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source: issm/trunk-jpl/src/m/classes/SMBsemic.m@ 27829

Last change on this file since 27829 was 27829, checked in by inwoo, 20 months ago
CHG: add calculation of TotalSmbMelt and TotalSmbRefreeze for SEMIC.
File size: 18.3 KB

Rev	Line
[23540]	1	%SMBsemic Class definition
	2	%
	3	% Usage:
	4	% SMBsemic=SMBsemic();
	5
	6	classdef SMBsemic
[24240]	7	properties (SetAccess=public)
[23540]	8	dailysnowfall = NaN;
	9	dailyrainfall = NaN;
	10	dailydsradiation = NaN;
	11	dailydlradiation = NaN;
	12	dailywindspeed = NaN;
	13	dailypressure = NaN;
[27453]	14	dailyairdensity = NaN;
[23540]	15	dailyairhumidity = NaN;
	16	dailytemperature = NaN;
[27498]	17	Tamp = NaN;
	18	mask = NaN;
	19	hice = NaN;
	20	hsnow = NaN;
[27647]	21	qmr = NaN;
[23540]	22	desfac = 0;
[27498]	23	desfacElevation = 0;
[27453]	24	rlaps = 0;
[23540]	25	rdl = 0;
[27453]	26	s0gcm = NaN;
	27	steps_per_step = 1;
	28	averaging = 0;
	29	requested_outputs = {};
[27498]	30
	31	hcrit = 0;
	32	rcrit = 0;
	33
	34	% albedo
[27513]	35	albedo = 0; % required for first energy balance calculation of SEMIC
	36	albedo_snow = 0; % required for ISBA method
[27511]	37	albedo_scheme = 0;
[27498]	38	alb_smax = NaN;
	39	alb_smin = NaN;
	40	albi = NaN;
	41	albl = NaN;
	42
[27511]	43	% albedo parameters depending on albedo_scheme
	44	% for slater
	45	tmin = NaN;
	46	tmax = NaN;
	47
	48	% for isba & denby method
	49	mcrit = NaN;
	50
	51	% for isba
	52	tau_a = NaN;
	53	tau_f = NaN;
	54	wcrit = NaN;
	55
	56	% for alex
	57	tmid = NaN;
	58	afac = NaN;
	59
[27498]	60	% method
[27511]	61	ismethod = 0;
[23540]	62	end
	63	methods
	64	function self = SMBsemic(varargin) % {{{
	65	switch nargin
	66	case 0
	67	self=setdefaultparameters(self);
	68	otherwise
	69	error('constructor not supported');
	70	end
	71	end % }}}
	72	function self = extrude(self,md) % {{{
	73	self.dailysnowfall=project3d(md,'vector',self.dailysnowfall,'type','node');
	74	self.dailyrainfall=project3d(md,'vector',self.dailyrainfall,'type','node');
	75	self.dailydsradiation=project3d(md,'vector',self.dailydsradiation,'type','node');
	76	self.dailydlradiation=project3d(md,'vector',self.dailydlradiation,'type','node');
	77	self.dailywindspeed=project3d(md,'vector',self.dailywindspeed,'type','node');
	78	self.dailypressure=project3d(md,'vector',self.dailypressure,'type','node');
	79	self.dailyairdensity=project3d(md,'vector',self.dailyairdensity,'type','node');
	80	self.dailyairhumidity=project3d(md,'vector',self.dailyairhumidity,'type','node');
	81	self.dailytemperature=project3d(md,'vector',self.dailytemperature,'type','node');
	82	self.s0gcm=project3d(md,'vector',self.s0gcm,'type','node');
	83
	84	end % }}}
	85	function list = defaultoutputs(self,md) % {{{
[27403]	86	list = {'SmbMassBalance'};
[23540]	87	end % }}}
[27511]	88	function list = outputlists(self,md) % {{{
	89	if self.ismethod == 1
[27826]	90	list = {'default','SmbMassBalance','SmbMassBalanceSnow','SmbMassBalanceIce',...
[27773]	91	'SmbMassBalanceSemic','SmbMelt','SmbRefreeze','SmbAccumulation',...
[27652]	92	'SmbHIce','SmbHSnow','SmbAlbedo','SmbAlbedoSnow','TemperatureSEMIC',...
[27829]	93	'SmbSemicQmr','TotalSmb','TotalSmbMelt','TotalSmbRefreeze'};
[27511]	94	else
[27826]	95	list = {'default','SmbMassBalance'};
[27511]	96	end
	97	end % }}}
[23540]	98	function self = initialize(self,md) % {{{
[27583]	99	% Explain
	100	% initialize SEMIC smb values, such as s0gcm(surface elevation), albedo,
	101	% albedo_snow, hice, hsnow, Tamp... values.
	102	%
	103	%
	104	% Usage
	105	% md.smb = initialize(md.smb,md);
[23540]	106
[27778]	107	if isnan(self.s0gcm)
[27583]	108	if ~isnan(md.geometry.surface) & (numel(md.geometry.surface) == md.mesh.numberofvertices)
	109	self.s0gcm=md.geometry.surface;
	110	disp(' no SMBsemic.s0gcm specified: values from md.geometry.surface');
	111	else
	112	self.s0gcm=zeros(md.mesh.numberofvertices,1);
	113	disp(' no SMBsemic.s0gcm specified: values set as zero');
	114	end
[23540]	115	end
[27778]	116	if isnan(self.mask)
[27583]	117	self.mask = 2*ones(md.mesh.numberofvertices,1);
	118	disp(' no SMBsemic.mask specified: values set as 2 for ice');
	119	end
	120
	121	% update each values.
[27778]	122	if isnan(self.Tamp)
[27583]	123	self.Tamp= 3*ones(md.mesh.numberofvertices,1);
	124	disp(' no SMBsemic.Tamp specified: values set as 3.0');
	125	end
	126	self.albedo = 0.8*ones(md.mesh.numberofvertices,1);
	127	self.albedo_snow= 0.5*ones(md.mesh.numberofvertices,1);
	128	self.hice = 10*ones(md.mesh.numberofvertices,1);
[27498]	129	self.hsnow = 5*ones(md.mesh.numberofvertices,1);
[27647]	130	self.qmr = zeros(md.mesh.numberofvertices,1);
[23540]	131	end % }}}
	132	function self = setdefaultparameters(self) % {{{
	133
[27511]	134	% albedo parameters
[27498]	135	self.albedo_scheme = 0;
	136	self.alb_smax = 0.79;
	137	self.alb_smin = 0.6;
	138	self.albi = 0.41;
	139	self.albl = 0.07;
	140
[27511]	141	% albedo parameters for?
	142	% for slater
	143	self.tmin = 263.15;
	144	self.tmax = 273.15;
	145	% for isba & denby
	146	self.mcrit = 6e-8;
	147	% for isba
	148	self.tau_a = 0.008;
	149	self.tau_f = 0.24;
	150	self.wcrit = 15.0;
	151	% for alex
	152	self.tmid = 273.35;
	153	self.afac = -0.18;
	154
[27498]	155	self.hcrit = 0.028;% from Krapp et al. (2017)
	156	self.rcrit = 0.85; % from Krapp et al. (2017)
	157
	158	self.desfac = -log(2.0)/1000;
	159	self.desfacElevation = 2000;
	160	self.rlaps = 7.4;
	161	self.rdl = 0.29;
	162
	163	self.ismethod = 0;
[27409]	164	self.requested_outputs={'default'};
[27513]	165	end % }}}
[23540]	166	function md = checkconsistency(self,md,solution,analyses) % {{{
	167
[27778]	168	if ismember('MasstransportAnalysis',analyses)
[23540]	169	md = checkfield(md,'fieldname','smb.desfac','<=',1,'numel',1);
	170	md = checkfield(md,'fieldname','smb.s0gcm','>=',0,'NaN',1,'Inf',1,'size',[md.mesh.numberofvertices 1]);
	171	md = checkfield(md,'fieldname','smb.rlaps','>=',0,'numel',1);
	172	md = checkfield(md,'fieldname','smb.rdl','>=',0,'numel',1);
	173	md = checkfield(md,'fieldname','smb.dailysnowfall','timeseries',1,'NaN',1,'Inf',1);
	174	md = checkfield(md,'fieldname','smb.dailyrainfall','timeseries',1,'NaN',1,'Inf',1);
	175	md = checkfield(md,'fieldname','smb.dailydsradiation','timeseries',1,'NaN',1,'Inf',1);
	176	md = checkfield(md,'fieldname','smb.dailydlradiation','timeseries',1,'NaN',1,'Inf',1);
	177	md = checkfield(md,'fieldname','smb.dailywindspeed','timeseries',1,'NaN',1,'Inf',1);
	178	md = checkfield(md,'fieldname','smb.dailypressure','timeseries',1,'NaN',1,'Inf',1);
	179	md = checkfield(md,'fieldname','smb.dailyairdensity','timeseries',1,'NaN',1,'Inf',1);
	180	md = checkfield(md,'fieldname','smb.dailyairhumidity','timeseries',1,'NaN',1,'Inf',1);
	181	md = checkfield(md,'fieldname','smb.dailytemperature','timeseries',1,'NaN',1,'Inf',1);
[27498]	182
	183	% TODO: transient model should be merged with SEMIC developed by Ruckamp et al. (2018)
	184
	185	md = checkfield(md,'fieldname','smb.ismethod','numel',1,'values',[0,1]);
[27513]	186	if self.ismethod == 1 % transient mode
[27498]	187	md = checkfield(md,'fieldname','smb.desfacElevation','>=',0,'numel',1);
	188
	189	md = checkfield(md,'fieldname','smb.albedo_scheme','NaN',1,'Inf',1,'numel',1,'values',[0,1,2,3,4]);
	190	md = checkfield(md,'fieldname','smb.alb_smax','>=',0,'NaN',1,'Inf',1,'numel',1);
	191	md = checkfield(md,'fieldname','smb.mask','NaN',1,'Inf',1,'size',[md.mesh.numberofvertices, 1],'values',[0,1,2]);
	192
	193	% initial values
	194	md = checkfield(md,'fieldname','smb.albedo','NaN',1,'Inf',1,'size',[md.mesh.numberofvertices, 1]);
	195	md = checkfield(md,'fieldname','smb.albedo_snow','NaN',1,'Inf',1,'size',[md.mesh.numberofvertices, 1]);
	196	md = checkfield(md,'fieldname','smb.alb_smax','>=',0,'<=',1,'NaN',1,'Inf',1,'numel',1);
[27647]	197	md = checkfield(md,'fieldname','smb.alb_smin','<=',1,'NaN',1,'Inf',1,'numel',1);
[27498]	198	md = checkfield(md,'fieldname','smb.albi','>=',0,'<=',1,'NaN',1,'Inf',1,'numel',1);
	199	md = checkfield(md,'fieldname','smb.albl','>=',0,'<=',1,'NaN',1,'Inf',1,'numel',1);
	200	md = checkfield(md,'fieldname','smb.hice','NaN',1,'Inf',1,'size',[md.mesh.numberofvertices, 1]);
	201	md = checkfield(md,'fieldname','smb.hsnow','NaN',1,'Inf',1,'size',[md.mesh.numberofvertices, 1]);
[27647]	202	md = checkfield(md,'fieldname','smb.qmr','NaN',1,'Inf',1,'size',[md.mesh.numberofvertices, 1]);
[27498]	203	end
[23540]	204	end
[24240]	205	md = checkfield(md,'fieldname','smb.steps_per_step','>=',1,'numel',[1]);
[24800]	206	md = checkfield(md,'fieldname','smb.averaging','numel',[1],'values',[0 1 2]);
[23540]	207	md = checkfield(md,'fieldname','smb.requested_outputs','stringrow',1);
[27652]	208	% check requested_outputs
	209	if self.ismethod==1
	210	for i = 1:length(self.requested_outputs)
	211	if ~any(strcmpi(self.requested_outputs{i},self.outputlists))
	212	error(sprintf('ERROR: %s requested_output is not available',self.requested_outputs{i}));
	213	end
	214	end
	215	end
[23540]	216	end % }}}
	217	function disp(self) % {{{
	218	disp(sprintf(' surface forcings parameters:'));
[24240]	219
[23540]	220	disp(sprintf(' Interface for coupling GCM data to the energy balance model SEMIC (Krapp et al (2017) https://doi.org/10.5194/tc-11-1519-2017).'));
[24240]	221	disp(sprintf(' The implemented coupling uses daily mean GCM input to calculate yearly mean smb, accumulation, ablation, and surface temperature.'));
[23540]	222	disp(sprintf(' smb and temperatures are updated every year'));
	223	disp(sprintf('\n SEMIC parameters:'));
[24240]	224	fielddisplay(self,'dailysnowfall','daily surface dailysnowfall [m/s]');
[23540]	225	fielddisplay(self,'dailyrainfall','daily surface dailyrainfall [m/s]');
	226	fielddisplay(self,'dailydsradiation','daily downwelling shortwave radiation [W/m2]');
	227	fielddisplay(self,'dailydlradiation','daily downwelling longwave radiation [W/m2]');
[24240]	228	fielddisplay(self,'dailywindspeed','daily surface wind speed [m/s]');
[23540]	229	fielddisplay(self,'dailypressure','daily surface pressure [Pa]');
[24240]	230	fielddisplay(self,'dailyairdensity','daily air density [kg/m3]');
[23540]	231	fielddisplay(self,'dailyairhumidity','daily air specific humidity [kg/kg]');
	232	fielddisplay(self,'dailytemperature','daily surface air temperature [K]');
[27454]	233	fielddisplay(self,'rlaps','present day lapse rate (default is 7.4 [degree/km]; Erokhina et al. 2017)');
[23540]	234	fielddisplay(self,'desfac','desertification elevation factor (default is -log(2.0)/1000 [1/km]; Vizcaino et al. 2010)');
	235	fielddisplay(self,'rdl','longwave downward radiation decrease (default is 0.29 [W/m^2/km]; Marty et al. 2002)');
	236	fielddisplay(self,'s0gcm','GCM reference elevation; (default is 0) [m]');
[27652]	237	fielddisplay(self,'albedo_scheme','albedom scheme. 0: none, 1: (default is 0)');
[27498]	238
	239	fielddisplay(self,'ismethod','method for calculating SMB with SEMIC. Default version of SEMIC is really slow. 0: steady, 1: transient (default: 0)');
[27513]	240	if self.ismethod == 1 % transient mode
[27498]	241	fielddisplay(self,'desfacElevation','desertification elevation (default is 2000 m; Vizcaino et al. 2010)');
	242	fielddisplay(self,'Tamp','amplitude of diurnal cycle [K]');
	243	fielddisplay(self,'albedo','initial albedo [no unit]');
	244	fielddisplay(self,'albedo_snow','initial albedo for snow [no unit]');
	245	fielddisplay(self,'hice','initial thickness of ice [unit: m]');
	246	fielddisplay(self,'hsnow','initial thickness of snow [unit: m]');
	247	fielddisplay(self,'mask','masking for albedo. 0: ocean, 1: land, 2: ice (default: 2)');
	248	fielddisplay(self,'hcrit','critical snow height for albedo [unit: m]');
	249	fielddisplay(self,'rcrit','critical refreezing height for albedo [no unit]');
	250
	251	disp(sprintf('\nSEMIC albedo parameters.'));
	252	fielddisplay(self,'albedo_scheme','albedo scheme for SEMIC. 0: none, 1: slater, 2: isba, 3: denby, 4: alex (default is 0)');
[27504]	253	fielddisplay(self,'alb_smax','maximum snow albedo (default: 0.79)');
	254	fielddisplay(self,'alb_smin','minimum snow albedo (default: 0.6)');
[27513]	255	fielddisplay(self,'albi','background albedo for bare ice (default: 0.41)');
	256	fielddisplay(self,'albl','background albedo for bare land (default: 0.07)');
[27498]	257	end
[27513]	258	% albedo_scheme - 0: none, 1: slater, 2: isba, 3: denby, 4: alex.
[27778]	259	if self.albedo_scheme == 0
[27773]	260	disp(sprintf('\n\tSEMIC snow albedo parameter of None.'));
	261	disp(sprintf('\t albedo of snow is updated from albedo snow max (alb_smax).'));
	262	disp(sprintf('\t alb_snow = abl_smax'));
	263	elseif self.albedo_scheme == 1
	264	disp(sprintf('\n\tSEMIC snow albedo parameters of Slater et al, (1998).'));
[27511]	265	disp(sprintf('\t alb = alb_smax - (alb_smax - alb_smin)*tm^(3.0)'))
	266	disp(sprintf('\t tm = 1 (tsurf > 273.15 K)'));
	267	disp(sprintf('\t tm = f*(tsurf-tmin) (tmin <= tsurf < 273.15)'));
	268	disp(sprintf('\t 0 (tsurf < tmin)'));
	269	disp(sprintf('\t f = 1/(273.15-tmin)'));
	270	fielddisplay(self,'tmin','minimum temperature for which albedo decline become effective. (default: 263.15 K)[unit: K])');
	271	fielddisplay(self,'tmax','maxmium temperature for which albedo decline become effective. This value should be fixed. (default: 273.15 K)[unit: K])');
[27778]	272	elseif self.albedo_scheme == 2
[27511]	273	disp(sprintf('\n\tSEMIC snow albedo parameters for ISBA.? where is citation?'));
[27513]	274	fielddisplay(self,'mcrit','critical melt rate (default: 6e-8) [unit: m/sec]');
	275	fielddisplay(self,'wcrit','critical liquid water content (default: 15) [unit: kg/m2]');
[27511]	276	fielddisplay(self,'tau_a','dry albedo decline [unit: 1/day]');
	277	fielddisplay(self,'tau_f','wet albedo decline [unit: 1/day]');
[27778]	278	elseif self.albedo_scheme == 3
[27511]	279	disp(sprintf('\n\tSEMIC snow albedo parameters for Denby et al. (2002 Tellus)'));
[27513]	280	fielddisplay(self,'mcrit','critical melt rate (default: 6e-8) [unit: m/sec]');
[27778]	281	elseif self.albedo_scheme == 4
[27511]	282	disp(sprintf('\n\tSEMIC snow albedo parameters for Alex.?'));
	283	fielddisplay(self,'afac','[unit: ?]');
	284	fielddisplay(self,'tmid','[unit: ?]');
	285	else
	286	error(sprintf('ERROR: %d is not supported albedom scheme.',self.albedo_scheme))
	287	end
[27498]	288
[24240]	289	fielddisplay(self, 'steps_per_step', 'number of smb steps per time step');
[24793]	290	fielddisplay(self, 'averaging', 'averaging methods from short to long steps');
[24806]	291	disp(sprintf('%51s 0: Arithmetic (default)',' '));
	292	disp(sprintf('%51s 1: Geometric',' '));
	293	disp(sprintf('%51s 2: Harmonic',' '));
[23540]	294	fielddisplay(self,'requested_outputs','additional outputs requested');
	295	end % }}}
	296	function marshall(self,prefix,md,fid) % {{{
[24240]	297
[27453]	298	yts=md.constants.yts;
	299
[23540]	300	WriteData(fid,prefix,'name','md.smb.model','data',12,'format','Integer');
	301
[27498]	302	WriteData(fid,prefix,'object',self,'class','smb','fieldname','ismethod','format','Integer','values',[0, 1]);
[23540]	303	WriteData(fid,prefix,'object',self,'class','smb','fieldname','desfac','format','Double');
[27498]	304	WriteData(fid,prefix,'object',self,'class','smb','fieldname','desfacElevation','format','Double');
[23540]	305	WriteData(fid,prefix,'object',self,'class','smb','fieldname','s0gcm','format','DoubleMat','mattype',1);
	306	WriteData(fid,prefix,'object',self,'class','smb','fieldname','rlaps','format','Double');
	307	WriteData(fid,prefix,'object',self,'class','smb','fieldname','rdl','format','Double');
[27453]	308	WriteData(fid,prefix,'object',self,'class','smb','fieldname','dailysnowfall','format','DoubleMat','mattype',1,'timeserieslength',md.mesh.numberofvertices+1,'yts',yts);
	309	WriteData(fid,prefix,'object',self,'class','smb','fieldname','dailyrainfall','format','DoubleMat','mattype',1,'timeserieslength',md.mesh.numberofvertices+1,'yts',yts);
	310	WriteData(fid,prefix,'object',self,'class','smb','fieldname','dailydsradiation','format','DoubleMat','mattype',1,'timeserieslength',md.mesh.numberofvertices+1,'yts',yts);
	311	WriteData(fid,prefix,'object',self,'class','smb','fieldname','dailydlradiation','format','DoubleMat','mattype',1,'timeserieslength',md.mesh.numberofvertices+1,'yts',yts);
	312	WriteData(fid,prefix,'object',self,'class','smb','fieldname','dailywindspeed','format','DoubleMat','mattype',1,'timeserieslength',md.mesh.numberofvertices+1,'yts',yts);
	313	WriteData(fid,prefix,'object',self,'class','smb','fieldname','dailypressure','format','DoubleMat','mattype',1,'timeserieslength',md.mesh.numberofvertices+1,'yts',yts);
	314	WriteData(fid,prefix,'object',self,'class','smb','fieldname','dailyairdensity','format','DoubleMat','mattype',1,'timeserieslength',md.mesh.numberofvertices+1,'yts',yts);
	315	WriteData(fid,prefix,'object',self,'class','smb','fieldname','dailyairhumidity','format','DoubleMat','mattype',1,'timeserieslength',md.mesh.numberofvertices+1,'yts',yts);
	316	WriteData(fid,prefix,'object',self,'class','smb','fieldname','dailytemperature','format','DoubleMat','mattype',1,'timeserieslength',md.mesh.numberofvertices+1,'yts',yts);
[27498]	317	% TODO: transient mode should be merged with SEMIC developed by Ruckamp et al. (2018).
[27513]	318	if self.ismethod == 1% transient mode
[27498]	319	WriteData(fid,prefix,'object',self,'class','smb','fieldname','Tamp','format','DoubleMat','mattype',1);
	320	WriteData(fid,prefix,'object',self,'class','smb','fieldname','mask','format','DoubleMat','mattype',1);
	321	WriteData(fid,prefix,'object',self,'class','smb','fieldname','hice','format','DoubleMat','mattype',1);
	322	WriteData(fid,prefix,'object',self,'class','smb','fieldname','hsnow','format','DoubleMat','mattype',1);
[27647]	323	WriteData(fid,prefix,'object',self,'class','smb','fieldname','qmr','format','DoubleMat','mattype',1);
[27498]	324
	325	WriteData(fid,prefix,'object',self,'class','smb','fieldname','hcrit','format','Double');
	326	WriteData(fid,prefix,'object',self,'class','smb','fieldname','rcrit','format','Double');
	327
[27513]	328	%albedo
[27498]	329	WriteData(fid,prefix,'object',self,'class','smb','fieldname','albedo','format','DoubleMat','mattype',1);
	330	WriteData(fid,prefix,'object',self,'class','smb','fieldname','albedo_snow','format','DoubleMat','mattype',1);
	331	WriteData(fid,prefix,'object',self,'class','smb','fieldname','albedo_scheme','format','Integer');
	332	WriteData(fid,prefix,'object',self,'class','smb','fieldname','albi','format','Double');
	333	WriteData(fid,prefix,'object',self,'class','smb','fieldname','albl','format','Double');
	334	WriteData(fid,prefix,'object',self,'class','smb','fieldname','alb_smin','format','Double');
	335	WriteData(fid,prefix,'object',self,'class','smb','fieldname','alb_smax','format','Double');
[27511]	336
[27513]	337	%albedo parameters for ?
[27511]	338	%for slater
	339	WriteData(fid,prefix,'object',self,'class','smb','fieldname','tmin','format','Double');
	340	WriteData(fid,prefix,'object',self,'class','smb','fieldname','tmax','format','Double');
	341	%for isba & denby
	342	WriteData(fid,prefix,'object',self,'class','smb','fieldname','mcrit','format','Double');
	343	%for isba
	344	WriteData(fid,prefix,'object',self,'class','smb','fieldname','wcrit','format','Double');
	345	WriteData(fid,prefix,'object',self,'class','smb','fieldname','tau_a','format','Double');
	346	WriteData(fid,prefix,'object',self,'class','smb','fieldname','tau_f','format','Double');
	347	%for alex
	348	WriteData(fid,prefix,'object',self,'class','smb','fieldname','tmid','format','Double');
	349	WriteData(fid,prefix,'object',self,'class','smb','fieldname','afac','format','Double');
[27498]	350	end
	351
[27453]	352	WriteData(fid,prefix,'object',self,'fieldname','steps_per_step','format','Integer');
	353	WriteData(fid,prefix,'object',self,'fieldname','averaging','format','Integer');
[27498]	354
[23540]	355	%process requested outputs
	356	outputs = self.requested_outputs;
	357	pos = find(ismember(outputs,'default'));
[27778]	358	if ~isempty(pos)
[23540]	359	outputs(pos) = []; %remove 'default' from outputs
	360	outputs = [outputs defaultoutputs(self,md)]; %add defaults
	361	end
	362	WriteData(fid,prefix,'data',outputs,'name','md.smb.requested_outputs','format','StringArray');
	363
	364	end % }}}
	365	end
	366	end

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