curioustorvald/Terrarum
1
0
Fork 0
mirror of https://github.com/curioustorvald/Terrarum.git synced 2026-03-15 16:16:10 +09:00
Code Issues Packages Projects Releases Wiki Activity

caves and stuff

Browse Source 
Former-commit-id: 248077312d8561ad01819a43a4c4a5205c122ff4
Former-commit-id: f4dc915a66bd26338376b9d6008f136fb36b3060
This commit is contained in:
Song Minjae
2017-01-30 22:39:34 +09:00
parent dbdee14481
commit 12b04fabdf
7 changed files with 355 additions and 18 deletions
Download Patch File Download Diff File Expand all files Collapse all files

8
MISC_FEATURES.md
View File

@@ -26,13 +26,13 @@ Connect two or more tracker head to play the array of trackers play simultaneous
<actorid>.json <actorid>.json
{ {
notes = [arr<int>, fixed size of 48], notes = [arr<key: Int>(64)], // 64 notes per track
speed = 120 speed = 120
} }
*int: (0-63) number of the note pitch that is struck. 32: Middle C (C3). - key: C1-D6 (63 keys)
'A' just above of Middle C (A3) has base pitch of 440 Hz. - speed: in BPM
*speed: in BPM - tuning: A440
## Aimhack ## ## Aimhack ##

281
src/net/torvald/terrarum/StateNoiseTester.kt Normal file
View File

@@ -0,0 +1,281 @@
package net.torvald.terrarum
import com.sudoplay.joise.Joise
import com.sudoplay.joise.module.*
import net.torvald.random.HQRNG
import net.torvald.terrarum.concurrent.ThreadParallel
import net.torvald.terrarum.gameactors.roundInt
import org.newdawn.slick.Color
import org.newdawn.slick.GameContainer
import org.newdawn.slick.Graphics
import org.newdawn.slick.ImageBuffer
import org.newdawn.slick.state.BasicGameState
import org.newdawn.slick.state.StateBasedGame
import java.util.*
/**
* WARNING! HAS SERIOUS MEMORY LEAK
*
* Created by SKYHi14 on 2017-01-30.
*/
class StateNoiseTester : BasicGameState() {
companion object {
val imagesize = 512
val sampleDensity = 1.0
val noiseImageBuffer = ImageBuffer(imagesize, imagesize)
var generating = false
}
override fun init(p0: GameContainer?, p1: StateBasedGame?) {
generateNoiseImage()
}
private fun noise(seed: Long): Joise {
/* Init */
val joiseSeed = seed
val lowlandMagic: Long = 0x44A21A114DBE56 // maria lindberg
val highlandMagic: Long = 0x0114E091 // olive oyl
val mountainMagic: Long = 0x115AA4DE2504 // lisa anderson
val selectionMagic: Long = 0x44E10D9B100 // melody blue
val ground_gradient = ModuleGradient()
ground_gradient.setGradient(0.0, 0.0, 0.0, 1.0)
/* Lowlands */
val lowland_shape_fractal = ModuleFractal()
lowland_shape_fractal.setType(ModuleFractal.FractalType.FBM)
lowland_shape_fractal.setAllSourceBasisTypes(ModuleBasisFunction.BasisType.GRADIENT)
lowland_shape_fractal.setAllSourceInterpolationTypes(ModuleBasisFunction.InterpolationType.QUINTIC)
lowland_shape_fractal.setNumOctaves(2)
lowland_shape_fractal.setFrequency(1.0)
lowland_shape_fractal.seed = joiseSeed xor lowlandMagic
val lowland_autocorrect = ModuleAutoCorrect()
lowland_autocorrect.setSource(lowland_shape_fractal)
lowland_autocorrect.setLow(0.0)
lowland_autocorrect.setHigh(1.0)
val lowland_scale = ModuleScaleOffset()
lowland_scale.setSource(lowland_autocorrect)
lowland_scale.setScale(0.2)
lowland_scale.setOffset(-0.25)
val lowland_y_scale = ModuleScaleDomain()
lowland_y_scale.setSource(lowland_scale)
lowland_y_scale.setScaleY(0.0)
val lowland_terrain = ModuleTranslateDomain()
lowland_terrain.setSource(ground_gradient)
lowland_terrain.setAxisYSource(lowland_y_scale)
/* highlands */
val highland_shape_fractal = ModuleFractal()
highland_shape_fractal.setType(ModuleFractal.FractalType.RIDGEMULTI)
highland_shape_fractal.setAllSourceBasisTypes(ModuleBasisFunction.BasisType.GRADIENT)
highland_shape_fractal.setAllSourceInterpolationTypes(ModuleBasisFunction.InterpolationType.QUINTIC)
highland_shape_fractal.setNumOctaves(2)
highland_shape_fractal.setFrequency(2.0)
highland_shape_fractal.seed = joiseSeed xor highlandMagic
val highland_autocorrect = ModuleAutoCorrect()
highland_autocorrect.setSource(highland_shape_fractal)
highland_autocorrect.setLow(0.0)
highland_autocorrect.setHigh(1.0)
val highland_scale = ModuleScaleOffset()
highland_scale.setSource(highland_autocorrect)
highland_scale.setScale(0.45)
highland_scale.setOffset(0.0)
val highland_y_scale = ModuleScaleDomain()
highland_y_scale.setSource(highland_scale)
highland_y_scale.setScaleY(0.0)
val highland_terrain = ModuleTranslateDomain()
highland_terrain.setSource(ground_gradient)
highland_terrain.setAxisYSource(highland_y_scale)
/* mountains */
val mountain_shape_fractal = ModuleFractal()
mountain_shape_fractal.setType(ModuleFractal.FractalType.BILLOW)
mountain_shape_fractal.setAllSourceBasisTypes(ModuleBasisFunction.BasisType.GRADIENT)
mountain_shape_fractal.setAllSourceInterpolationTypes(ModuleBasisFunction.InterpolationType.QUINTIC)
mountain_shape_fractal.setNumOctaves(4)
mountain_shape_fractal.setFrequency(1.0)
mountain_shape_fractal.seed = joiseSeed xor mountainMagic
val mountain_autocorrect = ModuleAutoCorrect()
mountain_autocorrect.setSource(mountain_shape_fractal)
mountain_autocorrect.setLow(0.0)
mountain_autocorrect.setHigh(1.0)
val mountain_scale = ModuleScaleOffset()
mountain_scale.setSource(mountain_autocorrect)
mountain_scale.setScale(0.75)
mountain_scale.setOffset(0.25)
val mountain_y_scale = ModuleScaleDomain()
mountain_y_scale.setSource(mountain_scale)
mountain_y_scale.setScaleY(0.1) // controls "quirkiness" of the mountain
val mountain_terrain = ModuleTranslateDomain()
mountain_terrain.setSource(ground_gradient)
mountain_terrain.setAxisYSource(mountain_y_scale)
/* selection */
val terrain_type_fractal = ModuleFractal()
terrain_type_fractal.setType(ModuleFractal.FractalType.FBM)
terrain_type_fractal.setAllSourceBasisTypes(ModuleBasisFunction.BasisType.GRADIENT)
terrain_type_fractal.setAllSourceInterpolationTypes(ModuleBasisFunction.InterpolationType.QUINTIC)
terrain_type_fractal.setNumOctaves(3)
terrain_type_fractal.setFrequency(0.5)
terrain_type_fractal.seed = joiseSeed xor selectionMagic
val terrain_autocorrect = ModuleAutoCorrect()
terrain_autocorrect.setSource(terrain_type_fractal)
terrain_autocorrect.setLow(0.0)
terrain_autocorrect.setHigh(1.0)
val terrain_type_cache = ModuleCache()
terrain_type_cache.setSource(terrain_autocorrect)
val highland_mountain_select = ModuleSelect()
highland_mountain_select.setLowSource(highland_terrain)
highland_mountain_select.setHighSource(mountain_terrain)
highland_mountain_select.setControlSource(terrain_type_cache)
highland_mountain_select.setThreshold(0.55)
highland_mountain_select.setFalloff(0.15)
val highland_lowland_select = ModuleSelect()
highland_lowland_select.setLowSource(lowland_terrain)
highland_lowland_select.setHighSource(highland_mountain_select)
highland_lowland_select.setControlSource(terrain_type_cache)
highland_lowland_select.setThreshold(0.25)
highland_lowland_select.setFalloff(0.15)
val ground_select = ModuleSelect()
ground_select.setLowSource(0.0)
ground_select.setHighSource(1.0)
ground_select.setThreshold(0.5)
ground_select.setControlSource(highland_lowland_select)
val joise = Joise(ground_select)
return joise
}
fun generateNoiseImage() {
val noiseModule = noise(HQRNG().nextLong()) // change noise function here
for (y in 0..imagesize - 1) {
for (x in 0..imagesize - 1) {
noiseImageBuffer.setRGBA(x, y, 0, 0, 0, 255)
}
}
for (i in 0..Terrarum.THREADS - 1) {
ThreadParallel.map(
i,
ThreadRunNoiseSampling(
imagesize.toFloat().div(Terrarum.THREADS).times(i).roundInt(),
imagesize.toFloat().div(Terrarum.THREADS).times(i.plus(1)).roundInt() - 1,
noiseModule
),
"SampleJoiseMap"
)
}
ThreadParallel.startAll()
}
override fun update(gc: GameContainer, sbg: StateBasedGame, delta: Int) {
Terrarum.appgc.setTitle("${Terrarum.NAME} — F: ${Terrarum.appgc.fps}"
+ " — M: ${Terrarum.memInUse}M / ${Terrarum.totalVMMem}M")
if (ThreadParallel.allFinished()) generating = false
}
override fun getID() = Terrarum.STATE_ID_TOOL_NOISEGEN
override fun render(gc: GameContainer, sbg: StateBasedGame, g: Graphics) {
g.color = Color.red
g.drawString("Press SPACE to generate new noise", 8f, 8f)
g.drawString("CPUs: ${Terrarum.THREADS}", Terrarum.WIDTH - 90f, 8f)
g.background = Color.cyan
g.drawImage(noiseImageBuffer.image,//noiseImage,
Terrarum.WIDTH.minus(imagesize).div(2).toFloat(),
Terrarum.HEIGHT.minus(imagesize).div(2).toFloat()
)
}
override fun keyPressed(key: Int, c: Char) {
if (c == ' ' && !generating) {
println("Generating noise, may take a while")
generating = true
generateNoiseImage()
}
}
class ThreadRunNoiseSampling(val startIndex: Int, val endIndex: Int, val joise: Joise) : Runnable {
/*override fun run() {
for (sy in startIndex..endIndex) {
for (sx in 0..imagesize - 1) {
val y = sy.toDouble() / imagesize
val x = sx.toDouble() / imagesize
val sampleOffset = sampleDensity
// 4-D toroidal sampling (looped H and V)
val sampleTheta1 = x * Math.PI * 2.0
val sampleTheta2 = y * Math.PI * 2.0
val sampleX = Math.sin(sampleTheta1) * sampleDensity + sampleDensity
val sampleY = Math.cos(sampleTheta1) * sampleDensity + sampleDensity
val sampleZ = Math.sin(sampleTheta2) * sampleDensity + sampleDensity
val sampleW = Math.cos(sampleTheta2) * sampleDensity + sampleDensity
val noise = joise.get(
sampleX, sampleY, sampleZ, sampleW
) // autocorrection REQUIRED!
val noiseCol = noise.times(255f).toInt()
noiseImageBuffer.setRGBA(sx, sy, noiseCol, noiseCol, noiseCol, 255)
}
}
}*/
override fun run() {
for (sy in startIndex..endIndex) {
for (sx in 0..imagesize - 1) {
val y = sy.toDouble() / imagesize * 1.5 -.6
val x = sx.toDouble() / imagesize
val sampleOffset = sampleDensity
// 4-D toroidal sampling (looped H and V)
val sampleTheta1 = x * Math.PI * 2.0
val sampleX = Math.sin(sampleTheta1) * sampleDensity + sampleDensity
val sampleZ = Math.cos(sampleTheta1) * sampleDensity + sampleDensity
val sampleY = y
val noise = joise.get(
sampleX, sampleY, sampleZ
) // autocorrection REQUIRED!
val noiseCol = noise.times(255f).toInt()
noiseImageBuffer.setRGBA(sx, sy, noiseCol, noiseCol, noiseCol, 255)
}
}
}
}
}

1
src/net/torvald/terrarum/Terrarum.kt
View File

@@ -133,6 +133,7 @@ constructor(gamename: String) : StateBasedGame(gamename) {
//addState(StateNoiseTexGen()) //addState(StateNoiseTexGen())
//addState(StateBlurTest()) //addState(StateBlurTest())
//addState(StateShaderTest()) //addState(StateShaderTest())
//addState(StateNoiseTester())
ingame = StateInGame() ingame = StateInGame()
addState(ingame) addState(ingame)

2
src/net/torvald/terrarum/gameactors/PlayerBuilderSigrid.kt
View File

@@ -56,7 +56,7 @@ object PlayerBuilderSigrid {
p.actorValue[AVKey.INTELLIGENT] = true p.actorValue[AVKey.INTELLIGENT] = true
//p.actorValue[AVKey.LUMINOSITY] = Color(0x434aff).to10bit() p.actorValue[AVKey.LUMINOSITY] = Color(0x434aff).to10bit()
p.actorValue[AVKey.BASEDEFENCE] = 141 p.actorValue[AVKey.BASEDEFENCE] = 141

4
src/net/torvald/terrarum/mapgenerator/ThreadProcessNoiseLayers.kt
View File

@@ -24,8 +24,8 @@ class ThreadProcessNoiseLayers(val startIndex: Int, val endIndex: Int,
val sampleTheta = (x.toDouble() / WorldGenerator.WIDTH) * WorldGenerator.TWO_PI val sampleTheta = (x.toDouble() / WorldGenerator.WIDTH) * WorldGenerator.TWO_PI
val sampleOffset = (WorldGenerator.WIDTH / sampleDensity) / 8.0 val sampleOffset = (WorldGenerator.WIDTH / sampleDensity) / 8.0
val sampleX = Math.sin(sampleTheta) * sampleOffset + sampleOffset // plus sampleOffset to make only val sampleX = Math.sin(sampleTheta) * sampleOffset + sampleOffset // plus sampleOffset to make only
val sampleY = Math.cos(sampleTheta) * sampleOffset + sampleOffset // positive points are to be sampled val sampleZ = Math.cos(sampleTheta) * sampleOffset + sampleOffset // positive points are to be sampled
val sampleZ = y / sampleDensity val sampleY = y / sampleDensity
val noise: Double = record.noiseModule.get(sampleX, sampleY, sampleZ) val noise: Double = record.noiseModule.get(sampleX, sampleY, sampleZ)
val fromTerr = record.replaceFromTerrain val fromTerr = record.replaceFromTerrain

77
src/net/torvald/terrarum/mapgenerator/WorldGenerator.kt
View File

@@ -49,8 +49,8 @@ object WorldGenerator {
private var GLACIER_MOUNTAIN_WIDTH = 900 private var GLACIER_MOUNTAIN_WIDTH = 900
private val GLACIER_MOUNTAIN_HEIGHT = 300 private val GLACIER_MOUNTAIN_HEIGHT = 300
private val CAVEGEN_THRE_START = 0.95 private val CAVEGEN_THRE_START = 0.4
private val CAVEGEN_THRE_END = 0.67 private val CAVEGEN_THRE_END = 0.1
private var worldOceanPosition: Int = -1 private var worldOceanPosition: Int = -1
@@ -108,12 +108,17 @@ object WorldGenerator {
* Todo: deserts (variants: SAND_DESERT, SAND_RED) * Todo: deserts (variants: SAND_DESERT, SAND_RED)
* Todo: volcano(es?) * Todo: volcano(es?)
* TODO: variants of beach (SAND, SAND_BEACH, SAND_BLACK, SAND_GREEN) * TODO: variants of beach (SAND, SAND_BEACH, SAND_BLACK, SAND_GREEN)
*
*
* Hark! We use cylindrical sampling
*
* x, z: X-axis sampling
* y: Y-axis sampling
*/ */
val noiseArray = arrayOf( val noiseArray = arrayOf(
// TODO cave one featured in http://accidentalnoise.sourceforge.net/minecraftworlds.html // TODO cave one featured in http://accidentalnoise.sourceforge.net/minecraftworlds.html
TaggedJoise("Carving caves", noiseRidged(1.7, 1.4), 1.0, TILE_MACRO_ALL, TILE_MACRO_ALL, Tile.AIR, NoiseFilterSqrt, CAVEGEN_THRE_START, CAVEGEN_THRE_END) TaggedJoise("Carving caves", noiseCave(), 1.0, TILE_MACRO_ALL, TILE_MACRO_ALL, Tile.AIR, NoiseFilterSqrt, CAVEGEN_THRE_START, CAVEGEN_THRE_END)
, TaggedJoise("Collapsing caves", noiseBlobs(0.5), 0.3, Tile.AIR, Tile.STONE, Tile.STONE, NoiseFilterUniform) // , TaggedJoise("Collapsing caves", noiseBlobs(0.5), 0.3, Tile.AIR, Tile.STONE, Tile.STONE, NoiseFilterUniform)
// //
//, TaggedJoise("Putting stone patches on the ground", noiseBlobs(0.8), 1.02f, intArrayOf(Tile.DIRT, Tile.GRASS), Tile.DIRT, Tile.STONE, NoiseFilterQuadratic, NOISE_GRAD_END, NOISE_GRAD_START) //, TaggedJoise("Putting stone patches on the ground", noiseBlobs(0.8), 1.02f, intArrayOf(Tile.DIRT, Tile.GRASS), Tile.DIRT, Tile.STONE, NoiseFilterQuadratic, NOISE_GRAD_END, NOISE_GRAD_START)
//, TaggedJoise("Placing dirt spots in the cave", noiseBlobs(0.5), 0.98f, Tile.STONE, Tile.STONE, Tile.DIRT, NoiseFilterQuadratic, NOISE_GRAD_END, NOISE_GRAD_START) //, TaggedJoise("Placing dirt spots in the cave", noiseBlobs(0.5), 0.98f, Tile.STONE, Tile.STONE, Tile.DIRT, NoiseFilterQuadratic, NOISE_GRAD_END, NOISE_GRAD_START)
@@ -178,19 +183,69 @@ object WorldGenerator {
val ridged_scale = ModuleScaleDomain() val ridged_scale = ModuleScaleDomain()
ridged_scale.setScaleX(xStretch.toDouble()) ridged_scale.setScaleX(xStretch.toDouble())
ridged_scale.setScaleY(yStretch.toDouble()) ridged_scale.setScaleY(xStretch.toDouble())
ridged_scale.setScaleZ(yStretch.toDouble())
ridged_scale.setSource(ridged_autocorrect) ridged_scale.setSource(ridged_autocorrect)
return Joise(ridged_scale) return Joise(ridged_scale)
} }
private fun noiseCave(): Joise {
val caveMagic: Long = 0x00215741CDF // Urist McDF
val cavePerturbMagic: Long = 0xA2410C // Armok
val arbitraryScale = 4.0
val cave_shape = ModuleFractal()
cave_shape.setType(ModuleFractal.FractalType.RIDGEMULTI)
cave_shape.setAllSourceBasisTypes(ModuleBasisFunction.BasisType.GRADIENT)
cave_shape.setAllSourceInterpolationTypes(ModuleBasisFunction.InterpolationType.QUINTIC)
cave_shape.setNumOctaves(1)
cave_shape.setFrequency(4.0)
cave_shape.seed = SEED xor caveMagic
val cave_select = ModuleSelect()
cave_select.setLowSource(1.0)
cave_select.setHighSource(0.0)
cave_select.setControlSource(cave_shape)
cave_select.setThreshold(0.8)
cave_select.setFalloff(0.0)
val cave_perturb_fractal = ModuleFractal()
cave_perturb_fractal.setType(ModuleFractal.FractalType.FBM)
cave_perturb_fractal.setAllSourceBasisTypes(ModuleBasisFunction.BasisType.GRADIENT)
cave_perturb_fractal.setAllSourceInterpolationTypes(ModuleBasisFunction.InterpolationType.QUINTIC)
cave_perturb_fractal.setNumOctaves(6)
cave_perturb_fractal.setFrequency(3.0)
cave_perturb_fractal.seed = SEED xor cavePerturbMagic
val cave_perturb_scale = ModuleScaleOffset()
cave_perturb_scale.setSource(cave_perturb_fractal)
cave_perturb_scale.setScale(0.5)
cave_perturb_scale.setOffset(0.0)
val cave_perturb = ModuleTranslateDomain()
cave_perturb.setSource(cave_perturb_fractal)
cave_perturb.setAxisXSource(cave_perturb_scale)
val cave_scale = ModuleScaleDomain()
cave_scale.setScaleX(1.0 / arbitraryScale)
cave_scale.setScaleZ(1.0 / arbitraryScale)
cave_scale.setScaleY(1.0 / arbitraryScale)
cave_scale.setSource(cave_perturb)
return Joise(cave_scale)
}
private fun noiseBlobs(frequency: Double): Joise { private fun noiseBlobs(frequency: Double): Joise {
val ridgedMagic: Long = 0x4114EC2AF7 // minecraft
val ridged = ModuleFractal() val ridged = ModuleFractal()
ridged.setType(ModuleFractal.FractalType.FBM) ridged.setType(ModuleFractal.FractalType.FBM)
ridged.setAllSourceInterpolationTypes(ModuleBasisFunction.InterpolationType.QUINTIC) ridged.setAllSourceInterpolationTypes(ModuleBasisFunction.InterpolationType.QUINTIC)
ridged.setNumOctaves(2) ridged.setNumOctaves(2)
ridged.setFrequency(frequency) ridged.setFrequency(frequency)
ridged.seed = Random().nextLong() ridged.seed = SEED xor ridgedMagic
val brownian_select = ModuleSelect() val brownian_select = ModuleSelect()
brownian_select.setControlSource(ridged) brownian_select.setControlSource(ridged)
@@ -273,10 +328,10 @@ object WorldGenerator {
/* Init */ /* Init */
val lowlandMagic: Long = 0x44A21A114DBE56 // maria lindberg val lowlandMagic: Long = 0x41A21A114DBE56 // Maria Lindberg
val highlandMagic: Long = 0x0114E091 // olive oyl val highlandMagic: Long = 0x0114E091 // Olive Oyl
val mountainMagic: Long = 0x115AA4DE2504 // lisa anderson val mountainMagic: Long = 0x115AA4DE2504 // Lisa Anderson
val selectionMagic: Long = 0x44E10D9B100 // melody blue val selectionMagic: Long = 0x41E10D9B100 // Melody Blue
val ground_gradient = ModuleGradient() val ground_gradient = ModuleGradient()
ground_gradient.setGradient(0.0, 0.0, 0.0, 1.0) ground_gradient.setGradient(0.0, 0.0, 0.0, 1.0)

BIN
work_files/graphics/colourmap/pal64_ryb_test_chart.png
View File

Binary file not shown.
Side by Side Swipe Overlay

Before

Width:  |  Height:  |  Size: 20 KiB

After

Width:  |  Height:  |  Size: 20 KiB