root/galaxy-central/tools/fastq/fastq_manipulation.xml

リビジョン 2, 24.3 KB (コミッタ: hatakeyama, 14 年 前)

import galaxy-central

行番号 
1<tool id="fastq_manipulation" name="Manipulate FASTQ" version="1.0.1">
2  <options sanitize="False" /> <!-- This tool uses a file to rely all parameter information (actually a dynamically generated python module), we can safely not sanitize any parameters -->
3  <description>reads on various attributes</description>
4  <command interpreter="python">fastq_manipulation.py $input_file $fastq_manipulation_file $output_file $output_file.files_path '${input_file.extension[len( 'fastq' ):]}'</command>
5  <inputs>
6    <!-- This tool is purposely over-engineered (e.g. Single option conditionals) to allow easy enhancement with workflow/rerun compatibility -->
7    <page>
8      <param name="input_file" type="data" format="fastqsanger,fastqcssanger" label="FASTQ File" help="Requires groomed data: if your data does not appear here try using the FASTQ groomer."/>
9      <!-- Match Reads -->
10      <repeat name="match_blocks" title="Match Reads">
11        <conditional name="match_type">
12          <param name="match_type_selector" type="select" label="Match Reads by">
13            <option value="identifier">Name/Identifier</option>
14            <option value="sequence">Sequence Content</option>
15            <option value="quality">Quality Score Content</option>
16          </param>
17          <when value="identifier">
18            <conditional name="match">
19              <param name="match_selector" type="select" label="Identifier Match Type">
20                <option value="regex">Regular Expression</option>
21              </param>
22              <when value="regex">
23                <param type="text" name="match_by" label="Match by" value=".*" />
24              </when>
25            </conditional>
26          </when>
27          <when value="sequence">
28            <conditional name="match">
29              <param name="match_selector" type="select" label="Sequence Match Type">
30                <option value="regex">Regular Expression</option>
31              </param>
32              <when value="regex">
33                <param type="text" name="match_by" label="Match by" value=".*" />
34              </when>
35            </conditional>
36          </when>
37          <when value="quality">
38            <conditional name="match">
39              <param name="match_selector" type="select" label="Quality Match Type">
40                <option value="regex">Regular Expression</option>
41              </param>
42              <when value="regex">
43                <param type="text" name="match_by" label="Match by" value=".*" />
44              </when>
45            </conditional>
46          </when>
47        </conditional>
48      </repeat>
49      <!-- Manipulate Matched Reads -->
50      <repeat name="manipulate_blocks" title="Manipulate Reads">
51        <conditional name="manipulation_type">
52          <param name="manipulation_type_selector" type="select" label="Manipulate Reads on">
53            <option value="identifier">Name/Identifier</option>
54            <option value="sequence">Sequence Content</option>
55            <option value="quality">Quality Score Content</option>
56            <option value="miscellaneous">Miscellaneous Actions</option>
57          </param>
58          <when value="identifier">
59            <conditional name="manipulation">
60              <param name="manipulation_selector" type="select" label="Identifier Manipulation Type">
61                <option value="translate">String Translate</option>
62              </param>
63              <when value="translate">
64                <param name="from" type="text" label="From" value="" />
65                <param name="to" type="text" label="To" value="" />
66              </when>
67            </conditional>
68          </when>
69          <when value="sequence">
70            <conditional name="manipulation">
71              <param name="manipulation_selector" type="select" label="Sequence Manipulation Type">
72                <option value="rev_comp">Reverse Complement</option>
73                <option value="rev_no_comp">Reverse, No Complement</option>
74                <option value="no_rev_comp">Complement, No Reverse</option>
75                <option value="trim">Trim</option>
76                <option value="dna_to_rna">DNA to RNA</option>
77                <option value="rna_to_dna">RNA to DNA</option>
78                <option value="translate">String Translate</option>
79                <option value="change_adapter">Change Adapter Base</option>
80              </param>
81              <when value="rev_comp">
82                <!-- no extra settings -->
83              </when>
84              <when value="rev_no_comp">
85                <!-- no extra settings -->
86              </when>
87              <when value="no_rev_comp">
88                <!-- no extra settings -->
89              </when>
90              <when value="trim">
91                <conditional name="offset_type">
92                  <param name="base_offset_type" type="select" label="Define Base Offsets as" help="Use Absolute for fixed length reads (Illumina, SOLiD)&lt;br&gt;Use Percentage for variable length reads (Roche/454)">
93                    <option value="offsets_absolute" selected="true">Absolute Values</option>
94                    <option value="offsets_percent">Percentage of Read Length</option>
95                  </param>
96                  <when value="offsets_absolute">
97                    <param name="left_column_offset" label="Offset from 5' end" value="0" type="integer" help="Values start at 0, increasing from the left">
98                      <validator type="in_range" message="Base Offsets must be positive" min="0" max="inf"/>
99                      <validator type="expression" message="An integer is required.">int( float( value ) ) == float( value )</validator>
100                    </param>
101                    <param name="right_column_offset" label="Offset from 3' end" value="0" type="integer" help="Values start at 0, increasing from the right">
102                      <validator type="in_range" message="Base Offsets must be positive" min="0" max="inf"/>
103                      <validator type="expression" message="An integer is required.">int( float( value ) ) == float( value )</validator>
104                    </param>
105                  </when>
106                  <when value="offsets_percent">
107                    <param name="left_column_offset" label="Offset from 5' end" value="0" type="float">
108                      <validator type="in_range" message="Base Offsets must be between 0 and 100" min="0" max="100"/>
109                    </param>
110                    <param name="right_column_offset" label="Offset from 3' end" value="0" type="float">
111                      <validator type="in_range" message="Base Offsets must be between 0 and 100" min="0" max="100"/>
112                    </param>
113                  </when>
114                </conditional>
115                <param name="keep_zero_length" label="Keep reads with zero length" type="boolean" truevalue="keep_zero_length" falsevalue="exclude_zero_length" selected="False"/>
116              </when>
117              <when value="dna_to_rna">
118                <!-- no extra settings -->
119              </when>
120              <when value="rna_to_dna">
121                <!-- no extra settings -->
122              </when>
123              <when value="translate">
124                <param name="from" type="text" label="From" value="" />
125                <param name="to" type="text" label="To" value="" />
126              </when>
127              <when value="change_adapter">
128                <param name="new_adapter" label="New Adapter" type="text" value="G" help="An empty string will remove the adapter base" />
129              </when>
130            </conditional>
131          </when>
132          <when value="quality">
133            <conditional name="manipulation">
134              <param name="manipulation_selector" type="select" label="Quality Manipulation Type">
135                <option value="translate">String Translate</option>
136                <!-- <option value="modify_each_score">Apply Transformation to each Score</option> Not enabled yet-->
137              </param>
138              <when value="translate">
139                <param name="from" type="text" label="From" value="" />
140                <param name="to" type="text" label="To" value="" />
141              </when>
142              <when value="modify_each_score">
143                <param name="map_score" type="text" label="Modify Score by" value="$score + 1" />
144              </when>
145            </conditional>
146          </when>
147          <when value="miscellaneous">
148            <conditional name="manipulation">
149              <param name="manipulation_selector" type="select" label="Miscellaneous Manipulation Type">
150                <option value="remove">Remove Read</option>
151              </param>
152              <when value="remove">
153                <!-- no extra settings -->
154              </when>
155            </conditional>
156          </when>
157        </conditional>
158      </repeat>
159    </page>
160  </inputs>
161  <configfiles>
162    <configfile name="fastq_manipulation_file">##create an importable module
163#import binascii
164import re
165import binascii
166from string import maketrans
167##does read match
168def match_read( fastq_read ):
169    #for $match_block in $match_blocks:
170        #if $match_block['match_type']['match_type_selector'] == 'identifier':
171    search_target = fastq_read.identifier[1:] ##don't include @
172        #elif $match_block['match_type']['match_type_selector'] == 'sequence':
173    search_target = fastq_read.sequence
174        #elif $match_block['match_type']['match_type_selector'] == 'quality':
175    search_target = fastq_read.quality
176        #else:
177        #continue
178        #end if
179    if not re.search( binascii.unhexlify( "${ binascii.hexlify( str( match_block['match_type']['match']['match_by'] ) ) }" ), search_target  ):
180        return False
181    #end for
182    return True
183##modify matched reads
184def manipulate_read( fastq_read ):
185    new_read = fastq_read.clone()
186    #for $manipulate_block in $manipulate_blocks:
187        #if $manipulate_block['manipulation_type']['manipulation_type_selector'] == 'identifier':
188            #if $manipulate_block['manipulation_type']['manipulation']['manipulation_selector'] == 'translate':
189    new_read.identifier = "@%s" % new_read.identifier[1:].translate( maketrans( binascii.unhexlify( "${ binascii.hexlify( str( manipulate_block['manipulation_type']['manipulation']['from'] ) ) }" ), binascii.unhexlify( "${ binascii.hexlify( str( manipulate_block['manipulation_type']['manipulation']['to'] ) ) }" ) ) )
190            #end if
191        #elif $manipulate_block['manipulation_type']['manipulation_type_selector'] == 'sequence':
192            #if $manipulate_block['manipulation_type']['manipulation']['manipulation_selector'] == 'translate':
193    new_read.sequence = new_read.sequence.translate( maketrans( binascii.unhexlify( "${ binascii.hexlify( str( manipulate_block['manipulation_type']['manipulation']['from'] ) ) }" ), binascii.unhexlify( "${ binascii.hexlify( str( manipulate_block['manipulation_type']['manipulation']['to'] ) ) }" ) ) )
194            #elif $manipulate_block['manipulation_type']['manipulation']['manipulation_selector'] == 'rev_comp':
195    new_read = new_read.reverse_complement()
196            #elif $manipulate_block['manipulation_type']['manipulation']['manipulation_selector'] == 'rev_no_comp':
197    new_read = new_read.reverse()
198            #elif $manipulate_block['manipulation_type']['manipulation']['manipulation_selector'] == 'no_rev_comp':
199    new_read = new_read.complement()
200            #elif $manipulate_block['manipulation_type']['manipulation']['manipulation_selector'] == 'trim':
201                #if $manipulate_block['manipulation_type']['manipulation']['offset_type']['base_offset_type'] == 'offsets_percent':
202    left_column_offset = int( round( float( ${ manipulate_block['manipulation_type']['manipulation']['offset_type']['left_column_offset'] } ) / 100.0 * float( len( new_read ) ) ) )
203    right_column_offset = int( round( float( ${ manipulate_block['manipulation_type']['manipulation']['offset_type']['right_column_offset'] } ) / 100.0 * float( len( new_read ) ) ) )
204                #else
205    left_column_offset = ${ manipulate_block['manipulation_type']['manipulation']['offset_type']['left_column_offset'] }
206    right_column_offset = ${ manipulate_block['manipulation_type']['manipulation']['offset_type']['right_column_offset'] }
207                #end if
208    if right_column_offset > 0:
209        right_column_offset = -right_column_offset
210    else:
211        right_column_offset = None
212    new_read = new_read.slice( left_column_offset, right_column_offset )
213    if not ( ${str( manipulate_block['manipulation_type']['manipulation']['keep_zero_length'] ) == 'keep_zero_length'} or len( new_read ) ):
214        return None
215            #elif $manipulate_block['manipulation_type']['manipulation']['manipulation_selector'] == 'dna_to_rna':
216    new_read = new_read.sequence_as_DNA()
217            #elif $manipulate_block['manipulation_type']['manipulation']['manipulation_selector'] == 'rna_to_dna':
218    new_read = new_read.sequence_as_RNA()
219            #elif $manipulate_block['manipulation_type']['manipulation']['manipulation_selector'] == 'change_adapter':
220    if new_read.sequence_space == 'color':
221        new_read = new_read.change_adapter( binascii.unhexlify( "${ binascii.hexlify( str( manipulate_block['manipulation_type']['manipulation']['new_adapter'] ) ) }" ) )
222            #end if
223        #elif $manipulate_block['manipulation_type']['manipulation_type_selector'] == 'quality':
224            #if $manipulate_block['manipulation_type']['manipulation']['manipulation_selector'] == 'translate':
225    new_read.quality = new_read.quality.translate( maketrans( binascii.unhexlify( "${ binascii.hexlify( str( manipulate_block['manipulation_type']['manipulation']['from'] ) ) }" ), binascii.unhexlify( "${ binascii.hexlify( str( manipulate_block['manipulation_type']['manipulation']['to'] ) ) }" ) ) )
226            #elif $manipulate_block['manipulation_type']['manipulation']['manipulation_selector'] == 'map_score':
227    def score_method( score ):
228        raise Exception, "Unimplemented" ##This option is not yet available, need to abstract out e.g. column adding tool action: preventing users from using 'harmful' actions
229        new_read.quality_map( score_method )
230            #end if
231        #elif $manipulate_block['manipulation_type']['manipulation_type_selector'] == 'miscellaneous':
232            #if $manipulate_block['manipulation_type']['manipulation']['manipulation_selector'] == 'remove':
233    return None
234            #end if
235        #else:
236        #continue
237        #end if
238    #end for
239    if new_read.description != "+":
240        new_read.description = "+%s" % new_read.identifier[1:] ##ensure description is still valid
241    return new_read
242def match_and_manipulate_read( fastq_read ):
243    new_read = fastq_read
244    if match_read( fastq_read ):
245        new_read = manipulate_read( fastq_read )
246    return new_read
247</configfile>
248  </configfiles>
249  <outputs>
250    <data format="input" name="output_file" />
251  </outputs>
252  <tests>
253    <!-- match all and do nothing -->
254    <test>
255      <param name="input_file" value="sanger_full_range_original_sanger.fastqsanger" ftype="fastqsanger" />
256      <param name="match_type_selector" value="identifier" />
257      <param name="match_selector" value="regex" />
258      <param name="match_by" value=".*" />
259      <param name="manipulation_type_selector" value="identifier" />
260      <param name="manipulation_selector" value="translate" />
261      <param name="from" value="" />
262      <param name="to" value="" />
263      <output name="output_file" file="sanger_full_range_original_sanger.fastqsanger" />
264    </test>
265    <!-- match None and do nothing -->
266    <test>
267      <param name="input_file" value="sanger_full_range_original_sanger.fastqsanger" ftype="fastqsanger" />
268      <param name="match_type_selector" value="identifier" />
269      <param name="match_selector" value="regex" />
270      <param name="match_by" value="STRINGDOESNOTEXIST" />
271      <param name="manipulation_type_selector" value="identifier" />
272      <param name="manipulation_selector" value="translate" />
273      <param name="from" value="" />
274      <param name="to" value="" />
275      <output name="output_file" file="sanger_full_range_original_sanger.fastqsanger" />
276    </test>
277    <!-- match all and remove -->
278    <test>
279      <param name="input_file" value="sanger_full_range_original_sanger.fastqsanger" ftype="fastqsanger" />
280      <param name="match_type_selector" value="identifier" />
281      <param name="match_selector" value="regex" />
282      <param name="match_by" value=".*" />
283      <param name="manipulation_type_selector" value="miscellaneous" />
284      <param name="manipulation_selector" value="remove" />
285      <output name="output_file" file="empty_file.dat" />
286    </test>
287    <!-- match None and remove -->
288    <test>
289      <param name="input_file" value="sanger_full_range_original_sanger.fastqsanger" ftype="fastqsanger" />
290      <param name="match_type_selector" value="identifier" />
291      <param name="match_selector" value="regex" />
292      <param name="match_by" value="STRINGDOESNOTEXIST" />
293      <param name="manipulation_type_selector" value="miscellaneous" />
294      <param name="manipulation_selector" value="remove" />
295      <output name="output_file" file="sanger_full_range_original_sanger.fastqsanger" />
296    </test>
297    <!-- match all and trim to 4 inner-most bases -->
298    <test>
299      <param name="input_file" value="sanger_full_range_original_sanger.fastqsanger" ftype="fastqsanger" />
300      <param name="match_type_selector" value="identifier" />
301      <param name="match_selector" value="regex" />
302      <param name="match_by" value=".*" />
303      <param name="manipulation_type_selector" value="sequence" />
304      <param name="manipulation_selector" value="trim" />
305      <param name="base_offset_type" value="offsets_absolute"/>
306      <param name="left_column_offset" value="45"/>
307      <param name="right_column_offset" value="45"/>
308      <param name="keep_zero_length" value="true" />
309      <output name="output_file" file="fastq_trimmer_out1.fastqsanger" />
310    </test>
311    <test>
312      <param name="input_file" value="sanger_full_range_original_sanger.fastqsanger" ftype="fastqsanger" />
313      <param name="match_type_selector" value="identifier" />
314      <param name="match_selector" value="regex" />
315      <param name="match_by" value=".*" />
316      <param name="manipulation_type_selector" value="sequence" />
317      <param name="manipulation_selector" value="trim" />
318      <param name="base_offset_type" value="offsets_percent"/>
319      <param name="left_column_offset" value="47.87"/>
320      <param name="right_column_offset" value="47.87"/>
321      <param name="keep_zero_length" value="true" />
322      <output name="output_file" file="fastq_trimmer_out1.fastqsanger" />
323    </test>
324    <!-- match all and rev comp -->
325    <test>
326      <param name="input_file" value="sanger_full_range_original_sanger.fastqsanger" ftype="fastqsanger" />
327      <param name="match_type_selector" value="identifier" />
328      <param name="match_selector" value="regex" />
329      <param name="match_by" value=".*" />
330      <param name="manipulation_type_selector" value="sequence" />
331      <param name="manipulation_selector" value="rev_comp" />
332      <output name="output_file" file="sanger_full_range_rev_comp.fastqsanger" />
333    </test>
334    <!-- match all and rev comp, with ambiguous DNA -->
335    <test>
336      <param name="input_file" value="misc_dna_original_sanger.fastqsanger" ftype="fastqsanger" />
337      <param name="match_type_selector" value="identifier" />
338      <param name="match_selector" value="regex" />
339      <param name="match_by" value=".*" />
340      <param name="manipulation_type_selector" value="sequence" />
341      <param name="manipulation_selector" value="rev_comp" />
342      <output name="output_file" file="misc_dna_as_sanger_rev_comp_1.fastqsanger" />
343    </test>
344    <!-- match all and rev comp, with ambiguous RNA -->
345    <test>
346      <param name="input_file" value="misc_rna_original_sanger.fastqsanger" ftype="fastqsanger" />
347      <param name="match_type_selector" value="identifier" />
348      <param name="match_selector" value="regex" />
349      <param name="match_by" value=".*" />
350      <param name="manipulation_type_selector" value="sequence" />
351      <param name="manipulation_selector" value="rev_comp" />
352      <output name="output_file" file="misc_rna_as_sanger_rev_comp_1.fastqsanger" />
353    </test>
354    <!-- match first seq and rev comp -->
355    <test>
356      <param name="input_file" value="sanger_full_range_original_sanger.fastqsanger" ftype="fastqsanger" />
357      <param name="match_type_selector" value="identifier" />
358      <param name="match_selector" value="regex" />
359      <param name="match_by" value="FAKE0001" />
360      <param name="manipulation_type_selector" value="sequence" />
361      <param name="manipulation_selector" value="rev_comp" />
362      <output name="output_file" file="sanger_full_range_rev_comp_1_seq.fastqsanger" />
363    </test>
364    <!-- match first seq and rev comp: i.e. undo above -->
365    <test>
366      <param name="input_file" value="sanger_full_range_rev_comp_1_seq.fastqsanger" ftype="fastqsanger" />
367      <param name="match_type_selector" value="identifier" />
368      <param name="match_selector" value="regex" />
369      <param name="match_by" value="FAKE0001" />
370      <param name="manipulation_type_selector" value="sequence" />
371      <param name="manipulation_selector" value="rev_comp" />
372      <output name="output_file" file="sanger_full_range_original_sanger.fastqsanger" />
373    </test>
374    <!-- match all and DNA to RNA -->
375    <test>
376      <param name="input_file" value="sanger_full_range_original_sanger.fastqsanger" ftype="fastqsanger" />
377      <param name="match_type_selector" value="identifier" />
378      <param name="match_selector" value="regex" />
379      <param name="match_by" value=".*" />
380      <param name="manipulation_type_selector" value="sequence" />
381      <param name="manipulation_selector" value="dna_to_rna" />
382      <output name="output_file" file="sanger_full_range_as_rna.fastqsanger" />
383    </test>
384    <!-- match all and RNA to DNA -->
385    <test>
386      <param name="input_file" value="sanger_full_range_as_rna.fastqsanger" ftype="fastqsanger" />
387      <param name="match_type_selector" value="identifier" />
388      <param name="match_selector" value="regex" />
389      <param name="match_by" value=".*" />
390      <param name="manipulation_type_selector" value="sequence" />
391      <param name="manipulation_selector" value="rna_to_dna" />
392      <output name="output_file" file="sanger_full_range_original_sanger.fastqsanger" />
393    </test>
394  </tests>
395<help>
396This tool allows you to build complex manipulations to be applied to each matching read in a FASTQ file. A read must match all matching directives in order for it to be manipulated; if a read does not match, it is output in a non-modified manner. All reads matching will have each of the specified manipulations performed upon them, in the order specified.
397
398Regular Expression Matches are made using re.search, see http://docs.python.org/library/re.html for more information.
399  All matching is performed on a single line string, regardless if e.g. the sequence or quality score spans multiple lines in the original file.
400
401String translations are performed using string.translate, see http://docs.python.org/library/string.html#string.translate and http://docs.python.org/library/string.html#string.maketrans for more information.
402
403.. class:: warningmark
404
405Only color space reads can have adapter bases substituted.
406
407
408-----
409
410**Example**
411
412Suppose you have a color space sanger formatted sequence (fastqcssanger) and you want to double-encode the color space into psuedo-nucleotide space (this is different from converting) to allow these reads to be used in tools which do not natively support it (using specially designed indexes). This tool can handle this manipulation, however, this is generally not recommended as results tend to be poorer than those produced from tools which are specially designed to handle color space data.
413
414Steps:
415
4161. Click **Add new Match Reads** and leave the matching options set to the default (Matching by sequence name/identifier using the regular expression "\*."; thereby matching all reads).
4172. Click **Add new Manipulate Reads**, change **Manipulate Reads on** to "Sequence Content", set **Sequence Manipulation Type** to "Change Adapter Base" and set **New Adapter** to "" (an empty text field).
4183. Click **Add new Manipulate Reads**, change **Manipulate Reads on** to "Sequence Content", set **Sequence Manipulation Type** to "String Translate" and set **From** to "0123." and **To** to "ACGTN".
4194. Click Execute. The new history item will contained double-encoded psuedo-nucleotide space reads.
420</help>
421</tool>
Note: リポジトリブラウザについてのヘルプは TracBrowser を参照してください。