205 lines
4.8 KiB
Go
205 lines
4.8 KiB
Go
package main
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import (
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"fmt"
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"math/rand"
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"time"
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"gogs.bullercodeworks.com/brian/termbox-util"
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"github.com/nsf/termbox-go"
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)
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const (
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modeInit = iota
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modeRun
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modeRunInput
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)
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type player struct {
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x, y int
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projSpeed int
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projAngle int
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screen *mainScreen
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}
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func (p *player) draw() {
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drawGopher(p.x, p.y, termbox.ColorCyan)
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}
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type building struct {
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width, height int
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color termbox.Attribute
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windowsOn []int
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}
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func (b *building) draw(x int) {
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// Fill
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for i := 0; i < b.height; i++ {
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for j := 0; j < b.width; j++ {
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c := b.color
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/*
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if i > 0 && i < b.height && j > 0 && j < b.width {
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if i%2 == 1 && j%2 == 1 {
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c = termbox.ColorBlack
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}
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}
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*/
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termbox.SetCell(x+j, ScreenHeight-i, ' ', c, c)
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}
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}
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}
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type mainScreen struct {
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GameMode int
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PlayerTurn int
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tabIdx int
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Player1 player
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Player2 player
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Buildings []building
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}
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func (screen *mainScreen) handleKeyEvent(event termbox.Event) int {
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if screen.GameMode == modeRunInput {
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}
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return mainScreenIndex
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}
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func (screen *mainScreen) performLayout(style style) {
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var bldCity int
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if screen.GameMode == modeInit {
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// Create a random seed (from time)
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seed := fmt.Sprintf("%d", time.Now().UnixNano())
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r := rand.New(rand.NewSource(getSeedFromString(seed + "-world")))
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for bldCity < ScreenWidth {
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w := r.Intn(8) + 5
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h := r.Intn(ScreenHeight-10) + 2
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var c termbox.Attribute
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switch r.Intn(3) {
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case 0:
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c = termbox.ColorRed
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case 1:
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c = termbox.ColorGreen
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case 2:
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c = termbox.ColorBlue
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}
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b := building{width: w, height: h, color: c}
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screen.Buildings = append(screen.Buildings, b)
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bldCity += w
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}
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// Player 1 should be on the first 1/3 of the screen
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p1x := r.Intn(ScreenWidth / 3)
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p1y := 0
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// Make sure that p1x is fully on a building
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// Find the building for the player's x
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var calcX int
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for i := range screen.Buildings {
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calcX += screen.Buildings[i].width
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if calcX > p1x {
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if calcX > p1x+5 {
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mv := (p1x + 5) - calcX
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p1x -= mv
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}
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p1y = ScreenHeight - screen.Buildings[i].height
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break
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}
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}
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screen.Player1 = player{x: p1x, y: p1y, screen: screen}
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// Player 2 should be on the third 1/3 of the screen
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p2x := r.Intn(ScreenWidth/3) + ((ScreenWidth * 2) / 3)
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p2y := 0
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for i := range screen.Buildings {
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calcX += screen.Buildings[i].width
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if calcX > p1x {
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if calcX > p2x+5 {
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mv := (p2x + 5) - calcX
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p2x -= mv
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}
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p2y = ScreenHeight - screen.Buildings[i].height
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break
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}
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}
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// Make sure that p2x is fully on a building
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screen.Player2 = player{x: p2x, y: p2y, screen: screen}
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}
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screen.GameMode = modeRun
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}
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// Trigger all updates
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func (screen *mainScreen) update() {
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if screen.GameMode == modeRun {
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}
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}
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func (screen *mainScreen) drawScreen(style style) {
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// Draw Player 1
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screen.Player1.draw()
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// Draw Player 2
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screen.Player2.draw()
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// Draw Landscape
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var x int
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for i := range screen.Buildings {
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screen.Buildings[i].draw(x)
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x += screen.Buildings[i].width
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}
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if screen.GameMode == modeRun {
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// Draw Projectile(s)
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} else if screen.GameMode == modeRunInput {
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// Draw inputs
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if screen.PlayerTurn == 1 {
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termboxUtil.DrawStringAtPoint("Angle:", 0, 0, style.defaultFg, style.defaultBg)
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termboxUtil.DrawStringAtPoint("Speed:", 0, 1, style.defaultFg, style.defaultBg)
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} else {
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termboxUtil.DrawStringAtPoint("Angle:", ScreenWidth-11, 0, style.defaultFg, style.defaultBg)
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termboxUtil.DrawStringAtPoint("Speed:", ScreenWidth-11, 1, style.defaultFg, style.defaultBg)
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}
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}
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}
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func getNowTime() int {
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return int(time.Now().UnixNano())
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}
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func getSeedFromString(seed string) int64 {
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// How does this algorithm work for string->seed generation?
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// ~\_(o.o)_/~
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var ret int64
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for i, k := range seed {
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ret += int64(k) * int64(i)
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}
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return ret
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}
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func drawGopher(x, y int, c termbox.Attribute) {
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termbox.SetCell(x, y-4, ' ', c, c)
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termbox.SetCell(x+1, y-4, ' ', c, c)
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termbox.SetCell(x+2, y-4, ' ', c, c)
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termbox.SetCell(x+3, y-4, ' ', c, c)
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termbox.SetCell(x+4, y-4, ' ', c, c)
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termbox.SetCell(x, y-3, ' ', c, c)
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termbox.SetCell(x+1, y-3, '@', termbox.ColorBlack, termbox.ColorWhite)
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termbox.SetCell(x+2, y-3, ' ', c, c)
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termbox.SetCell(x+3, y-3, '@', termbox.ColorBlack, termbox.ColorWhite)
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termbox.SetCell(x+4, y-3, ' ', c, c)
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termbox.SetCell(x, y-2, ' ', c, c)
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termbox.SetCell(x+1, y-2, ' ', c, c)
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termbox.SetCell(x+2, y-2, 'w', termbox.ColorWhite, c)
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termbox.SetCell(x+3, y-2, ' ', c, c)
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termbox.SetCell(x+4, y-2, ' ', c, c)
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termbox.SetCell(x, y-1, ' ', c, c)
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termbox.SetCell(x+1, y-1, ' ', c, c)
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termbox.SetCell(x+2, y-1, ' ', c, c)
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termbox.SetCell(x+3, y-1, ' ', c, c)
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termbox.SetCell(x+4, y-1, ' ', c, c)
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termbox.SetCell(x, y, ' ', c, c)
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termbox.SetCell(x+1, y, ' ', c, c)
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termbox.SetCell(x+2, y, ' ', c, c)
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termbox.SetCell(x+3, y, ' ', c, c)
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termbox.SetCell(x+4, y, ' ', c, c)
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}
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