OpenMS  2.5.0
SHFeature.h
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31 // $Maintainer: Timo Sachsenberg $
32 // $Authors: Lukas Mueller, Markus Mueller $
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34 //
36 //
37 // written by Lukas N Mueller, 30.3.05
38 // Lukas.Mueller@imsb.biol.ethz.ch
39 // Group of Prof. Ruedi Aebersold, IMSB, ETH Hoenggerberg, Zurich
40 //
41 // Ported to OpenMS by Florian Zeller, florian.zeller@bsse.ethz.ch
42 // December 2010
43 //
44 
45 #pragma once
46 
47 #include <OpenMS/TRANSFORMATIONS/FEATUREFINDER/SUPERHIRN/SuperHirnConfig.h>
51 
52 #include <map>
53 #include <vector>
54 #include <string>
55 
56 namespace OpenMS
57 {
58 
59  class SUPERHIRN_DLLAPI SHFeature
60  {
61 
63  // declaration of the private members:
64 
65 private:
66 
68  // IDENTIFICATION PARAMETERS:
69  // name of the spectra:
70  std::map<double, std::vector<MS2Info> > MS2_SCANS;
72 
74  // raw MS peak parameters:
75  int scan_apex;
77  int scan_end;
80  double PEAK_SCORE;
81  double SignalToNoise;
83 
85  // Analysis parameters:
88  double SCORE_HOLDER;
90  double PI;
91 
93  // LC/MS run ID parameters:
95  int MASTER_ID;
96 
98  // string to store ms1 feature extra information:
100 
102  // LC elution profile:
104 
105  // static values:
106  static double _MONO_H;
107  static double _MONO_O;
108 
110  // LC/MS matching things:
111  std::map<int, SHFeature> matched_feature_list;
112 
113  // ranges of m/z and tr:
114  double TR_APEX;
116  double MONO_MZ_END;
118 
120  // associated MS2 feature:
122 
124  // declaration of the public members:
125 
126 public:
127 
128  double TR;
129  double MONO_MZ;
130  double TR_START;
131  double TR_END;
134 
135  // class destructor
136  ~SHFeature();
137 
138  // copy constructor:
139  SHFeature(const SHFeature &);
140 
141  // class constructor
142  SHFeature(const SHFeature *);
143  // constructor for the object SHFeature:
144  SHFeature(double, double, int, int, int, int, float, float, float);
145  // constructor for the object SHFeature:
146  SHFeature(float, int, int);
148  SHFeature();
149  // copy constructor:
150  SHFeature & operator=(const SHFeature &);
151 
152  // show the content of the spectra
153  void show_info();
154  // show MS/MS spectra info:
155  void showMS2consensSpectraInfo();
156 
158  // comparison operators:
159  bool operator==(const SHFeature &);
160 
161  // add MS/MS info to the SHFeature:
162  void add_MS2_info(MS2Info *);
163  void add_MS2_info(std::map<double, std::vector<MS2Info> > *);
164  bool get_MS2_info();
165  bool get_MS2_info(double);
166 
167  bool check_MS2_empty();
168 
169  void removeAllMS2Information();
170 
171  int get_MS2_SCANS_SIZE();
172 
173  std::map<double, std::vector<MS2Info> > * get_MS2_SCAN_MAP();
174 
175  std::map<double, std::vector<MS2Info> >::iterator get_MS2_SCANS_START();
176  std::map<double, std::vector<MS2Info> >::iterator get_MS2_SCANS_END();
177  // get the best ms2 scan == closest to the apex:
178  MS2Info * get_best_MS2_SCAN();
179  MS2Info * get_best_MS2_SCAN(double);
180 
181  void setFeatureExtraInformation(std::string in);
182  std::string getFeatureExtraInformation();
183 
184  // functions to set/access matched features:
185  void add_matched_feature(SHFeature *);
186  std::map<int, SHFeature> * get_match_list_REFERENCE();
187  std::map<int, SHFeature> get_match_list();
188  std::map<int, SHFeature>::iterator get_match_list_start();
189  std::map<int, SHFeature>::iterator get_match_list_end();
190  std::map<int, SHFeature>::iterator find_match_by_id(int ID);
191 
192  // get feature at a certain LC-MS by LC_MS id
193  SHFeature * get_feature(int);
194 
195  // get the total peak are over all matched features:
196  double get_MATCHED_peak_area();
197  bool check_match_by_id(int);
198  void erase_match_list();
199  // get the profile over all matched features:
200  std::map<int, double> get_feature_profile();
201 
202  // return number of times this feature has been seen = nb_replicates in list plus 1!
203  int get_replicate_match_nb();
204  int get_matching_nb();
205  // return the sum of all intensities over replicates:
206  double get_replicate_intensity_sum();
207 
209  // start here all the get / set
210  // function to access the
211  // variables of the class
212 
213  // access the parent mass of feature, calculated from the SQ
214  double get_MZ();
215  void set_MZ(double in);
216  double get_MZ_START();
217  void set_MZ_START(double in);
218  double get_MZ_END();
219  void set_MZ_END(double in);
220 
221  double get_THEO_MZ();
222  double get_THEO_MZ(double T);
223  std::string get_AC();
224  std::string get_AC(double T);
225  bool check_AC(std::string in);
226  bool check_AC(std::string in, double T);
227  std::string get_SQ();
228  std::string get_SQ(double T);
229  std::string get_TOTAL_SQ();
230  std::string get_TOTAL_SQ(double T);
231  std::string get_MOD_SQ();
232  std::string get_MOD_SQ(double T);
233  double get_pep_prob();
234  double get_pep_prob(double T);
235  std::string get_MS2_TYPE_TAG();
236  std::string get_MS2_TYPE_TAG(double T);
237  int get_MS2_scan();
238  int get_MS2_scan(double T);
239  std::map<double, std::vector<MS2Info> > * get_MS2_SCAN_LIST();
240  std::map<double, std::vector<MS2Info> >::iterator get_MS2_SCAN_LIST_START();
241  std::map<double, std::vector<MS2Info> >::iterator get_MS2_SCAN_LIST_END();
242 
243  int get_scan_number();
244  void set_scan_number(int in);
245  int get_scan_start();
246  void set_scan_start(int in);
247  int get_scan_end();
248  void set_scan_end(int in);
249  int get_charge_state();
250  void set_charge_state(int in);
251  void set_peak_area(float in);
252  double get_peak_area();
253  // get peak area at a certain LC/MS:
254  double get_peak_area(int);
255  double get_apex_peak_intensity();
256  void set_apex_peak_intensity(double in);
257  void normalize_peak_area_by_factor(double factor);
258 
259  double get_alignment_error_up();
260  void set_alignment_error_up(double in);
261  double get_alignment_error_down();
262  void set_alignment_error_down(double in);
263 
264  void set_SCORE_HOLDER(double in);
265  double get_SCORE_HOLDER();
266 
267  double get_retention_time();
268  void set_retention_time(double in);
269  double get_retention_time_START();
270  void set_retention_time_START(double in);
271  double get_retention_time_END();
272  void set_retention_time_END(double in);
273 
274  // original mz and Tr coordinates
275  double get_raw_retention_time_apex();
276  void set_raw_retention_time_apex(double in);
277  double get_raw_MZ();
278  void set_raw_MZ(double in);
279 
280  // feature ID:
281  void set_feature_ID(int in);
282  int get_feature_ID();
283 
284  void set_spectrum_ID(int in);
285 
286  int get_spectrum_ID();
287 
288  void set_MASTER_ID(int in);
289  int get_MASTER_ID();
290 
291  // check how many matches
292  int get_nb_common_match();
293 
294  // get/set the peak score
295  double get_peak_score();
296  void set_peak_score(double in);
297 
298  // get the molecular mass of the corresponding peptide!
299  double get_Molecular_Mass();
300 
301  // feature PI:
302  double get_FEATURE_PI();
303  void set_FEATURE_PI(double in);
304 
305  // check charge states, in cases where a feature was
306  // created based on a MS2 trace, charge state is unknown ( = -1 )
307  // -> derive the charge state from the matched feature (if this is
308  // also not -1
309  void deriveChargeStates(SHFeature *);
310 
311  // LC elution profile
312  void setLCelutionProfile(FeatureLCProfile * in);
313  FeatureLCProfile * getLCelutionProfile();
314 
316  // parameters computed over matched features:
317  double get_profile_retention_time();
318  double get_profile_Molecular_Mass();
319 
321  // status if feature has been matched:
322  bool get_feature_match_status();
323  void set_feature_match_status(bool in);
324 
326  // access the MS2 feature
327  void addMS2Feature(MS2Feature * in);
328  void removeMS2Feature();
329  MS2Feature * getMS2Feature();
330 
331  double getSignalToNoise();
332  void setSignalToNoise(double in);
333 
334  double getBackgroundNoiseLevel();
335  void setBackgroundNoiseLevel(double in);
336 
338  // get static members:
339  //static double get_MZ_TOL(){return MZ_TOL;};
340  static double get_MONO_H();
341 
342  // compare to masses at the PPM value and decided
343  // if they fall into the m/z tolerance window
344  static bool compareFeatureMassValuesAtPPMLevel(double, double);
345 
346  // get the masse error at the PPM value
347  static double getFeatureMassErrorAtPPMLevel(double);
348 
349  };
350 
351 } // ns
352 
OpenMS::SHFeature::TR_START
double TR_START
Definition: SHFeature.h:130
OpenMS::FeatureLCProfile
Definition: FeatureLCProfile.h:66
OpenMS::SHFeature::PI
double PI
Definition: SHFeature.h:90
OpenMS::SHFeature::TR_END
double TR_END
Definition: SHFeature.h:131
OpenMS::SHFeature
Definition: SHFeature.h:59
OpenMS::SHFeature::MS2_SCANS
std::map< double, std::vector< MS2Info > > MS2_SCANS
Definition: SHFeature.h:70
OpenMS::SHFeature::TR_APEX
double TR_APEX
Definition: SHFeature.h:114
OpenMS::SHFeature::BackgroundNoise
double BackgroundNoise
Definition: SHFeature.h:82
OpenMS::SHFeature::matched_feature_list
std::map< int, SHFeature > matched_feature_list
Definition: SHFeature.h:111
FeatureLCProfile.h
OpenMS::SHFeature::feature_ID
int feature_ID
Definition: SHFeature.h:133
OpenMS::SHFeature::MONO_MZ_END
double MONO_MZ_END
Definition: SHFeature.h:116
OpenMS
Main OpenMS namespace.
Definition: FeatureDeconvolution.h:46
OpenMS::SHFeature::MONO_MZ
double MONO_MZ
Definition: SHFeature.h:129
OpenMS::SHFeature::MONO_MZ_START
double MONO_MZ_START
Definition: SHFeature.h:115
OpenMS::SHFeature::SignalToNoise
double SignalToNoise
Definition: SHFeature.h:81
OpenMS::SHFeature::featureExtraInformation
std::string featureExtraInformation
Definition: SHFeature.h:99
OpenMS::SHFeature::TR
double TR
Definition: SHFeature.h:128
OpenMS::SHFeature::spectrum_ID
int spectrum_ID
Definition: SHFeature.h:94
OpenMS::SHFeature::PEAK_SCORE
double PEAK_SCORE
Definition: SHFeature.h:80
OpenMS::SHFeature::LCprofile
FeatureLCProfile * LCprofile
Definition: SHFeature.h:103
OpenMS::SHFeature::scan_apex
int scan_apex
Definition: SHFeature.h:75
OpenMS::SHFeature::charge_state
int charge_state
Definition: SHFeature.h:132
OpenMS::SHFeature::_MONO_H
static double _MONO_H
Definition: SHFeature.h:106
OpenMS::SHFeature::scan_start
int scan_start
Definition: SHFeature.h:76
OpenMS::SHFeature::MS2TraceFeature
MS2Feature * MS2TraceFeature
Definition: SHFeature.h:121
KDTree::operator==
bool operator==(_Iterator< _Val, _Ref, _Ptr > const &, _Iterator< _Val, _Ref, _Ptr > const &)
Definition: KDTree.h:806
OpenMS::SHFeature::MASTER_ID
int MASTER_ID
Definition: SHFeature.h:95
MS2Info.h
OpenMS::SHFeature::scan_end
int scan_end
Definition: SHFeature.h:77
OpenMS::SHFeature::feature_match_status
bool feature_match_status
Definition: SHFeature.h:89
OpenMS::SHFeature::alignment_error_up
double alignment_error_up
Definition: SHFeature.h:86
OpenMS::SHFeature::total_peak_area
double total_peak_area
Definition: SHFeature.h:78
OpenMS::SHFeature::_MONO_O
static double _MONO_O
Definition: SHFeature.h:107
OpenMS::MS2Info
Definition: MS2Info.h:58
OpenMS::SHFeature::SCORE_HOLDER
double SCORE_HOLDER
Definition: SHFeature.h:88
OpenMS::SHFeature::apex_peak_intensity
double apex_peak_intensity
Definition: SHFeature.h:79
OpenMS::SHFeature::MONO_MZ_ORIGINAL
double MONO_MZ_ORIGINAL
Definition: SHFeature.h:117
MS2Feature.h
OpenMS::SHFeature::alignment_error_down
double alignment_error_down
Definition: SHFeature.h:87
OpenMS::MS2Feature
Definition: MS2Feature.h:55