public static dna_bases parse_dna_bases(string name) { dna_bases ret = (dna_bases)c_csharp_runPINVOKE.parse_dna_bases(name); if (c_csharp_runPINVOKE.SWIGPendingException.Pending) { throw c_csharp_runPINVOKE.SWIGPendingException.Retrieve(); } return(ret); }
public float percent_base(dna_bases index) { float ret = c_csharp_metricsPINVOKE.corrected_intensity_metric_percent_base(swigCPtr, (int)index); if (c_csharp_metricsPINVOKE.SWIGPendingException.Pending) { throw c_csharp_metricsPINVOKE.SWIGPendingException.Retrieve(); } return(ret); }
public uint called_counts(dna_bases index) { uint ret = c_csharp_metricsPINVOKE.corrected_intensity_metric_called_counts(swigCPtr, (int)index); if (c_csharp_metricsPINVOKE.SWIGPendingException.Pending) { throw c_csharp_metricsPINVOKE.SWIGPendingException.Retrieve(); } return(ret); }
public filter_options(tile_naming_method naming_method, uint lane, short channel, dna_bases arg3) : this(c_csharp_plotPINVOKE.new_filter_options__SWIG_6((int)naming_method, lane, channel, (int)arg3), true) { }
public filter_options(tile_naming_method naming_method, uint lane, short channel, dna_bases arg3, uint surface, uint read, uint cycle) : this(c_csharp_plotPINVOKE.new_filter_options__SWIG_3((int)naming_method, lane, channel, (int)arg3, surface, read, cycle), true) { }
public dna_bases dna_base() { dna_bases ret = (dna_bases)c_csharp_plotPINVOKE.filter_options_dna_base__SWIG_1(swigCPtr); return(ret); }
public void dna_base(dna_bases arg0) { c_csharp_plotPINVOKE.filter_options_dna_base__SWIG_0(swigCPtr, (int)arg0); }
public bool valid_base(dna_bases arg0) { bool ret = c_csharp_plotPINVOKE.filter_options_valid_base(swigCPtr, (int)arg0); return(ret); }
public static string to_string(dna_bases value) { string ret = c_csharp_runPINVOKE.to_string__SWIG_4((int)value); return(ret); }