206 lines
5.5 KiB
Matlab
206 lines
5.5 KiB
Matlab
function set(tp, varargin)
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% SET Set properties of a phase.
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% set(tp,varargin)
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% The properties that may be set are
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%
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% * Temperature (T)
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% * Density (Rho)
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% * Volume (V)
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% * Pressure (P)
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% * Enthalpy (H)
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% * Entropy (S)
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% * Mole Fractions (X)
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% * Mass Fractions (Y)
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% * Vapor Fraction (Vapor)
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% * Liquid Fraction (Liquid)
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%
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% Either the full property name or the symbol may be
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% specified. For the extensive properties (V,H,U,S), the values
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% must be given per unit mass. H, U, and S must be set in
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% conjunction with pressure (for H,S) or volume (for U,S). Either
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% (specific) volume or density may be specified. Mole and mass
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% fractions must be input as vectors (either row or column) with
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% length equal to the number of species. Two properties may be
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% specified in a single call to :mat:func:`set`, plus one of
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% mass fractions or mole fractions.
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%
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% Examples::
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%
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% >> set(gas,'Temperature',600.0);
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% >> set(gas,'T',600.0);
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% >> set(gas,'T',600.0,'P',2*oneatm,'Y',massfracs);
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% >> set(gas,'H',0.5*enthalpy_mass(gas),'P',pressure(gas));
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% >> set(gas,'S',entropy_mass(gas),'P',0.5*pressure(gas));
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% >> set(gas,'X',ones(nSpecies(gas),1));
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% >> set(gas,'T',500.0,'Vapor',0.8)
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%
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% Alternatively, individual methods to set properties may be
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% called (setTemperature, setMoleFractions, etc.)
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%
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% See also: :mat:func:`setDensity`, :mat:func:`setMassFractions`,
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% :mat:func:`setMoleFractions`, :mat:func:`setPressure`, :mat:func:`setState_HP`,
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% :mat:func:`setState_Psat`, :mat:func:`setState_SP`, :mat:func:`setState_SV`,
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% :mat:func:`setState_Tsat`, :mat:func:`setState_UV`, :mat:func:`setTemperature`
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%
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% :param tp:
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% Instance of class :mat:func:`ThermoPhase` (or another
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% object that derives from ThermoPhase)
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% :param varargin:
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% Comma separated list of ``property, value`` pairs to be set
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%
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property_argin = varargin;
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tval = -999;
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pval = -999;
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hval = -999;
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uval = -999;
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sval = -999;
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vval = -999;
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qval = -999;
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np = 0;
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nt = 0;
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nv = 0;
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nx = 0;
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ny = 0;
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ns = 0;
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nh = 0;
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nu = 0;
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nq = 0;
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while length(property_argin) >= 2,
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prop = property_argin{1};
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val = property_argin{2};
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if issparse(val)
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val = full(val);
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end
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property_argin = property_argin(3:end);
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switch prop
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case 'Temperature'
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nt = nt + 1;
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tval = val;
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case 'T'
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nt = nt + 1;
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tval = val;
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case 'Density'
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nv = nv + 1;
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vval = 1.0/val;
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case 'Rho'
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nv = nv + 1;
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vval = 1.0/val;
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case 'V'
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nv = nv + 1;
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vval = val;
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case 'MoleFractions'
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nx = nx + 1;
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setMoleFractions(tp, val);
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case 'X'
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nx = nx + 1;
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setMoleFractions(tp, val);
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case 'MassFractions'
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ny = ny + 1;
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setMassFractions(tp, val);
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case 'Y'
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ny = ny + 1;
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setMassFractions(tp, val);
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case 'Pressure'
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pval = val;
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np = np + 1;
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case 'P'
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pval = val;
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np = np + 1;
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case 'Enthalpy'
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hval = val;
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nh = nh + 1;
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case 'H'
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hval = val;
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nh = nh + 1;
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case 'IntEnergy'
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uval = val;
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nu = nu + 1;
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case 'U'
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uval = val;
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nu = nu + 1;
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case 'Entropy'
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sval = val;
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ns = ns + 1;
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case 'S'
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sval = val;
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ns = ns + 1;
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case 'Sat'
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qval = val;
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nq = nq + 1;
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case 'Vapor'
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qval = val;
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nq = nq + 1;
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case 'Liquid'
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qval = 1.0 - val;
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nq = nq + 1;
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otherwise
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error(['Unknown property ' char(prop)])
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end
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end
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if nx + ny > 1
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error('Composition specified multiple times.');
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end
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ntot = nt + np + nv + ns + nh + nu + nq;
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if ntot == 1
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%
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% set T, v, or P individually
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%
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if nt == 1
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setTemperature(tp, tval); % density held fixed
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elseif nv == 1
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setDensity(tp, 1.0/vval); % temperature held fixed
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elseif np == 1
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setPressure(tp, pval); % temperature held fixed
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else
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error('Pressure, Volume, or Density must also be specified.');
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end
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elseif ntot == 2
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%
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% set property pairs
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%
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if nt == 1 && nv == 1
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setTemperature(tp, tval);
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setDensity(tp, 1.0/vval);
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elseif nt == 1 && np == 1
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setTemperature(tp, tval);
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setPressure(tp, pval);
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elseif np == 1 && nv == 1
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setState_RP(tp, [1.0/vval, pval])
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elseif nt == 1 && nq == 1
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setState_Tsat(tp, [tval,qval]);
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elseif np == 1 && nq == 1
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setState_Psat(tp, [pval,qval]);
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elseif np == 1 && nh == 1
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setState_HP(tp, [hval,pval]);
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elseif nu == 1 && nv == 1
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setState_UV(tp, [uval,vval]);
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elseif ns == 1 && np == 1
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setState_SP(tp, [sval,pval]);
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elseif ns == 1 && nv == 1
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setState_SV(tp, [sval,vval]);
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elseif ns == 1 && nt == 1
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setState_ST(tp, [sval,tval]);
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elseif nt == 1 && nv == 1
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setState_TV(tp, [tval,vval]);
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elseif np == 1 && nv == 1
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setState_PV(tp, [pval,vval]);
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elseif nu == 1 && np == 1
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setState_UP(tp, [uval,pval]);
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elseif nv == 1 && nh == 1
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setState_VH(tp, [vval,hval]);
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elseif nt == 1 && nh == 1
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setState_TH(tp, [tval,hval]);
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elseif ns == 1 && nh == 1
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setState_SH(tp, [sval,hval]);
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else
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error('Unimplemented property pair.');
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end
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elseif ntot > 2
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error('Too many properties specified.');
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end
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