src/main/kotlin/util/render/RenderCircleProgress.kt


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package moe.nea.firmament.util.render

import com.mojang.blaze3d.systems.RenderSystem
import io.github.notenoughupdates.moulconfig.platform.next
import org.joml.Matrix4f
import org.joml.Vector2f
import kotlin.math.atan2
import kotlin.math.tan
import net.minecraft.client.gui.DrawContext
import net.minecraft.client.render.BufferRenderer
import net.minecraft.client.render.GameRenderer
import net.minecraft.client.render.Tessellator
import net.minecraft.client.render.VertexFormat.DrawMode
import net.minecraft.client.render.VertexFormats
import net.minecraft.util.Identifier

object RenderCircleProgress {

    fun renderCircle(
        drawContext: DrawContext,
        texture: Identifier,
        progress: Float,
        u1: Float,
        u2: Float,
        v1: Float,
        v2: Float,
    ) {
        RenderSystem.setShaderTexture(0, texture)
        RenderSystem.setShader(GameRenderer::getPositionTexColorProgram)
        RenderSystem.enableBlend()
        val matrix: Matrix4f = drawContext.matrices.peek().positionMatrix
        val bufferBuilder = Tessellator.getInstance().begin(DrawMode.TRIANGLES, VertexFormats.POSITION_TEXTURE_COLOR)

        val corners = listOf(
            Vector2f(0F, -1F),
            Vector2f(1F, -1F),
            Vector2f(1F, 0F),
            Vector2f(1F, 1F),
            Vector2f(0F, 1F),
            Vector2f(-1F, 1F),
            Vector2f(-1F, 0F),
            Vector2f(-1F, -1F),
        )

        for (i in (0 until 8)) {
            if (progress < i / 8F) {
                break
            }
            val second = corners[(i + 1) % 8]
            val first = corners[i]
            if (progress <= (i + 1) / 8F) {
                val internalProgress = 1 - (progress - i / 8F) * 8F
                val angle = lerpAngle(
                    atan2(second.y, second.x),
                    atan2(first.y, first.x),
                    internalProgress
                )
                if (angle < tau / 8 || angle >= tau * 7 / 8) {
                    second.set(1F, tan(angle))
                } else if (angle < tau * 3 / 8) {
                    second.set(1 / tan(angle), 1F)
                } else if (angle < tau * 5 / 8) {
                    second.set(-1F, -tan(angle))
                } else {
                    second.set(-1 / tan(angle), -1F)
                }
            }

            fun ilerp(f: Float): Float =
                ilerp(-1f, 1f, f)

            bufferBuilder
                .vertex(matrix, second.x, second.y, 0F)
                .texture(lerp(u1, u2, ilerp(second.x)), lerp(v1, v2, ilerp(second.y)))
                .color(-1)
                .next()
            bufferBuilder
                .vertex(matrix, first.x, first.y, 0F)
                .texture(lerp(u1, u2, ilerp(first.x)), lerp(v1, v2, ilerp(first.y)))
                .color(-1)
                .next()
            bufferBuilder
                .vertex(matrix, 0F, 0F, 0F)
                .texture(lerp(u1, u2, ilerp(0F)), lerp(v1, v2, ilerp(0F)))
                .color(-1)
                .next()
        }
        BufferRenderer.drawWithGlobalProgram(bufferBuilder.end())
        RenderSystem.disableBlend()
    }


}