OSM2IPFS/earth/sat_render.html

<!DOCTYPE html>
<html>
<head>
      <meta charset="UTF-8">
          <link rel="icon" type="image/x-icon" href="./favicon.ico">
  <title>Occupy UPlanet ! Please. Zoom In.</title>
  <link rel="stylesheet" href="leaflet.css" />
    <style>
  .clickable-area {
      fill-opacity: 0.2; /* Adjust the opacity as needed */
      fill: #0074d9; /* Adjust the color as needed */
      stroke: #001f3f;
    }
    #coordinates-display {
      position: absolute;
      bottom: 20px; /* Adjust the bottom position as needed */
      left: 10px; /* Adjust the left position as needed */
      background-color: white;
      padding: 5px;
      border: 1px solid black;
      z-index: 1000;
    }
     #map-container {
        position: fixed;
        top: 0;
        left: 0;
        width: 100%;
        height: 100%;
    }
</style>

</head>
<body>
  <div id="map-container" style="position: relative;">
    <div id="coordinates-display"></div> <!-- Coordinates display element -->
    <div id="map" style="width: 100%; height: 100vh;"></div>
  </div>
<br>

<script src="leaflet.js"></script>

<script>

    // const desiredImageWidthInKm = 11; // Now Is calculated from northEastLon - southWestLon
    const tileSizeInPixels = 256;

    function calculateZoomLevel(desiredImageWidthInKm, latitude) {
      const earthEquatorialCircumference = 40075016.686; // Earth's equatorial circumference in meters
      // Calculate the distance covered by one degree of longitude at the given latitude
      const metersPerLongitudeDegree = earthEquatorialCircumference * Math.cos((Math.PI / 180) * latitude) / 360;
      const metersPerPixel = metersPerLongitudeDegree * 360 / (tileSizeInPixels * Math.pow(2, 20));
      // Calculate the number of pixels needed to achieve the desired width
      const numberOfPixelsHorizontally = (desiredImageWidthInKm * 1000) / metersPerPixel;
      // Calculate the appropriate zoom level
      const zoomLevel = Math.log2(tileSizeInPixels * Math.pow(2, 20) / numberOfPixelsHorizontally);
      return zoomLevel;
    }

    // Function to extract URL parameters
    function getUrlParameter(name) {
      name = name.replace(/[\[]/, '\\[').replace(/[\]]/, '\\]');
      const regex = new RegExp('[\\?&]' + name + '=([^&#]*)');
      const results = regex.exec(location.search);
      return results === null ? '' : decodeURIComponent(results[1].replace(/\+/g, ' '));
    }

    const defaultSouthWestLat = 0.00;
    const defaultSouthWestLon = 0.00;
    const defaultOffsetDegrees = 10.00; // 10° offset

    const southWestLat = parseFloat(getUrlParameter('southWestLat')) || defaultSouthWestLat;
    console.log('Lat:', southWestLat);
    const southWestLon = parseFloat(getUrlParameter('southWestLon')) || defaultSouthWestLon;
    console.log('Lon:', southWestLon);

    const deg = parseFloat(getUrlParameter('deg')) || defaultOffsetDegrees;
    console.log('Offset:', deg);

    // Calculate northEastLat and northEastLon with deg° offset only if parameters are empty
    const northEastLatParam = getUrlParameter('northEastLat');
    const northEastLonParam = getUrlParameter('northEastLon');

    const northEastLat = northEastLatParam ? parseFloat(northEastLatParam) : southWestLat + deg;
    const northEastLon = northEastLonParam ? parseFloat(northEastLonParam) : southWestLon + deg;

     // Calculate the longitudinal distance in degrees
    const lonDistanceInDegrees = Math.abs(northEastLon - southWestLon);
    console.log('lonDistanceInDegrees:', lonDistanceInDegrees);

    // Calculate the desired image width in kilometers
    const earthEquatorialCircumference = 40075016.686; // Earth's equatorial circumference in meters
    const metersPerLongitudeDegree = Math.abs(earthEquatorialCircumference * Math.cos((Math.PI / 180) * southWestLat) / 360);
    const desiredImageWidthInMeters = lonDistanceInDegrees * metersPerLongitudeDegree;
    const desiredImageWidthInKm = desiredImageWidthInMeters / 1000;
    console.log('desiredImageWidthInKm:', desiredImageWidthInKm);

    const centerLat = (southWestLat + northEastLat) / 2;
    const centerLon = (southWestLon + northEastLon) / 2;

    // Provide the latitude for adjustment
    const latitude = centerLat;
    const zoomLevel = calculateZoomLevel(desiredImageWidthInKm, latitude);
    console.log('Recommended zoom level:', zoomLevel);

    const map = L.map('map').setView([centerLat, centerLon], zoomLevel);

    L.tileLayer('https://server.arcgisonline.com/ArcGIS/rest/services/World_Imagery/MapServer/tile/{z}/{y}/{x}', {
      attribution: 'U Planet'
    }).addTo(map);

const gridSize = 10; // Number of rows and columns in the grid
const NSize = deg / 10; // Size of each grid cell


// Create a HTML element for displaying coordinates
const coordinatesDisplay = document.getElementById('coordinates-display');

// Check if deg is less than or equal to 0.01
if (deg <= 0.01) {
  const container = document.createElement('div');
  container.style.position = 'fixed';
  container.style.top = '0';
  container.style.left = '0';
  container.style.width = '100vw';
  container.style.height = '100vh';
  container.style.backgroundColor = 'rgba(255, 255, 255, 0.4)';
  container.style.border = 'none';
  container.style.zIndex = '999';
  container.style.display = 'flex';
  container.style.flexDirection = 'column';
  container.style.alignItems = 'center';
  container.style.justifyContent = 'center';


  const button = document.createElement('button');
  button.textContent = 'Apply for Visa';
  button.style.width = '100%';
  button.style.height = '100px'; // Customize the button height
  button.style.backgroundColor = '#0074d9';
  button.style.border = 'none';
  button.style.fontFamily = 'Arial, sans-serif'; // Customize the font family
  button.style.fontSize = '24px'; // Customize the font size
  button.style.color = '#fff'; // Customize the font color

  button.addEventListener('click', () => {
//     const url = `http://astroport.localhost:1234/?uplanet=@&salt=${southWestLat}&pepper=${southWestLon}`;
   const url = `https://astroport.copylaradio.com/?uplanet=@&salt=${southWestLat}&pepper=${southWestLon}`;
    window.location.href = url;
  });

  container.appendChild(button);

  //~ const link = document.createElement('a');
  //~ link.href = 'https://ipfs.copylaradio.com/ipfs/QmXom7iUq7G9Z1eiuckAQ1B7tkYfYGKnWhh3kUaKBd3ct4';
  //~ link.target = 'pp';
  //~ link.textContent = '>> PRINT PASSPORT <<';
  //~ link.style.fontSize = '24px'; // Customize the font size
  //~ link.style.textDecoration = 'none'; // Remove underline from the link
  //~ link.style.marginBottom = '30px'; // Add some space between the link and the button

  //~ container.appendChild(link);

  document.body.appendChild(container);

} else {

  // Add a mousemove event listener to the map
  map.on('mousemove', (event) => {
    const latLng = event.latlng;
    const lat = latLng.lat.toFixed(6);
    const lng = latLng.lng.toFixed(6);
    coordinatesDisplay.textContent = `Latitude: ${lat}, Longitude: ${lng}`;
  });

  // Create a clickable rectangle for each grid cell
  for (let latIndex = 0; latIndex < gridSize; latIndex++) {
    for (let lonIndex = 0; lonIndex < gridSize; lonIndex++) {
      const lat = southWestLat + latIndex * NSize ;
      const lon = southWestLon + lonIndex * NSize ;

      // Create a clickable rectangle
      const rectangle = L.rectangle(
        [[lat , lon ], [lat + NSize , lon + NSize]],
        { color: 'transparent', weight: 1, className: 'clickable-area' } // Add CSS class
      );

      // Add a click event to the rectangle
      rectangle.on('click', () => {
        // Calculate new northEastLat and northEastLon based on the clicked grid cell
        const newNorthEastLat = lat.toFixed(2);
        const newNorthEastLon = lon.toFixed(2);

        // Update URL parameters with the new values
        const url = `map_render.html?southWestLat=${newNorthEastLat}&southWestLon=${newNorthEastLon}&deg=${NSize}`;
        window.location.href = url;
      });

      // Add the rectangle to the map
      rectangle.addTo(map);
    }
  }
}

// Add a click event listener to the map container
document.getElementById('map-container').addEventListener('click', (event) => {
  const isInsideRectangle = event.target.classList.contains('clickable-area');
  if (!isInsideRectangle) {
    history.back(); // Trigger browser's back functionality
  }
});


  </script>
</body>
</html>
Usat & Umap 2023-09-04 02:15:19 +02:00			`<!DOCTYPE html>`
			`<html>`
			`<head>`
			`<meta charset="UTF-8">`
			`<link rel="icon" type="image/x-icon" href="./favicon.ico">`
			`<title>Occupy UPlanet ! Please. Zoom In.</title>`
			`<link rel="stylesheet" href="leaflet.css" />`
			`<style>`
			`.clickable-area {`
			`fill-opacity: 0.2; /* Adjust the opacity as needed */`
			`fill: #0074d9; /* Adjust the color as needed */`
			`stroke: #001f3f;`
			`}`
			`#coordinates-display {`
			`position: absolute;`
			`bottom: 20px; /* Adjust the bottom position as needed */`
			`left: 10px; /* Adjust the left position as needed */`
			`background-color: white;`
			`padding: 5px;`
			`border: 1px solid black;`
			`z-index: 1000;`
			`}`
			`#map-container {`
			`position: fixed;`
			`top: 0;`
			`left: 0;`
			`width: 100%;`
			`height: 100%;`
			`}`
			`</style>`

			`</head>`
			`<body>`
			`<div id="map-container" style="position: relative;">`
			`<div id="coordinates-display"></div> <!-- Coordinates display element -->`
			`<div id="map" style="width: 100%; height: 100vh;"></div>`
			`</div>`
			`<br>`

			`<script src="leaflet.js"></script>`

			`<script>`

			`// const desiredImageWidthInKm = 11; // Now Is calculated from northEastLon - southWestLon`
			`const tileSizeInPixels = 256;`

			`function calculateZoomLevel(desiredImageWidthInKm, latitude) {`
			`const earthEquatorialCircumference = 40075016.686; // Earth's equatorial circumference in meters`
			`// Calculate the distance covered by one degree of longitude at the given latitude`
			`const metersPerLongitudeDegree = earthEquatorialCircumference * Math.cos((Math.PI / 180) * latitude) / 360;`
			`const metersPerPixel = metersPerLongitudeDegree * 360 / (tileSizeInPixels * Math.pow(2, 20));`
			`// Calculate the number of pixels needed to achieve the desired width`
			`const numberOfPixelsHorizontally = (desiredImageWidthInKm * 1000) / metersPerPixel;`
			`// Calculate the appropriate zoom level`
			`const zoomLevel = Math.log2(tileSizeInPixels * Math.pow(2, 20) / numberOfPixelsHorizontally);`
			`return zoomLevel;`
			`}`

			`// Function to extract URL parameters`
			`function getUrlParameter(name) {`
			`name = name.replace(/[\[]/, '\\[').replace(/[\]]/, '\\]');`
			`const regex = new RegExp('[\\?&]' + name + '=([^&#]*)');`
			`const results = regex.exec(location.search);`
			`return results === null ? '' : decodeURIComponent(results[1].replace(/\+/g, ' '));`
			`}`

			`const defaultSouthWestLat = 0.00;`
			`const defaultSouthWestLon = 0.00;`
			`const defaultOffsetDegrees = 10.00; // 10° offset`

			`const southWestLat = parseFloat(getUrlParameter('southWestLat')) \|\| defaultSouthWestLat;`
			`console.log('Lat:', southWestLat);`
			`const southWestLon = parseFloat(getUrlParameter('southWestLon')) \|\| defaultSouthWestLon;`
			`console.log('Lon:', southWestLon);`

			`const deg = parseFloat(getUrlParameter('deg')) \|\| defaultOffsetDegrees;`
			`console.log('Offset:', deg);`

			`// Calculate northEastLat and northEastLon with deg° offset only if parameters are empty`
			`const northEastLatParam = getUrlParameter('northEastLat');`
			`const northEastLonParam = getUrlParameter('northEastLon');`

			`const northEastLat = northEastLatParam ? parseFloat(northEastLatParam) : southWestLat + deg;`
			`const northEastLon = northEastLonParam ? parseFloat(northEastLonParam) : southWestLon + deg;`

			`// Calculate the longitudinal distance in degrees`
			`const lonDistanceInDegrees = Math.abs(northEastLon - southWestLon);`
			`console.log('lonDistanceInDegrees:', lonDistanceInDegrees);`

			`// Calculate the desired image width in kilometers`
			`const earthEquatorialCircumference = 40075016.686; // Earth's equatorial circumference in meters`
			`const metersPerLongitudeDegree = Math.abs(earthEquatorialCircumference * Math.cos((Math.PI / 180) * southWestLat) / 360);`
			`const desiredImageWidthInMeters = lonDistanceInDegrees * metersPerLongitudeDegree;`
			`const desiredImageWidthInKm = desiredImageWidthInMeters / 1000;`
			`console.log('desiredImageWidthInKm:', desiredImageWidthInKm);`

			`const centerLat = (southWestLat + northEastLat) / 2;`
			`const centerLon = (southWestLon + northEastLon) / 2;`

			`// Provide the latitude for adjustment`
			`const latitude = centerLat;`
			`const zoomLevel = calculateZoomLevel(desiredImageWidthInKm, latitude);`
			`console.log('Recommended zoom level:', zoomLevel);`

			`const map = L.map('map').setView([centerLat, centerLon], zoomLevel);`

			`L.tileLayer('https://server.arcgisonline.com/ArcGIS/rest/services/World_Imagery/MapServer/tile/{z}/{y}/{x}', {`
			`attribution: 'U Planet'`
			`}).addTo(map);`

			`const gridSize = 10; // Number of rows and columns in the grid`
			`const NSize = deg / 10; // Size of each grid cell`


			`// Create a HTML element for displaying coordinates`
			`const coordinatesDisplay = document.getElementById('coordinates-display');`

			`// Check if deg is less than or equal to 0.01`
			`if (deg <= 0.01) {`
			`const container = document.createElement('div');`
			`container.style.position = 'fixed';`
			`container.style.top = '0';`
			`container.style.left = '0';`
			`container.style.width = '100vw';`
			`container.style.height = '100vh';`
			`container.style.backgroundColor = 'rgba(255, 255, 255, 0.4)';`
			`container.style.border = 'none';`
			`container.style.zIndex = '999';`
			`container.style.display = 'flex';`
			`container.style.flexDirection = 'column';`
			`container.style.alignItems = 'center';`
			`container.style.justifyContent = 'center';`


			`const button = document.createElement('button');`
			`button.textContent = 'Apply for Visa';`
			`button.style.width = '100%';`
			`button.style.height = '100px'; // Customize the button height`
			`button.style.backgroundColor = '#0074d9';`
			`button.style.border = 'none';`
			`button.style.fontFamily = 'Arial, sans-serif'; // Customize the font family`
			`button.style.fontSize = '24px'; // Customize the font size`
			`button.style.color = '#fff'; // Customize the font color`

			`button.addEventListener('click', () => {`
			// const url = `http://astroport.localhost:1234/?uplanet=@&salt=${southWestLat}&pepper=${southWestLon}`;
			const url = `https://astroport.copylaradio.com/?uplanet=@&salt=${southWestLat}&pepper=${southWestLon}`;
			`window.location.href = url;`
			`});`

			`container.appendChild(button);`

			`//~ const link = document.createElement('a');`
			`//~ link.href = 'https://ipfs.copylaradio.com/ipfs/QmXom7iUq7G9Z1eiuckAQ1B7tkYfYGKnWhh3kUaKBd3ct4';`
			`//~ link.target = 'pp';`
			`//~ link.textContent = '>> PRINT PASSPORT <<';`
			`//~ link.style.fontSize = '24px'; // Customize the font size`
			`//~ link.style.textDecoration = 'none'; // Remove underline from the link`
			`//~ link.style.marginBottom = '30px'; // Add some space between the link and the button`

			`//~ container.appendChild(link);`

			`document.body.appendChild(container);`

			`} else {`

			`// Add a mousemove event listener to the map`
			`map.on('mousemove', (event) => {`
			`const latLng = event.latlng;`
			`const lat = latLng.lat.toFixed(6);`
			`const lng = latLng.lng.toFixed(6);`
			coordinatesDisplay.textContent = `Latitude: ${lat}, Longitude: ${lng}`;
			`});`

			`// Create a clickable rectangle for each grid cell`
			`for (let latIndex = 0; latIndex < gridSize; latIndex++) {`
			`for (let lonIndex = 0; lonIndex < gridSize; lonIndex++) {`
			`const lat = southWestLat + latIndex * NSize ;`
			`const lon = southWestLon + lonIndex * NSize ;`

			`// Create a clickable rectangle`
			`const rectangle = L.rectangle(`
			`[[lat , lon ], [lat + NSize , lon + NSize]],`
			`{ color: 'transparent', weight: 1, className: 'clickable-area' } // Add CSS class`
			`);`

			`// Add a click event to the rectangle`
			`rectangle.on('click', () => {`
			`// Calculate new northEastLat and northEastLon based on the clicked grid cell`
			`const newNorthEastLat = lat.toFixed(2);`
			`const newNorthEastLon = lon.toFixed(2);`

			`// Update URL parameters with the new values`
			const url = `map_render.html?southWestLat=${newNorthEastLat}&southWestLon=${newNorthEastLon}&deg=${NSize}`;
			`window.location.href = url;`
			`});`

			`// Add the rectangle to the map`
			`rectangle.addTo(map);`
			`}`
			`}`
			`}`

			`// Add a click event listener to the map container`
			`document.getElementById('map-container').addEventListener('click', (event) => {`
			`const isInsideRectangle = event.target.classList.contains('clickable-area');`
			`if (!isInsideRectangle) {`
			`history.back(); // Trigger browser's back functionality`
			`}`
			`});`


			`</script>`
			`</body>`
			`</html>`