(function (global, factory) { typeof exports === "object" && typeof module !== "undefined" ? (module.exports = factory()) : typeof define === "function" && define.amd ? define(factory) : (global.HeightmapGenerator = factory()); })(this, function () { "use strict"; let cells, p; const generate = function () { TIME && console.time("generateHeightmap"); cells = grid.cells; p = grid.points; cells.h = new Uint8Array(grid.points.length); const template = document.getElementById("templateInput").value; switch (template) { case "Volcano": templateVolcano(); break; case "High Island": templateHighIsland(); break; case "Low Island": templateLowIsland(); break; case "Continents": templateContinents(); break; case "Archipelago": templateArchipelago(); break; case "Atoll": templateAtoll(); break; case "Mediterranean": templateMediterranean(); break; case "Peninsula": templatePeninsula(); break; case "Pangea": templatePangea(); break; case "Isthmus": templateIsthmus(); break; case "Shattered": templateShattered(); break; } TIME && console.timeEnd("generateHeightmap"); }; // parse template step function addStep(a1, a2, a3, a4, a5) { if (a1 === "Hill") return addHill(a2, a3, a4, a5); if (a1 === "Pit") return addPit(a2, a3, a4, a5); if (a1 === "Range") return addRange(a2, a3, a4, a5); if (a1 === "Trough") return addTrough(a2, a3, a4, a5); if (a1 === "Strait") return addStrait(a2, a3); if (a1 === "Add") return modify(a3, a2, 1); if (a1 === "Multiply") return modify(a3, 0, a2); if (a1 === "Smooth") return smooth(a2); } // Heighmap Template: Volcano function templateVolcano() { addStep("Hill", "1", "90-100", "44-56", "40-60"); addStep("Multiply", 0.8, "50-100"); addStep("Range", "1.5", "30-55", "45-55", "40-60"); addStep("Smooth", 2); addStep("Hill", "1.5", "25-35", "25-30", "20-75"); addStep("Hill", "1", "25-35", "75-80", "25-75"); addStep("Hill", "0.5", "20-25", "10-15", "20-25"); } // Heighmap Template: High Island function templateHighIsland() { addStep("Hill", "1", "90-100", "65-75", "47-53"); addStep("Add", 5, "all"); addStep("Hill", "6", "20-23", "25-55", "45-55"); addStep("Range", "1", "40-50", "45-55", "45-55"); addStep("Smooth", 2); addStep("Trough", "2-3", "20-30", "20-30", "20-30"); addStep("Trough", "2-3", "20-30", "60-80", "70-80"); addStep("Hill", "1", "10-15", "60-60", "50-50"); addStep("Hill", "1.5", "13-16", "15-20", "20-75"); addStep("Multiply", 0.8, "20-100"); addStep("Range", "1.5", "30-40", "15-85", "30-40"); addStep("Range", "1.5", "30-40", "15-85", "60-70"); addStep("Pit", "2-3", "10-15", "15-85", "20-80"); } // Heighmap Template: Low Island function templateLowIsland() { addStep("Hill", "1", "90-99", "60-80", "45-55"); addStep("Hill", "4-5", "25-35", "20-65", "40-60"); addStep("Range", "1", "40-50", "45-55", "45-55"); addStep("Smooth", 3); addStep("Trough", "1.5", "20-30", "15-85", "20-30"); addStep("Trough", "1.5", "20-30", "15-85", "70-80"); addStep("Hill", "1.5", "10-15", "5-15", "20-80"); addStep("Hill", "1", "10-15", "85-95", "70-80"); addStep("Pit", "3-5", "10-15", "15-85", "20-80"); addStep("Multiply", 0.4, "20-100"); } // Heighmap Template: Continents function templateContinents() { addStep("Hill", "1", "80-85", "75-80", "40-60"); addStep("Hill", "1", "80-85", "20-25", "40-60"); addStep("Multiply", 0.22, "20-100"); addStep("Hill", "5-6", "15-20", "25-75", "20-82"); addStep("Range", ".8", "30-60", "5-15", "20-45"); addStep("Range", ".8", "30-60", "5-15", "55-80"); addStep("Range", "0-3", "30-60", "80-90", "20-80"); addStep("Trough", "3-4", "15-20", "15-85", "20-80"); addStep("Strait", "2", "vertical"); addStep("Smooth", 2); addStep("Trough", "1-2", "5-10", "45-55", "45-55"); addStep("Pit", "3-4", "10-15", "15-85", "20-80"); addStep("Hill", "1", "5-10", "40-60", "40-60"); } // Heighmap Template: Archipelago function templateArchipelago() { addStep("Add", 11, "all"); addStep("Range", "2-3", "40-60", "20-80", "20-80"); addStep("Hill", "5", "15-20", "10-90", "30-70"); addStep("Hill", "2", "10-15", "10-30", "20-80"); addStep("Hill", "2", "10-15", "60-90", "20-80"); addStep("Smooth", 3); addStep("Trough", "10", "20-30", "5-95", "5-95"); addStep("Strait", "2", "vertical"); addStep("Strait", "2", "horizontal"); } // Heighmap Template: Atoll function templateAtoll() { addStep("Hill", "1", "75-80", "50-60", "45-55"); addStep("Hill", "1.5", "30-50", "25-75", "30-70"); addStep("Hill", ".5", "30-50", "25-35", "30-70"); addStep("Smooth", 1); addStep("Multiply", 0.2, "25-100"); addStep("Hill", ".5", "10-20", "50-55", "48-52"); } // Heighmap Template: Mediterranean function templateMediterranean() { addStep("Range", "3-4", "30-50", "0-100", "0-10"); addStep("Range", "3-4", "30-50", "0-100", "90-100"); addStep("Hill", "5-6", "30-70", "0-100", "0-5"); addStep("Hill", "5-6", "30-70", "0-100", "95-100"); addStep("Smooth", 1); addStep("Hill", "2-3", "30-70", "0-5", "20-80"); addStep("Hill", "2-3", "30-70", "95-100", "20-80"); addStep("Multiply", 0.8, "land"); addStep("Trough", "3-5", "40-50", "0-100", "0-10"); addStep("Trough", "3-5", "40-50", "0-100", "90-100"); } // Heighmap Template: Peninsula function templatePeninsula() { addStep("Range", "2-3", "20-35", "40-50", "0-15"); addStep("Add", 5, "all"); addStep("Hill", "1", "90-100", "10-90", "0-5"); addStep("Add", 13, "all"); addStep("Hill", "3-4", "3-5", "5-95", "80-100"); addStep("Hill", "1-2", "3-5", "5-95", "40-60"); addStep("Trough", "5-6", "10-25", "5-95", "5-95"); addStep("Smooth", 3); } // Heighmap Template: Pangea function templatePangea() { addStep("Hill", "1-2", "25-40", "15-50", "0-10"); addStep("Hill", "1-2", "5-40", "50-85", "0-10"); addStep("Hill", "1-2", "25-40", "50-85", "90-100"); addStep("Hill", "1-2", "5-40", "15-50", "90-100"); addStep("Hill", "8-12", "20-40", "20-80", "48-52"); addStep("Smooth", 2); addStep("Multiply", 0.7, "land"); addStep("Trough", "3-4", "25-35", "5-95", "10-20"); addStep("Trough", "3-4", "25-35", "5-95", "80-90"); addStep("Range", "5-6", "30-40", "10-90", "35-65"); } // Heighmap Template: Isthmus function templateIsthmus() { addStep("Hill", "5-10", "15-30", "0-30", "0-20"); addStep("Hill", "5-10", "15-30", "10-50", "20-40"); addStep("Hill", "5-10", "15-30", "30-70", "40-60"); addStep("Hill", "5-10", "15-30", "50-90", "60-80"); addStep("Hill", "5-10", "15-30", "70-100", "80-100"); addStep("Smooth", 2); addStep("Trough", "4-8", "15-30", "0-30", "0-20"); addStep("Trough", "4-8", "15-30", "10-50", "20-40"); addStep("Trough", "4-8", "15-30", "30-70", "40-60"); addStep("Trough", "4-8", "15-30", "50-90", "60-80"); addStep("Trough", "4-8", "15-30", "70-100", "80-100"); } // Heighmap Template: Shattered function templateShattered() { addStep("Hill", "8", "35-40", "15-85", "30-70"); addStep("Trough", "10-20", "40-50", "5-95", "5-95"); addStep("Range", "5-7", "30-40", "10-90", "20-80"); addStep("Pit", "12-20", "30-40", "15-85", "20-80"); } function getBlobPower() { switch (+pointsInput.dataset.cells) { case 1000: return 0.93; case 2000: return 0.95; case 5000: return 0.96; case 10000: return 0.98; case 20000: return 0.985; case 30000: return 0.987; case 40000: return 0.9892; case 50000: return 0.9911; case 60000: return 0.9921; case 70000: return 0.9934; case 80000: return 0.9942; case 90000: return 0.9946; case 100000: return 0.995; } } function getLinePower() { switch (+pointsInput.dataset.cells) { case 1000: return 0.74; case 2000: return 0.75; case 5000: return 0.78; case 10000: return 0.81; case 20000: return 0.82; case 30000: return 0.83; case 40000: return 0.84; case 50000: return 0.855; case 60000: return 0.87; case 70000: return 0.885; case 80000: return 0.91; case 90000: return 0.92; case 100000: return 0.93; } } const addHill = function (count, height, rangeX, rangeY) { count = getNumberInRange(count); const power = getBlobPower(); while (count > 0) { addOneHill(); count--; } function addOneHill() { const change = new Uint8Array(cells.h.length); let limit = 0, start; let h = lim(getNumberInRange(height)); do { const x = getPointInRange(rangeX, graphWidth); const y = getPointInRange(rangeY, graphHeight); start = findGridCell(x, y); limit++; } while (cells.h[start] + h > 90 && limit < 50); change[start] = h; const queue = [start]; while (queue.length) { const q = queue.shift(); for (const c of cells.c[q]) { if (change[c]) continue; change[c] = change[q] ** power * (Math.random() * 0.2 + 0.9); if (change[c] > 1) queue.push(c); } } cells.h = cells.h.map((h, i) => lim(h + change[i])); } }; const addPit = function (count, height, rangeX, rangeY) { count = getNumberInRange(count); while (count > 0) { addOnePit(); count--; } function addOnePit() { const used = new Uint8Array(cells.h.length); let limit = 0, start; let h = lim(getNumberInRange(height)); do { const x = getPointInRange(rangeX, graphWidth); const y = getPointInRange(rangeY, graphHeight); start = findGridCell(x, y); limit++; } while (cells.h[start] < 20 && limit < 50); const queue = [start]; while (queue.length) { const q = queue.shift(); h = h ** getBlobPower() * (Math.random() * 0.2 + 0.9); if (h < 1) return; cells.c[q].forEach(function (c, i) { if (used[c]) return; cells.h[c] = lim(cells.h[c] - h * (Math.random() * 0.2 + 0.9)); used[c] = 1; queue.push(c); }); } } }; const addRange = function (count, height, rangeX, rangeY) { count = getNumberInRange(count); const power = getLinePower(); while (count > 0) { addOneRange(); count--; } function addOneRange() { const used = new Uint8Array(cells.h.length); let h = lim(getNumberInRange(height)); // find start and end points const startX = getPointInRange(rangeX, graphWidth); const startY = getPointInRange(rangeY, graphHeight); let dist = 0, limit = 0, endX, endY; do { endX = Math.random() * graphWidth * 0.8 + graphWidth * 0.1; endY = Math.random() * graphHeight * 0.7 + graphHeight * 0.15; dist = Math.abs(endY - startY) + Math.abs(endX - startX); limit++; } while ((dist < graphWidth / 8 || dist > graphWidth / 3) && limit < 50); let range = getRange(findGridCell(startX, startY), findGridCell(endX, endY)); // get main ridge function getRange(cur, end) { const range = [cur]; used[cur] = 1; while (cur !== end) { let min = Infinity; cells.c[cur].forEach(function (e) { if (used[e]) return; let diff = (p[end][0] - p[e][0]) ** 2 + (p[end][1] - p[e][1]) ** 2; if (Math.random() > 0.85) diff = diff / 2; if (diff < min) { min = diff; cur = e; } }); if (min === Infinity) return range; range.push(cur); used[cur] = 1; } return range; } // add height to ridge and cells around let queue = range.slice(), i = 0; while (queue.length) { const frontier = queue.slice(); (queue = []), i++; frontier.forEach(i => { cells.h[i] = lim(cells.h[i] + h * (Math.random() * 0.3 + 0.85)); }); h = h ** power - 1; if (h < 2) break; frontier.forEach(f => { cells.c[f].forEach(i => { if (!used[i]) { queue.push(i); used[i] = 1; } }); }); } // generate prominences range.forEach((cur, d) => { if (d % 6 !== 0) return; for (const l of d3.range(i)) { const min = cells.c[cur][d3.scan(cells.c[cur], (a, b) => cells.h[a] - cells.h[b])]; // downhill cell //debug.append("circle").attr("cx", p[min][0]).attr("cy", p[min][1]).attr("r", 1); cells.h[min] = (cells.h[cur] * 2 + cells.h[min]) / 3; cur = min; } }); } }; const addTrough = function (count, height, rangeX, rangeY) { count = getNumberInRange(count); const power = getLinePower(); while (count > 0) { addOneTrough(); count--; } function addOneTrough() { const used = new Uint8Array(cells.h.length); let h = lim(getNumberInRange(height)); // find start and end points let limit = 0, startX, startY, start, dist = 0, endX, endY; do { startX = getPointInRange(rangeX, graphWidth); startY = getPointInRange(rangeY, graphHeight); start = findGridCell(startX, startY); limit++; } while (cells.h[start] < 20 && limit < 50); limit = 0; do { endX = Math.random() * graphWidth * 0.8 + graphWidth * 0.1; endY = Math.random() * graphHeight * 0.7 + graphHeight * 0.15; dist = Math.abs(endY - startY) + Math.abs(endX - startX); limit++; } while ((dist < graphWidth / 8 || dist > graphWidth / 2) && limit < 50); let range = getRange(start, findGridCell(endX, endY)); // get main ridge function getRange(cur, end) { const range = [cur]; used[cur] = 1; while (cur !== end) { let min = Infinity; cells.c[cur].forEach(function (e) { if (used[e]) return; let diff = (p[end][0] - p[e][0]) ** 2 + (p[end][1] - p[e][1]) ** 2; if (Math.random() > 0.8) diff = diff / 2; if (diff < min) { min = diff; cur = e; } }); if (min === Infinity) return range; range.push(cur); used[cur] = 1; } return range; } // add height to ridge and cells around let queue = range.slice(), i = 0; while (queue.length) { const frontier = queue.slice(); (queue = []), i++; frontier.forEach(i => { cells.h[i] = lim(cells.h[i] - h * (Math.random() * 0.3 + 0.85)); }); h = h ** power - 1; if (h < 2) break; frontier.forEach(f => { cells.c[f].forEach(i => { if (!used[i]) { queue.push(i); used[i] = 1; } }); }); } // generate prominences range.forEach((cur, d) => { if (d % 6 !== 0) return; for (const l of d3.range(i)) { const min = cells.c[cur][d3.scan(cells.c[cur], (a, b) => cells.h[a] - cells.h[b])]; // downhill cell //debug.append("circle").attr("cx", p[min][0]).attr("cy", p[min][1]).attr("r", 1); cells.h[min] = (cells.h[cur] * 2 + cells.h[min]) / 3; cur = min; } }); } }; const addStrait = function (width, direction = "vertical") { width = Math.min(getNumberInRange(width), grid.cellsX / 3); if (width < 1 && P(width)) return; const used = new Uint8Array(cells.h.length); const vert = direction === "vertical"; const startX = vert ? Math.floor(Math.random() * graphWidth * 0.4 + graphWidth * 0.3) : 5; const startY = vert ? 5 : Math.floor(Math.random() * graphHeight * 0.4 + graphHeight * 0.3); const endX = vert ? Math.floor(graphWidth - startX - graphWidth * 0.1 + Math.random() * graphWidth * 0.2) : graphWidth - 5; const endY = vert ? graphHeight - 5 : Math.floor(graphHeight - startY - graphHeight * 0.1 + Math.random() * graphHeight * 0.2); const start = findGridCell(startX, startY), end = findGridCell(endX, endY); let range = getRange(start, end); const query = []; function getRange(cur, end) { const range = []; while (cur !== end) { let min = Infinity; cells.c[cur].forEach(function (e) { let diff = (p[end][0] - p[e][0]) ** 2 + (p[end][1] - p[e][1]) ** 2; if (Math.random() > 0.8) diff = diff / 2; if (diff < min) { min = diff; cur = e; } }); range.push(cur); } return range; } const step = 0.1 / width; while (width > 0) { const exp = 0.9 - step * width; range.forEach(function (r) { cells.c[r].forEach(function (e) { if (used[e]) return; used[e] = 1; query.push(e); cells.h[e] **= exp; if (cells.h[e] > 100) cells.h[e] = 5; }); }); range = query.slice(); width--; } }; const modify = function (range, add, mult, power) { const min = range === "land" ? 20 : range === "all" ? 0 : +range.split("-")[0]; const max = range === "land" || range === "all" ? 100 : +range.split("-")[1]; grid.cells.h = grid.cells.h.map(h => (h >= min && h <= max ? mod(h) : h)); function mod(v) { if (add) v = min === 20 ? Math.max(v + add, 20) : v + add; if (mult !== 1) v = min === 20 ? (v - 20) * mult + 20 : v * mult; if (power) v = min === 20 ? (v - 20) ** power + 20 : v ** power; return lim(v); } }; const smooth = function (fr = 2, add = 0) { cells.h = cells.h.map((h, i) => { const a = [h]; cells.c[i].forEach(c => a.push(cells.h[c])); return lim((h * (fr - 1) + d3.mean(a) + add) / fr); }); }; function getPointInRange(range, length) { if (typeof range !== "string") { ERROR && console.error("Range should be a string"); return; } const min = range.split("-")[0] / 100 || 0; const max = range.split("-")[1] / 100 || min; return rand(min * length, max * length); } return {generate, addHill, addRange, addTrough, addStrait, addPit, smooth, modify}; });