Exemplo n.º 1
0
def timeArgument(s):
    """Allow a relative datetime like -1w3d2h3s"""
    units = { 's': 1, 'm': 60,'h': 3600, 'd': 86400, 'w': 604800 }
    if s[0] in '+-':  # ([+-][0-9]+[smhdw])+ )
	i = 1
	val = 0;
	while i < len(s):
	    j = i;
	    while s[j:j+1] in '0123456789':
		j += 1;
	    if s[j:j+1] in units.keys():
		val += int(s[i:j]) * units[s[j]]
		i = j + 1;
	isonow= datetime.isoformat(datetime.now()) + 'Z';
	now = isodate.parse(isonow);
	if s[0] == '-': val = - val;
	print "That must be ",  isodate.fullString(now + val);
	return now + val;
    else:
	return isodate.parse(s);
Exemplo n.º 2
0
def timeArgument(s):
    """Allow a relative datetime like -1w3d2h3s"""
    units = {'s': 1, 'm': 60, 'h': 3600, 'd': 86400, 'w': 604800}
    if s[0] in '+-':  # ([+-][0-9]+[smhdw])+ )
        i = 1
        val = 0
        while i < len(s):
            j = i
            while s[j:j + 1] in '0123456789':
                j += 1
            if s[j:j + 1] in units.keys():
                val += int(s[i:j]) * units[s[j]]
                i = j + 1
        isonow = datetime.isoformat(datetime.now()) + 'Z'
        now = isodate.parse(isonow)
        if s[0] == '-': val = -val
        print "That must be ", isodate.fullString(now + val)
        return now + val
    else:
        return isodate.parse(s)
Exemplo n.º 3
0
    def straightPath(self, lon, lat, date):
        x, y = self.deg_to_px(lon, lat)
        self.wr("L %f %f " % (x, y))
        lastlon, lastlat, lastdate = self.last
        dx = (lon - lastlon) * self.x_m_per_degree
        dy = (lat - lastlat) * self.y_m_per_degree
        ds = sqrt(dx * dx + dy * dy)

        t1 = isodate.parse(lastdate)
        t2 = isodate.parse(date)
        dt = t2 - t1
        if dt > 0:
            speed = ds / dt  # m/s
        else:
            speed = 0.0  # well, infinity
        # progress('Path length: %sm, speed: %f m/s ' %(`ds`, speed))
        if speed > 0.5 and speed < 2.0:
            self.walking += dt
        self.total_m += ds
        self.last = (lon, lat, date)
    def straightPath(self, lon, lat, date):
        x, y = self.deg_to_px(lon, lat)
        self.wr("L %f %f " % (x,y))
        lastlon, lastlat, lastdate = self.last
        dx = (lon-lastlon) * self.x_m_per_degree
        dy = (lat-lastlat) * self.y_m_per_degree
        ds = sqrt(dx*dx + dy*dy)

        t1 = isodate.parse(lastdate)
        t2 = isodate.parse(date)
        dt = t2-t1
        if dt > 0:
            speed = ds/dt  # m/s
        else:
            speed = 0.0  # well, infinity
        # progress('Path length: %sm, speed: %f m/s ' %(`ds`, speed))
        if speed > 0.5 and speed < 2.0:
            self.walking += dt
        self.total_m += ds
        self.last = (lon, lat, date)
Exemplo n.º 5
0
    def __init__(self, lon, lat, ele, date):
        self.lon = lon
        self.lat = lat
        self.ele = ele  # float

        pi = 3.14159265358979323846  # (say)
        degree = pi / 180
        # r_earth = 6400000.0 # (say) meters
        phi = self.lat * degree

        # See http://en.wikipedia.org/wiki/Earth_radius
        a = 6.378137e6  # m
        b = 6.3567523e6  #m
        r_earth = sqrt(((a * a * cos(phi))**2 + ((a * a * sin(phi)))**2) /
                       ((a * cos(phi))**2 + ((a * sin(phi)))**2))
        # print "Local radius of earth = ", r_earth

        self.y_m_per_degree = r_earth * pi / 180
        self.x_m_per_degree = self.y_m_per_degree * cos(self.lat * degree)

        self.dz = 0
        self.ds = None
        self.s = 0
        self.grade = None

        self.last = None
        self.next = None

        self.date = date
        if date is not None:

            self.t = isodate.parse(date)
            ###

            self.kph = None
            self.mps = None
            self.dt = None
            self.climb = 0.0
Exemplo n.º 6
0
    def __init__(self, lon, lat, ele, date):
        self.lon = lon
        self.lat = lat
        self.ele = ele # float

        pi = 3.14159265358979323846 # (say)
        degree = pi/180
        # r_earth = 6400000.0 # (say) meters
        phi = self.lat * degree
        
        # See http://en.wikipedia.org/wiki/Earth_radius
        a = 6.378137e6 # m
        b = 6.3567523e6 #m
        r_earth = sqrt(  ((a*a*cos(phi))**2 + ((a*a*sin(phi)))**2)/
                        ((a*cos(phi))**2 + ((a*sin(phi)))**2))
        # print "Local radius of earth = ", r_earth
        
        self.y_m_per_degree = r_earth * pi /180
        self.x_m_per_degree = self.y_m_per_degree * cos(self.lat*degree)

        self.dz = 0
        self.ds = None
        self.s = 0
        self.grade = None

        self.last = None
        self.next = None

        self.date = date;
        if date is not None:

            self.t = isodate.parse(date); ###
            
            self.kph = None
            self.mps = None
            self.dt = None
            self.climb   = 0.0
Exemplo n.º 7
0
         maxlo = lo
 elif ty == "P":
     ph, photo = da
     if last == None:
         progress("%s: Photo %s  before any trackpoints" % (dt, photo))
         continue
     j = i + 1
     while j < n:
         dt2, ty2, da2 = events[j]
         if ty2 == "T":
             break
         j = j + 1
     else:
         progress("%s: Photo %s off the end of trackpoints" % (dt, photo))
         continue
     t = isodate.parse(dt)
     dt1, ty1, (la1, lo1) = events[last]
     lat1, long1 = float(la1), float(lo1)
     t1 = isodate.parse(dt1)
     dt2, ty2, (la2, lo2) = events[j]
     lat2, long2 = float(la2), float(lo2)
     t2 = isodate.parse(dt2)
     delta = t2 - t1
     progress("%s: Photo %s  between trackpoints %s and %s" % (dt, da, dt1, dt2))
     #           print "    Delta", delta, "seconds between", events[last], "and", events[j]
     a = (t - t1) / (t1 - t2)
     lat = lat1 + a * (lat2 - lat1)
     long = long1 + a * (long2 - long1)
     progress("%s: Before (%f, %f)" % (dt1, lat1, long1))
     progress("%s: Guess  (%f, %f)" % (dt, lat, long))
     progress("%s: After  (%f, %f)" % (dt2, lat2, long2))
Exemplo n.º 8
0
    def __init__(self, minla, maxla, minlo, maxlo, svgStream=None):
        def getSize(s, atr):
            i = s.find(atr + '="') + len(atr) + 2
            val = ""
            while s[i] in '0123456789':
                val += s[i]
                i = i + 1
            x = int(val)
            progress("Found attribute %s=%i" % (atr, x))
            return x

        progress("Lat between %f and %f, Long %f and %f" %
                 (minla, maxla, minlo, maxlo))

        #pageLong_m = 10.5 * 25.4 / 1000   # Say for 8.5 x 11" US Paper YMMV
        #pageShort_m = 8.0 * 25.4 / 1000     #This is printable

        # Not to scale ?!!
        pageLong_m = 7 * 25.4 / 1000  # Say for 8.5 x 11" US Paper YMMV
        pageShort_m = 5 * 25.4 / 1000  #This is printable

        if svgStream == None: self.wr = sys.stdout.write
        else: self.wr = svgStream.write

        self.marks = []  # List of marks on the map to avoid overlap

        self.midla = (minla + maxla) / 2.0
        self.midlo = (minlo + maxlo) / 2.0
        self.total_m = 0  # Meters
        self.last = None  # (lon, lat, date)

        self.t0 = isodate.parse("2035-01-01T00:00:00Z")
        # Initialize to far future @@@ why doesnt 2099 or 2999 work?
        self.t9 = isodate.parse("1999-01-01T00:00:00Z")
        # Initialise to far past

        self.speeds = []
        #        self.elevations = [];

        pi = 3.14159265358979323846  # (say)
        degree = pi / 180
        # r_earth = 6400000.0 # (say) meters
        phi = self.midla * degree

        # See http://en.wikipedia.org/wiki/Earth_radius
        a = 6.378137e6  # m
        b = 6.3567523e6  #m
        r_earth = sqrt(((a * a * cos(phi))**2 + ((a * a * sin(phi)))**2) /
                       ((a * cos(phi))**2 + ((a * sin(phi)))**2))
        print "Local radius of earth = ", r_earth

        self.y_m_per_degree = r_earth * pi / 180
        self.x_m_per_degree = self.y_m_per_degree * cos(self.midla * degree)

        progress('Metres per degree: (%f,%f)' %
                 (self.x_m_per_degree, self.y_m_per_degree))
        # OpsenStreetMap Map

        hila = maxla + (maxla -
                        minla) * 0.1  # Make  margins an extra 10% all round
        hilo = maxlo + (maxlo - minlo) * 0.1
        lola = minla - (maxla - minla) * 0.1
        lolo = minlo - (maxlo - minlo) * 0.1

        subtended_x = (hilo - lolo) * self.x_m_per_degree
        subtended_y = (hila - lola) * self.y_m_per_degree

        progress("Area subtended  %f (E-W)  %f (N-S) meters" %
                 (subtended_x, subtended_y))

        vertical = subtended_y > subtended_x
        if vertical:
            if subtended_y / pageLong_m > subtended_x / pageShort_m:  # constrained by height
                osmScale = subtended_y / pageLong_m
                hilo = self.midlo + 0.5 * (pageShort_m * osmScale /
                                           self.x_m_per_degree)
                lolo = self.midlo - 0.5 * (pageShort_m * osmScale /
                                           self.x_m_per_degree)
            else:  # constrained by width
                osmScale = subtended_x / pageShort_m
                hila = self.midla + 0.5 * (pageLong_m * osmScale /
                                           self.y_m_per_degree)
                lola = self.midla - 0.5 * (pageLong_m * osmScale /
                                           self.y_m_per_degree)

        else:
            if subtended_x / pageLong_m > subtended_y / pageShort_m:  # constrained by long width
                osmScale = subtended_x / pageLong_m
                hila = self.midla + 0.5 * (pageShort_m * osmScale /
                                           self.y_m_per_degree)
                lola = self.midla - 0.5 * (pageShort_m * osmScale /
                                           self.y_m_per_degree)
            else:  # constrained by short height
                osmScale = subtended_y / pageShort_m
                hilo = self.midlo + 0.5 * (pageLong_m * osmScale /
                                           self.x_m_per_degree)
                lolo = self.midlo - 0.5 * (pageLong_m * osmScale /
                                           self.x_m_per_degree)
        progress("OSM scale: %f" % osmScale)
        zoom = 20 - log(osmScale / 500, 2)
        progress("float zoom: %f" % zoom)
        zoomLevel = int(zoom)
        progress("float zoom: %i" % zoomLevel)

        progress("Area subtended  %f (E-W)  %f (N-S) meters" %
                 (subtended_x, subtended_y))

        pizelsPerAtZ20ATEquator = 156412.0

        # osmScale = 10000  # say
        #self.pixels_per_m = 122.94/25.4 * 1000 / osmScale  # pixels per metre on the ground - dpi was 120 now 123
        #self.pixels_per_m = 85 /25.4 * 1000 / osmScale #  Calculating this doesn't sem to work -- lets look at the actual map
        #self.page_x = (hilo-lolo) * self.x_m_per_degree * self.pixels_per_m
        #self.page_y = (hila-lola) * self.y_m_per_degree * self.pixels_per_m

        layers = 'C'
        # Cyclemap

        # Like http://tile.openstreetmap.org/cgi-bin/export?bbox=-71.2118,42.42694,-71.19273,42.44086&scale=25000&format=svg
        #        OSM_URI = ("http://tile.openstreetmap.org/cgi-bin/export?bbox=%f,%f,%f,%f&scale=%i&format=svg" % (lolo, lola, hilo, hila, osmScale))
        #        OSM_URI = ("http://render.openstreetmap.org/cgi-bin/export?bbox=%f,%f,%f,%f&scale=%i&format=svg" % (lolo, lola, hilo, hila, osmScale))
        OSM_URI = (
            "http://render.openstreetmap.org/cgi-bin/export?bbox=%f,%f,%f,%f&scale=%i&format=svg&layers=%s"
            % (lolo, lola, hilo, hila, osmScale, layers))
        progress("Batch OSM map at: ", OSM_URI)
        interactiveMapUri = "https://openstreetmap.org/#map=%i/%f/%f&layers=C" % (
            zoom, (lola + hila) / 2.0, (lolo + hilo) / 2.0)
        progress("Interactive OSM map at: ", interactiveMapUri)

        try:
            pass
            #saveAs(OSM_URI, "background-map.svg")
            if false:
                osmStream = urlopen(OSM_URI)
                osmData = osmStream.read(
                )  # Beware of server overloaded errors
                osmStream.close
            else:
                osmData = requests.get(OSM_URI,
                                       cookies={
                                           "_osm_totp_token": "102462"
                                       },
                                       headers={
                                           'User-Agent': 'Mozilla/5.0'
                                       }).text

        except IOError:
            progress("Unable to get OSM map")
            sys.exit(4)  # @@ should extract the error code from somwhere

        i = osmData.rfind('</svg>')
        if i < 0:
            progress("Invalid SVG file from OSM:\n" + osmData[:1000])
            sys.exit(5)
        self.wr(osmData[:i])  # Everything except for the last </svg>

        # Set up parametrs for point mapping:
        self.page_x = getSize(osmData, 'width')
        self.page_y = getSize(osmData, 'height')
        self.lolo = lolo
        self.lola = lola
        self.hilo = hilo
        self.hila = hila
        self.pixels_per_deg_lat = self.page_y / (hila - lola)
        self.pixels_per_deg_lon = self.page_x / (hilo - lolo)
        #        self.pixels_per_deg_lat = self.pixels_per_m * r_earth * pi /180
        #        self.pixels_per_deg_lon = self.pixels_per_deg_lat * cos(self.midla*degree)

        #        page_x = 800.0  # pixels
        #        page_y = 600.0
        #        max_x_scale = page_x / subtended_x
        #        max_y_scale = page_y / subtended_y
        #        self.pixels_per_m = min(max_x_scale, max_y_scale)    * 0.9  # make margins

        #self.page_x = int(subtended_x * self.pixels_per_m)
        #self.page_y = int(subtended_y * self.pixels_per_m)

        # TIGER map

        if 0:

            map_wid = subtended_x / 0.9
            map_ht = subtended_y / 0.9
            tigerURI = (
                "http://tiger.census.gov/cgi-bin/mapper/map.gif?" +
                "&lat=%f&lon=%f&ht=%f&wid=%f&" +
                "&on=CITIES&on=majroads&on=miscell&on=places&on=railroad&on=shorelin&on=streets"
                + "&on=interstate&on=statehwy&on=states&on=ushwy&on=water" +
                "&tlevel=-&tvar=-&tmeth=i&mlat=&mlon=&msym=bigdot&mlabel=&murl=&conf=mapnew.con"
                + "&iht=%i&iwd=%i") % (self.midla, self.midlo, map_ht, map_wid,
                                       self.page_y, self.page_x)

            progress("Getting tiger map ", tigerURI)
            try:
                saveAs(tigerURI, "tiger.gif")
            except IOError:
                progress("Offline? No tigermap.")

#       tigerURI = ("http://tiger.census.gov/cgi-bin/mapper/map.gif?&lat=%f&lon=%f&ht=%f"
#           +"&wid=%f&&on=majroads&on=miscell&tlevel=-&tvar=-&tmeth=i&mlat=&mlon=&msym=bigdot&mlabel=&murl="
#           +"&conf=mapnew.con&iht=%i&iwd=%i" ) % (self.midla, self.midlo,  maxla-minla, maxlo-minlo, self.page_y, self.page_x)

        if 0:
            self.wr("""<?xml version="1.0" encoding="UTF-8" standalone="no"?>
<!DOCTYPE svg PUBLIC '-//W3C//DTD SVG 1.0//EN'
 'http://www.w3.org/TR/2001/REC-SVG-20010904/DTD/svg10.dtd'>
<!-- Generated by @@@ -->
<svg
    width="%ipx"
    height="%ipx"
    xmlns='http://www.w3.org/2000/svg'
    xmlns:xlink='http://www.w3.org/1999/xlink'>
 <g>
 """ % (self.page_x, self.page_y))  #"

        progress('Map page size (%f,%f)' % (self.page_x, self.page_y))
Exemplo n.º 9
0
     if p.lon > maxlo: maxlo = p.lon
 elif ty == "P":
     ph, photo = p
     if last == None:
         progress("%s: Photo %s  before any trackpoints" % (dt, photo))
         continue
     j = i + 1
     while j < n:
         dt2, ty2, da2 = events[j]
         if ty2 == "T": break
         j = j + 1
     else:
         progress("%s: Photo %s off the end of trackpoints" %
                  (dt, photo))
         continue
     t = isodate.parse(dt)
     dt1, ty1, (la1, lo1, ele1) = events[last]
     lat1, long1 = float(la1), float(lo1)
     t1 = isodate.parse(dt1)
     dt2, ty2, (la2, lo2, ele2) = events[j]
     lat2, long2 = float(la2), float(lo2)
     t2 = isodate.parse(dt2)
     delta = t2 - t1
     progress("%s: Photo %s  between trackpoints %s and %s" %
              (dt, p, dt1, dt2))
     #           print "    Delta", delta, "seconds between", events[last], "and", events[j]
     a = (t - t1) / (t1 - t2)
     lat = lat1 + a * (lat2 - lat1)
     long = long1 + a * (long2 - long1)
     progress("%s: Before (%f, %f)" % (dt1, lat1, long1))
     progress("%s: Guess  (%f, %f)" % (dt, lat, long))
Exemplo n.º 10
0
    def __init__(self, minla, maxla, minlo, maxlo, svgStream=None):
    
        def getSize(s, atr):
            i = s.find(atr+'="') + len(atr) + 2
            val = ""
            while s[i] in '0123456789':
                val += s[i]
                i = i+1
            x = int(val)
            progress("Found attribute %s=%i" %(atr,x))
            return x
    
        progress("Lat between %f and %f, Long %f and %f" % (minla, maxla, minlo, maxlo))
    
        #pageLong_m = 10.5 * 25.4 / 1000   # Say for 8.5 x 11" US Paper YMMV
        #pageShort_m = 8.0 * 25.4 / 1000     #This is printable

        # Not to scale ?!!
        pageLong_m = 7 * 25.4 / 1000   # Say for 8.5 x 11" US Paper YMMV
        pageShort_m = 5 * 25.4 / 1000     #This is printable

        if svgStream==None: self.wr = sys.stdout.write
        else: self.wr = svgStream.write
        
        self.marks = []  # List of marks on the map to avoid overlap
        
        self.midla = (minla + maxla)/2.0
        self.midlo = (minlo + maxlo)/2.0
        self.total_m = 0 # Meters
        self.last = None   # (lon, lat, date)

        self.t0 = isodate.parse("2035-01-01T00:00:00Z"); # Initialize to far future @@@ why doesnt 2099 or 2999 work?
        self.t9 = isodate.parse("1999-01-01T00:00:00Z"); # Initialise to far past

        self.speeds = [];
#        self.elevations = [];
        
        pi = 3.14159265358979323846 # (say)
        degree = pi/180
        # r_earth = 6400000.0 # (say) meters
        phi = self.midla * degree
        
        # See http://en.wikipedia.org/wiki/Earth_radius
        a = 6.378137e6 # m
        b = 6.3567523e6 #m
        r_earth = sqrt(  ((a*a*cos(phi))**2 + ((a*a*sin(phi)))**2)/
                        ((a*cos(phi))**2 + ((a*sin(phi)))**2))
        print "Local radius of earth = ", r_earth
        
        self.y_m_per_degree = r_earth * pi /180
        self.x_m_per_degree = self.y_m_per_degree * cos(self.midla*degree)
        
        progress('Metres per degree: (%f,%f)' % (self.x_m_per_degree, self.y_m_per_degree))
        # OpsenStreetMap Map
        
        hila = maxla + (maxla - minla) * 0.1  # Make  margins an extra 10% all round
        hilo = maxlo + (maxlo - minlo) * 0.1
        lola = minla - (maxla - minla) * 0.1
        lolo = minlo - (maxlo - minlo) * 0.1

        subtended_x = (hilo - lolo) * self.x_m_per_degree
        subtended_y = (hila - lola) * self.y_m_per_degree
        

        progress("Area subtended  %f (E-W)  %f (N-S) meters" %(subtended_x, subtended_y))

        vertical = subtended_y > subtended_x
        if vertical:
            if subtended_y / pageLong_m >  subtended_x/pageShort_m:  # constrained by height
                osmScale = subtended_y / pageLong_m
                hilo = self.midlo + 0.5 * (pageShort_m * osmScale/self.x_m_per_degree)
                lolo = self.midlo - 0.5 * (pageShort_m * osmScale/self.x_m_per_degree)
            else: # constrained by width
                osmScale = subtended_x/pageShort_m
                hila = self.midla + 0.5 * (pageLong_m * osmScale/self.y_m_per_degree)
                lola = self.midla - 0.5 * (pageLong_m * osmScale/self.y_m_per_degree)
            
        else:
            if subtended_x / pageLong_m >  subtended_y/pageShort_m:  # constrained by long width
                osmScale = subtended_x / pageLong_m
                hila = self.midla + 0.5 * (pageShort_m * osmScale/self.y_m_per_degree)
                lola = self.midla - 0.5 * (pageShort_m * osmScale/self.y_m_per_degree)
            else: # constrained by short height
                osmScale = subtended_y/pageShort_m
                hilo = self.midlo + 0.5 * (pageLong_m * osmScale/self.x_m_per_degree)
                lolo = self.midlo - 0.5 * (pageLong_m * osmScale/self.x_m_per_degree)

        progress("Area subtended  %f (E-W)  %f (N-S) meters" %(subtended_x, subtended_y))

        # osmScale = 10000  # say
        #self.pixels_per_m = 122.94/25.4 * 1000 / osmScale  # pixels per metre on the ground - dpi was 120 now 123
        #self.pixels_per_m = 85 /25.4 * 1000 / osmScale #  Calculating this doesn't sem to work -- lets look at the actual map
        #self.page_x = (hilo-lolo) * self.x_m_per_degree * self.pixels_per_m
        #self.page_y = (hila-lola) * self.y_m_per_degree * self.pixels_per_m
        
        layers = 'C'; # Cyclemap
        
        # Like http://tile.openstreetmap.org/cgi-bin/export?bbox=-71.2118,42.42694,-71.19273,42.44086&scale=25000&format=svg
#        OSM_URI = ("http://tile.openstreetmap.org/cgi-bin/export?bbox=%f,%f,%f,%f&scale=%i&format=svg" % (lolo, lola, hilo, hila, osmScale))
#        OSM_URI = ("http://render.openstreetmap.org/cgi-bin/export?bbox=%f,%f,%f,%f&scale=%i&format=svg" % (lolo, lola, hilo, hila, osmScale))
        OSM_URI = ("http://render.openstreetmap.org/cgi-bin/export?bbox=%f,%f,%f,%f&scale=%i&format=svg&layers=%s" % (lolo, lola, hilo, hila, osmScale, layers))
        progress("FYI OSM map at: ", OSM_URI)
        try:
            pass
            #saveAs(OSM_URI, "background-map.svg")
            osmStream = urlopen(OSM_URI)
            osmData = osmStream.read()  # Beware of server overloaded errors
            osmStream.close

        except IOError:
            progress("Unable to get OSM map")
            sys.exit(4)  # @@ should extract the error code from somwhere

        i = osmData.rfind('</svg>')
        if i <0:
            progress("Invalid SVG file from OSM:\n" + osmData[:1000])
            sys.exit(5)
        self.wr(osmData[:i])  # Everything except for the last </svg>

        # Set up parametrs for point mapping:
        self.page_x = getSize(osmData, 'width')
        self.page_y = getSize(osmData, 'height')
        self.lolo = lolo
        self.lola = lola
        self.hilo = hilo
        self.hila = hila
        self.pixels_per_deg_lat = self.page_y / (hila-lola)
        self.pixels_per_deg_lon = self.page_x / (hilo-lolo)
#        self.pixels_per_deg_lat = self.pixels_per_m * r_earth * pi /180
#        self.pixels_per_deg_lon = self.pixels_per_deg_lat * cos(self.midla*degree)
        
        
        

#        page_x = 800.0  # pixels
#        page_y = 600.0
#        max_x_scale = page_x / subtended_x
#        max_y_scale = page_y / subtended_y
#        self.pixels_per_m = min(max_x_scale, max_y_scale)    * 0.9  # make margins

        #self.page_x = int(subtended_x * self.pixels_per_m)
        #self.page_y = int(subtended_y * self.pixels_per_m)

       # TIGER map

        if 0:

            map_wid = subtended_x /0.9
            map_ht  = subtended_y /0.9
            tigerURI = ("http://tiger.census.gov/cgi-bin/mapper/map.gif?"
                    +"&lat=%f&lon=%f&ht=%f&wid=%f&"
                    +"&on=CITIES&on=majroads&on=miscell&on=places&on=railroad&on=shorelin&on=streets"
                    +"&on=interstate&on=statehwy&on=states&on=ushwy&on=water"
                    +"&tlevel=-&tvar=-&tmeth=i&mlat=&mlon=&msym=bigdot&mlabel=&murl=&conf=mapnew.con"
                    +"&iht=%i&iwd=%i")  % (self.midla, self.midlo, map_ht, map_wid, self.page_y, self.page_x)

            progress("Getting tiger map ", tigerURI)
            try:
                saveAs(tigerURI, "tiger.gif")
            except IOError:
                progress("Offline? No tigermap.")
                
#       tigerURI = ("http://tiger.census.gov/cgi-bin/mapper/map.gif?&lat=%f&lon=%f&ht=%f"
#           +"&wid=%f&&on=majroads&on=miscell&tlevel=-&tvar=-&tmeth=i&mlat=&mlon=&msym=bigdot&mlabel=&murl="
#           +"&conf=mapnew.con&iht=%i&iwd=%i" ) % (self.midla, self.midlo,  maxla-minla, maxlo-minlo, self.page_y, self.page_x)


        if 0: self.wr("""<?xml version="1.0" encoding="UTF-8" standalone="no"?>
<!DOCTYPE svg PUBLIC '-//W3C//DTD SVG 1.0//EN'
 'http://www.w3.org/TR/2001/REC-SVG-20010904/DTD/svg10.dtd'>
<!-- Generated by @@@ -->
<svg
    width="%ipx"
    height="%ipx"
    xmlns='http://www.w3.org/2000/svg'
    xmlns:xlink='http://www.w3.org/1999/xlink'>
 <g>
 """  %   (self.page_x,self.page_y))  #"
 
        progress('Map page size (%f,%f)'% (self.page_x,self.page_y))