/* sigstr.h */

#ifndef _INC_SIGSTR_H
#define _INC_SIGSTR_H

// strings for signal processing related dialogs

// filteq.pan
#define _sigtip_nca  "Numerator Coefficients in Ascending Powers of z^(-1)"
#define _sigtip_dca  "Denominator Coefficients in Ascending Powers of z^(-1)"
#define _sigtip_inp  "Input Data"
#define _sigtip_icy  "Initial Conditions for y[n]"
#define _sigtip_siy  "Set Initial Conditions for y[n]"
#define _sigtip_icx  "Initial Conditions for x[n]"
#define _sigtip_six  "Set Initial Conditions for x[n]"

// grpdelay.pan
#define _sigstr_cof  "Coefficient Form"
#define _sigtip_cof  "System Function in Ascending Powers of z^(-1) | Cascaded Biquad Coefficients from IIR DADiSP/Filters"
#define _sigopt_ztc  "Z Transform Coefficients B(z)/A(z)"
#define _sigopt_cbc  "Cascaded Biquad Coefficients"
#define _sigstr_ssc  "Single Series of Combined B(z), A(z) Terms"
#define _sigtip_ssc  "Input Single Series with Combined B(z) and A(z) Coefficients as Columns"

#define _sigtip_oln  "Output Length"
#define _sigtip_dlb  "Determine Length Based on System Characteristics"
#define _sigtip_sfh  "Fs, Sample Frequency in Hertz"
#define _sigtip_ucr  "Use Coefficient Rate"
#define _sigstr_cba  "Combined B(z), A(z):"
#define _sigtip_cba  "Combined B(z), A(z) Coefficients as Columns"

#define _sigstr_nbz  "Numerator B(z):"
#define _sigstr_dbz  "Denominator B(z):"
#define _sigstr_cac  "Cascade Coeff:"
#define _sigtip_cac  "Cascaded Biquad Coefficients from IIR DADiSP/Filters"

// impz.pan
#define _sigtip_pst  "Output Plot Style"

// residuez.pan
#define _sigstr_dom  "Domain"
#define _sigtip_dom  "Digital System Function in Ascending Powers of z^(-1) | Analog System Function in Ascending powers of s"
#define _sigopt_dzt  "Discrete Z Transform B(z)/A(z)"
#define _sigopt_czt  "Continuous S Transform B(s)/A(s)"
#define _sigstr_rin  "Residuez Inputs"
#define _sigtip_din  "Discrete System Function in Ascending Powers of z^(-1) | Inverse Residue, Residues, Poles and Direct Terms"
#define _sigopt_ztb  "Z Transform B(z)/A(z)"
#define _sigopt_rpd  "Residues, Poles, Direct Terms"
#define _sigtip_ain  "Continuous System Function in Ascending Powers of s | Inverse Residue, Residues, Poles and Direct Terms"
#define _sigopt_stb  "S Transform B(s)/A(s)"
#define _sigstr_srp  "Single Series of Combined Residue, Pole and Direct Terms"
#define _sigtip_srp  "Input Single Series with Combined Residues, Poles and Direct Terms as Columns"
#define _sigstr_dir  "Direct Terms:"
#define _sigtip_dir  "Partial Fraction Direct Terms in Ascending Powers of s or z^(-1)"
#define _sigstr_ntm  "No Terms"
#define _sigtip_ntm  "Set to Empty Series"

#define _sigstr_crp  "Combined R, P, K:"
#define _sigtip_crp  "Single Series with Combined Residues, Poles and Direct Terms as Columns"
#define _sigstr_res  "Residues:"
#define _sigtip_res  "Residue Values"
#define _sigstr_pol  "Poles:"
#define _sigtip_pol  "Pole Values"

#define _sigstr_nbs  "Numerator B(s):"
#define _sigstr_dbs  "Denominator B(s):"
#define _sigtip_nbs  "Numerator Coefficients in Ascending Powers of s"
#define _sigtip_dbs  "Denominator Coefficients in Ascending Powers of s"

// zfreq.pan
#define _sigtip_efs  "Evaluate from 0 to Fs"
#define _sigstr_ofm  "Output Format"
#define _sigtip_ofm  "Full Real and Complex Output | Magnitude | Log Magnitude Squared | -pi <= Phase <= pi | Unwrap Phase in Multiples of pi"
#define _sigopt_cpx  "Complex"
#define _sigopt_mag  "Magnitude"
#define _sigopt_lgm  "20*log10(Mag)"
#define _sigopt_pha  "Phase"
#define _sigopt_uph  "Unwrapped Phase"


// zplane.pan
#define _sigstr_zin  "Zplane Inputs"
#define _sigtip_zin  "System Function in Ascending Powers of z^(-1) | Cascaded Biquad Coefficients from IIR DADiSP/Filters | Direct Zeros, Poles and Gain Values"
#define _sigopt_zpg  "Zeros, Poles, Gain"
#define _sigstr_gan  "Gain:"
#define _sigtip_gan  "System Gain"
#define _sigstr_zer  "Zeros:"
#define _sigtip_zer  "Zero Values"



#endif