function [out1,out2,savepts] = eqacylin(mstruct,in1,in2,object,direction,savepts) %EQACYLIN Equal Area Cylindrical Projection % % This is an orthographic projection onto a cylinder secant at the % standard parallels. It is equal area, but distortion of shape % increases with distance from the standard parallels. Scale is true % along the standard parallels and constant between two parallels % equidistant from the Equator. This projection is not equidistant. % % This projection was proposed by Johann Heinrich Lambert (1772), a % prolific cartographer who proposed seven different important % projections. The form of the projection tangent at the Equator % is often called the Lambert Equal Area Cylindrical projection. That % and other special forms of this projection are included separately % in the toolbox, including the Gall Orthographic, the Behrmann % Cylindrical, the Balthasart Cylindrical, and the Trystan % Edwards Cylindrical projections. % Copyright 1996-2003 The MathWorks, Inc. % $Revision: 1.9.4.1 $ % Written by: E. Byrns, E. Brown if nargin == 1 % Set the default structure entries mstruct.trimlat = angledim([ -90 90],'degrees',mstruct.angleunits); mstruct.trimlon = angledim([-180 180],'degrees',mstruct.angleunits); mstruct.mapparallels = angledim(0,'degrees',mstruct.angleunits); mstruct.nparallels = 1; mstruct.fixedorient = []; out1 = mstruct; return elseif nargin ~= 5 & nargin ~= 6 error('Incorrect number of arguments') end units = mstruct.angleunits; aspect = mstruct.aspect; parallels = angledim(mstruct.mapparallels,units,'radians'); origin = angledim(mstruct.origin,units,'radians'); trimlat = angledim(mstruct.flatlimit,units,'radians'); trimlon = angledim(mstruct.flonlimit,units,'radians'); scalefactor = mstruct.scalefactor; falseeasting = mstruct.falseeasting; falsenorthing = mstruct.falsenorthing; % Compute projection parameters a = mstruct.geoid(1); e = mstruct.geoid(2); if e == 0; qp = 2; else; qp = 1 - (1-e^2)/(2*e) * log((1-e)/(1+e)); end den1 = (1 + e*sin(parallels(1))) * (1 - e*sin(parallels(1))); m1 = cos(parallels(1)) / sqrt(den1); % Adjust the origin latitude to the auxiliary sphere origin(1) = geod2aut(origin(1),mstruct.geoid,'radians'); trimlat = geod2aut(trimlat, mstruct.geoid,'radians'); parallels = geod2aut(parallels,mstruct.geoid,'radians'); switch direction case 'forward' lat = angledim(in1,units,'radians'); lat = geod2aut(lat,mstruct.geoid,'radians'); long = angledim(in2,units,'radians'); [lat,long] = rotatem(lat,long,origin,direction); % Rotate to new origin [lat,long,clipped] = clipdata(lat,long,object); % Clip at the date line [lat,long,trimmed] = trimdata(lat,trimlat,long,trimlon,object); % Construct the structure of altered points savepts.trimmed = trimmed; savepts.clipped = clipped; % Projection transformation x = a * m1 * long; y = a * qp * sin(lat) / (2*m1); % Apply scale factor, false easting, northing x = x*scalefactor+falseeasting; y = y*scalefactor+falsenorthing; % Set the output variables switch aspect case 'normal', out1 = x; out2 = y; case 'transverse', out1 = y; out2 = -x; otherwise, error('Unrecognized aspect string') end case 'inverse' switch aspect case 'normal', x = in1; y = in2; case 'transverse', x = -in2; y = in1; otherwise, error('Unrecognized aspect string') end % Apply scale factor, false easting, northing x = (x-falseeasting)/scalefactor; y = (y-falsenorthing)/scalefactor; % Inverse projection lat = asin(2*m1*y / (a*qp)); long = x / (a*m1); % Undo trims and clips [lat,long] = undotrim(lat,long,savepts.trimmed,object); [lat,long] = undoclip(lat,long,savepts.clipped,object); % Rotate to Greenwich and transform to desired units [lat,long] = rotatem(lat,long,origin,direction); lat = aut2geod(lat,mstruct.geoid,'radians'); out1 = angledim(lat, 'radians', units); out2 = angledim(long,'radians', units); otherwise error('Unrecognized direction string') end % Some operations on NaNs produce NaN + NaNi. However operations % outside the map may product complex results and we don't want % to destroy this indicator. indx = find(isnan(out1) | isnan(out2)); out1(indx) = NaN; out2(indx) = NaN;