backups/Fantasy-Map-Generator
1
0
Fork 0
mirror of https://github.com/Azgaar/Fantasy-Map-Generator.git synced 2025-12-17 09:41:24 +01:00
Code Issues Projects Releases Packages Wiki Activity Actions

split save and export to different files

Browse source
This commit is contained in:
Azgaar 2021-09-16 12:27:22 +03:00
parent b23a61e50a
commit 3ed56ceee7
4 changed files with 498 additions and 496 deletions
Download patch file Download diff file Expand all files Collapse all files

3
index.html
View file

@ -4284,10 +4284,11 @@
<script defer src="modules/ui/general.js"></script> <script defer src="modules/ui/general.js"></script>
<script defer src="modules/ui/options.js"></script> <script defer src="modules/ui/options.js"></script>
<script defer src="modules/ui/style.js"></script> <script defer src="modules/ui/style.js"></script>
<script defer src="modules/save.js"></script>
<script defer src="modules/load.js"></script> <script defer src="modules/load.js"></script>
<script defer src="modules/cloud.js"></script> <script defer src="modules/cloud.js"></script>
<script defer src="main.js"></script> <script defer src="main.js"></script>
<script defer src="modules/save.js"></script>
<script defer src="modules/export.js"></script>
<script defer src="modules/relief-icons.js"></script> <script defer src="modules/relief-icons.js"></script>
<script defer src="modules/ui/tools.js"></script> <script defer src="modules/ui/tools.js"></script>
<script defer src="modules/ui/world-configurator.js"></script> <script defer src="modules/ui/world-configurator.js"></script>

492
modules/export.js Normal file
View file

@ -0,0 +1,492 @@
"use strict";
// Functions to export map to image or data files
// download map as SVG
async function saveSVG() {
TIME && console.time("saveSVG");
const url = await getMapURL("svg");
const link = document.createElement("a");
link.download = getFileName() + ".svg";
link.href = url;
link.click();
tip(`${link.download} is saved. Open "Downloads" screen (crtl + J) to check. You can set image scale in options`, true, "success", 5000);
TIME && console.timeEnd("saveSVG");
}
// download map as PNG
async function savePNG() {
TIME && console.time("savePNG");
const url = await getMapURL("png");
const link = document.createElement("a");
const canvas = document.createElement("canvas");
const ctx = canvas.getContext("2d");
canvas.width = svgWidth * pngResolutionInput.value;
canvas.height = svgHeight * pngResolutionInput.value;
const img = new Image();
img.src = url;
img.onload = function () {
ctx.drawImage(img, 0, 0, canvas.width, canvas.height);
link.download = getFileName() + ".png";
canvas.toBlob(function (blob) {
link.href = window.URL.createObjectURL(blob);
link.click();
window.setTimeout(function () {
canvas.remove();
window.URL.revokeObjectURL(link.href);
tip(`${link.download} is saved. Open "Downloads" screen (crtl + J) to check. You can set image scale in options`, true, "success", 5000);
}, 1000);
});
};
TIME && console.timeEnd("savePNG");
}
// download map as JPEG
async function saveJPEG() {
TIME && console.time("saveJPEG");
const url = await getMapURL("png");
const canvas = document.createElement("canvas");
canvas.width = svgWidth * pngResolutionInput.value;
canvas.height = svgHeight * pngResolutionInput.value;
const img = new Image();
img.src = url;
img.onload = async function () {
canvas.getContext("2d").drawImage(img, 0, 0, canvas.width, canvas.height);
const quality = Math.min(rn(1 - pngResolutionInput.value / 20, 2), 0.92);
const URL = await canvas.toDataURL("image/jpeg", quality);
const link = document.createElement("a");
link.download = getFileName() + ".jpeg";
link.href = URL;
link.click();
tip(`${link.download} is saved. Open "Downloads" screen (CTRL + J) to check`, true, "success", 7000);
window.setTimeout(() => window.URL.revokeObjectURL(URL), 5000);
};
TIME && console.timeEnd("saveJPEG");
}
// download map as png tiles
async function saveTiles() {
return new Promise(async (resolve, reject) => {
// download schema
const urlSchema = await getMapURL("tiles", {debug: true});
const zip = new JSZip();
const canvas = document.createElement("canvas");
const ctx = canvas.getContext("2d");
canvas.width = graphWidth;
canvas.height = graphHeight;
const imgSchema = new Image();
imgSchema.src = urlSchema;
imgSchema.onload = function () {
ctx.drawImage(imgSchema, 0, 0, canvas.width, canvas.height);
canvas.toBlob(blob => zip.file(`fmg_tile_schema.png`, blob));
};
// download tiles
const url = await getMapURL("tiles");
const tilesX = +document.getElementById("tileColsInput").value;
const tilesY = +document.getElementById("tileRowsInput").value;
const scale = +document.getElementById("tileScaleInput").value;
const tileW = (graphWidth / tilesX) | 0;
const tileH = (graphHeight / tilesY) | 0;
const tolesTotal = tilesX * tilesY;
const width = graphWidth * scale;
const height = width * (tileH / tileW);
canvas.width = width;
canvas.height = height;
let loaded = 0;
const img = new Image();
img.src = url;
img.onload = function () {
for (let y = 0, i = 0; y + tileH <= graphHeight; y += tileH) {
for (let x = 0; x + tileW <= graphWidth; x += tileW, i++) {
ctx.drawImage(img, x, y, tileW, tileH, 0, 0, width, height);
const name = `fmg_tile_${i}.png`;
canvas.toBlob(blob => {
zip.file(name, blob);
loaded += 1;
if (loaded === tolesTotal) return downloadZip();
});
}
}
};
function downloadZip() {
const name = `${getFileName()}.zip`;
zip.generateAsync({type: "blob"}).then(blob => {
const link = document.createElement("a");
link.href = URL.createObjectURL(blob);
link.download = name;
link.click();
link.remove();
setTimeout(() => URL.revokeObjectURL(link.href), 5000);
resolve(true);
});
}
});
}
// parse map svg to object url
async function getMapURL(type, options = {}) {
const {debug = false, globe = false, noLabels = false, noWater = false} = options;
const cloneEl = document.getElementById("map").cloneNode(true); // clone svg
cloneEl.id = "fantasyMap";
document.body.appendChild(cloneEl);
const clone = d3.select(cloneEl);
if (!debug) clone.select("#debug")?.remove();
const cloneDefs = cloneEl.getElementsByTagName("defs")[0];
const svgDefs = document.getElementById("defElements");
const isFirefox = navigator.userAgent.toLowerCase().indexOf("firefox") > -1;
if (isFirefox && type === "mesh") clone.select("#oceanPattern")?.remove();
if (globe) clone.select("#scaleBar")?.remove();
if (noLabels) {
clone.select("#labels #states")?.remove();
clone.select("#labels #burgLabels")?.remove();
clone.select("#icons #burgIcons")?.remove();
}
if (noWater) {
clone.select("#oceanBase").attr("opacity", 0);
clone.select("#oceanPattern").attr("opacity", 0);
}
if (type !== "png") {
// reset transform to show the whole map
clone.attr("width", graphWidth).attr("height", graphHeight);
clone.select("#viewbox").attr("transform", null);
}
if (type === "svg") removeUnusedElements(clone);
if (customization && type === "mesh") updateMeshCells(clone);
inlineStyle(clone);
// remove unused filters
const filters = cloneEl.querySelectorAll("filter");
for (let i = 0; i < filters.length; i++) {
const id = filters[i].id;
if (cloneEl.querySelector("[filter='url(#" + id + ")']")) continue;
if (cloneEl.getAttribute("filter") === "url(#" + id + ")") continue;
filters[i].remove();
}
// remove unused patterns
const patterns = cloneEl.querySelectorAll("pattern");
for (let i = 0; i < patterns.length; i++) {
const id = patterns[i].id;
if (cloneEl.querySelector("[fill='url(#" + id + ")']")) continue;
patterns[i].remove();
}
// remove unused symbols
const symbols = cloneEl.querySelectorAll("symbol");
for (let i = 0; i < symbols.length; i++) {
const id = symbols[i].id;
if (cloneEl.querySelector("use[*|href='#" + id + "']")) continue;
symbols[i].remove();
}
// add displayed emblems
if (layerIsOn("toggleEmblems") && emblems.selectAll("use").size()) {
cloneEl
.getElementById("emblems")
?.querySelectorAll("use")
.forEach(el => {
const href = el.getAttribute("href") || el.getAttribute("xlink:href");
if (!href) return;
const emblem = document.getElementById(href.slice(1));
if (emblem) cloneDefs.append(emblem.cloneNode(true));
});
} else {
cloneDefs.querySelector("#defs-emblems")?.remove();
}
// replace ocean pattern href to base64
if (location.hostname && cloneEl.getElementById("oceanicPattern")) {
const el = cloneEl.getElementById("oceanicPattern");
const url = el.getAttribute("href");
await new Promise(resolve => {
getBase64(url, base64 => {
el.setAttribute("href", base64);
resolve();
});
});
}
// add relief icons
if (cloneEl.getElementById("terrain")) {
const uniqueElements = new Set();
const terrainNodes = cloneEl.getElementById("terrain").childNodes;
for (let i = 0; i < terrainNodes.length; i++) {
const href = terrainNodes[i].getAttribute("href") || terrainNodes[i].getAttribute("xlink:href");
uniqueElements.add(href);
}
const defsRelief = svgDefs.getElementById("defs-relief");
for (const terrain of [...uniqueElements]) {
const element = defsRelief.querySelector(terrain);
if (element) cloneDefs.appendChild(element.cloneNode(true));
}
}
// add wind rose
if (cloneEl.getElementById("compass")) {
const rose = svgDefs.getElementById("rose");
if (rose) cloneDefs.appendChild(rose.cloneNode(true));
}
// add port icon
if (cloneEl.getElementById("anchors")) {
const anchor = svgDefs.getElementById("icon-anchor");
if (anchor) cloneDefs.appendChild(anchor.cloneNode(true));
}
// add grid pattern
if (cloneEl.getElementById("gridOverlay")?.hasChildNodes()) {
const type = cloneEl.getElementById("gridOverlay").getAttribute("type");
const pattern = svgDefs.getElementById("pattern_" + type);
if (pattern) cloneDefs.appendChild(pattern.cloneNode(true));
}
if (!cloneEl.getElementById("hatching").children.length) cloneEl.getElementById("hatching")?.remove(); // remove unused hatching group
if (!cloneEl.getElementById("fogging-cont")) cloneEl.getElementById("fog")?.remove(); // remove unused fog
if (!cloneEl.getElementById("regions")) cloneEl.getElementById("statePaths")?.remove(); // removed unused statePaths
if (!cloneEl.getElementById("labels")) cloneEl.getElementById("textPaths")?.remove(); // removed unused textPaths
// add armies style
if (cloneEl.getElementById("armies")) cloneEl.insertAdjacentHTML("afterbegin", "<style>#armies text {stroke: none; fill: #fff; text-shadow: 0 0 4px #000; dominant-baseline: central; text-anchor: middle; font-family: Helvetica; fill-opacity: 1;}#armies text.regimentIcon {font-size: .8em;}</style>");
// add xlink: for href to support svg1.1
if (type === "svg") {
cloneEl.querySelectorAll("[href]").forEach(el => {
const href = el.getAttribute("href");
el.removeAttribute("href");
el.setAttribute("xlink:href", href);
});
}
// TODO: add dataURL for all used fonts
const usedFonts = getUsedFonts(cloneEl);
const fontsToLoad = usedFonts.filter(font => font.src);
if (fontsToLoad.length) {
const dataURLfonts = await loadFontsAsDataURI(fontsToLoad);
const fontFaces = dataURLfonts
.map(({family, src, unicodeRange = "", variant = "normal"}) => {
return `@font-face {font-family: "${family}"; src: ${src}; unicode-range: ${unicodeRange}; font-variant: ${variant};}`;
})
.join("\n");
const style = document.createElement("style");
style.setAttribute("type", "text/css");
style.innerHTML = fontFaces;
cloneEl.querySelector("defs").appendChild(style);
}
clone.remove();
const serialized = `<?xml version="1.0" encoding="UTF-8" standalone="no"?>` + new XMLSerializer().serializeToString(cloneEl);
const blob = new Blob([serialized], {type: "image/svg+xml;charset=utf-8"});
const url = window.URL.createObjectURL(blob);
window.setTimeout(() => window.URL.revokeObjectURL(url), 5000);
return url;
}
// remove hidden g elements and g elements without children to make downloaded svg smaller in size
function removeUnusedElements(clone) {
if (!terrain.selectAll("use").size()) clone.select("#defs-relief")?.remove();
if (markers.style("display") === "none") clone.select("#defs-markers")?.remove();
for (let empty = 1; empty; ) {
empty = 0;
clone.selectAll("g").each(function () {
if (!this.hasChildNodes() || this.style.display === "none" || this.classList.contains("hidden")) {
empty++;
this.remove();
}
if (this.hasAttribute("display") && this.style.display === "inline") this.removeAttribute("display");
});
}
}
function updateMeshCells(clone) {
const data = renderOcean.checked ? grid.cells.i : grid.cells.i.filter(i => grid.cells.h[i] >= 20);
const scheme = getColorScheme();
clone.select("#heights").attr("filter", "url(#blur1)");
clone
.select("#heights")
.selectAll("polygon")
.data(data)
.join("polygon")
.attr("points", d => getGridPolygon(d))
.attr("id", d => "cell" + d)
.attr("stroke", d => getColor(grid.cells.h[d], scheme));
}
// for each g element get inline style
function inlineStyle(clone) {
const emptyG = clone.append("g").node();
const defaultStyles = window.getComputedStyle(emptyG);
clone.selectAll("g, #ruler *, #scaleBar > text").each(function () {
const compStyle = window.getComputedStyle(this);
let style = "";
for (let i = 0; i < compStyle.length; i++) {
const key = compStyle[i];
const value = compStyle.getPropertyValue(key);
// Firefox mask hack
if (key === "mask-image" && value !== defaultStyles.getPropertyValue(key)) {
style += "mask-image: url('#land');";
continue;
}
if (key === "cursor") continue; // cursor should be default
if (this.hasAttribute(key)) continue; // don't add style if there is the same attribute
if (value === defaultStyles.getPropertyValue(key)) continue;
style += key + ":" + value + ";";
}
for (const key in compStyle) {
const value = compStyle.getPropertyValue(key);
if (key === "cursor") continue; // cursor should be default
if (this.hasAttribute(key)) continue; // don't add style if there is the same attribute
if (value === defaultStyles.getPropertyValue(key)) continue;
style += key + ":" + value + ";";
}
if (style != "") this.setAttribute("style", style);
});
emptyG.remove();
}
function saveGeoJSON_Cells() {
const json = {type: "FeatureCollection", features: []};
const cells = pack.cells;
const getPopulation = i => {
const [r, u] = getCellPopulation(i);
return rn(r + u);
};
const getHeight = i => parseInt(getFriendlyHeight([cells.p[i][0], cells.p[i][1]]));
cells.i.forEach(i => {
const coordinates = getCellCoordinates(cells.v[i]);
const height = getHeight(i);
const biome = cells.biome[i];
const type = pack.features[cells.f[i]].type;
const population = getPopulation(i);
const state = cells.state[i];
const province = cells.province[i];
const culture = cells.culture[i];
const religion = cells.religion[i];
const neighbors = cells.c[i];
const properties = {id: i, height, biome, type, population, state, province, culture, religion, neighbors};
const feature = {type: "Feature", geometry: {type: "Polygon", coordinates}, properties};
json.features.push(feature);
});
const name = getFileName("Cells") + ".geojson";
downloadFile(JSON.stringify(json), name, "application/json");
}
function saveGeoJSON_Routes() {
const json = {type: "FeatureCollection", features: []};
routes.selectAll("g > path").each(function () {
const coordinates = getRoutePoints(this);
const id = this.id;
const type = this.parentElement.id;
const feature = {type: "Feature", geometry: {type: "LineString", coordinates}, properties: {id, type}};
json.features.push(feature);
});
const name = getFileName("Routes") + ".geojson";
downloadFile(JSON.stringify(json), name, "application/json");
}
function saveGeoJSON_Rivers() {
const json = {type: "FeatureCollection", features: []};
rivers.selectAll("path").each(function () {
const coordinates = getRiverPoints(this);
const id = this.id;
const width = +this.dataset.increment;
const increment = +this.dataset.increment;
const river = pack.rivers.find(r => r.i === +id.slice(5));
const name = river ? river.name : "";
const type = river ? river.type : "";
const i = river ? river.i : "";
const basin = river ? river.basin : "";
const feature = {type: "Feature", geometry: {type: "LineString", coordinates}, properties: {id, i, basin, name, type, width, increment}};
json.features.push(feature);
});
const name = getFileName("Rivers") + ".geojson";
downloadFile(JSON.stringify(json), name, "application/json");
}
function saveGeoJSON_Markers() {
const json = {type: "FeatureCollection", features: []};
markers.selectAll("use").each(function () {
const coordinates = getQGIScoordinates(this.dataset.x, this.dataset.y);
const id = this.id;
const type = this.dataset.id.substring(1);
const icon = document.getElementById(type).textContent;
const note = notes.length ? notes.find(note => note.id === this.id) : null;
const name = note ? note.name : "";
const legend = note ? note.legend : "";
const feature = {type: "Feature", geometry: {type: "Point", coordinates}, properties: {id, type, icon, name, legend}};
json.features.push(feature);
});
const name = getFileName("Markers") + ".geojson";
downloadFile(JSON.stringify(json), name, "application/json");
}
function getCellCoordinates(vertices) {
const p = pack.vertices.p;
const coordinates = vertices.map(n => getQGIScoordinates(p[n][0], p[n][1]));
return [coordinates.concat([coordinates[0]])];
}
function getRoutePoints(node) {
let points = [];
const l = node.getTotalLength();
const increment = l / Math.ceil(l / 2);
for (let i = 0; i <= l; i += increment) {
const p = node.getPointAtLength(i);
points.push(getQGIScoordinates(p.x, p.y));
}
return points;
}
function getRiverPoints(node) {
let points = [];
const l = node.getTotalLength() / 2; // half-length
const increment = 0.25; // defines density of points
for (let i = l, c = i; i >= 0; i -= increment, c += increment) {
const p1 = node.getPointAtLength(i);
const p2 = node.getPointAtLength(c);
const [x, y] = getQGIScoordinates((p1.x + p2.x) / 2, (p1.y + p2.y) / 2);
points.push([x, y]);
}
return points;
}

2
modules/load.js
View file

@ -1,5 +1,5 @@
// Functions to save and load the map
"use strict"; "use strict";
// Functions to load and parse .map files
function quickLoad() { function quickLoad() {
ldb.get("lastMap", blob => { ldb.get("lastMap", blob => {

497
modules/save.js
View file

@ -1,377 +1,5 @@
// Functions to save and load the map
"use strict"; "use strict";
// Functions to save project as .map file
// download map as SVG
async function saveSVG() {
TIME && console.time("saveSVG");
const url = await getMapURL("svg");
const link = document.createElement("a");
link.download = getFileName() + ".svg";
link.href = url;
link.click();
tip(`${link.download} is saved. Open "Downloads" screen (crtl + J) to check. You can set image scale in options`, true, "success", 5000);
TIME && console.timeEnd("saveSVG");
}
// download map as PNG
async function savePNG() {
TIME && console.time("savePNG");
const url = await getMapURL("png");
const link = document.createElement("a");
const canvas = document.createElement("canvas");
const ctx = canvas.getContext("2d");
canvas.width = svgWidth * pngResolutionInput.value;
canvas.height = svgHeight * pngResolutionInput.value;
const img = new Image();
img.src = url;
img.onload = function () {
ctx.drawImage(img, 0, 0, canvas.width, canvas.height);
link.download = getFileName() + ".png";
canvas.toBlob(function (blob) {
link.href = window.URL.createObjectURL(blob);
link.click();
window.setTimeout(function () {
canvas.remove();
window.URL.revokeObjectURL(link.href);
tip(`${link.download} is saved. Open "Downloads" screen (crtl + J) to check. You can set image scale in options`, true, "success", 5000);
}, 1000);
});
};
TIME && console.timeEnd("savePNG");
}
// download map as JPEG
async function saveJPEG() {
TIME && console.time("saveJPEG");
const url = await getMapURL("png");
const canvas = document.createElement("canvas");
canvas.width = svgWidth * pngResolutionInput.value;
canvas.height = svgHeight * pngResolutionInput.value;
const img = new Image();
img.src = url;
img.onload = async function () {
canvas.getContext("2d").drawImage(img, 0, 0, canvas.width, canvas.height);
const quality = Math.min(rn(1 - pngResolutionInput.value / 20, 2), 0.92);
const URL = await canvas.toDataURL("image/jpeg", quality);
const link = document.createElement("a");
link.download = getFileName() + ".jpeg";
link.href = URL;
link.click();
tip(`${link.download} is saved. Open "Downloads" screen (CTRL + J) to check`, true, "success", 7000);
window.setTimeout(() => window.URL.revokeObjectURL(URL), 5000);
};
TIME && console.timeEnd("saveJPEG");
}
// download map as png tiles
async function saveTiles() {
return new Promise(async (resolve, reject) => {
// download schema
const urlSchema = await getMapURL("tiles", {debug: true});
const zip = new JSZip();
const canvas = document.createElement("canvas");
const ctx = canvas.getContext("2d");
canvas.width = graphWidth;
canvas.height = graphHeight;
const imgSchema = new Image();
imgSchema.src = urlSchema;
imgSchema.onload = function () {
ctx.drawImage(imgSchema, 0, 0, canvas.width, canvas.height);
canvas.toBlob(blob => zip.file(`fmg_tile_schema.png`, blob));
};
// download tiles
const url = await getMapURL("tiles");
const tilesX = +document.getElementById("tileColsInput").value;
const tilesY = +document.getElementById("tileRowsInput").value;
const scale = +document.getElementById("tileScaleInput").value;
const tileW = (graphWidth / tilesX) | 0;
const tileH = (graphHeight / tilesY) | 0;
const tolesTotal = tilesX * tilesY;
const width = graphWidth * scale;
const height = width * (tileH / tileW);
canvas.width = width;
canvas.height = height;
let loaded = 0;
const img = new Image();
img.src = url;
img.onload = function () {
for (let y = 0, i = 0; y + tileH <= graphHeight; y += tileH) {
for (let x = 0; x + tileW <= graphWidth; x += tileW, i++) {
ctx.drawImage(img, x, y, tileW, tileH, 0, 0, width, height);
const name = `fmg_tile_${i}.png`;
canvas.toBlob(blob => {
zip.file(name, blob);
loaded += 1;
if (loaded === tolesTotal) return downloadZip();
});
}
}
};
function downloadZip() {
const name = `${getFileName()}.zip`;
zip.generateAsync({type: "blob"}).then(blob => {
const link = document.createElement("a");
link.href = URL.createObjectURL(blob);
link.download = name;
link.click();
link.remove();
setTimeout(() => URL.revokeObjectURL(link.href), 5000);
resolve(true);
});
}
});
}
// parse map svg to object url
async function getMapURL(type, options = {}) {
const {debug = false, globe = false, noLabels = false, noWater = false} = options;
const cloneEl = document.getElementById("map").cloneNode(true); // clone svg
cloneEl.id = "fantasyMap";
document.body.appendChild(cloneEl);
const clone = d3.select(cloneEl);
if (!debug) clone.select("#debug")?.remove();
const cloneDefs = cloneEl.getElementsByTagName("defs")[0];
const svgDefs = document.getElementById("defElements");
const isFirefox = navigator.userAgent.toLowerCase().indexOf("firefox") > -1;
if (isFirefox && type === "mesh") clone.select("#oceanPattern")?.remove();
if (globe) clone.select("#scaleBar")?.remove();
if (noLabels) {
clone.select("#labels #states")?.remove();
clone.select("#labels #burgLabels")?.remove();
clone.select("#icons #burgIcons")?.remove();
}
if (noWater) {
clone.select("#oceanBase").attr("opacity", 0);
clone.select("#oceanPattern").attr("opacity", 0);
}
if (type !== "png") {
// reset transform to show the whole map
clone.attr("width", graphWidth).attr("height", graphHeight);
clone.select("#viewbox").attr("transform", null);
}
if (type === "svg") removeUnusedElements(clone);
if (customization && type === "mesh") updateMeshCells(clone);
inlineStyle(clone);
// remove unused filters
const filters = cloneEl.querySelectorAll("filter");
for (let i = 0; i < filters.length; i++) {
const id = filters[i].id;
if (cloneEl.querySelector("[filter='url(#" + id + ")']")) continue;
if (cloneEl.getAttribute("filter") === "url(#" + id + ")") continue;
filters[i].remove();
}
// remove unused patterns
const patterns = cloneEl.querySelectorAll("pattern");
for (let i = 0; i < patterns.length; i++) {
const id = patterns[i].id;
if (cloneEl.querySelector("[fill='url(#" + id + ")']")) continue;
patterns[i].remove();
}
// remove unused symbols
const symbols = cloneEl.querySelectorAll("symbol");
for (let i = 0; i < symbols.length; i++) {
const id = symbols[i].id;
if (cloneEl.querySelector("use[*|href='#" + id + "']")) continue;
symbols[i].remove();
}
// add displayed emblems
if (layerIsOn("toggleEmblems") && emblems.selectAll("use").size()) {
cloneEl
.getElementById("emblems")
?.querySelectorAll("use")
.forEach(el => {
const href = el.getAttribute("href") || el.getAttribute("xlink:href");
if (!href) return;
const emblem = document.getElementById(href.slice(1));
if (emblem) cloneDefs.append(emblem.cloneNode(true));
});
} else {
cloneDefs.querySelector("#defs-emblems")?.remove();
}
// replace ocean pattern href to base64
if (location.hostname && cloneEl.getElementById("oceanicPattern")) {
const el = cloneEl.getElementById("oceanicPattern");
const url = el.getAttribute("href");
await new Promise(resolve => {
getBase64(url, base64 => {
el.setAttribute("href", base64);
resolve();
});
});
}
// add relief icons
if (cloneEl.getElementById("terrain")) {
const uniqueElements = new Set();
const terrainNodes = cloneEl.getElementById("terrain").childNodes;
for (let i = 0; i < terrainNodes.length; i++) {
const href = terrainNodes[i].getAttribute("href") || terrainNodes[i].getAttribute("xlink:href");
uniqueElements.add(href);
}
const defsRelief = svgDefs.getElementById("defs-relief");
for (const terrain of [...uniqueElements]) {
const element = defsRelief.querySelector(terrain);
if (element) cloneDefs.appendChild(element.cloneNode(true));
}
}
// add wind rose
if (cloneEl.getElementById("compass")) {
const rose = svgDefs.getElementById("rose");
if (rose) cloneDefs.appendChild(rose.cloneNode(true));
}
// add port icon
if (cloneEl.getElementById("anchors")) {
const anchor = svgDefs.getElementById("icon-anchor");
if (anchor) cloneDefs.appendChild(anchor.cloneNode(true));
}
// add grid pattern
if (cloneEl.getElementById("gridOverlay")?.hasChildNodes()) {
const type = cloneEl.getElementById("gridOverlay").getAttribute("type");
const pattern = svgDefs.getElementById("pattern_" + type);
if (pattern) cloneDefs.appendChild(pattern.cloneNode(true));
}
if (!cloneEl.getElementById("hatching").children.length) cloneEl.getElementById("hatching")?.remove(); // remove unused hatching group
if (!cloneEl.getElementById("fogging-cont")) cloneEl.getElementById("fog")?.remove(); // remove unused fog
if (!cloneEl.getElementById("regions")) cloneEl.getElementById("statePaths")?.remove(); // removed unused statePaths
if (!cloneEl.getElementById("labels")) cloneEl.getElementById("textPaths")?.remove(); // removed unused textPaths
// add armies style
if (cloneEl.getElementById("armies")) cloneEl.insertAdjacentHTML("afterbegin", "<style>#armies text {stroke: none; fill: #fff; text-shadow: 0 0 4px #000; dominant-baseline: central; text-anchor: middle; font-family: Helvetica; fill-opacity: 1;}#armies text.regimentIcon {font-size: .8em;}</style>");
// add xlink: for href to support svg1.1
if (type === "svg") {
cloneEl.querySelectorAll("[href]").forEach(el => {
const href = el.getAttribute("href");
el.removeAttribute("href");
el.setAttribute("xlink:href", href);
});
}
// TODO: add dataURL for all used fonts
const usedFonts = getUsedFonts(cloneEl);
const fontsToLoad = usedFonts.filter(font => font.src);
if (fontsToLoad.length) {
const dataURLfonts = await loadFontsAsDataURI(fontsToLoad);
const fontFaces = dataURLfonts
.map(({family, src, unicodeRange = "", variant = "normal"}) => {
return `@font-face {font-family: "${family}"; src: ${src}; unicode-range: ${unicodeRange}; font-variant: ${variant};}`;
})
.join("\n");
const style = document.createElement("style");
style.setAttribute("type", "text/css");
style.innerHTML = fontFaces;
cloneEl.querySelector("defs").appendChild(style);
}
clone.remove();
const serialized = `<?xml version="1.0" encoding="UTF-8" standalone="no"?>` + new XMLSerializer().serializeToString(cloneEl);
const blob = new Blob([serialized], {type: "image/svg+xml;charset=utf-8"});
const url = window.URL.createObjectURL(blob);
window.setTimeout(() => window.URL.revokeObjectURL(url), 5000);
return url;
}
// remove hidden g elements and g elements without children to make downloaded svg smaller in size
function removeUnusedElements(clone) {
if (!terrain.selectAll("use").size()) clone.select("#defs-relief")?.remove();
if (markers.style("display") === "none") clone.select("#defs-markers")?.remove();
for (let empty = 1; empty; ) {
empty = 0;
clone.selectAll("g").each(function () {
if (!this.hasChildNodes() || this.style.display === "none" || this.classList.contains("hidden")) {
empty++;
this.remove();
}
if (this.hasAttribute("display") && this.style.display === "inline") this.removeAttribute("display");
});
}
}
function updateMeshCells(clone) {
const data = renderOcean.checked ? grid.cells.i : grid.cells.i.filter(i => grid.cells.h[i] >= 20);
const scheme = getColorScheme();
clone.select("#heights").attr("filter", "url(#blur1)");
clone
.select("#heights")
.selectAll("polygon")
.data(data)
.join("polygon")
.attr("points", d => getGridPolygon(d))
.attr("id", d => "cell" + d)
.attr("stroke", d => getColor(grid.cells.h[d], scheme));
}
// for each g element get inline style
function inlineStyle(clone) {
const emptyG = clone.append("g").node();
const defaultStyles = window.getComputedStyle(emptyG);
clone.selectAll("g, #ruler *, #scaleBar > text").each(function () {
const compStyle = window.getComputedStyle(this);
let style = "";
for (let i = 0; i < compStyle.length; i++) {
const key = compStyle[i];
const value = compStyle.getPropertyValue(key);
// Firefox mask hack
if (key === "mask-image" && value !== defaultStyles.getPropertyValue(key)) {
style += "mask-image: url('#land');";
continue;
}
if (key === "cursor") continue; // cursor should be default
if (this.hasAttribute(key)) continue; // don't add style if there is the same attribute
if (value === defaultStyles.getPropertyValue(key)) continue;
style += key + ":" + value + ";";
}
for (const key in compStyle) {
const value = compStyle.getPropertyValue(key);
if (key === "cursor") continue; // cursor should be default
if (this.hasAttribute(key)) continue; // don't add style if there is the same attribute
if (value === defaultStyles.getPropertyValue(key)) continue;
style += key + ":" + value + ";";
}
if (style != "") this.setAttribute("style", style);
});
emptyG.remove();
}
// prepare map data for saving // prepare map data for saving
function getMapData() { function getMapData() {
@ -445,7 +73,6 @@ function dowloadMap() {
} }
async function saveToDropbox() { async function saveToDropbox() {
const sharableLinkContainer = document.getElementById("sharableLinkContainer");
if (customization) return tip("Map cannot be saved when edit mode is active, please exit the mode and retry", false, "error"); if (customization) return tip("Map cannot be saved when edit mode is active, please exit the mode and retry", false, "error");
closeDialogs("#alert"); closeDialogs("#alert");
const mapData = getMapData(); const mapData = getMapData();
@ -459,124 +86,6 @@ async function saveToDropbox() {
} }
} }
function saveGeoJSON_Cells() {
const json = {type: "FeatureCollection", features: []};
const cells = pack.cells;
const getPopulation = i => {
const [r, u] = getCellPopulation(i);
return rn(r + u);
};
const getHeight = i => parseInt(getFriendlyHeight([cells.p[i][0], cells.p[i][1]]));
cells.i.forEach(i => {
const coordinates = getCellCoordinates(cells.v[i]);
const height = getHeight(i);
const biome = cells.biome[i];
const type = pack.features[cells.f[i]].type;
const population = getPopulation(i);
const state = cells.state[i];
const province = cells.province[i];
const culture = cells.culture[i];
const religion = cells.religion[i];
const neighbors = cells.c[i];
const properties = {id: i, height, biome, type, population, state, province, culture, religion, neighbors};
const feature = {type: "Feature", geometry: {type: "Polygon", coordinates}, properties};
json.features.push(feature);
});
const name = getFileName("Cells") + ".geojson";
downloadFile(JSON.stringify(json), name, "application/json");
}
function saveGeoJSON_Routes() {
const json = {type: "FeatureCollection", features: []};
routes.selectAll("g > path").each(function () {
const coordinates = getRoutePoints(this);
const id = this.id;
const type = this.parentElement.id;
const feature = {type: "Feature", geometry: {type: "LineString", coordinates}, properties: {id, type}};
json.features.push(feature);
});
const name = getFileName("Routes") + ".geojson";
downloadFile(JSON.stringify(json), name, "application/json");
}
function saveGeoJSON_Rivers() {
const json = {type: "FeatureCollection", features: []};
rivers.selectAll("path").each(function () {
const coordinates = getRiverPoints(this);
const id = this.id;
const width = +this.dataset.increment;
const increment = +this.dataset.increment;
const river = pack.rivers.find(r => r.i === +id.slice(5));
const name = river ? river.name : "";
const type = river ? river.type : "";
const i = river ? river.i : "";
const basin = river ? river.basin : "";
const feature = {type: "Feature", geometry: {type: "LineString", coordinates}, properties: {id, i, basin, name, type, width, increment}};
json.features.push(feature);
});
const name = getFileName("Rivers") + ".geojson";
downloadFile(JSON.stringify(json), name, "application/json");
}
function saveGeoJSON_Markers() {
const json = {type: "FeatureCollection", features: []};
markers.selectAll("use").each(function () {
const coordinates = getQGIScoordinates(this.dataset.x, this.dataset.y);
const id = this.id;
const type = this.dataset.id.substring(1);
const icon = document.getElementById(type).textContent;
const note = notes.length ? notes.find(note => note.id === this.id) : null;
const name = note ? note.name : "";
const legend = note ? note.legend : "";
const feature = {type: "Feature", geometry: {type: "Point", coordinates}, properties: {id, type, icon, name, legend}};
json.features.push(feature);
});
const name = getFileName("Markers") + ".geojson";
downloadFile(JSON.stringify(json), name, "application/json");
}
function getCellCoordinates(vertices) {
const p = pack.vertices.p;
const coordinates = vertices.map(n => getQGIScoordinates(p[n][0], p[n][1]));
return [coordinates.concat([coordinates[0]])];
}
function getRoutePoints(node) {
let points = [];
const l = node.getTotalLength();
const increment = l / Math.ceil(l / 2);
for (let i = 0; i <= l; i += increment) {
const p = node.getPointAtLength(i);
points.push(getQGIScoordinates(p.x, p.y));
}
return points;
}
function getRiverPoints(node) {
let points = [];
const l = node.getTotalLength() / 2; // half-length
const increment = 0.25; // defines density of points
for (let i = l, c = i; i >= 0; i -= increment, c += increment) {
const p1 = node.getPointAtLength(i);
const p2 = node.getPointAtLength(c);
const [x, y] = getQGIScoordinates((p1.x + p2.x) / 2, (p1.y + p2.y) / 2);
points.push([x, y]);
}
return points;
}
function quickSave() { function quickSave() {
if (customization) return tip("Map cannot be saved when edit mode is active, please exit the mode and retry", false, "error"); if (customization) return tip("Map cannot be saved when edit mode is active, please exit the mode and retry", false, "error");
@ -589,14 +98,14 @@ function quickSave() {
const saveReminder = function () { const saveReminder = function () {
if (localStorage.getItem("noReminder")) return; if (localStorage.getItem("noReminder")) return;
const message = ["Please don't forget to save your work as a .map file", "Please remember to save work as a .map file", "Saving in .map format will ensure your data won't be lost in case of issues", "Safety is number one priority. Please save the map", "Don't forget to save your map on a regular basis!", "Just a gentle reminder for you to save the map", "Please don't forget to save your progress (saving as .map is the best option)", "Don't want to be reminded about need to save? Press CTRL+Q"]; const message = ["Please don't forget to save your work as a .map file", "Please remember to save work as a .map file", "Saving in .map format will ensure your data won't be lost in case of issues", "Safety is number one priority. Please save the map", "Don't forget to save your map on a regular basis!", "Just a gentle reminder for you to save the map", "Please don't forget to save your progress (saving as .map is the best option)", "Don't want to be reminded about need to save? Press CTRL+Q"];
const interval = 15 * 60 * 1000; // remind every 15 minutes
saveReminder.reminder = setInterval(() => { saveReminder.reminder = setInterval(() => {
if (customization) return; if (customization) return;
tip(ra(message), true, "warn", 2500); tip(ra(message), true, "warn", 2500);
}, 1e6); }, interval);
saveReminder.status = 1; saveReminder.status = 1;
}; };
saveReminder(); saveReminder();
function toggleSaveReminder() { function toggleSaveReminder() {