| [19984] | 1 | %SLR class definition
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| 2 | %
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| 3 | % Usage:
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| 4 | % slr=slr();
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| 5 |
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| 6 | classdef slr
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| 7 | properties (SetAccess=public)
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| 8 | deltathickness = NaN;
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| [20154] | 9 | sealevel = NaN;
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| [21324] | 10 | spcthickness = NaN;
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| [19984] | 11 | maxiter = 0;
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| 12 | reltol = 0;
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| 13 | abstol = 0;
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| 14 | love_h = 0; %provided by PREM model
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| 15 | love_k = 0; %ideam
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| [21000] | 16 | love_l = 0; %ideam
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| [20349] | 17 | tide_love_k = 0; %ideam
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| 18 | tide_love_h = 0; %ideam
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| 19 | rigid = 0;
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| 20 | elastic = 0;
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| 21 | rotation = 0;
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| [21324] | 22 | ocean_area_scaling = 0;
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| [20033] | 23 | degacc = 0;
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| [20036] | 24 | requested_outputs = {};
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| [20137] | 25 | transitions = {};
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| [19984] | 26 | end
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| 27 | methods
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| 28 | function self = slr(varargin) % {{{
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| 29 | switch nargin
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| 30 | case 0
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| 31 | self=setdefaultparameters(self);
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| 32 | otherwise
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| 33 | error('constructor not supported');
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| 34 | end
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| 35 | end % }}}
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| 36 | function self = setdefaultparameters(self) % {{{
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| 37 |
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| 38 | %Convergence criterion: absolute, relative and residual
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| [20074] | 39 | self.reltol=NaN; %default
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| [19984] | 40 | self.abstol=0.001; %1 mm of sea level rise
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| 41 |
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| 42 | %maximum of non-linear iterations.
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| [20074] | 43 | self.maxiter=10;
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| [19984] | 44 |
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| 45 | %computational flags:
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| 46 | self.rigid=1;
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| 47 | self.elastic=1;
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| [20349] | 48 | self.rotation=1;
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| [21324] | 49 | self.ocean_area_scaling=0;
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| [20033] | 50 |
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| [20349] | 51 | %tidal love numbers:
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| 52 | self.tide_love_h=0.6149; %degree 2
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| 53 | self.tide_love_k=0.3055; % degree 2
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| 54 |
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| [20033] | 55 | %numerical discretization accuracy
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| 56 | self.degacc=.01;
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| [19986] | 57 |
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| [20036] | 58 | %output default:
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| 59 | self.requested_outputs={'default'};
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| [20137] | 60 |
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| 61 | %transitions should be a cell array of vectors:
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| 62 | self.transitions={};
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| [20036] | 63 |
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| [19984] | 64 | end % }}}
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| 65 | function md = checkconsistency(self,md,solution,analyses) % {{{
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| 66 |
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| [21049] | 67 | if ~ismember('SealevelriseAnalysis',analyses), return; end
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| [20322] | 68 | md = checkfield(md,'fieldname','slr.deltathickness','NaN',1,'Inf',1,'size',[md.mesh.numberofelements 1]);
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| [20154] | 69 | md = checkfield(md,'fieldname','slr.sealevel','NaN',1,'Inf',1,'size',[md.mesh.numberofvertices 1]);
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| [21324] | 70 | md = checkfield(md,'fieldname','slr.spcthickness','Inf',1,'timeseries',1);
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| [19984] | 71 | md = checkfield(md,'fieldname','slr.love_h','NaN',1,'Inf',1);
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| 72 | md = checkfield(md,'fieldname','slr.love_k','NaN',1,'Inf',1);
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| [21000] | 73 | md = checkfield(md,'fieldname','slr.love_l','NaN',1,'Inf',1);
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| [20349] | 74 | md = checkfield(md,'fieldname','slr.tide_love_h','NaN',1,'Inf',1);
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| 75 | md = checkfield(md,'fieldname','slr.tide_love_k','NaN',1,'Inf',1);
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| [19984] | 76 | md = checkfield(md,'fieldname','slr.reltol','size',[1 1]);
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| 77 | md = checkfield(md,'fieldname','slr.abstol','size',[1 1]);
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| 78 | md = checkfield(md,'fieldname','slr.maxiter','size',[1 1],'>=',1);
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| [20033] | 79 | md = checkfield(md,'fieldname','slr.degacc','size',[1 1],'>=',1e-10);
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| [20036] | 80 | md = checkfield(md,'fieldname','slr.requested_outputs','stringrow',1);
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| [19984] | 81 |
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| 82 | %check that love numbers are provided at the same level of accuracy:
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| [21000] | 83 | if (size(self.love_h,1)~=size(self.love_k,1) | size(self.love_h,1)~=size(self.love_l,1)),
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| [19984] | 84 | error('slr error message: love numbers should be provided at the same level of accuracy');
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| 85 | end
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| 86 |
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| [20322] | 87 | %cross check that whereever we have an ice load, the mask is <0 on each vertex:
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| 88 | pos=find(self.deltathickness);
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| 89 | maskpos=md.mask.ice_levelset(md.mesh.elements(pos,:));
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| 90 | [els,vertices]=find(maskpos>0);
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| 91 | if length(els),
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| 92 | error('slr checkconsistency fail: there are elements with ice loads where some vertices are not on the ice!');
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| 93 | end
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| 94 |
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| [19984] | 95 | end % }}}
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| [20036] | 96 | function list=defaultoutputs(self,md) % {{{
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| [20154] | 97 | list = {'Sealevel'};
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| [20036] | 98 | end % }}}
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| [19984] | 99 | function disp(self) % {{{
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| 100 | disp(sprintf(' slr parameters:'));
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| 101 |
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| 102 | fielddisplay(self,'deltathickness','thickness change (main loading of the slr solution core [m]');
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| [20154] | 103 | fielddisplay(self,'sealevel','current sea level (prior to computation) [m]');
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| [21324] | 104 | fielddisplay(self,'spcthickness','thickness constraints (NaN means no constraint) [m]');
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| [20074] | 105 | fielddisplay(self,'reltol','sea level rise relative convergence criterion, (default, NaN: not applied)');
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| [19984] | 106 | fielddisplay(self,'abstol','sea level rise absolute convergence criterion, NaN: not applied');
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| 107 | fielddisplay(self,'maxiter','maximum number of nonlinear iterations');
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| [21000] | 108 | fielddisplay(self,'love_h','load Love number for radial displacement');
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| 109 | fielddisplay(self,'love_k','load Love number for gravitational potential perturbation');
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| 110 | fielddisplay(self,'love_l','load Love number for horizontal displacements');
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| 111 | fielddisplay(self,'tide_love_k','tidal load Love number (deg 2)');
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| 112 | fielddisplay(self,'tide_love_h','tidal load Love number (deg 2)');
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| [20349] | 113 | fielddisplay(self,'rotation','earth rotational potential perturbation');
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| [21324] | 114 | fielddisplay(self,'ocean_area_scaling','correction for model representation of ocean area [default: No correction]');
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| [19984] | 115 | fielddisplay(self,'rigid','rigid earth graviational potential perturbation');
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| 116 | fielddisplay(self,'elastic','elastic earth graviational potential perturbation');
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| [20033] | 117 | fielddisplay(self,'degacc','accuracy (default .01 deg) for numerical discretization of the Green''s functions');
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| [20137] | 118 | fielddisplay(self,'transitions','indices into parts of the mesh that will be icecaps');
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| [20036] | 119 | fielddisplay(self,'requested_outputs','additional outputs requested');
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| [19984] | 120 |
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| 121 | end % }}}
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| [20690] | 122 | function marshall(self,prefix,md,fid) % {{{
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| 123 | WriteData(fid,prefix,'object',self,'fieldname','deltathickness','format','DoubleMat','mattype',2);
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| [20902] | 124 | WriteData(fid,prefix,'object',self,'fieldname','sealevel','mattype',1,'format','DoubleMat','timeserieslength',md.mesh.numberofvertices+1,'yts',md.constants.yts);
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| [21324] | 125 | WriteData(fid,prefix,'object',self,'fieldname','spcthickness','format','DoubleMat','mattype',1,'timeserieslength',md.mesh.numberofvertices+1,'yts',md.constants.yts);
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| [20690] | 126 | WriteData(fid,prefix,'object',self,'fieldname','reltol','format','Double');
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| 127 | WriteData(fid,prefix,'object',self,'fieldname','abstol','format','Double');
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| 128 | WriteData(fid,prefix,'object',self,'fieldname','maxiter','format','Integer');
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| 129 | WriteData(fid,prefix,'object',self,'fieldname','love_h','format','DoubleMat','mattype',1);
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| 130 | WriteData(fid,prefix,'object',self,'fieldname','love_k','format','DoubleMat','mattype',1);
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| [21000] | 131 | WriteData(fid,prefix,'object',self,'fieldname','love_l','format','DoubleMat','mattype',1);
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| [20891] | 132 | WriteData(fid,prefix,'object',self,'fieldname','tide_love_h','format','Double');
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| [20690] | 133 | WriteData(fid,prefix,'object',self,'fieldname','tide_love_k','format','Double');
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| 134 | WriteData(fid,prefix,'object',self,'fieldname','rigid','format','Boolean');
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| 135 | WriteData(fid,prefix,'object',self,'fieldname','elastic','format','Boolean');
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| 136 | WriteData(fid,prefix,'object',self,'fieldname','rotation','format','Boolean');
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| [21324] | 137 | WriteData(fid,prefix,'object',self,'fieldname','ocean_area_scaling','format','Boolean');
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| [20690] | 138 | WriteData(fid,prefix,'object',self,'fieldname','degacc','format','Double');
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| 139 | WriteData(fid,prefix,'object',self,'fieldname','transitions','format','MatArray');
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| [20036] | 140 |
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| 141 | %process requested outputs
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| 142 | outputs = self.requested_outputs;
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| 143 | pos = find(ismember(outputs,'default'));
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| 144 | if ~isempty(pos),
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| 145 | outputs(pos) = []; %remove 'default' from outputs
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| 146 | outputs = [outputs defaultoutputs(self,md)]; %add defaults
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| 147 | end
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| [20690] | 148 | WriteData(fid,prefix,'data',outputs,'name','md.slr.requested_outputs','format','StringArray');
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| [20036] | 149 |
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| [19984] | 150 | end % }}}
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| 151 | function savemodeljs(self,fid,modelname) % {{{
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| 152 |
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| [20181] | 153 | writejs1Darray(fid,[modelname '.slr.deltathickness'],self.deltathickness);
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| 154 | writejs1Darray(fid,[modelname '.slr.sealevel'],self.sealevel);
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| [21324] | 155 | writejs1Darray(fid,[modelname '.slr.spcthickness'],self.spcthickness);
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| [20262] | 156 | writejsdouble(fid,[modelname '.slr.maxiter'],self.maxiter);
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| [19984] | 157 | writejsdouble(fid,[modelname '.slr.reltol'],self.reltol);
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| 158 | writejsdouble(fid,[modelname '.slr.abstol'],self.abstol);
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| [20181] | 159 | writejs1Darray(fid,[modelname '.slr.love_h'],self.love_h);
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| 160 | writejs1Darray(fid,[modelname '.slr.love_k'],self.love_k);
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| [21000] | 161 | writejs1Darray(fid,[modelname '.slr.love_l'],self.love_l);
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| [20349] | 162 | writejsdouble(fid,[modelname '.slr.tide_love_k'],self.tide_love_k);
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| 163 | writejsdouble(fid,[modelname '.slr.tide_love_h'],self.tide_love_h);
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| [19984] | 164 | writejsdouble(fid,[modelname '.slr.rigid'],self.rigid);
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| [20349] | 165 | writejsdouble(fid,[modelname '.slr.rotation'],self.rotation);
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| [21324] | 166 | writejsdouble(fid,[modelname '.slr.ocean_area_scaling'],self.ocean_area_scaling);
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| [20262] | 167 | writejsdouble(fid,[modelname '.slr.elastic'],self.elastic);
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| [20033] | 168 | writejsdouble(fid,[modelname '.slr.degacc'],self.degacc);
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| [20036] | 169 | writejscellstring(fid,[modelname '.slr.requested_outputs'],self.requested_outputs);
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| [20262] | 170 | writejscellarray(fid,[modelname '.slr.transitions'],self.transitions);
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| [19984] | 171 | end % }}}
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| 172 | end
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| 173 | end
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