I have created another question (How to display a map (still image file) with a moving current location)

But it contains 2 (two) questions, so i need to segregate it.

I am trying to create a prototype that could guide a person to his destination place.

- place is a wide building with several floors.
- i can obtain/retrieve the maps (still images).
**e.g. current:1F destination:5F; so I can get the still images of 1st,2nd...5th floors (5 image files).**

**Scenario:**

- start the application
- input the current location (or may automatically set using current location) & destination
- click the search route button to search the maps to use (still images) & mark the current location & destination
- update the current location upon moving/going to destination

**Problem:**
I can get the current location coordinate via WiFi/cell tower/ip address but **don't know how to put it into still image to mark the current location.**

Would you share the **concepts/ideas or include the code snippets**. Big Help with my thesis.

Any guidance on the right direction is appreciated.

**UPDATE**

**Actual Example with Actual,Expected Output,Test Case**
(parcel of codes here has gotten from mapsforge)

**MercatorProjectionClass.java**

```
/**
* A performance optimized implementation of the spherical Mercator projection.
*/
class MercatorProjectionClass {
/**
* Width and height of a map tile in pixel.
*/
static final int TILE_SIZE = 256;
/**
* Converts a latitude coordinate (in degrees) to a pixel Y coordinate at a certain zoom level.
*
* @param latitude
* the latitude coordinate that should be converted.
* @param zoom
* the zoom level at which the coordinate should be converted.
* @return the pixel Y coordinate of the latitude value.
*/
static double latitudeToPixelY(double latitude, byte zoom) {
double sinLatitude = Math.sin(latitude * (Math.PI / 180));
return (0.5 - Math.log((1 + sinLatitude) / (1 - sinLatitude)) / (4 * Math.PI))
* ((long) TILE_SIZE << zoom);
}
/**
* Converts a latitude coordinate (in degrees) to a tile Y number at a certain zoom level.
*
* @param latitude
* the latitude coordinate that should be converted.
* @param zoom
* the zoom level at which the coordinate should be converted.
* @return the tile Y number of the latitude value.
*/
static long latitudeToTileY(double latitude, byte zoom) {
return pixelYToTileY(latitudeToPixelY(latitude, zoom), zoom);
}
/**
* Converts a longitude coordinate (in degrees) to a pixel X coordinate at a certain zoom level.
*
* @param longitude
* the longitude coordinate that should be converted.
* @param zoom
* the zoom level at which the coordinate should be converted.
* @return the pixel X coordinate of the longitude value.
*/
static double longitudeToPixelX(double longitude, byte zoom) {
return (longitude + 180) / 360 * ((long) TILE_SIZE << zoom);
}
/**
* Converts a longitude coordinate (in degrees) to the tile X number at a certain zoom level.
*
* @param longitude
* the longitude coordinate that should be converted.
* @param zoom
* the zoom level at which the coordinate should be converted.
* @return the tile X number of the longitude value.
*/
static long longitudeToTileX(double longitude, byte zoom) {
return pixelXToTileX(longitudeToPixelX(longitude, zoom), zoom);
}
/**
* Converts a pixel X coordinate at a certain zoom level to a longitude coordinate.
*
* @param pixelX
* the pixel X coordinate that should be converted.
* @param zoom
* the zoom level at which the coordinate should be converted.
* @return the longitude value of the pixel X coordinate.
*/
static double pixelXToLongitude(double pixelX, byte zoom) {
return 360 * ((pixelX / ((long) TILE_SIZE << zoom)) - 0.5);
}
/**
* Converts a pixel X coordinate to the tile X number.
*
* @param pixelX
* the pixel X coordinate that should be converted.
* @param zoom
* the zoom level at which the coordinate should be converted.
* @return the tile X number.
*/
static long pixelXToTileX(double pixelX, byte zoom) {
return (long) Math.min(Math.max(pixelX / TILE_SIZE, 0), Math.pow(2, zoom) - 1);
}
/**
* Converts a pixel Y coordinate at a certain zoom level to a latitude coordinate.
*
* @param pixelY
* the pixel Y coordinate that should be converted.
* @param zoom
* the zoom level at which the coordinate should be converted.
* @return the latitude value of the pixel Y coordinate.
*/
static double pixelYToLatitude(double pixelY, byte zoom) {
double y = 0.5 - (pixelY / ((long) TILE_SIZE << zoom));
return 90 - 360 * Math.atan(Math.exp(-y * (2 * Math.PI))) / Math.PI;
}
/**
* Converts a pixel Y coordinate to the tile Y number.
*
* @param pixelY
* the pixel Y coordinate that should be converted.
* @param zoom
* the zoom level at which the coordinate should be converted.
* @return the tile Y number.
*/
static long pixelYToTileY(double pixelY, byte zoom) {
return (long) Math.min(Math.max(pixelY / TILE_SIZE, 0), Math.pow(2, zoom) - 1);
}
private static final byte ZOOM_LEVEL = 14;
/**
* @param args
*/
public static void main(String[] args) {
// Pixel Coordinate of Chicago,IL
double pixel_y = 1559345;
double pixel_x = 1075954;
// Lat Lng of Chicago,IL
double lat_y = 41.850033;
double lng_x = -87.65005229999997;
testPixelXYToLatitude(pixel_y, pixel_x, lat_y, lng_x);
testLatLngToPixelXY(pixel_y, pixel_x, lat_y, lng_x);
}
private static void testPixelXYToLatitude(
double pixel_y, double pixel_x,
double lat_y, double lng_x) {
double actual_lat_y = MercatorProjectionClass.pixelYToLatitude(pixel_y, ZOOM_LEVEL);
double actual_lng_x = MercatorProjectionClass.pixelXToLongitude(pixel_x, ZOOM_LEVEL);
String expectedstr_lat_y = Double.toString(lat_y).substring(0, 5);
String expectedstr_lng_x = Double.toString(lng_x).substring(0, 6);
String actualstr_lat_y = Double.toString(actual_lat_y).substring(0, 5);
String actualstr_lng_x = Double.toString(actual_lng_x).substring(0, 6);
String result = (actualstr_lat_y.equals(expectedstr_lat_y) && actualstr_lng_x.equals(expectedstr_lng_x))?"PASSED":"FAILED";
System.out.println("PixelXYToLatitude test result:" + result);
}
private static void testLatLngToPixelXY(
double pixel_y, double pixel_x,
double lat_y, double lng_x) {
double actual_pixel_y = MercatorProjectionClass.latitudeToPixelY(lat_y, ZOOM_LEVEL);
double actual_pixel_x = MercatorProjectionClass.longitudeToPixelX(lng_x, ZOOM_LEVEL);
String expectedstr_pixel_y = Integer.toString((Double.valueOf(pixel_y).intValue()));
String expectedstr_pixel_x = Integer.toString((Double.valueOf(pixel_x).intValue()));
String actualstr_pixel_y = Integer.toString(Double.valueOf(actual_pixel_y).intValue());
String actualstr_pixel_x = Integer.toString(Double.valueOf(actual_pixel_x).intValue());
String result = (actualstr_pixel_y.equals(expectedstr_pixel_y) && actualstr_pixel_x.equals(expectedstr_pixel_x))?"PASSED":"FAILED";
System.out.println("LatLngToPixelXY test result:" + result);
}
}
```

Output of the above code:

- PixelXYToLatitude test result:PASSED
- LatLngToPixelXY test result:PASSED

I have already the projection class to convert LatLng to Pixel. My Problem now is on how to mark into still image of a given LatLng using the above class.

**Here's my still image (Chicago,IL):**

**I want to put a mark (here's the example but later on need to change the balloon to smaller pointer)**