Clover icon

Coverage Report

  1. Project Clover database Thu Nov 7 2024 10:11:34 GMT
  2. Package jalview.api

File FeatureRenderer.java

 

Code metrics

0
0
0
1
309
44
0
-
-
0
-

Classes

Class Line # Actions
FeatureRenderer 39 0 0
-1.0 -
 

Contributing tests

No tests hitting this source file were found.

Source view

1    /*
2    * Jalview - A Sequence Alignment Editor and Viewer ($$Version-Rel$$)
3    * Copyright (C) $$Year-Rel$$ The Jalview Authors
4    *
5    * This file is part of Jalview.
6    *
7    * Jalview is free software: you can redistribute it and/or
8    * modify it under the terms of the GNU General Public License
9    * as published by the Free Software Foundation, either version 3
10    * of the License, or (at your option) any later version.
11    *
12    * Jalview is distributed in the hope that it will be useful, but
13    * WITHOUT ANY WARRANTY; without even the implied warranty
14    * of MERCHANTABILITY or FITNESS FOR A PARTICULAR
15    * PURPOSE. See the GNU General Public License for more details.
16    *
17    * You should have received a copy of the GNU General Public License
18    * along with Jalview. If not, see <http://www.gnu.org/licenses/>.
19    * The Jalview Authors are detailed in the 'AUTHORS' file.
20    */
21    package jalview.api;
22   
23    import jalview.datamodel.MappedFeatures;
24    import jalview.datamodel.SequenceFeature;
25    import jalview.datamodel.SequenceI;
26    import jalview.datamodel.features.FeatureMatcherSetI;
27   
28    import java.awt.Color;
29    import java.awt.Graphics;
30    import java.util.List;
31    import java.util.Map;
32   
33    /**
34    * Abstract feature renderer interface
35    *
36    * @author JimP
37    *
38    */
 
39    public interface FeatureRenderer
40    {
41   
42    /**
43    * Computes the feature colour for a given sequence and column position,
44    * taking into account sequence feature locations, feature colour schemes,
45    * render ordering, feature and feature group visibility, and transparency.
46    * <p>
47    * The graphics argument should be provided if transparency is applied
48    * (getTransparency() < 1). With feature transparency, visible features are
49    * written to the graphics context and the composite colour may be read off
50    * from it. In this case, the returned feature colour is not the composite
51    * colour but that of the last feature drawn.
52    * <p>
53    * If no transparency applies, then the graphics argument may be null, and the
54    * returned colour is the one that would be drawn for the feature.
55    * <p>
56    * Returns null if there is no visible feature at the position.
57    * <p>
58    * This is provided to support rendering of feature colours other than on the
59    * sequence alignment, including by structure viewers and the overview window.
60    * Note this method takes no account of whether the sequence or column is
61    * hidden.
62    *
63    * @param sequence
64    * @param column
65    * aligned column position (1..)
66    * @param g
67    * @return
68    */
69    Color findFeatureColour(SequenceI sequence, int column, Graphics g);
70   
71    /**
72    * trigger the feature discovery process for a newly created feature renderer.
73    */
74    void featuresAdded();
75   
76    /**
77    *
78    * @param ft
79    * @return display style for a feature
80    */
81    FeatureColourI getFeatureStyle(String ft);
82   
83    /**
84    * update the feature style for a particular feature
85    *
86    * @param ft
87    * @param ggc
88    */
89    void setColour(String ft, FeatureColourI ggc);
90   
91    AlignViewportI getViewport();
92   
93    /**
94    *
95    * @return container managing list of feature types and their visibility
96    */
97    FeaturesDisplayedI getFeaturesDisplayed();
98   
99    /**
100    * get display style for all features types - visible or invisible
101    *
102    * @return
103    */
104    Map<String, FeatureColourI> getFeatureColours();
105   
106    /**
107    * query the alignment view to find all features
108    *
109    * @param newMadeVisible
110    * - when true, automatically make newly discovered types visible
111    */
112    void findAllFeatures(boolean newMadeVisible);
113   
114    /**
115    * get display style for all features types currently visible
116    *
117    * @return
118    */
119    Map<String, FeatureColourI> getDisplayedFeatureCols();
120   
121    /**
122    * get all registered groups
123    *
124    * @return
125    */
126    List<String> getFeatureGroups();
127   
128    /**
129    * get groups that are visible/invisible
130    *
131    * @param visible
132    * @return
133    */
134    List<String> getGroups(boolean visible);
135   
136    /**
137    * Set visibility for a list of groups
138    *
139    * @param toset
140    * @param visible
141    */
142    void setGroupVisibility(List<String> toset, boolean visible);
143   
144    /**
145    * Set visibility of the given feature group
146    *
147    * @param group
148    * @param visible
149    */
150    void setGroupVisibility(String group, boolean visible);
151   
152    /**
153    * Returns visible features at the specified aligned column on the given
154    * sequence. Non-positional features are not included. If the column has a
155    * gap, then enclosing features are included (but not contact features).
156    *
157    * @param sequence
158    * @param column
159    * aligned column position (1..)
160    * @return
161    */
162    List<SequenceFeature> findFeaturesAtColumn(SequenceI sequence,
163    int column);
164   
165    /**
166    * Returns features at the specified residue positions on the given sequence.
167    * Non-positional features are not included. Features are returned in render
168    * order of their feature type (last is on top). Within feature type, ordering
169    * is undefined.
170    *
171    * @param sequence
172    * @param fromResNo
173    * @param toResNo
174    * @return
175    */
176    List<SequenceFeature> findFeaturesAtResidue(SequenceI sequence,
177    int fromResNo, int toResNo);
178   
179    /**
180    * get current displayed types, in ordering of rendering (on top last)
181    *
182    * @return a (possibly empty) list of feature types
183    */
184   
185    List<String> getDisplayedFeatureTypes();
186   
187    /**
188    * Returns a (possibly empty) list of currently visible feature groups
189    *
190    * @return
191    */
192    List<String> getDisplayedFeatureGroups();
193   
194    /**
195    * display all features of these types
196    *
197    * @param featureTypes
198    */
199    void setAllVisible(List<String> featureTypes);
200   
201    /**
202    * display featureType
203    *
204    * @param featureType
205    */
206    void setVisible(String featureType);
207   
208    /**
209    * Sets the transparency value, between 0 (full transparency) and 1 (no
210    * transparency)
211    *
212    * @param value
213    */
214    void setTransparency(float value);
215   
216    /**
217    * Returns the transparency value, between 0 (full transparency) and 1 (no
218    * transparency)
219    *
220    * @return
221    */
222    float getTransparency();
223   
224    /**
225    * Answers the filters applied to the given feature type, or null if none is
226    * set
227    *
228    * @param featureType
229    * @return
230    */
231    FeatureMatcherSetI getFeatureFilter(String featureType);
232   
233    /**
234    * Answers the feature filters map
235    *
236    * @return
237    */
238    public Map<String, FeatureMatcherSetI> getFeatureFilters();
239   
240    /**
241    * Sets the filters for the feature type, or removes them if a null or empty
242    * filter is passed
243    *
244    * @param featureType
245    * @param filter
246    */
247    void setFeatureFilter(String featureType, FeatureMatcherSetI filter);
248   
249    /**
250    * Replaces all feature filters with the given map
251    *
252    * @param filters
253    */
254    void setFeatureFilters(Map<String, FeatureMatcherSetI> filters);
255   
256    /**
257    * Returns the colour for a particular feature instance. This includes
258    * calculation of 'colour by label', or of a graduated score colour, if
259    * applicable.
260    * <p>
261    * Returns null if
262    * <ul>
263    * <li>feature group is not visible, or</li>
264    * <li>feature values lie outside any colour threshold, or</li>
265    * <li>feature is excluded by filter conditions</li>
266    * </ul>
267    * This method does not check feature type visibility.
268    *
269    * @param feature
270    * @return
271    */
272    Color getColour(SequenceFeature feature);
273   
274    /**
275    * Answers true if feature would be shown, else false. A feature is shown if
276    * <ul>
277    * <li>its feature type is set to visible</li>
278    * <li>its feature group is either null, or set to visible</li>
279    * <li>it is not excluded by a colour threshold on score or other numeric
280    * attribute</li>
281    * <li>it is not excluded by a filter condition</li>
282    * </ul>
283    *
284    * @param feature
285    * @return
286    */
287    boolean isVisible(SequenceFeature feature);
288   
289    /**
290    * Answers a bean containing a mapping, and a list of visible features in this
291    * alignment at a position (or range) which is mappable from the given
292    * sequence residue position in a mapped alignment. Features are returned in
293    * render order of feature type (on top last), with order within feature type
294    * undefined. If no features or mapping are found, answers null.
295    *
296    * @param sequence
297    * @param pos
298    * @return
299    */
300    MappedFeatures findComplementFeaturesAtResidue(SequenceI sequence,
301    int pos);
302   
303    /**
304    * Sends a message to let any registered parties know that something about
305    * feature rendering has changed
306    */
307    void notifyFeaturesChanged();
308   
309    }