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package moe.nea.firmament.util.render
import com.mojang.blaze3d.systems.RenderSystem
import java.lang.Math.pow
import org.joml.Matrix4f
import org.joml.Vector3f
import util.render.CustomRenderLayers
import net.minecraft.client.render.Camera
import net.minecraft.client.render.RenderLayer
import net.minecraft.client.render.RenderTickCounter
import net.minecraft.client.render.VertexConsumer
import net.minecraft.client.render.VertexConsumerProvider
import net.minecraft.client.texture.Sprite
import net.minecraft.client.util.math.MatrixStack
import net.minecraft.text.Text
import net.minecraft.util.Identifier
import net.minecraft.util.math.BlockPos
import net.minecraft.util.math.Vec3d
import moe.nea.firmament.events.WorldRenderLastEvent
import moe.nea.firmament.util.FirmFormatters
import moe.nea.firmament.util.IntUtil.toRGBA
import moe.nea.firmament.util.MC
@RenderContextDSL
class RenderInWorldContext private constructor(
val matrixStack: MatrixStack,
private val camera: Camera,
private val tickCounter: RenderTickCounter,
val vertexConsumers: VertexConsumerProvider.Immediate,
) {
fun block(blockPos: BlockPos, color: Int) {
matrixStack.push()
matrixStack.translate(blockPos.x.toFloat(), blockPos.y.toFloat(), blockPos.z.toFloat())
buildCube(matrixStack.peek().positionMatrix, vertexConsumers.getBuffer(CustomRenderLayers.COLORED_QUADS), color)
matrixStack.pop()
}
enum class VerticalAlign {
TOP, BOTTOM, CENTER;
fun align(index: Int, count: Int): Float {
return when (this) {
CENTER -> (index - count / 2F) * (1 + MC.font.fontHeight.toFloat())
BOTTOM -> (index - count) * (1 + MC.font.fontHeight.toFloat())
TOP -> (index) * (1 + MC.font.fontHeight.toFloat())
}
}
}
fun waypoint(position: BlockPos, vararg label: Text) {
text(
position.toCenterPos(),
*label,
Text.literal("§e${FirmFormatters.formatDistance(MC.player?.pos?.distanceTo(position.toCenterPos()) ?: 42069.0)}"),
background = 0xAA202020.toInt()
)
}
fun withFacingThePlayer(position: Vec3d, block: FacingThePlayerContext.() -> Unit) {
matrixStack.push()
matrixStack.translate(position.x, position.y, position.z)
val actualCameraDistance = position.distanceTo(camera.pos)
val distanceToMoveTowardsCamera = if (actualCameraDistance < 10) 0.0 else -(actualCameraDistance - 10.0)
val vec = position.subtract(camera.pos).multiply(distanceToMoveTowardsCamera / actualCameraDistance)
matrixStack.translate(vec.x, vec.y, vec.z)
matrixStack.multiply(camera.rotation)
matrixStack.scale(0.025F, -0.025F, 1F)
FacingThePlayerContext(this).run(block)
matrixStack.pop()
vertexConsumers.drawCurrentLayer()
}
fun sprite(position: Vec3d, sprite: Sprite, width: Int, height: Int) {
texture(
position, sprite.atlasId, width, height, sprite.minU, sprite.minV, sprite.maxU, sprite.maxV
)
}
fun texture(
position: Vec3d, texture: Identifier, width: Int, height: Int,
u1: Float, v1: Float,
u2: Float, v2: Float,
) {
withFacingThePlayer(position) {
texture(texture, width, height, u1, v1, u2, v2)
}
}
fun text(
position: Vec3d,
vararg texts: Text,
verticalAlign: VerticalAlign = VerticalAlign.CENTER,
background: Int = 0x70808080
) {
withFacingThePlayer(position) {
text(*texts, verticalAlign = verticalAlign, background = background)
}
}
fun tinyBlock(vec3d: Vec3d, size: Float, color: Int) {
matrixStack.push()
matrixStack.translate(vec3d.x, vec3d.y, vec3d.z)
matrixStack.scale(size, size, size)
matrixStack.translate(-.5, -.5, -.5)
buildCube(matrixStack.peek().positionMatrix, vertexConsumers.getBuffer(CustomRenderLayers.COLORED_QUADS), color)
matrixStack.pop()
vertexConsumers.draw()
}
fun wireframeCube(blockPos: BlockPos, lineWidth: Float = 10F) {
val buf = vertexConsumers.getBuffer(RenderLayer.LINES)
matrixStack.push()
// TODO: add color arg to this
// TODO: this does not render through blocks (or water layers) anymore
RenderSystem.lineWidth(lineWidth / pow(camera.pos.squaredDistanceTo(blockPos.toCenterPos()), 0.25).toFloat())
matrixStack.translate(blockPos.x.toFloat(), blockPos.y.toFloat(), blockPos.z.toFloat())
buildWireFrameCube(matrixStack.peek(), buf)
matrixStack.pop()
vertexConsumers.draw()
}
fun line(vararg points: Vec3d, color: Int, lineWidth: Float = 10F) {
line(points.toList(), color, lineWidth)
}
fun tracer(toWhere: Vec3d, color: Int, lineWidth: Float = 3f) {
val cameraForward = Vector3f(0f, 0f, -1f).rotate(camera.rotation)
line(camera.pos.add(Vec3d(cameraForward)), toWhere, color = color, lineWidth = lineWidth)
}
fun line(points: List<Vec3d>, color: Int, lineWidth: Float = 10F) {
RenderSystem.lineWidth(lineWidth)
val buffer = vertexConsumers.getBuffer(CustomRenderLayers.LINES)
val matrix = matrixStack.peek()
var lastNormal: Vector3f? = null
points.zipWithNext().forEach { (a, b) ->
val normal = Vector3f(b.x.toFloat(), b.y.toFloat(), b.z.toFloat())
.sub(a.x.toFloat(), a.y.toFloat(), a.z.toFloat())
.normalize()
val lastNormal0 = lastNormal ?: normal
lastNormal = normal
buffer.vertex(matrix.positionMatrix, a.x.toFloat(), a.y.toFloat(), a.z.toFloat())
.color(-1)
.normal(matrix, lastNormal0.x, lastNormal0.y, lastNormal0.z)
buffer.vertex(matrix.positionMatrix, b.x.toFloat(), b.y.toFloat(), b.z.toFloat())
.color(-1)
.normal(matrix, normal.x, normal.y, normal.z)
}
}
// TODO: put the favourite icons in front of items again
companion object {
private fun doLine(
matrix: MatrixStack.Entry,
buf: VertexConsumer,
i: Float,
j: Float,
k: Float,
x: Float,
y: Float,
z: Float
) {
val normal = Vector3f(x, y, z)
.sub(i, j, k)
.normalize()
buf.vertex(matrix.positionMatrix, i, j, k)
.normal(matrix, normal.x, normal.y, normal.z)
.color(-1)
buf.vertex(matrix.positionMatrix, x, y, z)
.normal(matrix, normal.x, normal.y, normal.z)
.color(-1)
}
private fun buildWireFrameCube(matrix: MatrixStack.Entry, buf: VertexConsumer) {
for (i in 0..1) {
for (j in 0..1) {
val i = i.toFloat()
val j = j.toFloat()
doLine(matrix, buf, 0F, i, j, 1F, i, j)
doLine(matrix, buf, i, 0F, j, i, 1F, j)
doLine(matrix, buf, i, j, 0F, i, j, 1F)
}
}
}
private fun buildCube(matrix: Matrix4f, buf: VertexConsumer, colorInt: Int) {
val (r, g, b, a) = colorInt.toRGBA()
// Y-
buf.vertex(matrix, 0F, 0F, 0F).color(r, g, b, a)
buf.vertex(matrix, 0F, 0F, 1F).color(r, g, b, a)
buf.vertex(matrix, 1F, 0F, 1F).color(r, g, b, a)
buf.vertex(matrix, 1F, 0F, 0F).color(r, g, b, a)
// Y+
buf.vertex(matrix, 0F, 1F, 0F).color(r, g, b, a)
buf.vertex(matrix, 1F, 1F, 0F).color(r, g, b, a)
buf.vertex(matrix, 1F, 1F, 1F).color(r, g, b, a)
buf.vertex(matrix, 0F, 1F, 1F).color(r, g, b, a)
// X-
buf.vertex(matrix, 0F, 0F, 0F).color(r, g, b, a)
buf.vertex(matrix, 0F, 0F, 1F).color(r, g, b, a)
buf.vertex(matrix, 0F, 1F, 1F).color(r, g, b, a)
buf.vertex(matrix, 0F, 1F, 0F).color(r, g, b, a)
// X+
buf.vertex(matrix, 1F, 0F, 0F).color(r, g, b, a)
buf.vertex(matrix, 1F, 1F, 0F).color(r, g, b, a)
buf.vertex(matrix, 1F, 1F, 1F).color(r, g, b, a)
buf.vertex(matrix, 1F, 0F, 1F).color(r, g, b, a)
// Z-
buf.vertex(matrix, 0F, 0F, 0F).color(r, g, b, a)
buf.vertex(matrix, 1F, 0F, 0F).color(r, g, b, a)
buf.vertex(matrix, 1F, 1F, 0F).color(r, g, b, a)
buf.vertex(matrix, 0F, 1F, 0F).color(r, g, b, a)
// Z+
buf.vertex(matrix, 0F, 0F, 1F).color(r, g, b, a)
buf.vertex(matrix, 0F, 1F, 1F).color(r, g, b, a)
buf.vertex(matrix, 1F, 1F, 1F).color(r, g, b, a)
buf.vertex(matrix, 1F, 0F, 1F).color(r, g, b, a)
}
fun renderInWorld(event: WorldRenderLastEvent, block: RenderInWorldContext. () -> Unit) {
event.matrices.push()
event.matrices.translate(-event.camera.pos.x, -event.camera.pos.y, -event.camera.pos.z)
val ctx = RenderInWorldContext(
event.matrices,
event.camera,
event.tickCounter,
event.vertexConsumers
)
block(ctx)
event.matrices.pop()
event.vertexConsumers.draw()
}
}
}
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