size.Y))
}
func (t *Texture) CopyPart(renderer *sdl.Renderer, src Rectangle, dst Point) {
t.CopyPartResize(renderer, src, RectSize(dst.X, dst.Y, src.W, src.H))
}
func (t *Texture) CopyPartResize(renderer *sdl.Renderer, src Rectangle, dst Rectangle) {
renderer.Copy(t.texture, src.SDLPtr(), dst.SDLPtr())
}
func (t *Texture) CopyResize(renderer *sdl.Renderer, dst Rectangle) {
t.CopyPartResize(renderer, Rect(0, 0, t.size.X, t.size.Y), dst)
}
func (t *Texture) SetColor(color sdl.Color) {
t.texture.SetColorMod(color.R, color.G, color.B)
}
// func (t *Texture) CopyF(renderer *sdl.Renderer, dst *sdl.FRect) {
// renderer.CopyF(t.texture, t.rect, dst) // Depends on SDL >=2.0.10
// }
func (t *Texture) Destroy() { t.texture.Destroy() }
type Textures struct {
dir vfs.CopyDir
renderer *sdl.Renderer
textures map[string]*Texture
}
func (t *Textures) Init(renderer *sdl.Renderer, dir vfs.CopyDir) {
t.dir = dir
t.renderer = renderer
t.textures = map[string]*Texture{}
}
func (t *Textures) Load(name, path string, other ...string) error {
err := t.load(name, path)
if err != nil {
return err
}
if len(other) == 0 {
return nil
}
if len(other)%2 != 0 {
return errors.New("expected name/path pairs")
}
for i := 0; i < len(other); i += 2 {
err = t.load(other[i], other[i+1])
if err != nil {
return fmt.Errorf("error loading '%s'; error: %v", other[i], err)
}
}
return nil
}
func (t *Textures) load(name, path string) error {
texturePath, err := t.dir.Retrieve(path)
if err != nil {
return err
}
surface, err := img.Load(texturePath)
if err != nil {
return err
}
defer surface.Free()
texture, err := NewTextureFromSurface(t.renderer, surface)
if err != nil {
return err
}
t.textures[name] = texture
return nil
}
func (t *Textures) Texture(name string) *Texture { return t.textures[name] }
func (t *Textures) Destroy() {
if t.textures == nil {
return
}
for _, t := range t.textures {
t.Destroy()
}
}

View File

@ -1,8 +1,10 @@
package tins2020 package tins2020
import "opslag.de/schobers/geom"
type Tool interface { type Tool interface {
Type() string Type() string
ClickedTile(*Game, Point) ClickedTile(*Game, geom.Point)
} }
type PlantFlowerTool struct { type PlantFlowerTool struct {
@ -11,14 +13,20 @@ type PlantFlowerTool struct {
func (t *PlantFlowerTool) Type() string { return "plant-flower" } func (t *PlantFlowerTool) Type() string { return "plant-flower" }
func (t *PlantFlowerTool) ClickedTile(game *Game, tile Point) { func (t *PlantFlowerTool) ClickedTile(game *Game, tile geom.Point) {
game.PlantFlower(t.FlowerID, tile) game.PlantFlower(t.FlowerID, tile)
} }
type NoTool struct{}
func (t *NoTool) Type() string { return "none" }
func (t *NoTool) ClickedTile(*Game, geom.Point) {}
type ShovelTool struct{} type ShovelTool struct{}
func (t *ShovelTool) Type() string { return "shovel" } func (t *ShovelTool) Type() string { return "shovel" }
func (t *ShovelTool) ClickedTile(game *Game, tile Point) { func (t *ShovelTool) ClickedTile(game *Game, tile geom.Point) {
game.Dig(tile) game.Dig(tile)
} }