update deps, add planet back

2020-03-29 16:09:20 +03:00 · 2020-03-29 16:09:20 +03:00 · cca0d2b3c3
parent c73e705aaa
commit cca0d2b3c3
5 changed files with 264 additions and 33 deletions
--- a/package.json
+++ b/package.json
@ -16,19 +16,19 @@
  "author": "Evert \"Diamond\" Prants <evert@lunasqu.ee>",
  "license": "LGPL-3.0-or-later",
  "devDependencies": {
-    "@babel/core": "^7.7.4",
+    "@babel/core": "^7.9.0",
-    "@babel/plugin-transform-runtime": "^7.7.4",
+    "@babel/plugin-transform-runtime": "^7.9.0",
-    "@babel/preset-env": "^7.7.4",
+    "@babel/preset-env": "^7.9.0",
-    "babel-loader": "^8.0.6",
+    "babel-loader": "^8.1.0",
    "express": "^4.17.1",
-    "html-webpack-plugin": "^3.2.0",
+    "html-webpack-plugin": "^4.0.3",
-    "standard": "^12.0.1",
+    "standard": "^14.3.3",
-    "webpack": "^4.41.2",
+    "webpack": "^4.42.1",
-    "webpack-command": "^0.4.2"
+    "webpack-command": "^0.5.0"
  },
  "dependencies": {
-    "@babel/runtime": "^7.7.4",
+    "@babel/runtime": "^7.9.2",
-    "gl-matrix": "^2.8.1",
+    "gl-matrix": "^3.2.1",
    "open-simplex-noise": "^1.7.0"
  }
 }
--- a/src/engine/components/planet/index.js
+++ b/src/engine/components/planet/index.js
@ -0,0 +1,220 @@
 import { Mesh } from '../../mesh'
 import { BoundingBox } from '../../mesh/aabb'
 import { mat4, vec3 } from 'gl-matrix'
 import { subv3, mulv3, addv3, divv3, normalv3, crossv3 } from '../../utility'
 import Screen from '../../screen'
 const lodMax = 8
 class PlanetGenerator {
  constructor (resolution, radius, noise) {
    this.resolution = resolution
    this.radius = radius
    this.noise = noise
  }
 }
 class CubeFace {
  constructor (parent, level, pos, normal, generator) {
    this.parent = parent
    this.children = []
    this.normal = normal
    this.level = level
    this.generated = false
    this.generator = generator
    // Calculate left (x) and forward (z) vectors from the normal (y)
    this.left = [normal[1], normal[2], normal[0]]
    this.forward = crossv3(normal, this.left)
    this.position = pos
    // Center the face
    if (level === 0) {
      this.position = subv3(this.position, mulv3(this.left, generator.radius / 2))
      this.position = subv3(this.position, mulv3(this.forward, generator.radius / 2))
    }
    this.generate()
  }
  generate () {
    if (this.generated) return
    let VERTICES = this.generator.resolution
    let count = VERTICES * VERTICES
    let vertices = new Array(count * 3)
    let normals = new Array(count * 3)
    let textureCoords = new Array(count * 2)
    let indices = new Array(6 * (VERTICES - 1) * (VERTICES - 1))
    let radius = this.generator.radius
    let divisionLevel = Math.pow(2, this.level)
    for (let i = 0, vertexPointer = 0; i < VERTICES; i++) {
      for (let j = 0; j < VERTICES; j++, vertexPointer++) {
        // Vertex index (0 - 1)
        let iindex = i / (VERTICES - 1)
        let jindex = j / (VERTICES - 1)
        // From the left and forward vectors, we can calculate an oriented vertex
        let iv = divv3(mulv3(mulv3(this.left, iindex), radius), divisionLevel)
        let jv = divv3(mulv3(mulv3(this.forward, jindex), radius), divisionLevel)
        // Add the scaled left and forward to the centered origin
        let vertex = addv3(this.position, addv3(iv, jv))
        // Normalize and multiply by radius to create a spherical mesh
        let normal = normalv3(vertex)
        let pos = mulv3(normal, (radius))
        vertices[vertexPointer * 3] = pos[0]
        vertices[vertexPointer * 3 + 1] = pos[1]
        vertices[vertexPointer * 3 + 2] = pos[2]
        normals[vertexPointer * 3] = normal[0]
        normals[vertexPointer * 3 + 1] = normal[1]
        normals[vertexPointer * 3 + 2] = normal[2]
        textureCoords[vertexPointer * 2] = j * (1 / VERTICES)
        textureCoords[vertexPointer * 2 + 1] = i * (1 / VERTICES)
        if (i === VERTICES / 2 && j === VERTICES / 2) {
          this.center = pos
        }
      }
    }
    for (let gz = 0, pointer = 0; gz < VERTICES - 1; gz++) {
      for (let gx = 0; gx < VERTICES - 1; gx++) {
        let topLeft = (gz * VERTICES) + gx
        let topRight = topLeft + 1
        let bottomLeft = ((gz + 1) * VERTICES) + gx
        let bottomRight = bottomLeft + 1
        indices[pointer++] = topLeft
        indices[pointer++] = bottomLeft
        indices[pointer++] = topRight
        indices[pointer++] = topRight
        indices[pointer++] = bottomLeft
        indices[pointer++] = bottomRight
      }
    }
    this.mesh = Mesh.construct(Screen.gl, vertices, indices, textureCoords, normals)
    this.generated = true
  }
  dispose () {
    this.generated = false
    if (this.mesh) {
      // this.mesh.dispose(Screen.gl)
      this.mesh = null
    }
  }
  merge () {
    if (!this.children.length) return
    for (let i in this.children) {
      let ch = this.children[i]
      ch.merge()
      ch.dispose()
    }
    this.children = []
    this.generate()
  }
  subdivide () {
    if (this.level === lodMax) return
    let lv = this.level + 1
    let stepLeft = mulv3(this.left, this.generator.radius / Math.pow(2, lv))
    let stepForward = mulv3(this.forward, this.generator.radius / Math.pow(2, lv))
    this.children = [
      new CubeFace(this, lv, this.position, this.normal, this.generator),
      new CubeFace(this, lv, addv3(this.position, stepForward), this.normal, this.generator),
      new CubeFace(this, lv, addv3(this.position, stepLeft), this.normal, this.generator),
      new CubeFace(this, lv, addv3(this.position, addv3(stepLeft, stepForward)), this.normal, this.generator)
    ]
    this.dispose()
  }
  draw (gl, shader) {
    if (!this.mesh) {
      for (let i in this.children) {
        this.children[i].draw(gl, shader)
      }
      return
    }
    this.mesh.prepare(gl, shader)
    this.mesh.draw(gl, shader)
  }
  update (camera, dt) {
    if (!this.center) return
    let camToOrigin = vec3.distance(camera.pos, this.center)
    let divisionLevel = Math.pow(2, this.level)
    let splitDistance = this.generator.radius / divisionLevel
    if (camToOrigin < splitDistance * 1.5 && this.children.length === 0) {
      this.subdivide()
      return
    } else if (camToOrigin > splitDistance * 2 && this.children.length > 0) {
      this.merge()
      return
    }
    if (this.children.length > 0) {
      for (let i in this.children) {
        this.children[i].update(camera, dt)
      }
    }
  }
 }
 class CubePlanet {
  constructor (origin, generator) {
    this.origin = origin
    this.generator = generator
    this.transform = mat4.create()
    mat4.fromTranslation(this.transform, origin)
    let hs = generator.radius / 2
    this.faces = [
      new CubeFace(this, 0, [0, 0, -hs], [0, 0, -1], generator), // front
      new CubeFace(this, 0, [0, 0, hs], [0, 0, 1], generator), // back
      new CubeFace(this, 0, [-hs, 0, 0], [-1, 0, 0], generator), // left
      new CubeFace(this, 0, [hs, 0, 0], [1, 0, 0], generator), // right
      new CubeFace(this, 0, [0, hs, 0], [0, 1, 0], generator), // top
      new CubeFace(this, 0, [0, -hs, 0], [0, -1, 0], generator) // bottom
    ]
  }
  update (camera, dt) {
    for (let i in this.faces) {
      this.faces[i].update(camera, dt)
    }
  }
  draw (gl, shader) {
    // Set model transform matrix uniform
    const transformLocation = shader.getUniformLocation(gl, 'uModelMatrix')
    gl.uniformMatrix4fv(transformLocation, false, this.transform)
    for (let i in this.faces) {
      this.faces[i].draw(gl, shader)
    }
  }
 }
 export { CubePlanet, CubeFace, PlanetGenerator }
--- a/src/engine/environment.js
+++ b/src/engine/environment.js
@ -42,7 +42,7 @@ class Environment {
    this.fogEnd = 0
    this.fogColor = [0.8, 0.8, 0.8]
-    this.sun = new DirectionalLight([0.0, 1000.0, 2000.0], [-1.0, -1.0, 0.0], [1.0, 1.0, 1.0])
+    this.sun = new DirectionalLight([0.0, 1000.0, -2000.0], [-1.0, -1.0, 0.0], [1.0, 1.0, 1.0])
    this.lights = [ this.sun ]
    this.maxEnvironmentLights = ENV_MAX_LIGHTS
--- a/src/engine/voxel/index.js
+++ b/src/engine/voxel/index.js
@ -325,11 +325,11 @@ class VoxelMapBlock extends Node {
  }
  update (gl, dt) {
-    if (!this.generated) return
+    if (!this.generated) return false
    for (let i in this.children) {
      let ch = this.children[i]
      if (!(ch instanceof VoxelChunk)) continue
-      if (ch.update(gl, dt)) break
+      if (ch.update(gl, dt)) return true
    }
  }
 }
@ -370,7 +370,7 @@ class VoxelWorld extends Node {
          continue
        }
-        let absPos = mulv3(pos, this.blockSize * (this.chunkSize / 2))
+        let absPos = mulv3(pos, this.blockSize * this.chunkSize)
        let block = new VoxelMapBlock(absPos, this.chunkSize, this.blockSize)
        block.generate(this.generator)
@ -391,8 +391,8 @@ class VoxelWorld extends Node {
    let slgrid = [Math.floor(cam.pos[0] / total), Math.floor(cam.pos[1] / total), Math.floor(cam.pos[2] / total)]
    for (let x = slgrid[0] - this.renderDistance / 2; x < slgrid[0] + this.renderDistance / 2; x++) {
-      for (let z = slgrid[1] - this.renderDistance / 2; z < slgrid[1] + this.renderDistance / 2; z++) {
+      for (let z = slgrid[2] - this.renderDistance / 2; z < slgrid[2] + this.renderDistance / 2; z++) {
-        for (let y = slgrid[2] - this.renderDistance / 2; y < slgrid[2] + this.renderDistance / 2; y++) {
+        for (let y = slgrid[1] - this.renderDistance / 2; y < slgrid[1] + this.renderDistance / 2; y++) {
          if (this.getBlock(x, y, z)) continue
          this.queueMapblock([x, y, z])
        }
@ -400,7 +400,7 @@ class VoxelWorld extends Node {
    }
    for (let i in this.children) {
-      this.children[i].update(gl, dt)
+      if (this.children[i].update(gl, dt)) break
    }
  }
 }
--- a/src/index.js
+++ b/src/index.js
@ -15,6 +15,8 @@ import { GUIRenderer, GUIImage, Dim4 } from './engine/gui'
 import { FontRenderer, GUIText, Font } from './engine/gui/font'
 import { VoxelWorld, VoxelGenerator } from './engine/voxel'
 import { CubePlanet, PlanetGenerator } from './engine/components/planet'
 let game = Engine
 let env = new Environment()
 let gui = new GUIRenderer()
@ -29,11 +31,11 @@ async function pipeline () {
  entity.setRotation([0.0, 0.0, -90.0])
  // Initialize water
-  let waterRenderer = new WaterRenderer()
+  // let waterRenderer = new WaterRenderer()
-  let water = new WaterTile([100.0, 0.0, 100.0], 100.0)
+  // let water = new WaterTile([100.0, 0.0, 100.0], 100.0)
-  await waterRenderer.initialize(game)
+  // await waterRenderer.initialize(game)
-  await waterRenderer.useDUDVMap(game.gl, 'dudv')
+  // await waterRenderer.useDUDVMap(game.gl, 'dudv')
-  await waterRenderer.useNormalMap(game.gl, 'normalmap')
+  // await waterRenderer.useNormalMap(game.gl, 'normalmap')
  let arialFont = await Font.fromFile('arial')
  await arialFont.loadTextures(game.gl)
@ -60,7 +62,7 @@ async function pipeline () {
  let hmap = new SimplexHeightMap(1, 1, 256, 50)
  // Create a terrain instance
-  let terrain = new LODTerrain([0.0, 0.0, 0.0], 1024, 1024, 850, 4)
+  // let terrain = new LODTerrain([0.0, 0.0, 0.0], 1024, 1024, 850, 4)
  // Terrain material
  let material = new Material(['grass-1024.jpg'])
@ -72,11 +74,11 @@ async function pipeline () {
  }
  // Set generator and material for terrain
-  terrain.setGenerator(hmap)
+  // terrain.setGenerator(hmap)
-  terrain.setMaterial(material)
+  // terrain.setMaterial(material)
  // Create and initialize the camera
-  let cam = new Camera([-16.0, 25.0, -16.0], [0.8, -0.6, 0.0])
+  let cam = new Camera([-1300.0, 1325.0, -1300.0], [0.8, -0.6, 0.0])
  cam.updateProjection(game.gl)
  // Create skybox
@ -89,6 +91,9 @@ async function pipeline () {
  // let voxgen = new VoxelGenerator(hmap, material)
  // let block = new VoxelWorld(voxgen)
  // Planet test
  let planet = new CubePlanet([0.0, 0.0, 0.0], new PlanetGenerator(16, 1000, hmap))
  // Update function for camera and terrain
  let fpsTimer = 0
  game.addUpdateFunction(function (dt) {
@ -123,11 +128,11 @@ async function pipeline () {
    }
    // Update detail levels
-    terrain.update(game.gl, cam)
+    // terrain.update(game.gl, cam)
-    terrain.updateLODMesh(game.gl)
+    // terrain.updateLODMesh(game.gl)
    // Ripple water
-    waterRenderer.update(dt)
+    // waterRenderer.update(dt)
    // Update voxel chunk
    // voxgen.update(dt)
@ -139,6 +144,9 @@ async function pipeline () {
      itms[0].children[0].setText(game.fps + ' fps')
      fpsTimer = 0
    }
    // Update planet LOD
    planet.update(cam, dt)
  })
  function drawEverything (gl) {
@ -155,21 +163,24 @@ async function pipeline () {
    // Set the viewport uniforms
    cam.draw(gl, terrainShader)
    // Draw terrain
-    terrain.draw(gl, terrainShader)
+    // terrain.draw(gl, terrainShader)
    // entity.draw(gl, terrainShader)
    // block.draw(gl, terrainShader)
    material.apply(gl, terrainShader)
    planet.draw(gl, terrainShader)
  }
  // Render function for the triangle
  game.addRenderFunction(function (gl) {
-    waterRenderer.reflect(gl, cam, drawEverything)
+    // waterRenderer.reflect(gl, cam, drawEverything)
-    waterRenderer.refract(gl, cam, drawEverything)
+    // waterRenderer.refract(gl, cam, drawEverything)
    drawEverything(gl)
-    waterRenderer.draw(gl, [water], cam, env.sun)
+    // waterRenderer.draw(gl, [water], cam, env.sun)
    // Draw particles
    particleSystem.draw(gl, cam)