def __call__(self, track, slice=None):
edir = EXPORTDIR
geneset = track
method = self.method
rst_text = []
for level in self.levels:
for fn in (
"%(edir)s/%(method)s/%(geneset)s_%(method)s_%(level)s_heatmap.png",
"%(edir)s/%(method)s/%(geneset)s_%(method)s_%(level)s_scvplot.png",
"%(edir)s/%(method)s/%(geneset)s_%(method)s_%(level)s_pvalue_vs_length.png"):
f = fn % locals()
if not os.path.exists(f):
continue
rst_text.append(".. figure:: %(f)s" % locals())
if rst_text:
rst_text = '''
%(geneset)s
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
''' % locals() + "\n\n".join( rst_text )
else:
rst_text = ""
return odict((("text", rst_text),))
def __call__(self, track, slice=None):
edir = EXPORTDIR
level = "gene"
geneset = slice
method = self.method
filename = "%(edir)s/%(method)s/%(geneset)s_%(method)s_%(level)s_fit_%(track)s.png" % locals()
# fitting information will not exist if there are no replicates
if not os.path.exists(filename):
return None
rst_text = (
"""
%(level)s %(track)s %(geneset)s
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
.. figure:: %(edir)s/%(method)s/%(geneset)s_%(method)s_%(level)s_fit_%(track)s.png
.. figure:: %(edir)s/%(method)s/%(geneset)s_%(method)s_%(level)s_residuals_%(track)s.png
"""
% locals()
)
return odict((("text", rst_text),))
def __call__(self, track, slice=None):
ANNOTATIONS_NAME = P['annotations_name']
try:
data1 = self.getValue("""SELECT count(distinct gene_id) as intervals
FROM %(track)s_replicated_%(ANNOTATIONS_NAME)s_overlap
where (genes_nover>0 OR downstream_flank_nover>0 OR upstream_flank_nover>0)""" % locals() )
except:
data1 = "0"
try:
data2 = self.getValue("""SELECT count(distinct gene_id) as intervals
FROM %(track)s_replicated_%(ANNOTATIONS_NAME)s_noncoding_tss_distance
where closest_dist < 1000""" % locals() )
except:
data2 = "0"
try:
data3 = self.getValue("""SELECT distinct count(distinct interval_id) as intervals, "enhancer" as feature_class
FROM %(track)s_replicated_h3k4me1_intervals""" % locals() )
except:
data3 = "0"
try:
data4 = self.getValue("""SELECT count(distinct gene_id) as intervals
FROM %(track)s_replicated_rnaseq_tss_distance
where closest_dist < 1000""" % locals() )
except:
data4 = "0"
try:
data5 = self.getValue("""SELECT count(distinct gene_id) as intervals
FROM %(track)s_replicated_lncrna_tss_distance
where closest_dist < 1000""" % locals() )
except:
data5 = "0"
return odict(list(zip(("Protein-coding TSS", "Non-coding TSS", "H3K4Me1 Enhancer", "RNAseq transcript", "lincRNA TSS"), (data1, data2, data3, data4, data5))))
def __call__(self, track, slice=None):
edir, method = EXPORTDIR, self.method
rst_text = []
geneset = track
for level in self.levels:
for x, y in itertools.combinations(EXPERIMENTS, 2):
filename = (
"%(edir)s/%(method)s/%(geneset)s_%(method)s_%(level)s_%(x)s_vs_%(y)s_significance.png" % locals()
)
if not os.path.exists(filename):
continue
rst_text.append(
"""
%(geneset)s %(level)s %(x)s vs %(y)s
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
.. figure:: %(filename)s
"""
% locals()
)
return odict((("text", "\n".join(rst_text)),))
def asMatrix(rownames, colnames, data):
nrows, ncols = len(rownames), len(colnames)
matrix = numpy.zeros((nrows, ncols))
for x, y in data:
try:
matrix[x, y] += 1
except IndexError:
pass
results = odict()
for x in range(nrows):
r = odict()
for y in range(ncols):
r[str(colnames[y])] = matrix[x, y]
results[str(rownames[x])] = r
return results
def __call__(self, track, slice=None):
data = self.get(
"SELECT track, annotation, round(expected,0) as expected, observed, round(fold,1) as fold, pvalue FROM long_intervals_gat_results "
)
return odict(
zip(("Dataset1", "Dataset2", "Expected overlap",
"Observed overlap", "Fold Enrichment", "P-value"),
zip(*data)))
def __call__(self, track, slice=None):
c = "%s_FPKM" % slice
table = track + "_levels"
if c not in self.getColumns(table):
return None
statement = '''SELECT %(slice)s_fpkm FROM %(table)s WHERE %(slice)s_fpkm > %(min_fpkm)f'''
data = self.getValues(statement)
return odict((("fpkm", data),))
def __call__(self, track, slice=None):
c = "%s_FPKM" % slice
table = track + "_levels"
if c not in self.getColumns(table):
return None
statement = '''SELECT %(slice)s_fpkm FROM %(table)s WHERE %(slice)s_fpkm > %(min_fpkm)f'''
data = self.getValues(statement)
return odict((("fpkm", data), ))
def __call__(self, track, slice=None):
vals = self.getValues( """SELECT avg(FPKM)
FROM %(track)s_cuffcompare_tracking AS t,
%(track)s_cuffcompare_transcripts AS a
WHERE code = '%(slice)s' AND
a.transfrag_id = t.transfrag_id
GROUP BY a.transfrag_id""" % locals() )
return odict((("fpkm", vals), ))
def __call__(self, track, slice=None):
vals = self.getValues("""SELECT avg(FPKM)
FROM %(track)s_cuffcompare_tracking AS t,
%(track)s_cuffcompare_transcripts AS a
WHERE code = '%(slice)s' AND
a.transfrag_id = t.transfrag_id
GROUP BY a.transfrag_id""" % locals())
return odict((("fpkm", vals), ))
def __call__(self, track, slice=None):
fn = "ortholog_pairs_with_feature.matrix2"
if not os.path.exists(fn):
return
x = IOTools.openFile(fn)
matrix, rownames, colnames = IOTools.readMatrix(x)
return odict(
(('matrix', matrix), ('rows', rownames), ('columns', colnames)))
def __call__(self, track, slice=None):
statement = '''SELECT pas.TRACK, pas.total_reads/2 as Total_read_pairs, pas.reads_aligned_in_pairs/2 as Aligned_pairs,
ROUND((pas.reads_aligned_in_pairs/2)*(1-strand_balance),0) as reverse, pds.read_pair_duplicates as duplicate_pairs
FROM picard_stats_alignment_summary_metrics pas, picard_duplicates_duplicate_metrics pds
WHERE pas.track=pds.track and pas.category='PAIR';'''
data = self.get(statement)
result = odict()
# Define tracks as first column
for d in data:
result[d[0]] = odict()
# Define slices as other columns
for d in data:
for s, v in zip(("total", "mapped", "reverse", "duplicates"), d[1:]):
result[d[0]][s] = v
# print result
return result
def __call__(self, track, slice=None):
fn = "ortholog_pairs_with_feature.matrix2"
if not os.path.exists(fn):
return
x = IOTools.openFile(fn)
matrix, rownames, colnames = IOTools.readMatrix(x)
return odict((('matrix', matrix),
('rows', rownames),
('columns', colnames)))
def __call__(self, track, slice=None):
c = "%s_FPKM" % slice
table = track + "_levels"
if c not in self.getColumns(table):
return None
# divide by two to get relative error
statement = '''SELECT (%(slice)s_conf_hi - %(slice)s_conf_lo ) / %(slice)s_fpkm / 2
FROM %(table)s WHERE %(slice)s_fpkm > %(min_fpkm)f'''
data = self.getValues(statement)
return odict((("relative_error", data), ))
def __call__(self, track, slice=None):
c = "%s_FPKM" % slice
table = track + "_levels"
if c not in self.getColumns(table):
return None
max_fpkm = float(
self.getValue('''SELECT max(%(slice)s_fpkm) FROM %(table)s'''))
statement = '''SELECT CAST( %(slice)s_fpkm AS FLOAT) / %(max_fpkm)f FROM %(table)s WHERE %(slice)s_fpkm > %(min_fpkm)f'''
data = self.getValues(statement)
return odict((("percent of max(fpkm)", data), ))
def __call__(self, track, slice=None):
c = "%s_FPKM" % slice
table = track + "_levels"
if c not in self.getColumns(table):
return None
# divide by two to get relative error
statement = '''SELECT (%(slice)s_conf_hi - %(slice)s_conf_lo ) / %(slice)s_fpkm / 2
FROM %(table)s WHERE %(slice)s_fpkm > %(min_fpkm)f'''
data = self.getValues(statement)
return odict((("relative_error", data),))
def __call__(self, track, slice=None):
c = "%s_FPKM" % slice
table = track + "_levels"
if c not in self.getColumns(table):
return None
max_fpkm = float(
self.getValue( '''SELECT max(%(slice)s_fpkm) FROM %(table)s'''))
statement = '''SELECT CAST( %(slice)s_fpkm AS FLOAT) / %(max_fpkm)f FROM %(table)s WHERE %(slice)s_fpkm > %(min_fpkm)f'''
data = self.getValues(statement)
return odict((("percent of max(fpkm)", data),))
def __call__(self, track, slice=None):
fn = "ortholog_pairs_with_feature.matrix2"
if not os.path.exists(fn):
return
x = open(fn)
data = odict()
for line in x:
temp = line.split()
name = temp[0]
scores = temp[1:]
data[name] = scores
return data
def __call__(self, track, slice=None):
fn = "ortholog_pairs_with_feature.matrix2"
if not os.path.exists(fn):
return
x = open(fn)
data = odict()
for line in x:
temp = line.split()
name = temp[0]
scores = temp[1:]
data[name] = scores
return data
def __call__(self, track, slice=None):
where = self.mWhere
select = self.mSelect
table = self.mTable
if slice == "all" or slice is None:
data = self.getFirstRow(
"%(select)s FROM %(track)s_%(table)s WHERE %(where)s" % locals())
else:
data = self.getFirstRow(
"%(select)s FROM %(track)s_%(table)s WHERE %(where)s AND is_%slices" % locals())
return odict(list(zip(self.mColumns, data)))
def __call__(self, track, slice=None):
where = self.mWhere
select = self.mSelect
table = self.mTable
if slice == "all" or slice is None:
data = self.getFirstRow(
"%(select)s FROM %(track)s_%(table)s WHERE %(where)s" % locals())
else:
data = self.getFirstRow(
"%(select)s FROM %(track)s_%(table)s WHERE %(where)s AND is_%slices" % locals())
return odict(list(zip(self.mColumns, data)))
def __call__(self, track, slice=None):
pair1, pair2 = track
a = self.get(
'''SELECT test_id, treatment_name, control_name FROM %(slice)s_%(pair1)s_gene_diff WHERE significant''')
b = self.get(
'''SELECT test_id, treatment_name, control_name FROM %(slice)s_%(pair2)s_gene_diff WHERE significant''')
a = set(map(str, a))
b = set(map(str, b))
return odict(((pair1, len(a)),
(pair2, len(b)),
("shared", len(a.intersection(b)))))
def __call__(self, track, slice=None):
annotations = self.mAnnotations
table = self.mTable
column, where = self.mColumn, self.mWhere
if not slice or slice == "all":
data = self.getValues(
"""SELECT %(column)s FROM %(track)s_%(table)s AS d WHERE %(where)s""" % locals() )
else:
data = self.getValues( """SELECT %(column)s FROM %(track)s_%(table)s AS d, %(track)s_%(annotations)s as a
WHERE d.gene_id = a.gene_id AND a.is_%(slice)s AND %(where)s""" % locals() )
hist, bins = numpy.histogram(
data, bins=numpy.arange(0, max(data) + 1, 1))
return odict(list(zip(list(map(str, bins[:-1])), hist)))
def __call__(self, track, slice=None):
annotations = self.mAnnotations
table = self.mTable
column, where = self.mColumn, self.mWhere
if not slice or slice == "all":
data = self.getValues(
"""SELECT %(column)s FROM %(track)s_%(table)s AS d WHERE %(where)s""" % locals() )
else:
data = self.getValues( """SELECT %(column)s FROM %(track)s_%(table)s AS d, %(track)s_%(annotations)s as a
WHERE d.gene_id = a.gene_id AND a.is_%(slice)s AND %(where)s""" % locals() )
hist, bins = numpy.histogram(
data, bins=numpy.arange(0, max(data) + 1, 1))
return odict(list(zip(list(map(str, bins[:-1])), hist)))
def __call__(self, track, slice=None):
data = self.getValues( """SELECT count(distinct gene_id) as intervals FROM (
SELECT gene_id,
CASE WHEN tss_gene_extended_pover1 > 0 THEN 'TSS'
WHEN upstream_flank_pover1 >0 THEN 'Upstream'
WHEN genes_pover1 > 0 THEN 'Gene'
WHEN downstream_flank_pover1 >0 THEN 'Downstream'
ELSE 'Intergenic'
END AS feature_class
FROM %(track)s_merged_ensembl_gene_overlap)
group by feature_class
order by feature_class asc""" % locals() )
result = odict(
zip(("Downstream", "Gene", "Intergenic", "TSS", "Upstream"), data))
return result
def __call__(self, track, slice=None):
data = self.getValues( """SELECT count(distinct gene_id) as intervals FROM (
SELECT gene_id,
CASE WHEN tss_gene_extended_pover1 > 0 THEN 'TSS'
WHEN upstream_flank_pover1 >0 THEN 'Upstream'
WHEN genes_pover1 > 0 THEN 'Gene'
WHEN downstream_flank_pover1 >0 THEN 'Downstream'
ELSE 'Intergenic'
END AS feature_class
FROM %(track)s_merged_ensembl_gene_overlap)
group by feature_class
order by feature_class asc""" % locals() )
result = odict(
list(zip(("Downstream", "Gene", "Intergenic", "TSS", "Upstream"), data)))
return result
def __call__(self, track, slice=None):
data = self.getFirstRow( """SELECT round(sum(length*pGC)/sum(length),3) as mean_GC,
round(sum(length*CpG_ObsExp)/sum(length),3) as mean_CpG_ObsExp,
round(sum(length*pCpG)/sum(length),3) as mean_CpG
FROM annotations.genome
WHERE id <> 'total'
AND id not like 'chrX%%'
AND id not like 'chrY%%'
AND id not like 'chrW%%'
AND id not like 'chrZ%%'
AND id not like 'chrM%%'
AND id not like '%%random%%' """ )
mColumns = ["GC content", "CpG Obs/Exp", "CpG density"]
return odict(zip(mColumns, data))
def __call__(self, track):
r = odict()
r["total"] = self.getValue(
'''SELECT reads_total FROM bam_stats WHERE track = '%(track)s' ''' )
mapped = self.getValue(
'''SELECT reads_mapped FROM bam_stats WHERE track = '%(track)s' ''' )
r["mapped"] = mapped
statement = '''SELECT SUM(sense_nreads) + SUM(antisense_nreads) AS anysense,
CAST((SUM(sense_nreads) + SUM(antisense_nreads)) AS FLOAT) / %(mapped)i AS anysense_percent,
SUM(antisense_nreads) AS antisense,
CAST(SUM(antisense_nreads) AS FLOAT) / %(mapped)i AS antisense_percent,
SUM(sense_nreads) AS sense,
CAST(SUM(sense_nreads) AS FLOAT) / %(mapped)i AS sense_percent,
CAST(SUM(antisense_nreads) AS FLOAT)/ (SUM(antisense_nreads) + SUM(sense_nreads) ) AS ratio
FROM %(track)s_%(section)s_coverage '''
r.update(self.getRow(statement))
return r
def __call__(self, track, slice=None):
data = self.getFirstRow(
"""SELECT round(sum(length*pGC)/sum(length),3) as mean_GC,
round(sum(length*CpG_ObsExp)/sum(length),3) as mean_CpG_ObsExp,
round(sum(length*pCpG)/sum(length),3) as mean_CpG
FROM annotations.genome
WHERE id <> 'total'
AND id not like 'chrX%%'
AND id not like 'chrY%%'
AND id not like 'chrW%%'
AND id not like 'chrZ%%'
AND id not like 'chrM%%'
AND id not like '%%random%%' """)
mColumns = ["GC content", "CpG Obs/Exp", "CpG density"]
return odict(list(zip(mColumns, data)))
def __call__(self, track, slice=None):
ANNOTATIONS_NAME = P['annotations_name']
try:
data1 = self.getValue(
"""SELECT count(distinct gene_id) as intervals
FROM %(track)s_replicated_%(ANNOTATIONS_NAME)s_overlap
where (genes_nover>0 OR downstream_flank_nover>0 OR upstream_flank_nover>0)"""
% locals())
except:
data1 = "0"
try:
data2 = self.getValue(
"""SELECT count(distinct gene_id) as intervals
FROM %(track)s_replicated_%(ANNOTATIONS_NAME)s_noncoding_tss_distance
where closest_dist < 1000""" % locals())
except:
data2 = "0"
try:
data3 = self.getValue(
"""SELECT distinct count(distinct interval_id) as intervals, "enhancer" as feature_class
FROM %(track)s_replicated_h3k4me1_intervals"""
% locals())
except:
data3 = "0"
try:
data4 = self.getValue(
"""SELECT count(distinct gene_id) as intervals
FROM %(track)s_replicated_rnaseq_tss_distance
where closest_dist < 1000""" %
locals())
except:
data4 = "0"
try:
data5 = self.getValue(
"""SELECT count(distinct gene_id) as intervals
FROM %(track)s_replicated_lncrna_tss_distance
where closest_dist < 1000""" %
locals())
except:
data5 = "0"
return odict(
list(
zip(("Protein-coding TSS", "Non-coding TSS",
"H3K4Me1 Enhancer", "RNAseq transcript", "lincRNA TSS"),
(data1, data2, data3, data4, data5))))
def __call__(self, track, slice=None):
table = self.mTable
where = self.mWhere
data = self.getValues( """ SELECT count(distinct gene_id) as intervals FROM (
SELECT gene_id,
CASE WHEN %(where)s > 0 THEN 'TSS'
WHEN genes_pover1 > 0 THEN 'Gene'
WHEN upstream_flank_pover1 >0 THEN 'Upstream'
WHEN downstream_flank_pover1 >0 THEN 'Downstream'
ELSE 'Intergenic'
END AS feature_class
FROM %(track)s%(table)s)
group by feature_class
order by feature_class asc""" % locals() )
result = odict(
list(zip(("Downstream", "Gene", "Intergenic", "TSS", "Upstream"), data)))
return result
def __call__(self, track, slice=None):
data = self.getFirstRow("""SELECT
sum(is_cds) AS cds,
sum(is_utr) AS utr,
sum(is_upstream) AS upstream,
sum(is_downstream) AS downstream,
sum(is_intronic) AS intronic,
sum(is_intergenic) AS intergenic,
sum(is_flank) AS flank,
sum(is_ambiguous) AS ambiguous
FROM cgi_annotations""")
mColumns = [
"cds", "utr", "upstream", "downstream", "intronic", "intergenic",
"flank", "ambiguous"
]
return odict(list(zip(mColumns, data)))
def __call__(self, track, slice=None):
table = self.mTable
where = self.mWhere
data = self.getValues( """ SELECT count(distinct gene_id) as intervals FROM (
SELECT gene_id,
CASE WHEN %(where)s > 0 THEN 'TSS'
WHEN genes_pover1 > 0 THEN 'Gene'
WHEN upstream_flank_pover1 >0 THEN 'Upstream'
WHEN downstream_flank_pover1 >0 THEN 'Downstream'
ELSE 'Intergenic'
END AS feature_class
FROM %(track)s%(table)s)
group by feature_class
order by feature_class asc""" % locals() )
result = odict(
zip(("Downstream", "Gene", "Intergenic", "TSS", "Upstream"), data))
return result
def __call__(self, track, slice=None):
edir, method = EXPORTDIR, self.method
rst_text = []
geneset = track
for level in self.levels:
for x, y in itertools.combinations(EXPERIMENTS, 2):
filename = "%(edir)s/%(method)s/%(geneset)s_%(method)s_%(level)s_%(x)s_vs_%(y)s_significance.png" % locals()
if not os.path.exists(filename):
continue
rst_text.append('''
%(geneset)s %(level)s %(x)s vs %(y)s
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
.. figure:: %(filename)s
''' % locals())
return odict((("text", "\n".join(rst_text)),))
def __call__(self, track, slice=None):
data = self.getFirstRow( """SELECT
sum(is_cds) AS cds,
sum(is_utr) AS utr,
sum(is_upstream) AS upstream,
sum(is_downstream) AS downstream,
sum(is_intronic) AS intronic,
sum(is_intergenic) AS intergenic,
sum(is_flank) AS flank,
sum(is_ambiguous) AS ambiguous
FROM cgi_annotations""" )
mColumns = ["cds",
"utr",
"upstream",
"downstream",
"intronic",
"intergenic",
"flank",
"ambiguous"]
return odict(zip(mColumns, data))
def __call__(self, track, slice=None):
edir = EXPORTDIR
level = "gene"
geneset = slice
method = self.method
filename = "%(edir)s/%(method)s/%(geneset)s_%(method)s_%(level)s_fit_%(track)s.png" % locals()
# fitting information will not exist if there are no replicates
if not os.path.exists(filename):
return None
rst_text = '''
%(level)s %(track)s %(geneset)s
+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
.. figure:: %(edir)s/%(method)s/%(geneset)s_%(method)s_%(level)s_fit_%(track)s.png
.. figure:: %(edir)s/%(method)s/%(geneset)s_%(method)s_%(level)s_residuals_%(track)s.png
''' % locals()
return odict((("text", rst_text),))
def __call__(self, track, slice=None):
statement = '''SELECT SUM(CASE WHEN nover>0 THEN 1 ELSE 0 END) as with, SUM(CASE WHEN nover=0 THEN 1 ELSE 0 END) AS without
FROM %(track)s_merged_repeats '''
return odict(list(zip(("with", "without"), self.getFirstRow(statement))))
def __call__(self, track, slice=None):
statement = '''SELECT SUM(CASE WHEN nover>0 THEN 1 ELSE 0 END) as with, SUM(CASE WHEN nover=0 THEN 1 ELSE 0 END) AS without
FROM %(track)s_merged_repeats '''
return odict(zip(("with", "without"), self.getFirstRow(statement)))
def __call__(self, track, slice=None):
statement = self.getStatement(track, slice)
if not statement:
return []
return odict(list(zip(("with", "without"), self.getFirstRow(statement))))
def __call__(self, track, slice=None):
data = self.get(
"SELECT track, annotation, round(expected,0) as expected, observed, round(fold,1) as fold, pvalue FROM overlapped_genes_gat_results ")
return odict(list(zip(("Dataset1", "Dataset2", "Expected overlap", "Observed overlap", "Fold Enrichment", "P-value"), list(zip(*data)))))
def __call__(self, track):
statement = '''SELECT sense_nreads
FROM %(track)s_%(section)s_coverage
ORDER BY gene_id'''
return odict((("nreads", self.getValues(statement)),))
def __call__(self, track):
statement = '''SELECT CAST(antisense_nreads AS FLOAT)/ (antisense_nreads + sense_nreads ) AS proportion
FROM %(track)s_%(section)s_coverage
ORDER BY gene_id'''
return odict((("proportion", self.getValues(statement)),))
def __call__(self, track, slice=None):
return odict(
(('mean',
self.getValues('''SELECT mean FROM %(track)s_mappability''')), ))
def __call__(self, track):
statement = '''SELECT nfailed FROM %(table)s WHERE %(track)s_nh > 0 LIMIT %(limit)i'''
return odict(((track, self.getValues(statement)),))
def __call__(self, track, slice=None):
statement = self.getStatement(track, slice)
if not statement:
return []
return odict(
list(zip(("with", "without"), self.getFirstRow(statement))))
def __call__(self, track, slice=None):
return odict( (('mean', self.getValues( '''SELECT mean FROM %(track)s_mappability''' )), ))
