--- a/include/common-geo.inc.php
+++ b/include/common-geo.inc.php
@@ -1,152 +1,170 @@
 <?php
+
+/*
+ *    Copyright 2010,2011 Alexander Sadleir 
+
+  Licensed under the Apache License, Version 2.0 (the "License");
+  you may not use this file except in compliance with the License.
+  You may obtain a copy of the License at
+
+  http://www.apache.org/licenses/LICENSE-2.0
+
+  Unless required by applicable law or agreed to in writing, software
+  distributed under the License is distributed on an "AS IS" BASIS,
+  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+  See the License for the specific language governing permissions and
+  limitations under the License.
+ */
 // SELECT array_to_string(array(SELECT REPLACE(name_2006, ',', '\,') as name FROM suburbs order by name), ',')
 $suburbs = explode(",", "Acton,Ainslie,Amaroo,Aranda,Banks,Barton,Belconnen,Bonner,Bonython,Braddon,Bruce,Calwell,Campbell,Chapman,Charnwood,Chifley,Chisholm,City,Conder,Cook,Curtin,Deakin,Dickson,Downer,Duffy,Dunlop,Evatt,Fadden,Farrer,Fisher,Florey,Flynn,Forrest,Franklin,Fraser,Fyshwick,Garran,Gilmore,Giralang,Gordon,Gowrie,Greenway,Griffith,Gungahlin,Hackett,Hall,Harrison,Hawker,Higgins,Holder,Holt,Hughes,Hume,Isaacs,Isabella Plains,Kaleen,Kambah,Kingston,Latham,Lawson,Lyneham,Lyons,Macarthur,Macgregor,Macquarie,Mawson,McKellar,Melba,Mitchell,Monash,Narrabundah,Ngunnawal,Nicholls,Oaks Estate,O'Connor,O'Malley,Oxley,Page,Palmerston,Parkes,Pearce,Phillip,Pialligo,Red Hill,Reid,Richardson,Rivett,Russell,Scullin,Spence,Stirling,Symonston,Tharwa,Theodore,Torrens,Turner,Wanniassa,Waramanga,Watson,Weetangera,Weston,Yarralumla");
-function staticmap($mapPoints, $zoom = 0, $markerImage = "iconb", $collapsible = true)
-{
-	$width = 300;
-	$height = 300;
-	$metersperpixel[9] = 305.492 * $width;
-	$metersperpixel[10] = 152.746 * $width;
-	$metersperpixel[11] = 76.373 * $width;
-	$metersperpixel[12] = 38.187 * $width;
-	$metersperpixel[13] = 19.093 * $width;
-	$metersperpixel[14] = 9.547 * $width;
-	$metersperpixel[15] = 4.773 * $width;
-	$metersperpixel[16] = 2.387 * $width;
-	// $metersperpixel[17]=1.193*$width;
-	$center = "";
-	$markers = "";
-	$minlat = 999;
-	$minlon = 999;
-	$maxlat = 0;
-	$maxlon = 0;
-	if (sizeof($mapPoints) < 1) return "map error";
-	if (sizeof($mapPoints) === 1) {
-		if ($zoom == 0) $zoom = 14;
-		$markers.= "{$mapPoints[0][0]},{$mapPoints[0][1]},$markerimage";
-		$center = "{$mapPoints[0][0]},{$mapPoints[0][1]}";
-	}
-	else {
-		foreach ($mapPoints as $index => $mapPoint) {
-			$markers.= $mapPoint[0] . "," . $mapPoint[1] . "," . $markerImage . ($index + 1);
-			if ($index + 1 != sizeof($mapPoints)) $markers.= "|";
-			if ($mapPoint[0] < $minlat) $minlat = $mapPoint[0];
-			if ($mapPoint[0] > $maxlat) $maxlat = $mapPoint[0];
-			if ($mapPoint[1] < $minlon) $minlon = $mapPoint[1];
-			if ($mapPoint[1] > $maxlon) $maxlon = $mapPoint[1];
-			$totalLat+= $mapPoint[0];
-			$totalLon+= $mapPoint[1];
-		}
-		if ($zoom == 0) {
-			$mapwidthinmeters = distance($minlat, $minlon, $minlat, $maxlon);
-			foreach (array_reverse($metersperpixel, true) as $zoomLevel => $maxdistance) {
-				if ($zoom == 0 && $mapwidthinmeters < ($maxdistance + 50)) $zoom = $zoomLevel;
-			}
-		}
-		$center = $totalLat / sizeof($mapPoints) . "," . $totalLon / sizeof($mapPoints);
-	}
-	$output = "";
-	if ($collapsible) $output.= '<div data-role="collapsible" data-collapsed="true"><h3>Open Map...</h3>';
-	$output.= '<center><img src="' . curPageURL() . '/lib/staticmaplite/staticmap.php?center=' . $center . '&zoom=' . $zoom . '&size=' . $width . 'x' . $height . '&markers=' . 
-$markers . '" width=' . $width . ' height=' . $height . '></center>';
-	if ($collapsible) $output.= '</div>';
-	return $output;
-}
-function distance($lat1, $lng1, $lat2, $lng2, $roundLargeValues = false)
-{
-	$pi80 = M_PI / 180;
-	$lat1*= $pi80;
-	$lng1*= $pi80;
-	$lat2*= $pi80;
-	$lng2*= $pi80;
-	$r = 6372.797; // mean radius of Earth in km
-	$dlat = $lat2 - $lat1;
-	$dlng = $lng2 - $lng1;
-	$a = sin($dlat / 2) * sin($dlat / 2) + cos($lat1) * cos($lat2) * sin($dlng / 2) * sin($dlng / 2);
-	$c = 2 * atan2(sqrt($a) , sqrt(1 - $a));
-	$km = $r * $c;
-	if ($roundLargeValues) {
-	  if ($km < 1) return floor($km * 1000);
-	  else return round($km,2)."k";
-	} else return floor($km * 1000);
+
+function staticmap($mapPoints, $collapsible = true, $twotone = false, $path = false, $numbered = false) {
+
+    $markers = "";
+    $height = 300;
+    $width = $height;
+    $index = 0;
+    if (sizeof($mapPoints) < 1)
+        return "map error";
+    if (sizeof($mapPoints) === 1) {
+        $markers = "markers={$mapPoints[0][0]},{$mapPoints[0][1]}";
+    } else {
+        if (!$numbered) {
+            $markers = "markers=";
+        }
+        if ($path) {
+            $markers.= "markers={$mapPoints[0][0]},{$mapPoints[0][1]}&amp;path=";
+        }
+        foreach ($mapPoints as $index => $mapPoint) {
+            if ($twotone && $index == 0) {
+                $markers = "markerd=color:red|".$mapPoint[0] . "," . $mapPoint[1]."&amp;markers=";
+            } else {
+                if ($numbered) {
+                    $label = ($index > 9 ? 9 : $index);
+                    $markers.= "markers=label:$label|" . $mapPoint[0] . "," . $mapPoint[1];
+                    if ($index + 1 != sizeof($mapPoints)) {
+                        $markers.= "&amp;";
+                    }
+                } else {
+                    $markers.= $mapPoint[0] . "," . $mapPoint[1];
+                    if ($index + 1 != sizeof($mapPoints)) {
+                        $markers.= "|";
+                    }
+                }
+                $index++;
+            }
+        }
+    }
+    $output = "";
+    if ($collapsible)
+        $output.= '<div class="map" data-role="collapsible" data-collapsed="true"><h3>Open Map...</h3>';
+   if (isIOSDevice()) $output.= '<img class="hiresmap" src="http://maps.googleapis.com/maps/api/staticmap?size=' . $width . 'x' . $height . '&amp;' . $markers . '&amp;scale=2&amp;sensor=true" width=' . $width . ' height=' . $height . ' alt="map of stop location">';
+ else $output.= '<img class="lowresmap" src="http://maps.googleapis.com/maps/api/staticmap?size=' . $width . 'x' . $height . '&amp;' . $markers . '&amp;scale=1&amp;format=jpg&amp;sensor=true" width=' . $width . ' height=' . $height . ' alt="map of stop location">';
+   
+    if ($collapsible)
+        $output.= '</div>';
+    return $output;
 }
 
-function decodePolylineToArray($encoded)
-{
-	// source: http://latlongeeks.com/forum/viewtopic.php?f=4&t=5
-	$length = strlen($encoded);
-	$index = 0;
-	$points = array();
-	$lat = 0;
-	$lng = 0;
-	while ($index < $length) {
-		// Temporary variable to hold each ASCII byte.
-		$b = 0;
-		// The encoded polyline consists of a latitude value followed by a
-		// longitude value.  They should always come in pairs.  Read the
-		// latitude value first.
-		$shift = 0;
-		$result = 0;
-		do {
-			// The `ord(substr($encoded, $index++))` statement returns the ASCII
-			//  code for the character at $index.  Subtract 63 to get the original
-			// value. (63 was added to ensure proper ASCII characters are displayed
-			// in the encoded polyline string, which is `human` readable)
-			$b = ord(substr($encoded, $index++)) - 63;
-			// AND the bits of the byte with 0x1f to get the original 5-bit `chunk.
-			// Then left shift the bits by the required amount, which increases
-			// by 5 bits each time.
-			// OR the value into $results, which sums up the individual 5-bit chunks
-			// into the original value.  Since the 5-bit chunks were reversed in
-			// order during encoding, reading them in this way ensures proper
-			// summation.
-			$result|= ($b & 0x1f) << $shift;
-			$shift+= 5;
-		}
-		// Continue while the read byte is >= 0x20 since the last `chunk`
-		// was not OR'd with 0x20 during the conversion process. (Signals the end)
-		while ($b >= 0x20);
-		// Check if negative, and convert. (All negative values have the last bit
-		// set)
-		$dlat = (($result & 1) ? ~($result >> 1) : ($result >> 1));
-		// Compute actual latitude since value is offset from previous value.
-		$lat+= $dlat;
-		// The next values will correspond to the longitude for this point.
-		$shift = 0;
-		$result = 0;
-		do {
-			$b = ord(substr($encoded, $index++)) - 63;
-			$result|= ($b & 0x1f) << $shift;
-			$shift+= 5;
-		} while ($b >= 0x20);
-		$dlng = (($result & 1) ? ~($result >> 1) : ($result >> 1));
-		$lng+= $dlng;
-		// The actual latitude and longitude values were multiplied by
-		// 1e5 before encoding so that they could be converted to a 32-bit
-		// integer representation. (With a decimal accuracy of 5 places)
-		// Convert back to original values.
-		$points[] = array(
-			$lat * 1e-5,
-			$lng * 1e-5
-		);
-	}
-	return $points;
+function distance($lat1, $lng1, $lat2, $lng2, $roundLargeValues = false) {
+    $pi80 = M_PI / 180;
+    $lat1*= $pi80;
+    $lng1*= $pi80;
+    $lat2*= $pi80;
+    $lng2*= $pi80;
+    $r = 6372.797; // mean radius of Earth in km
+    $dlat = $lat2 - $lat1;
+    $dlng = $lng2 - $lng1;
+    $a = sin($dlat / 2) * sin($dlat / 2) + cos($lat1) * cos($lat2) * sin($dlng / 2) * sin($dlng / 2);
+    $c = 2 * atan2(sqrt($a), sqrt(1 - $a));
+    $km = $r * $c;
+    if ($roundLargeValues) {
+        if ($km < 1)
+            return floor($km * 1000);
+        else
+            return round($km, 2) . "k";
+    }
+    else
+        return floor($km * 1000);
 }
-function geocode($query, $giveOptions)
-{
-	global $cloudmadeAPIkey;
-	$url = "http://geocoding.cloudmade.com/$cloudmadeAPIkey/geocoding/v2/find.js?query=" . urlencode($query) . "&bbox=-35.5,149.00,-35.15,149.1930&return_location=true&bbox_only=true";
-	$contents = json_decode(getPage($url));
-	if ($giveOptions) return $contents->features;
-	elseif (isset($contents->features[0]->centroid)) return $contents->features[0]->centroid->coordinates[0] . "," . $contents->features[0]->centroid->coordinates[1];
-	else return "";
+
+function decodePolylineToArray($encoded) {
+    // source: http://latlongeeks.com/forum/viewtopic.php?f=4&t=5
+    $length = strlen($encoded);
+    $index = 0;
+    $points = array();
+    $lat = 0;
+    $lng = 0;
+    while ($index < $length) {
+        // Temporary variable to hold each ASCII byte.
+        $b = 0;
+        // The encoded polyline consists of a latitude value followed by a
+        // longitude value.  They should always come in pairs.  Read the
+        // latitude value first.
+        $shift = 0;
+        $result = 0;
+        do {
+            // The `ord(substr($encoded, $index++))` statement returns the ASCII
+            //  code for the character at $index.  Subtract 63 to get the original
+            // value. (63 was added to ensure proper ASCII characters are displayed
+            // in the encoded polyline string, which is `human` readable)
+            $b = ord(substr($encoded, $index++)) - 63;
+            // AND the bits of the byte with 0x1f to get the original 5-bit `chunk.
+            // Then left shift the bits by the required amount, which increases
+            // by 5 bits each time.
+            // OR the value into $results, which sums up the individual 5-bit chunks
+            // into the original value.  Since the 5-bit chunks were reversed in
+            // order during encoding, reading them in this way ensures proper
+            // summation.
+            $result|= ($b & 0x1f) << $shift;
+            $shift+= 5;
+        }
+        // Continue while the read byte is >= 0x20 since the last `chunk`
+        // was not OR'd with 0x20 during the conversion process. (Signals the end)
+        while ($b >= 0x20);
+        // Check if negative, and convert. (All negative values have the last bit
+        // set)
+        $dlat = (($result & 1) ? ~($result >> 1) : ($result >> 1));
+        // Compute actual latitude since value is offset from previous value.
+        $lat+= $dlat;
+        // The next values will correspond to the longitude for this point.
+        $shift = 0;
+        $result = 0;
+        do {
+            $b = ord(substr($encoded, $index++)) - 63;
+            $result|= ($b & 0x1f) << $shift;
+            $shift+= 5;
+        } while ($b >= 0x20);
+        $dlng = (($result & 1) ? ~($result >> 1) : ($result >> 1));
+        $lng+= $dlng;
+        // The actual latitude and longitude values were multiplied by
+        // 1e5 before encoding so that they could be converted to a 32-bit
+        // integer representation. (With a decimal accuracy of 5 places)
+        // Convert back to original values.
+        $points[] = array(
+            $lat * 1e-5,
+            $lng * 1e-5
+        );
+    }
+    return $points;
 }
-function reverseGeocode($lat, $lng)
-{
-	global $cloudmadeAPIkey;
-	$url = "http://geocoding.cloudmade.com/$cloudmadeAPIkey/geocoding/v2/find.js?around=" . $lat . "," . $lng . "&distance=closest&object_type=road";
-	$contents = json_decode(getPage($url));
-	return $contents->features[0]->properties->name;
+
+function geocode($query, $giveOptions) {
+    global $cloudmadeAPIkey;
+    $url = "http://geocoding.cloudmade.com/$cloudmadeAPIkey/geocoding/v2/find.js?query=" . urlencode($query) . "&bbox=-35.5,149.00,-35.15,149.1930&return_location=true&bbox_only=true";
+    $contents = json_decode(getPage($url));
+    if ($giveOptions)
+        return $contents->features;
+    elseif (isset($contents->features[0]->centroid))
+        return $contents->features[0]->centroid->coordinates[0] . "," . $contents->features[0]->centroid->coordinates[1];
+    else
+        return "";
 }
-?>
 
+function reverseGeocode($lat, $lng) {
+    global $cloudmadeAPIkey;
+    $url = "http://geocoding.cloudmade.com/$cloudmadeAPIkey/geocoding/v2/find.js?around=" . $lat . "," . $lng . "&distance=closest&object_type=road";
+    $contents = json_decode(getPage($url));
+    return $contents->features[0]->properties->name;
+}
+