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-rwxr-xr-xwqflask/base/data_set.py85
-rwxr-xr-xwqflask/base/mrna_assay_tissue_data.py11
-rwxr-xr-xwqflask/base/trait.py4
-rwxr-xr-xwqflask/wqflask/correlation/show_corr_results.py53
-rwxr-xr-xwqflask/wqflask/interval_mapping/interval_mapping.py38
-rwxr-xr-xwqflask/wqflask/marker_regression/marker_regression.py216
-rw-r--r--wqflask/wqflask/static/new/css/panelutil.css87
-rwxr-xr-xwqflask/wqflask/static/new/javascript/bar_chart.coffee7
-rwxr-xr-xwqflask/wqflask/static/new/javascript/bar_chart.js7
-rwxr-xr-xwqflask/wqflask/static/new/javascript/chr_manhattan_plot.coffee45
-rwxr-xr-xwqflask/wqflask/static/new/javascript/chr_manhattan_plot.js32
-rw-r--r--wqflask/wqflask/static/new/javascript/interval_map_new.coffee71
-rw-r--r--wqflask/wqflask/static/new/javascript/interval_map_new.js48
-rw-r--r--wqflask/wqflask/static/new/javascript/lod_chart.coffee550
-rw-r--r--wqflask/wqflask/static/new/javascript/lod_chart.js562
-rwxr-xr-xwqflask/wqflask/static/new/javascript/marker_regression.coffee48
-rwxr-xr-xwqflask/wqflask/static/new/javascript/marker_regression.js36
-rw-r--r--wqflask/wqflask/static/new/javascript/panelutil.coffee205
-rw-r--r--wqflask/wqflask/static/new/javascript/panelutil.js324
-rw-r--r--wqflask/wqflask/static/new/javascript/scatterplot.coffee407
-rw-r--r--wqflask/wqflask/static/new/javascript/scatterplot.js406
-rwxr-xr-xwqflask/wqflask/static/new/javascript/show_trait_mapping_tools.coffee10
-rwxr-xr-xwqflask/wqflask/static/new/javascript/show_trait_mapping_tools.js10
-rw-r--r--wqflask/wqflask/static/new/js_external/d3-tip.min.js1
-rwxr-xr-xwqflask/wqflask/templates/correlation_page.html26
-rwxr-xr-xwqflask/wqflask/templates/interval_mapping.html9
-rwxr-xr-xwqflask/wqflask/templates/show_trait_details.html4
-rwxr-xr-xwqflask/wqflask/templates/show_trait_mapping_tools.html4
-rwxr-xr-xwqflask/wqflask/templates/show_trait_progress_bar.html13
-rwxr-xr-xwqflask/wqflask/templates/show_trait_statistics_new.html8
-rwxr-xr-xwqflask/wqflask/user_manager.py5
-rwxr-xr-xwqflask/wqflask/views.py2
32 files changed, 3156 insertions, 178 deletions
diff --git a/wqflask/base/data_set.py b/wqflask/base/data_set.py
index f4ca3ae0..a2b13748 100755
--- a/wqflask/base/data_set.py
+++ b/wqflask/base/data_set.py
@@ -167,28 +167,56 @@ class Markers(object):
marker['Mb'] = float(marker['Mb'])
self.markers = markers
- print("self.markers:", self.markers)
+ #print("self.markers:", self.markers)
def add_pvalues(self, p_values):
print("length of self.markers:", len(self.markers))
print("length of p_values:", len(p_values))
- # THIS IS only needed for the case when we are limiting the number of p-values calculated
- if len(self.markers) < len(p_values):
- self.markers = self.markers[:len(p_values)]
-
- for marker, p_value in itertools.izip(self.markers, p_values):
- if not p_value:
- continue
- marker['p_value'] = float(p_value)
- if math.isnan(marker['p_value']) or marker['p_value'] <= 0:
- marker['lod_score'] = 0
- marker['lrs_value'] = 0
- else:
- marker['lod_score'] = -math.log10(marker['p_value'])
- #Using -log(p) for the LRS; need to ask Rob how he wants to get LRS from p-values
- marker['lrs_value'] = -math.log10(marker['p_value']) * 4.61
+ if type(p_values) is list:
+ # THIS IS only needed for the case when we are limiting the number of p-values calculated
+ #if len(self.markers) > len(p_values):
+ # self.markers = self.markers[:len(p_values)]
+
+ for marker, p_value in itertools.izip(self.markers, p_values):
+ if not p_value:
+ continue
+ marker['p_value'] = float(p_value)
+ if math.isnan(marker['p_value']) or marker['p_value'] <= 0:
+ marker['lod_score'] = 0
+ marker['lrs_value'] = 0
+ else:
+ marker['lod_score'] = -math.log10(marker['p_value'])
+ #Using -log(p) for the LRS; need to ask Rob how he wants to get LRS from p-values
+ marker['lrs_value'] = -math.log10(marker['p_value']) * 4.61
+ elif type(p_values) is dict:
+ filtered_markers = []
+ for marker in self.markers:
+ #print("marker[name]", marker['name'])
+ #print("p_values:", p_values)
+ if marker['name'] in p_values:
+ #print("marker {} IS in p_values".format(i))
+ marker['p_value'] = p_values[marker['name']]
+ if math.isnan(marker['p_value']) or (marker['p_value'] <= 0):
+ marker['lod_score'] = 0
+ marker['lrs_value'] = 0
+ else:
+ marker['lod_score'] = -math.log10(marker['p_value'])
+ #Using -log(p) for the LRS; need to ask Rob how he wants to get LRS from p-values
+ marker['lrs_value'] = -math.log10(marker['p_value']) * 4.61
+ filtered_markers.append(marker)
+ #else:
+ #print("marker {} NOT in p_values".format(i))
+ #self.markers.remove(marker)
+ #del self.markers[i]
+ self.markers = filtered_markers
+
+ #for i, marker in enumerate(self.markers):
+ # if not 'p_value' in marker:
+ # #print("self.markers[i]", self.markers[i])
+ # del self.markers[i]
+ # #self.markers.remove(self.markers[i])
class HumanMarkers(Markers):
@@ -226,15 +254,15 @@ class HumanMarkers(Markers):
# #Using -log(p) for the LRS; need to ask Rob how he wants to get LRS from p-values
# marker['lrs_value'] = -math.log10(marker['p_value']) * 4.61
- print("p_values2:", p_values)
+ #print("p_values2:", pf(p_values))
super(HumanMarkers, self).add_pvalues(p_values)
- with Bench("deleting markers"):
- markers = []
- for marker in self.markers:
- if not marker['Mb'] <= 0 and not marker['chr'] == 0:
- markers.append(marker)
- self.markers = markers
+ #with Bench("deleting markers"):
+ # markers = []
+ # for marker in self.markers:
+ # if not marker['Mb'] <= 0 and not marker['chr'] == 0:
+ # markers.append(marker)
+ # self.markers = markers
@@ -254,7 +282,7 @@ class DatasetGroup(object):
self.name = "BXD"
self.f1list = None
- self.parlist = None
+ self.parlist = None
self.get_f1_parent_strains()
#print("parents/f1s: {}:{}".format(self.parlist, self.f1list))
@@ -476,8 +504,9 @@ class DataSet(object):
else:
self.samplelist = self.group.samplelist
- if (self.group.parlist + self.group.f1list) in self.samplelist:
- self.samplelist += self.group.parlist + self.group.f1list
+ if self.group.parlist != None and self.group.f1list != None:
+ if (self.group.parlist + self.group.f1list) in self.samplelist:
+ self.samplelist += self.group.parlist + self.group.f1list
query = """
SELECT Strain.Name, Strain.Id FROM Strain, Species
@@ -547,7 +576,11 @@ class DataSet(object):
order by {}.Id
""".format(*mescape(self.type, self.type, self.type, self.type,
self.name, dataset_type, self.type, self.type, dataset_type))
+
+ #print("trait data query: ", query)
+
results = g.db.execute(query).fetchall()
+ #print("query results:", results)
trait_sample_data.append(results)
trait_count = len(trait_sample_data[0])
diff --git a/wqflask/base/mrna_assay_tissue_data.py b/wqflask/base/mrna_assay_tissue_data.py
index be5df657..1a05fce7 100755
--- a/wqflask/base/mrna_assay_tissue_data.py
+++ b/wqflask/base/mrna_assay_tissue_data.py
@@ -19,6 +19,8 @@ class MrnaAssayTissueData(object):
if self.gene_symbols == None:
self.gene_symbols = []
+ print("self.gene_symbols:", self.gene_symbols)
+
self.data = collections.defaultdict(Bunch)
#self.gene_id_dict ={}
@@ -28,7 +30,7 @@ class MrnaAssayTissueData(object):
#self.desc_dict = {}
#self.probe_target_desc_dict = {}
- query = '''select t.Symbol, t.GeneId, t.DataId,t.Chr, t.Mb, t.description, t.Probe_Target_Description
+ query = '''select t.Symbol, t.GeneId, t.DataId, t.Chr, t.Mb, t.description, t.Probe_Target_Description
from (
select Symbol, max(Mean) as maxmean
from TissueProbeSetXRef
@@ -53,6 +55,7 @@ class MrnaAssayTissueData(object):
'''.format(in_clause)
results = g.db.execute(query).fetchall()
+
for result in results:
symbol = result[0]
if symbol in gene_symbols:
@@ -66,7 +69,7 @@ class MrnaAssayTissueData(object):
self.data[symbol].description = result.description
self.data[symbol].probe_target_description = result.Probe_Target_Description
- #print("self.data: ", pf(self.data))
+ print("self.data: ", pf(self.data))
###########################################################################
#Input: cursor, symbolList (list), dataIdDict(Dict)
@@ -79,6 +82,8 @@ class MrnaAssayTissueData(object):
def get_symbol_values_pairs(self):
id_list = [self.data[symbol].data_id for symbol in self.data]
+ print("id_list:", id_list)
+
symbol_values_dict = {}
query = """SELECT TissueProbeSetXRef.Symbol, TissueProbeSetData.value
@@ -86,6 +91,8 @@ class MrnaAssayTissueData(object):
WHERE TissueProbeSetData.Id IN {} and
TissueProbeSetXRef.DataId = TissueProbeSetData.Id""".format(db_tools.create_in_clause(id_list))
+ print("TISSUE QUERY:", query)
+
results = g.db.execute(query).fetchall()
for result in results:
if result.Symbol.lower() not in symbol_values_dict:
diff --git a/wqflask/base/trait.py b/wqflask/base/trait.py
index 712d9af5..3f80d4a4 100755
--- a/wqflask/base/trait.py
+++ b/wqflask/base/trait.py
@@ -40,6 +40,7 @@ class GeneralTrait(object):
else:
self.dataset = kw.get('dataset')
self.name = kw.get('name') # Trait ID, ProbeSet ID, Published ID, etc.
+ print("THE NAME IS:", self.name)
self.cellid = kw.get('cellid')
self.identification = kw.get('identification', 'un-named trait')
self.haveinfo = kw.get('haveinfo', False)
@@ -295,6 +296,9 @@ class GeneralTrait(object):
PublishXRef.InbredSetId = PublishFreeze.InbredSetId AND
PublishFreeze.Id = %s
""" % (self.name, self.dataset.id)
+
+ print("query is:", query)
+
trait_info = g.db.execute(query).fetchone()
#XZ, 05/08/2009: Xiaodong add this block to use ProbeSet.Id to find the probeset instead of just using ProbeSet.Name
#XZ, 05/08/2009: to avoid the problem of same probeset name from different platforms.
diff --git a/wqflask/wqflask/correlation/show_corr_results.py b/wqflask/wqflask/correlation/show_corr_results.py
index 0b66bc61..1cc932a0 100755
--- a/wqflask/wqflask/correlation/show_corr_results.py
+++ b/wqflask/wqflask/correlation/show_corr_results.py
@@ -93,8 +93,13 @@ class CorrelationResults(object):
# get trait list from db (database name)
# calculate correlation with Base vector and targets
+ print("TESTING...")
+
with Bench("Doing correlations"):
helper_functions.get_species_dataset_trait(self, start_vars)
+
+ print("TRAIT SYMBOL:", self.this_trait.symbol)
+
self.dataset.group.read_genotype_file()
corr_samples_group = start_vars['corr_samples_group']
@@ -108,9 +113,11 @@ class CorrelationResults(object):
#The two if statements below append samples to the sample list based upon whether the user
#rselected Primary Samples Only, Other Samples Only, or All Samples
- primary_samples = (self.dataset.group.parlist +
- self.dataset.group.f1list +
- self.dataset.group.samplelist)
+ primary_samples = self.dataset.group.samplelist
+ if self.dataset.group.parlist != None:
+ primary_samples += self.dataset.group.parlist
+ if self.dataset.group.f1list != None:
+ primary_samples += self.dataset.group.f1list
#If either BXD/whatever Only or All Samples, append all of that group's samplelist
if corr_samples_group != 'samples_other':
@@ -156,6 +163,7 @@ class CorrelationResults(object):
for _trait_counter, trait in enumerate(self.correlation_data.keys()[:self.return_number]):
+ print("trait name:", trait)
trait_object = GeneralTrait(dataset=self.dataset, name=trait, get_qtl_info=True)
(trait_object.sample_r,
@@ -329,8 +337,8 @@ class CorrelationResults(object):
key=lambda t: -abs(t[1][1])))
return tissue_corr_data
-
-
+
+
def do_lit_correlation_for_trait_list(self):
input_trait_mouse_gene_id = self.convert_to_mouse_gene_id(self.dataset.group.species.lower(), self.this_trait.geneid)
@@ -348,14 +356,14 @@ class CorrelationResults(object):
FROM LCorrRamin3
WHERE GeneId1='%s' and
GeneId2='%s'
- """ % (escape(trait.mouse_gene_id), escape(input_trait_mouse_gene_id))
+ """ % (escape(str(trait.mouse_gene_id)), escape(str(input_trait_mouse_gene_id)))
).fetchone()
if not result:
result = g.db.execute("""SELECT value
FROM LCorrRamin3
WHERE GeneId2='%s' and
GeneId1='%s'
- """ % (escape(trait.mouse_gene_id), escape(input_trait_mouse_gene_id))
+ """ % (escape(str(trait.mouse_gene_id)), escape(str(input_trait_mouse_gene_id)))
).fetchone()
if result:
@@ -419,20 +427,30 @@ class CorrelationResults(object):
mouse_gene_id = gene_id
elif species == 'rat':
- mouse_gene_id = g.db.execute(
- """SELECT mouse
+
+ query = """SELECT mouse
FROM GeneIDXRef
- WHERE rat='%d'
- """, escape(int(gene_id))).fetchone().mouse
+ WHERE rat='%s'""" % escape(gene_id)
+
+ print("GENE_ID QUERY: ", query)
+
+ result = g.db.execute(query).fetchone()
+ if result != None:
+ mouse_gene_id = result.mouse
elif species == 'human':
- mouse_gene_id = g.db.execute(
- """SELECT mouse
+
+ query = """SELECT mouse
FROM GeneIDXRef
- WHERE human='%d'
- """, escape(int(gene_id))).fetchone().mouse
+ WHERE human='%s'""" % escape(gene_id)
+
+ print("GENE_ID QUERY: ", query)
+
+ result = g.db.execute(query).fetchone()
+ if result != None:
+ mouse_gene_id = result.mouse
- #print("mouse_geneid:", mouse_geneid)
+ print("mouse_geneid:", mouse_gene_id)
return mouse_gene_id
@@ -456,6 +474,8 @@ class CorrelationResults(object):
this_trait_vals.append(sample_value)
target_vals.append(target_sample_value)
+ print("trait:", trait)
+
this_trait_vals, target_vals, num_overlap = corr_result_helpers.normalize_values(
this_trait_vals, target_vals)
@@ -1010,6 +1030,7 @@ class CorrelationResults(object):
values_2.append(target_value)
correlation = calCorrelation(values_1, values_2)
self.correlation_data[trait] = correlation
+
"""
correlations = []
diff --git a/wqflask/wqflask/interval_mapping/interval_mapping.py b/wqflask/wqflask/interval_mapping/interval_mapping.py
index f0985cc2..d28cb24b 100755
--- a/wqflask/wqflask/interval_mapping/interval_mapping.py
+++ b/wqflask/wqflask/interval_mapping/interval_mapping.py
@@ -23,6 +23,7 @@ from base.trait import GeneralTrait
from base import data_set
from base import species
from base import webqtlConfig
+from utility import webqtlUtil
from wqflask.my_pylmm.data import prep_data
from wqflask.my_pylmm.pyLMM import lmm
from wqflask.my_pylmm.pyLMM import input
@@ -55,7 +56,10 @@ class IntervalMapping(object):
self.set_options(start_vars)
+ self.json_data = {}
+
if self.method == "qtl_reaper":
+ self.json_data['lodnames'] = ['lod.hk']
self.gen_reaper_results(tempdata)
else:
self.gen_pylmm_results(tempdata)
@@ -63,14 +67,24 @@ class IntervalMapping(object):
#Get chromosome lengths for drawing the interval map plot
chromosome_mb_lengths = {}
+ self.json_data['chrnames'] = []
for key in self.species.chromosomes.chromosomes.keys():
+ self.json_data['chrnames'].append(self.species.chromosomes.chromosomes[key].name)
+
chromosome_mb_lengths[key] = self.species.chromosomes.chromosomes[key].mb_length
#print("self.qtl_results:", self.qtl_results)
+ print("JSON DATA:", self.json_data)
+
+ #os.chdir(webqtlConfig.TMPDIR)
+ json_filename = webqtlUtil.genRandStr(prefix="intmap_")
+ json.dumps(self.json_data, webqtlConfig.TMPDIR + json_filename)
+
self.js_data = dict(
chromosomes = chromosome_mb_lengths,
qtl_results = self.qtl_results,
+ json_data = self.json_data
#lrs_lod = self.lrs_lod,
)
@@ -144,8 +158,18 @@ class IntervalMapping(object):
#Need to convert the QTL objects that qtl reaper returns into a json serializable dictionary
self.qtl_results = []
+ self.json_data['chr'] = []
+ self.json_data['pos'] = []
+ self.json_data['lod.hk'] = []
+ self.json_data['additive'] = []
+ self.json_data['markernames'] = []
for qtl in reaper_results:
reaper_locus = qtl.locus
+ self.json_data['chr'].append(reaper_locus.chr)
+ self.json_data['pos'].append(reaper_locus.Mb)
+ self.json_data['lod.hk'].append(qtl.lrs)
+ self.json_data['markernames'].append(reaper_locus.name)
+ self.json_data['additive'].append(qtl.additive)
locus = {"name":reaper_locus.name, "chr":reaper_locus.chr, "cM":reaper_locus.cM, "Mb":reaper_locus.Mb}
qtl = {"lrs": qtl.lrs, "locus": locus, "additive": qtl.additive}
self.qtl_results.append(qtl)
@@ -166,8 +190,11 @@ class IntervalMapping(object):
self.lrs_array = genotype.permutation(strains = trimmed_samples,
trait = trimmed_values,
nperm= self.num_permutations)
+
self.suggestive = self.lrs_array[int(self.num_permutations*0.37-1)]
self.significant = self.lrs_array[int(self.num_permutations*0.95-1)]
+ self.json_data['suggestive'] = self.suggestive
+ self.json_data['significant'] = self.significant
print("samples:", trimmed_samples)
@@ -179,10 +206,21 @@ class IntervalMapping(object):
reaper_results = genotype.regression(strains = trimmed_samples,
trait = trimmed_values)
+ self.json_data['chr'] = []
+ self.json_data['pos'] = []
+ self.json_data['lod.hk'] = []
+ self.json_data['additive'] = []
+ self.json_data['markernames'] = []
+
#Need to convert the QTL objects that qtl reaper returns into a json serializable dictionary
self.qtl_results = []
for qtl in reaper_results:
reaper_locus = qtl.locus
+ self.json_data['chr'].append(reaper_locus.chr)
+ self.json_data['pos'].append(reaper_locus.Mb)
+ self.json_data['lod.hk'].append(qtl.lrs)
+ self.json_data['markernames'].append(reaper_locus.name)
+ self.json_data['additive'].append(qtl.additive)
locus = {"name":reaper_locus.name, "chr":reaper_locus.chr, "cM":reaper_locus.cM, "Mb":reaper_locus.Mb}
qtl = {"lrs_value": qtl.lrs, "chr":reaper_locus.chr, "Mb":reaper_locus.Mb,
"cM":reaper_locus.cM, "name":reaper_locus.name, "additive":qtl.additive}
diff --git a/wqflask/wqflask/marker_regression/marker_regression.py b/wqflask/wqflask/marker_regression/marker_regression.py
index c220d2c9..525a2253 100755
--- a/wqflask/wqflask/marker_regression/marker_regression.py
+++ b/wqflask/wqflask/marker_regression/marker_regression.py
@@ -22,6 +22,8 @@ import simplejson as json
from redis import Redis
Redis = Redis()
+from flask import Flask, g
+
from base.trait import GeneralTrait
from base import data_set
from base import species
@@ -60,18 +62,20 @@ class MarkerRegression(object):
qtl_results = self.run_gemma()
elif self.mapping_method == "plink":
qtl_results = self.run_plink()
+ #print("qtl_results:", pf(qtl_results))
elif self.mapping_method == "pylmm":
#self.qtl_results = self.gen_data(tempdata)
qtl_results = self.gen_data(str(temp_uuid))
- self.lod_cutoff = self.get_lod_score_cutoff()
+ self.lod_cutoff = 2
self.filtered_markers = []
for marker in qtl_results:
- #if marker['lod_score'] > self.lod_cutoff:
- if marker['lod_score'] > 1:
+ if marker['chr'] > 0:
self.filtered_markers.append(marker)
+ #if marker['lod_score'] > self.lod_cutoff:
+
- print("filtered_markers:", self.filtered_markers)
+ #print("filtered_markers:", self.filtered_markers)
#Get chromosome lengths for drawing the manhattan plot
chromosome_mb_lengths = {}
@@ -86,6 +90,8 @@ class MarkerRegression(object):
def run_gemma(self):
"""Generates p-values for each marker using GEMMA"""
+ self.dataset.group.get_markers()
+
#filename = webqtlUtil.genRandStr("{}_{}_".format(self.dataset.group.name, self.this_trait.name))
self.gen_pheno_txt_file()
@@ -156,6 +162,205 @@ class MarkerRegression(object):
def run_plink(self):
os.chdir("/home/zas1024/plink")
+
+ self.dataset.group.get_markers()
+
+ plink_output_filename = webqtlUtil.genRandStr("%s_%s_"%(self.dataset.group.name, self.this_trait.name))
+
+ self.gen_pheno_txt_file_plink(pheno_filename = plink_output_filename)
+
+ plink_command = './plink --noweb --ped %s.ped --no-fid --no-parents --no-sex --no-pheno --map %s.map --pheno %s/%s.txt --pheno-name %s --missing-phenotype -9999 --out %s%s --assoc ' % (self.dataset.group.name, self.dataset.group.name, webqtlConfig.TMPDIR, plink_output_filename, self.this_trait.name, webqtlConfig.TMPDIR, plink_output_filename)
+
+ os.system(plink_command)
+
+ count, p_values = self.parse_plink_output(plink_output_filename)
+ #gemma_command = './gemma -bfile %s -k output_%s.cXX.txt -lmm 1 -o %s_output' % (
+ # self.dataset.group.name,
+ # self.dataset.group.name,
+ # self.dataset.group.name)
+ #print("gemma_command:" + gemma_command)
+ #
+ #os.system(gemma_command)
+ #
+ #included_markers, p_values = self.parse_gemma_output()
+ #
+ #self.dataset.group.get_specified_markers(markers = included_markers)
+
+ #for marker in self.dataset.group.markers.markers:
+ # if marker['name'] not in included_markers:
+ # print("marker:", marker)
+ # self.dataset.group.markers.markers.remove(marker)
+ # #del self.dataset.group.markers.markers[marker]
+
+ print("p_values:", pf(p_values))
+
+ self.dataset.group.markers.add_pvalues(p_values)
+
+ return self.dataset.group.markers.markers
+
+
+ def gen_pheno_txt_file_plink(self, pheno_filename = ''):
+ ped_sample_list = self.get_samples_from_ped_file()
+ output_file = open("%s%s.txt" % (webqtlConfig.TMPDIR, pheno_filename), "wb")
+ header = 'FID\tIID\t%s\n' % self.this_trait.name
+ output_file.write(header)
+
+ new_value_list = []
+
+ #if valueDict does not include some strain, value will be set to -9999 as missing value
+ for i, sample in enumerate(ped_sample_list):
+ try:
+ value = self.vals[i]
+ value = str(value).replace('value=','')
+ value = value.strip()
+ except:
+ value = -9999
+
+ new_value_list.append(value)
+
+
+ new_line = ''
+ for i, sample in enumerate(ped_sample_list):
+ j = i+1
+ value = new_value_list[i]
+ new_line += '%s\t%s\t%s\n'%(sample, sample, value)
+
+ if j%1000 == 0:
+ output_file.write(newLine)
+ new_line = ''
+
+ if new_line:
+ output_file.write(new_line)
+
+ output_file.close()
+
+ # get strain name from ped file in order
+ def get_samples_from_ped_file(self):
+
+ os.chdir("/home/zas1024/plink")
+
+ ped_file= open("{}.ped".format(self.dataset.group.name),"r")
+ line = ped_file.readline()
+ sample_list=[]
+
+ while line:
+ lineList = string.split(string.strip(line), '\t')
+ lineList = map(string.strip, lineList)
+
+ sample_name = lineList[0]
+ sample_list.append(sample_name)
+
+ line = ped_file.readline()
+
+ return sample_list
+
+ ################################################################
+ # Generate Chr list, Chr OrderId and Retrieve Length Information
+ ################################################################
+ #def getChrNameOrderIdLength(self,RISet=''):
+ # try:
+ # query = """
+ # Select
+ # Chr_Length.Name,Chr_Length.OrderId,Length from Chr_Length, InbredSet
+ # where
+ # Chr_Length.SpeciesId = InbredSet.SpeciesId AND
+ # InbredSet.Name = '%s'
+ # Order by OrderId
+ # """ % (self.dataset.group.name)
+ # results =g.db.execute(query).fetchall()
+ # ChrList=[]
+ # ChrLengthMbList=[]
+ # ChrNameOrderIdDict={}
+ # ChrOrderIdNameDict={}
+ #
+ # for item in results:
+ # ChrList.append(item[0])
+ # ChrNameOrderIdDict[item[0]]=item[1] # key is chr name, value is orderId
+ # ChrOrderIdNameDict[item[1]]=item[0] # key is orderId, value is chr name
+ # ChrLengthMbList.append(item[2])
+ #
+ # except:
+ # ChrList=[]
+ # ChrNameOrderIdDict={}
+ # ChrLengthMbList=[]
+ #
+ # return ChrList,ChrNameOrderIdDict,ChrOrderIdNameDict,ChrLengthMbList
+
+
+ def parse_plink_output(self, output_filename):
+ plink_results={}
+
+ threshold_p_value = 0.01
+
+ result_fp = open("%s%s.qassoc"% (webqtlConfig.TMPDIR, output_filename), "rb")
+
+ header_line = result_fp.readline()# read header line
+ line = result_fp.readline()
+
+ value_list = [] # initialize value list, this list will include snp, bp and pvalue info
+ p_value_dict = {}
+ count = 0
+
+ while line:
+ #convert line from str to list
+ line_list = self.build_line_list(line=line)
+
+ # only keep the records whose chromosome name is in db
+ if self.species.chromosomes.chromosomes.has_key(int(line_list[0])) and line_list[-1] and line_list[-1].strip()!='NA':
+
+ chr_name = self.species.chromosomes.chromosomes[int(line_list[0])]
+ snp = line_list[1]
+ BP = line_list[2]
+ p_value = float(line_list[-1])
+ if threshold_p_value >= 0 and threshold_p_value <= 1:
+ if p_value < threshold_p_value:
+ p_value_dict[snp] = p_value
+
+ if plink_results.has_key(chr_name):
+ value_list = plink_results[chr_name]
+
+ # pvalue range is [0,1]
+ if threshold_p_value >=0 and threshold_p_value <= 1:
+ if p_value < threshold_p_value:
+ value_list.append((snp, BP, p_value))
+ count += 1
+
+ plink_results[chr_name] = value_list
+ value_list = []
+ else:
+ if threshold_p_value >= 0 and threshold_p_value <= 1:
+ if p_value < threshold_p_value:
+ value_list.append((snp, BP, p_value))
+ count += 1
+
+ if value_list:
+ plink_results[chr_name] = value_list
+
+ value_list=[]
+
+ line = result_fp.readline()
+ else:
+ line = result_fp.readline()
+
+ #if p_value_list:
+ # min_p_value = min(p_value_list)
+ #else:
+ # min_p_value = 0
+
+ return count, p_value_dict
+
+ ######################################################
+ # input: line: str,one line read from file
+ # function: convert line from str to list;
+ # output: lineList list
+ #######################################################
+ def build_line_list(self, line=None):
+
+ line_list = string.split(string.strip(line),' ')# irregular number of whitespaces between columns
+ line_list = [item for item in line_list if item <>'']
+ line_list = map(string.strip, line_list)
+
+ return line_list
#def gen_data(self, tempdata):
def gen_data(self, temp_uuid):
@@ -238,7 +443,7 @@ class MarkerRegression(object):
self.dataset.group.markers.add_pvalues(p_values)
- self.get_lod_score_cutoff()
+ #self.get_lod_score_cutoff()
return self.dataset.group.markers.markers
@@ -309,6 +514,7 @@ class MarkerRegression(object):
return p_values, t_stats
def get_lod_score_cutoff(self):
+ print("INSIDE GET LOD CUTOFF")
high_qtl_count = 0
for marker in self.dataset.group.markers.markers:
if marker['lod_score'] > 1:
diff --git a/wqflask/wqflask/static/new/css/panelutil.css b/wqflask/wqflask/static/new/css/panelutil.css
new file mode 100644
index 00000000..d02c47d5
--- /dev/null
+++ b/wqflask/wqflask/static/new/css/panelutil.css
@@ -0,0 +1,87 @@
+body {
+ font-family: sans-serif;
+}
+
+text {
+ font-family: sans-serif;
+ font-size: 11pt;
+}
+
+.title text {
+ dominant-baseline: middle;
+ fill: blue;
+ text-anchor: middle;
+}
+
+.y.axis text {
+ dominant-baseline: middle;
+ text-anchor: end;
+}
+
+.y.axis text.title {
+ text-anchor: middle;
+ fill: slateblue;
+}
+
+.x.axis text {
+ dominant-baseline: hanging;
+ text-anchor: middle;
+}
+
+.x.axis text.title {
+ fill: slateblue;
+}
+
+line.axis.grid {
+ fill: none;
+ stroke-width: 1;
+ pointer-events: none;
+}
+
+line.x.axis.grid {
+ stroke: rgb(200, 200, 200);
+ stroke-width: 3;
+}
+
+line.y.axis.grid {
+ stroke: white;
+}
+
+.extent {
+ fill: #cac;
+ opacity: 0.3;
+}
+
+circle.selected {
+ fill: hotpink;
+ opacity: 1;
+}
+
+.caption {
+ margin-left: 60px;
+ width: 600px;
+}
+
+.d3-tip {
+ background: darkslateblue;
+ color: #fff;
+ stroke: none;
+ font-weight: bold;
+ font-size: 16px;
+ font-family: sans-serif;
+ padding: 5px;
+}
+
+.d3-tip.e:after {
+ color: darkslateblue;
+}
+
+a {
+ color: #08c;
+ text-decoration: none;
+}
+
+a:hover {
+ color: #333;
+ text-decoration: underline;
+}
diff --git a/wqflask/wqflask/static/new/javascript/bar_chart.coffee b/wqflask/wqflask/static/new/javascript/bar_chart.coffee
index beaeb0a7..a48718de 100755
--- a/wqflask/wqflask/static/new/javascript/bar_chart.coffee
+++ b/wqflask/wqflask/static/new/javascript/bar_chart.coffee
@@ -13,7 +13,8 @@ class Bar_Chart
longest_sample_name = d3.max(sample.length for sample in @sample_names)
@margin = {top: 20, right: 20, bottom: longest_sample_name * 7, left: 40}
- @plot_width = @sample_vals.length * 16 - @margin.left - @margin.right
+ @plot_width = @sample_vals.length * 20 - @margin.left - @margin.right
+ @range = @sample_vals.length * 20
@plot_height = 500 - @margin.top - @margin.bottom
@x_buffer = @plot_width/20
@@ -172,7 +173,7 @@ class Bar_Chart
console.log("sample_names2:", sample_names)
x_scale = d3.scale.ordinal()
.domain(sample_names)
- .rangeBands([0, @plot_width], .1)
+ .rangeRoundBands([0, @range], 0.1, 0)
$('.bar_chart').find('.x.axis').remove()
@add_x_axis(x_scale)
@@ -283,7 +284,7 @@ class Bar_Chart
create_scales: () ->
@x_scale = d3.scale.ordinal()
.domain(@sample_names)
- .rangeBands([0, @plot_width], 0.3)
+ .rangeRoundBands([0, @range], 0.1, 0)
@y_scale = d3.scale.linear()
.domain([@y_min * 0.75, @y_max])
diff --git a/wqflask/wqflask/static/new/javascript/bar_chart.js b/wqflask/wqflask/static/new/javascript/bar_chart.js
index c5802a6d..6f9b27e0 100755
--- a/wqflask/wqflask/static/new/javascript/bar_chart.js
+++ b/wqflask/wqflask/static/new/javascript/bar_chart.js
@@ -35,7 +35,8 @@
bottom: longest_sample_name * 7,
left: 40
};
- this.plot_width = this.sample_vals.length * 16 - this.margin.left - this.margin.right;
+ this.plot_width = this.sample_vals.length * 20 - this.margin.left - this.margin.right;
+ this.range = this.sample_vals.length * 20;
this.plot_height = 500 - this.margin.top - this.margin.bottom;
this.x_buffer = this.plot_width / 20;
this.y_buffer = this.plot_height / 20;
@@ -124,7 +125,7 @@
return _results;
})();
console.log("sample_names2:", sample_names);
- x_scale = d3.scale.ordinal().domain(sample_names).rangeBands([0, this.plot_width], .1);
+ x_scale = d3.scale.ordinal().domain(sample_names).rangeRoundBands([0, this.range], 0.1, 0);
$('.bar_chart').find('.x.axis').remove();
return this.add_x_axis(x_scale);
};
@@ -306,7 +307,7 @@
};
Bar_Chart.prototype.create_scales = function() {
- this.x_scale = d3.scale.ordinal().domain(this.sample_names).rangeBands([0, this.plot_width], 0.3);
+ this.x_scale = d3.scale.ordinal().domain(this.sample_names).rangeRoundBands([0, this.range], 0.1, 0);
return this.y_scale = d3.scale.linear().domain([this.y_min * 0.75, this.y_max]).range([this.plot_height, this.y_buffer]);
};
diff --git a/wqflask/wqflask/static/new/javascript/chr_manhattan_plot.coffee b/wqflask/wqflask/static/new/javascript/chr_manhattan_plot.coffee
index 74eb2e88..8b27caa1 100755
--- a/wqflask/wqflask/static/new/javascript/chr_manhattan_plot.coffee
+++ b/wqflask/wqflask/static/new/javascript/chr_manhattan_plot.coffee
@@ -73,12 +73,12 @@ class Chr_Manhattan_Plot
high_qtl_count += 1
console.log("high_qtl_count:", high_qtl_count)
- if high_qtl_count > 10000
- @y_axis_filter = 2
- else if high_qtl_count > 1000
- @y_axis_filter = 1
- else
- @y_axis_filter = 0
+ #if high_qtl_count > 10000
+ @y_axis_filter = 2
+ #else if high_qtl_count > 1000
+ # @y_axis_filter = 1
+ #else
+ # @y_axis_filter = 0
create_coordinates: () ->
for result in @these_results
@@ -108,7 +108,6 @@ class Chr_Manhattan_Plot
return @y_max/2
else
return 2
-
create_graph: () ->
@add_border()
@@ -216,16 +215,16 @@ class Chr_Manhattan_Plot
return @y_scale(d[1])
)
.attr("r", (d) =>
- if d[1] > 2
- return 3
- else
- return 2
+ #if d[1] > 2
+ # return 3
+ #else
+ return 2
)
.attr("fill", (d) =>
- if d[1] > 2
- return "white"
- else
- return "black"
+ #if d[1] > 2
+ # return "white"
+ #else
+ return "black"
)
.attr("stroke", "black")
.attr("stroke-width", "1")
@@ -247,16 +246,16 @@ class Chr_Manhattan_Plot
this_id = "point_" + String(d[2])
d3.select("#" + this_id).classed("d3_highlight", false)
.attr("r", (d) =>
- if d[1] > 2
- return 3
- else
- return 2
+ #if d[1] > 2
+ # return 3
+ #else
+ return 2
)
.attr("fill", (d) =>
- if d[1] > 2
- return "white"
- else
- return "black"
+ #if d[1] > 2
+ # return "white"
+ #else
+ return "black"
)
.attr("stroke", "black")
.attr("stroke-width", "1")
diff --git a/wqflask/wqflask/static/new/javascript/chr_manhattan_plot.js b/wqflask/wqflask/static/new/javascript/chr_manhattan_plot.js
index a38cfe5d..b7f64094 100755
--- a/wqflask/wqflask/static/new/javascript/chr_manhattan_plot.js
+++ b/wqflask/wqflask/static/new/javascript/chr_manhattan_plot.js
@@ -93,13 +93,7 @@
}
}
console.log("high_qtl_count:", high_qtl_count);
- if (high_qtl_count > 10000) {
- return this.y_axis_filter = 2;
- } else if (high_qtl_count > 1000) {
- return this.y_axis_filter = 1;
- } else {
- return this.y_axis_filter = 0;
- }
+ return this.y_axis_filter = 2;
};
Chr_Manhattan_Plot.prototype.create_coordinates = function() {
@@ -193,17 +187,9 @@
}).attr("cy", function(d) {
return _this.y_scale(d[1]);
}).attr("r", function(d) {
- if (d[1] > 2) {
- return 3;
- } else {
- return 2;
- }
+ return 2;
}).attr("fill", function(d) {
- if (d[1] > 2) {
- return "white";
- } else {
- return "black";
- }
+ return "black";
}).attr("stroke", "black").attr("stroke-width", "1").attr("id", function(d) {
return "point_" + String(d[2]);
}).classed("circle", true).on("mouseover", function(d) {
@@ -216,17 +202,9 @@
var this_id;
this_id = "point_" + String(d[2]);
return d3.select("#" + this_id).classed("d3_highlight", false).attr("r", function(d) {
- if (d[1] > 2) {
- return 3;
- } else {
- return 2;
- }
+ return 2;
}).attr("fill", function(d) {
- if (d[1] > 2) {
- return "white";
- } else {
- return "black";
- }
+ return "black";
}).attr("stroke", "black").attr("stroke-width", "1");
}).append("svg:title").text(function(d) {
return d[2];
diff --git a/wqflask/wqflask/static/new/javascript/interval_map_new.coffee b/wqflask/wqflask/static/new/javascript/interval_map_new.coffee
new file mode 100644
index 00000000..898df6d1
--- /dev/null
+++ b/wqflask/wqflask/static/new/javascript/interval_map_new.coffee
@@ -0,0 +1,71 @@
+h = 500
+w = 1200
+margin = {left:60, top:40, right:40, bottom: 40, inner:5}
+halfh = (h+margin.top+margin.bottom)
+totalh = halfh*2
+totalw = (w+margin.left+margin.right)
+
+# simplest use
+#d3.json "data.json", (data) ->
+mychart = lodchart().lodvarname("lod.hk")
+ .height(h)
+ .width(w)
+ .margin(margin)
+
+data = js_data.json_data
+
+d3.select("div#topchart")
+ .datum(data)
+ .call(mychart)
+
+# grab chromosome rectangles; color pink on hover
+chrrect = mychart.chrSelect()
+chrrect.on "mouseover", ->
+ d3.select(this).attr("fill", "#E9CFEC")
+ .on "mouseout", (d,i) ->
+ d3.select(this).attr("fill", ->
+ return "#F1F1F9" if i % 2
+ "#FBFBFF")
+
+# animate points at markers on click
+mychart.markerSelect()
+ .on "click", (d) ->
+ r = d3.select(this).attr("r")
+ d3.select(this)
+ .transition().duration(500).attr("r", r*3)
+ .transition().duration(500).attr("r", r)
+
+# two LOD charts within one SVG
+#d3.json "data.json", (data) ->
+# mychart_em = lodchart().lodvarname("lod.em")
+# .height(h)
+# .width(w)
+# .margin(margin)
+# .ylab("LOD score (by EM)")
+# .pointsize(1)
+# .nyticks(9)
+# .title("Standard interval mapping")
+# mychart_hk = lodchart().lodvarname("lod.hk")
+# .height(h)
+# .width(w)
+# .margin(margin)
+# .ylab("LOD score (by H-K)")
+# .linecolor("Crimson")
+# .yticks([0, 1, 2, 4, 6, 8])
+# .title("Haley-Knott regression")
+#
+# svg = d3.select("div#bottomchart")
+# .append("svg")
+# .attr("height", totalh)
+# .attr("width", totalw)
+#
+# chart1 = svg.append("g").attr("id", "chart1")
+#
+# chart2 = svg.append("g").attr("id", "chart2")
+# .attr("transform", "translate(0, #{halfh})")
+#
+# chart1.datum(data)
+# .call(mychart_em)
+#
+# chart2.datum(data)
+# .call(mychart_hk) \ No newline at end of file
diff --git a/wqflask/wqflask/static/new/javascript/interval_map_new.js b/wqflask/wqflask/static/new/javascript/interval_map_new.js
new file mode 100644
index 00000000..8861419c
--- /dev/null
+++ b/wqflask/wqflask/static/new/javascript/interval_map_new.js
@@ -0,0 +1,48 @@
+// Generated by CoffeeScript 1.6.1
+(function() {
+ var chrrect, data, h, halfh, margin, mychart, totalh, totalw, w;
+
+ h = 500;
+
+ w = 1200;
+
+ margin = {
+ left: 60,
+ top: 40,
+ right: 40,
+ bottom: 40,
+ inner: 5
+ };
+
+ halfh = h + margin.top + margin.bottom;
+
+ totalh = halfh * 2;
+
+ totalw = w + margin.left + margin.right;
+
+ mychart = lodchart().lodvarname("lod.hk").height(h).width(w).margin(margin);
+
+ data = js_data.json_data;
+
+ d3.select("div#topchart").datum(data).call(mychart);
+
+ chrrect = mychart.chrSelect();
+
+ chrrect.on("mouseover", function() {
+ return d3.select(this).attr("fill", "#E9CFEC");
+ }).on("mouseout", function(d, i) {
+ return d3.select(this).attr("fill", function() {
+ if (i % 2) {
+ return "#F1F1F9";
+ }
+ return "#FBFBFF";
+ });
+ });
+
+ mychart.markerSelect().on("click", function(d) {
+ var r;
+ r = d3.select(this).attr("r");
+ return d3.select(this).transition().duration(500).attr("r", r * 3).transition().duration(500).attr("r", r);
+ });
+
+}).call(this);
diff --git a/wqflask/wqflask/static/new/javascript/lod_chart.coffee b/wqflask/wqflask/static/new/javascript/lod_chart.coffee
new file mode 100644
index 00000000..fb11eeae
--- /dev/null
+++ b/wqflask/wqflask/static/new/javascript/lod_chart.coffee
@@ -0,0 +1,550 @@
+root = exports ? this
+
+lodchart = () ->
+ width = 800
+ height = 500
+ margin = {left:60, top:40, right:40, bottom: 40, inner:5}
+ axispos = {xtitle:25, ytitle:30, xlabel:5, ylabel:5}
+ titlepos = 20
+ ylim = null
+ additive_ylim = null
+ nyticks = 5
+ yticks = null
+ additive_yticks = null
+ chrGap = 8
+ darkrect = "#F1F1F9"
+ lightrect = "#FBFBFF"
+ lodlinecolor = "darkslateblue"
+ additivelinecolor = "red"
+ linewidth = 2
+ suggestivecolor = "gainsboro"
+ significantcolor = "#EBC7C7"
+ pointcolor = "#E9CFEC" # pink
+ pointsize = 0 # default = no visible points at markers
+ pointstroke = "black"
+ title = ""
+ xlab = "Chromosome"
+ ylab = "LRS score"
+ additive_ylab = "Additive Effect"
+ rotate_ylab = null
+ yscale = d3.scale.linear()
+ additive_yscale = d3.scale.linear()
+ xscale = null
+ pad4heatmap = false
+ lodcurve = null
+ lodvarname = null
+ markerSelect = null
+ chrSelect = null
+ pointsAtMarkers = true
+
+ ## the main function
+ chart = (selection) ->
+ selection.each (data) ->
+ lodvarname = lodvarname ? data.lodnames[0]
+ data[lodvarname] = (Math.abs(x) for x in data[lodvarname]) # take absolute values
+ data['additive'] = (Math.abs(x) for x in data['additive'])
+ ylim = ylim ? [0, d3.max(data[lodvarname])]
+ additive_ylim = additive_ylim ? [0, d3.max(data['additive'])]
+ lodvarnum = data.lodnames.indexOf(lodvarname)
+
+ # Select the svg element, if it exists.
+ svg = d3.select(this).selectAll("svg").data([data])
+
+ # Otherwise, create the skeletal chart.
+ gEnter = svg.enter().append("svg").append("g")
+
+ # Update the outer dimensions.
+ svg.attr("width", width+margin.left+margin.right)
+ .attr("height", height+margin.top+margin.bottom)
+
+ # Update the inner dimensions.
+ g = svg.select("g")
+
+ # box
+ g.append("rect")
+ .attr("x", margin.left)
+ .attr("y", margin.top)
+ .attr("height", height)
+ .attr("width", width)
+ .attr("fill", darkrect)
+ .attr("stroke", "none")
+
+ yscale.domain(ylim)
+ .range([height+margin.top, margin.top+margin.inner])
+
+ additive_yscale.domain(additive_ylim)
+ .range([height+margin.top, margin.top+margin.inner + height/2])
+
+ # if yticks not provided, use nyticks to choose pretty ones
+ yticks = yticks ? yscale.ticks(nyticks)
+ additive_yticks = additive_yticks ? additive_yscale.ticks(nyticks)
+
+ # reorganize lod,pos by chromosomes
+ data = reorgLodData(data, lodvarname)
+
+ # add chromosome scales (for x-axis)
+ data = chrscales(data, width, chrGap, margin.left, pad4heatmap)
+ xscale = data.xscale
+
+ # chr rectangles
+ chrSelect =
+ g.append("g").attr("class", "chrRect")
+ .selectAll("empty")
+ .data(data.chrnames)
+ .enter()
+ .append("rect")
+ .attr("id", (d) -> "chrrect#{d}")
+ .attr("x", (d,i) ->
+ return data.chrStart[i] if i==0 and pad4heatmap
+ data.chrStart[i]-chrGap/2)
+ .attr("width", (d,i) ->
+ return data.chrEnd[i] - data.chrStart[i]+chrGap/2 if (i==0 or i+1 == data.chrnames.length) and pad4heatmap
+ data.chrEnd[i] - data.chrStart[i]+chrGap)
+ .attr("y", margin.top)
+ .attr("height", height)
+ .attr("fill", (d,i) ->
+ return darkrect if i % 2
+ lightrect)
+ .attr("stroke", "none")
+
+ # x-axis labels
+ xaxis = g.append("g").attr("class", "x axis")
+ xaxis.selectAll("empty")
+ .data(data.chrnames)
+ .enter()
+ .append("text")
+ .text((d) -> d)
+ .attr("x", (d,i) -> (data.chrStart[i]+data.chrEnd[i])/2)
+ .attr("y", margin.top+height+axispos.xlabel)
+ xaxis.append("text").attr("class", "title")
+ .attr("y", margin.top+height+axispos.xtitle)
+ .attr("x", margin.left+width/2)
+ .text(xlab)
+
+ # y-axis
+ rotate_ylab = rotate_ylab ? (ylab.length > 1)
+ yaxis = g.append("g").attr("class", "y axis")
+ yaxis.selectAll("empty")
+ .data(yticks)
+ .enter()
+ .append("line")
+ .attr("y1", (d) -> yscale(d))
+ .attr("y2", (d) -> yscale(d))
+ .attr("x1", margin.left)
+ .attr("x2", margin.left+7)
+ .attr("fill", "none")
+ .attr("stroke", "white")
+ .attr("stroke-width", 1)
+ .style("pointer-events", "none")
+
+ yaxis.selectAll("empty")
+ .data(yticks)
+ .enter()
+ .append("text")
+ .attr("y", (d) -> yscale(d))
+ .attr("x", margin.left-axispos.ylabel)
+ .attr("fill", "blue")
+ .text((d) -> formatAxis(yticks)(d))
+
+ yaxis.append("text").attr("class", "title")
+ .attr("y", margin.top+height/2)
+ .attr("x", margin.left-axispos.ytitle)
+ .text(ylab)
+ .attr("transform", if rotate_ylab then "rotate(270,#{margin.left-axispos.ytitle},#{margin.top+height/2})" else "")
+
+ rotate_additive_ylab = rotate_additive_ylab ? (additive_ylab.length > 1)
+ additive_yaxis = g.append("g").attr("class", "y axis")
+ additive_yaxis.selectAll("empty")
+ .data(additive_yticks)
+ .enter()
+ .append("line")
+ .attr("y1", (d) -> additive_yscale(d))
+ .attr("y2", (d) -> additive_yscale(d))
+ .attr("x1", margin.left + width)
+ .attr("x2", margin.left + width - 7)
+ .attr("fill", "none")
+ .attr("stroke", "white")
+ .attr("stroke-width", 1)
+ .style("pointer-events", "none")
+
+ additive_yaxis.selectAll("empty")
+ .data(additive_yticks)
+ .enter()
+ .append("text")
+ .attr("y", (d) -> additive_yscale(d))
+ .attr("x", (d) -> margin.left + width + axispos.ylabel + 20)
+ .attr("fill", "green")
+ .text((d) -> formatAxis(additive_yticks)(d))
+
+ additive_yaxis.append("text").attr("class", "title")
+ .attr("y", margin.top+1.5*height)
+ .attr("x", margin.left + width + axispos.ytitle)
+ .text(additive_ylab)
+ .attr("transform", if rotate_additive_ylab then "rotate(270,#{margin.left + width + axispos.ytitle}, #{margin.top+height*1.5})" else "")
+
+
+ suggestive_bar = g.append("g").attr("class", "suggestive")
+ suggestive_bar.selectAll("empty")
+ .data([data.suggestive])
+ .enter()
+ .append("line")
+ .attr("y1", (d) -> yscale(d))
+ .attr("y2", (d) -> yscale(d))
+ .attr("x1", margin.left)
+ .attr("x2", margin.left+width)
+ .attr("fill", "none")
+ .attr("stroke", suggestivecolor)
+ .attr("stroke-width", 5)
+ .style("pointer-events", "none")
+
+ suggestive_bar = g.append("g").attr("class", "significant")
+ suggestive_bar.selectAll("empty")
+ .data([data.significant])
+ .enter()
+ .append("line")
+ .attr("y1", (d) -> yscale(d))
+ .attr("y2", (d) -> yscale(d))
+ .attr("x1", margin.left)
+ .attr("x2", margin.left+width)
+ .attr("fill", "none")
+ .attr("stroke", significantcolor)
+ .attr("stroke-width", 5)
+ .style("pointer-events", "none")
+
+ # lod curves by chr
+ lodcurve = (chr, lodcolumn) ->
+ d3.svg.line()
+ .x((d) -> xscale[chr](d))
+ .y((d,i) -> yscale(data.lodByChr[chr][i][lodcolumn]))
+
+ additivecurve = (chr, lodcolumn) ->
+ d3.svg.line()
+ .x((d) -> xscale[chr](d))
+ .y((d,i) -> additive_yscale(data.additiveByChr[chr][i][lodcolumn]))
+
+ curves = g.append("g").attr("id", "curves")
+
+ for chr in data.chrnames
+ curves.append("path")
+ .datum(data.posByChr[chr])
+ .attr("d", lodcurve(chr, lodvarnum))
+ .attr("stroke", lodlinecolor)
+ .attr("fill", "none")
+ .attr("stroke-width", linewidth)
+ .style("pointer-events", "none")
+
+ for chr in data.chrnames
+ curves.append("path")
+ .datum(data.posByChr[chr])
+ .attr("d", additivecurve(chr, lodvarnum))
+ .attr("stroke", additivelinecolor)
+ .attr("fill", "none")
+ .attr("stroke-width", 1)
+ .style("pointer-events", "none")
+
+ # points at markers
+ if pointsize > 0
+ markerpoints = g.append("g").attr("id", "markerpoints_visible")
+ markerpoints.selectAll("empty")
+ .data(data.markers)
+ .enter()
+ .append("circle")
+ .attr("cx", (d) -> xscale[d.chr](d.pos))
+ .attr("cy", (d) -> yscale(d.lod))
+ .attr("r", pointsize)
+ .attr("fill", pointcolor)
+ .attr("stroke", pointstroke)
+ .attr("pointer-events", "hidden")
+
+ if pointsAtMarkers
+ # these hidden points are what gets selected...a bit larger
+ hiddenpoints = g.append("g").attr("id", "markerpoints_hidden")
+
+ markertip = d3.tip()
+ .attr('class', 'd3-tip')
+ .html((d) ->
+ [d.name, " LRS = #{d3.format('.2f')(d.lod)}"])
+ .direction("e")
+ .offset([0,10])
+ svg.call(markertip)
+
+ markerSelect =
+ hiddenpoints.selectAll("empty")
+ .data(data.markers)
+ .enter()
+ .append("circle")
+ .attr("cx", (d) -> xscale[d.chr](d.pos))
+ .attr("cy", (d) -> yscale(d.lod))
+ .attr("id", (d) -> d.name)
+ .attr("r", d3.max([pointsize*2, 3]))
+ .attr("opacity", 0)
+ .attr("fill", pointcolor)
+ .attr("stroke", pointstroke)
+ .attr("stroke-width", "1")
+ .on "mouseover.paneltip", (d) ->
+ d3.select(this).attr("opacity", 1)
+ markertip.show(d)
+ .on "mouseout.paneltip", ->
+ d3.select(this).attr("opacity", 0)
+ .call(markertip.hide)
+
+ # title
+ titlegrp = g.append("g").attr("class", "title")
+ .append("text")
+ .attr("x", margin.left+width/2)
+ .attr("y", margin.top-titlepos)
+ .text(title)
+
+ # another box around edge
+ g.append("rect")
+ .attr("x", margin.left)
+ .attr("y", margin.top)
+ .attr("height", height)
+ .attr("width", () ->
+ return(data.chrEnd[-1..][0]-margin.left) if pad4heatmap
+ data.chrEnd[-1..][0]-margin.left+chrGap/2)
+ .attr("fill", "none")
+ .attr("stroke", "black")
+ .attr("stroke-width", "none")
+
+ ## configuration parameters
+ chart.width = (value) ->
+ return width unless arguments.length
+ width = value
+ chart
+
+ chart.height = (value) ->
+ return height unless arguments.length
+ height = value
+ chart
+
+ chart.margin = (value) ->
+ return margin unless arguments.length
+ margin = value
+ chart
+
+ chart.titlepos = (value) ->
+ return titlepos unless arguments.length
+ titlepos
+ chart
+
+ chart.axispos = (value) ->
+ return axispos unless arguments.length
+ axispos = value
+ chart
+
+ chart.ylim = (value) ->
+ return ylim unless arguments.length
+ ylim = value
+ chart
+
+ chart.additive_ylim = (value) ->
+ return additive_ylim unless arguments.length
+ additive_ylim = value
+ chart
+
+ chart.nyticks = (value) ->
+ return nyticks unless arguments.length
+ nyticks = value
+ chart
+
+ chart.yticks = (value) ->
+ return yticks unless arguments.length
+ yticks = value
+ chart
+
+ chart.chrGap = (value) ->
+ return chrGap unless arguments.length
+ chrGap = value
+ chart
+
+ chart.darkrect = (value) ->
+ return darkrect unless arguments.length
+ darkrect = value
+ chart
+
+ chart.lightrect = (value) ->
+ return lightrect unless arguments.length
+ lightrect = value
+ chart
+
+ chart.linecolor = (value) ->
+ return linecolor unless arguments.length
+ linecolor = value
+ chart
+
+ chart.linewidth = (value) ->
+ return linewidth unless arguments.length
+ linewidth = value
+ chart
+
+ chart.pointcolor = (value) ->
+ return pointcolor unless arguments.length
+ pointcolor = value
+ chart
+
+ chart.pointsize = (value) ->
+ return pointsize unless arguments.length
+ pointsize = value
+ chart
+
+ chart.pointstroke = (value) ->
+ return pointstroke unless arguments.length
+ pointstroke = value
+ chart
+
+ chart.title = (value) ->
+ return title unless arguments.length
+ title = value
+ chart
+
+ chart.xlab = (value) ->
+ return xlab unless arguments.length
+ xlab = value
+ chart
+
+ chart.ylab = (value) ->
+ return ylab unless arguments.length
+ ylab = value
+ chart
+
+ chart.rotate_ylab = (value) ->
+ return rotate_ylab if !arguments.length
+ rotate_ylab = value
+ chart
+
+ chart.lodvarname = (value) ->
+ return lodvarname unless arguments.length
+ lodvarname = value
+ chart
+
+ chart.pad4heatmap = (value) ->
+ return pad4heatmap unless arguments.length
+ pad4heatmap = value
+ chart
+
+ chart.pointsAtMarkers = (value) ->
+ return pointsAtMarkers unless arguments.length
+ pointsAtMarkers = value
+ chart
+
+ chart.yscale = () ->
+ return yscale
+
+ chart.additive_yscale = () ->
+ return additive_yscale
+
+ chart.xscale = () ->
+ return xscale
+
+ chart.lodcurve = () ->
+ return lodcurve
+
+ chart.additivecurve = () ->
+ return additivecurve
+
+ chart.markerSelect = () ->
+ return markerSelect
+
+ chart.chrSelect = () ->
+ return chrSelect
+
+ # return the chart function
+ chart
+
+root.lodchart = lodchart
+
+# reorganize lod/pos by chromosome
+# lodvarname==null -> case for multiple LOD columns (lodheatmap)
+# lodvarname provided -> case for one LOD column (lodchart)
+reorgLodData = (data, lodvarname=null) ->
+ data.posByChr = {}
+ data.lodByChr = {}
+ data.additiveByChr = {}
+
+ for chr,i in data.chrnames
+ data.posByChr[chr] = []
+ data.lodByChr[chr] = []
+ data.additiveByChr[chr] = []
+ for pos, j in data.pos
+ if data.chr[j] == chr
+ data.posByChr[chr].push(pos)
+ data.lodnames = [data.lodnames] unless Array.isArray(data.lodnames)
+ additiveval = (data['additive'][j] for lodcolumn in data.lodnames)
+ lodval = (data[lodcolumn][j] for lodcolumn in data.lodnames)
+ data.additiveByChr[chr].push(additiveval)
+ data.lodByChr[chr].push(lodval)
+
+
+ if lodvarname?
+ data.markers = []
+ for marker,i in data.markernames
+ if marker != ""
+ data.markers.push({name:marker, chr:data.chr[i], pos:data.pos[i], lod:data[lodvarname][i]})
+
+ data
+
+
+# calculate chromosome start/end + scales, for heat map
+chrscales = (data, width, chrGap, leftMargin, pad4heatmap) ->
+ # start and end of chromosome positions
+ chrStart = []
+ chrEnd = []
+ chrLength = []
+ totalChrLength = 0
+ maxd = 0
+ for chr in data.chrnames
+ d = maxdiff(data.posByChr[chr])
+ maxd = d if d > maxd
+
+ rng = d3.extent(data.posByChr[chr])
+ chrStart.push(rng[0])
+ chrEnd.push(rng[1])
+ L = rng[1] - rng[0]
+ chrLength.push(L)
+ totalChrLength += L
+
+ # adjust lengths for heatmap
+ if pad4heatmap
+ data.recwidth = maxd
+ chrStart = chrStart.map (x) -> x-maxd/2
+ chrEnd = chrEnd.map (x) -> x+maxd/2
+ chrLength = chrLength.map (x) -> x+maxd
+ totalChrLength += (chrLength.length*maxd)
+
+ # break up x axis into chromosomes by length, with gaps
+ data.chrStart = []
+ data.chrEnd = []
+ cur = leftMargin
+ cur += chrGap/2 unless pad4heatmap
+ data.xscale = {}
+ for chr,i in data.chrnames
+ data.chrStart.push(cur)
+ w = Math.round((width-chrGap*(data.chrnames.length-pad4heatmap))/totalChrLength*chrLength[i])
+ data.chrEnd.push(cur + w)
+ cur = data.chrEnd[i] + chrGap
+ # x-axis scales, by chromosome
+ data.xscale[chr] = d3.scale.linear()
+ .domain([chrStart[i], chrEnd[i]])
+ .range([data.chrStart[i], data.chrEnd[i]])
+
+ # return data with new stuff added
+ data
+
+# maximum difference between adjacent values in a vector
+maxdiff = (x) ->
+ return null if x.length < 2
+ result = x[1] - x[0]
+ return result if x.length < 3
+ for i in [2...x.length]
+ d = x[i] - x[i-1]
+ result = d if d > result
+ result
+
+# determine rounding of axis labels
+formatAxis = (d) ->
+ d = d[1] - d[0]
+ ndig = Math.floor( Math.log(d % 10) / Math.log(10) )
+ ndig = 0 if ndig > 0
+ ndig = Math.abs(ndig)
+ d3.format(".#{ndig}f")
diff --git a/wqflask/wqflask/static/new/javascript/lod_chart.js b/wqflask/wqflask/static/new/javascript/lod_chart.js
new file mode 100644
index 00000000..14aff1a7
--- /dev/null
+++ b/wqflask/wqflask/static/new/javascript/lod_chart.js
@@ -0,0 +1,562 @@
+// Generated by CoffeeScript 1.6.1
+(function() {
+ var chrscales, formatAxis, lodchart, maxdiff, reorgLodData, root;
+
+ root = typeof exports !== "undefined" && exports !== null ? exports : this;
+
+ lodchart = function() {
+ var additive_ylab, additive_ylim, additive_yscale, additive_yticks, additivelinecolor, axispos, chart, chrGap, chrSelect, darkrect, height, lightrect, linewidth, lodcurve, lodlinecolor, lodvarname, margin, markerSelect, nyticks, pad4heatmap, pointcolor, pointsAtMarkers, pointsize, pointstroke, rotate_ylab, significantcolor, suggestivecolor, title, titlepos, width, xlab, xscale, ylab, ylim, yscale, yticks;
+ width = 800;
+ height = 500;
+ margin = {
+ left: 60,
+ top: 40,
+ right: 40,
+ bottom: 40,
+ inner: 5
+ };
+ axispos = {
+ xtitle: 25,
+ ytitle: 30,
+ xlabel: 5,
+ ylabel: 5
+ };
+ titlepos = 20;
+ ylim = null;
+ additive_ylim = null;
+ nyticks = 5;
+ yticks = null;
+ additive_yticks = null;
+ chrGap = 8;
+ darkrect = "#F1F1F9";
+ lightrect = "#FBFBFF";
+ lodlinecolor = "darkslateblue";
+ additivelinecolor = "red";
+ linewidth = 2;
+ suggestivecolor = "gainsboro";
+ significantcolor = "#EBC7C7";
+ pointcolor = "#E9CFEC";
+ pointsize = 0;
+ pointstroke = "black";
+ title = "";
+ xlab = "Chromosome";
+ ylab = "LRS score";
+ additive_ylab = "Additive Effect";
+ rotate_ylab = null;
+ yscale = d3.scale.linear();
+ additive_yscale = d3.scale.linear();
+ xscale = null;
+ pad4heatmap = false;
+ lodcurve = null;
+ lodvarname = null;
+ markerSelect = null;
+ chrSelect = null;
+ pointsAtMarkers = true;
+ chart = function(selection) {
+ return selection.each(function(data) {
+ var additive_yaxis, additivecurve, chr, curves, g, gEnter, hiddenpoints, lodvarnum, markerpoints, markertip, rotate_additive_ylab, suggestive_bar, svg, titlegrp, x, xaxis, yaxis, _i, _j, _len, _len1, _ref, _ref1;
+ lodvarname = lodvarname != null ? lodvarname : data.lodnames[0];
+ data[lodvarname] = (function() {
+ var _i, _len, _ref, _results;
+ _ref = data[lodvarname];
+ _results = [];
+ for (_i = 0, _len = _ref.length; _i < _len; _i++) {
+ x = _ref[_i];
+ _results.push(Math.abs(x));
+ }
+ return _results;
+ })();
+ data['additive'] = (function() {
+ var _i, _len, _ref, _results;
+ _ref = data['additive'];
+ _results = [];
+ for (_i = 0, _len = _ref.length; _i < _len; _i++) {
+ x = _ref[_i];
+ _results.push(Math.abs(x));
+ }
+ return _results;
+ })();
+ ylim = ylim != null ? ylim : [0, d3.max(data[lodvarname])];
+ additive_ylim = additive_ylim != null ? additive_ylim : [0, d3.max(data['additive'])];
+ lodvarnum = data.lodnames.indexOf(lodvarname);
+ svg = d3.select(this).selectAll("svg").data([data]);
+ gEnter = svg.enter().append("svg").append("g");
+ svg.attr("width", width + margin.left + margin.right).attr("height", height + margin.top + margin.bottom);
+ g = svg.select("g");
+ g.append("rect").attr("x", margin.left).attr("y", margin.top).attr("height", height).attr("width", width).attr("fill", darkrect).attr("stroke", "none");
+ yscale.domain(ylim).range([height + margin.top, margin.top + margin.inner]);
+ additive_yscale.domain(additive_ylim).range([height + margin.top, margin.top + margin.inner + height / 2]);
+ yticks = yticks != null ? yticks : yscale.ticks(nyticks);
+ additive_yticks = additive_yticks != null ? additive_yticks : additive_yscale.ticks(nyticks);
+ data = reorgLodData(data, lodvarname);
+ data = chrscales(data, width, chrGap, margin.left, pad4heatmap);
+ xscale = data.xscale;
+ chrSelect = g.append("g").attr("class", "chrRect").selectAll("empty").data(data.chrnames).enter().append("rect").attr("id", function(d) {
+ return "chrrect" + d;
+ }).attr("x", function(d, i) {
+ if (i === 0 && pad4heatmap) {
+ return data.chrStart[i];
+ }
+ return data.chrStart[i] - chrGap / 2;
+ }).attr("width", function(d, i) {
+ if ((i === 0 || i + 1 === data.chrnames.length) && pad4heatmap) {
+ return data.chrEnd[i] - data.chrStart[i] + chrGap / 2;
+ }
+ return data.chrEnd[i] - data.chrStart[i] + chrGap;
+ }).attr("y", margin.top).attr("height", height).attr("fill", function(d, i) {
+ if (i % 2) {
+ return darkrect;
+ }
+ return lightrect;
+ }).attr("stroke", "none");
+ xaxis = g.append("g").attr("class", "x axis");
+ xaxis.selectAll("empty").data(data.chrnames).enter().append("text").text(function(d) {
+ return d;
+ }).attr("x", function(d, i) {
+ return (data.chrStart[i] + data.chrEnd[i]) / 2;
+ }).attr("y", margin.top + height + axispos.xlabel);
+ xaxis.append("text").attr("class", "title").attr("y", margin.top + height + axispos.xtitle).attr("x", margin.left + width / 2).text(xlab);
+ rotate_ylab = rotate_ylab != null ? rotate_ylab : ylab.length > 1;
+ yaxis = g.append("g").attr("class", "y axis");
+ yaxis.selectAll("empty").data(yticks).enter().append("line").attr("y1", function(d) {
+ return yscale(d);
+ }).attr("y2", function(d) {
+ return yscale(d);
+ }).attr("x1", margin.left).attr("x2", margin.left + 7).attr("fill", "none").attr("stroke", "white").attr("stroke-width", 1).style("pointer-events", "none");
+ yaxis.selectAll("empty").data(yticks).enter().append("text").attr("y", function(d) {
+ return yscale(d);
+ }).attr("x", margin.left - axispos.ylabel).attr("fill", "blue").text(function(d) {
+ return formatAxis(yticks)(d);
+ });
+ yaxis.append("text").attr("class", "title").attr("y", margin.top + height / 2).attr("x", margin.left - axispos.ytitle).text(ylab).attr("transform", rotate_ylab ? "rotate(270," + (margin.left - axispos.ytitle) + "," + (margin.top + height / 2) + ")" : "");
+ rotate_additive_ylab = rotate_additive_ylab != null ? rotate_additive_ylab : additive_ylab.length > 1;
+ additive_yaxis = g.append("g").attr("class", "y axis");
+ additive_yaxis.selectAll("empty").data(additive_yticks).enter().append("line").attr("y1", function(d) {
+ return additive_yscale(d);
+ }).attr("y2", function(d) {
+ return additive_yscale(d);
+ }).attr("x1", margin.left + width).attr("x2", margin.left + width - 7).attr("fill", "none").attr("stroke", "white").attr("stroke-width", 1).style("pointer-events", "none");
+ additive_yaxis.selectAll("empty").data(additive_yticks).enter().append("text").attr("y", function(d) {
+ return additive_yscale(d);
+ }).attr("x", function(d) {
+ return margin.left + width + axispos.ylabel + 20;
+ }).attr("fill", "green").text(function(d) {
+ return formatAxis(additive_yticks)(d);
+ });
+ additive_yaxis.append("text").attr("class", "title").attr("y", margin.top + 1.5 * height).attr("x", margin.left + width + axispos.ytitle).text(additive_ylab).attr("transform", rotate_additive_ylab ? "rotate(270," + (margin.left + width + axispos.ytitle) + ", " + (margin.top + height * 1.5) + ")" : "");
+ suggestive_bar = g.append("g").attr("class", "suggestive");
+ suggestive_bar.selectAll("empty").data([data.suggestive]).enter().append("line").attr("y1", function(d) {
+ return yscale(d);
+ }).attr("y2", function(d) {
+ return yscale(d);
+ }).attr("x1", margin.left).attr("x2", margin.left + width).attr("fill", "none").attr("stroke", suggestivecolor).attr("stroke-width", 5).style("pointer-events", "none");
+ suggestive_bar = g.append("g").attr("class", "significant");
+ suggestive_bar.selectAll("empty").data([data.significant]).enter().append("line").attr("y1", function(d) {
+ return yscale(d);
+ }).attr("y2", function(d) {
+ return yscale(d);
+ }).attr("x1", margin.left).attr("x2", margin.left + width).attr("fill", "none").attr("stroke", significantcolor).attr("stroke-width", 5).style("pointer-events", "none");
+ lodcurve = function(chr, lodcolumn) {
+ return d3.svg.line().x(function(d) {
+ return xscale[chr](d);
+ }).y(function(d, i) {
+ return yscale(data.lodByChr[chr][i][lodcolumn]);
+ });
+ };
+ additivecurve = function(chr, lodcolumn) {
+ return d3.svg.line().x(function(d) {
+ return xscale[chr](d);
+ }).y(function(d, i) {
+ return additive_yscale(data.additiveByChr[chr][i][lodcolumn]);
+ });
+ };
+ curves = g.append("g").attr("id", "curves");
+ _ref = data.chrnames;
+ for (_i = 0, _len = _ref.length; _i < _len; _i++) {
+ chr = _ref[_i];
+ curves.append("path").datum(data.posByChr[chr]).attr("d", lodcurve(chr, lodvarnum)).attr("stroke", lodlinecolor).attr("fill", "none").attr("stroke-width", linewidth).style("pointer-events", "none");
+ }
+ _ref1 = data.chrnames;
+ for (_j = 0, _len1 = _ref1.length; _j < _len1; _j++) {
+ chr = _ref1[_j];
+ curves.append("path").datum(data.posByChr[chr]).attr("d", additivecurve(chr, lodvarnum)).attr("stroke", additivelinecolor).attr("fill", "none").attr("stroke-width", 1).style("pointer-events", "none");
+ }
+ if (pointsize > 0) {
+ markerpoints = g.append("g").attr("id", "markerpoints_visible");
+ markerpoints.selectAll("empty").data(data.markers).enter().append("circle").attr("cx", function(d) {
+ return xscale[d.chr](d.pos);
+ }).attr("cy", function(d) {
+ return yscale(d.lod);
+ }).attr("r", pointsize).attr("fill", pointcolor).attr("stroke", pointstroke).attr("pointer-events", "hidden");
+ }
+ if (pointsAtMarkers) {
+ hiddenpoints = g.append("g").attr("id", "markerpoints_hidden");
+ markertip = d3.tip().attr('class', 'd3-tip').html(function(d) {
+ return [d.name, " LRS = " + (d3.format('.2f')(d.lod))];
+ }).direction("e").offset([0, 10]);
+ svg.call(markertip);
+ markerSelect = hiddenpoints.selectAll("empty").data(data.markers).enter().append("circle").attr("cx", function(d) {
+ return xscale[d.chr](d.pos);
+ }).attr("cy", function(d) {
+ return yscale(d.lod);
+ }).attr("id", function(d) {
+ return d.name;
+ }).attr("r", d3.max([pointsize * 2, 3])).attr("opacity", 0).attr("fill", pointcolor).attr("stroke", pointstroke).attr("stroke-width", "1").on("mouseover.paneltip", function(d) {
+ d3.select(this).attr("opacity", 1);
+ return markertip.show(d);
+ }).on("mouseout.paneltip", function() {
+ return d3.select(this).attr("opacity", 0).call(markertip.hide);
+ });
+ }
+ titlegrp = g.append("g").attr("class", "title").append("text").attr("x", margin.left + width / 2).attr("y", margin.top - titlepos).text(title);
+ return g.append("rect").attr("x", margin.left).attr("y", margin.top).attr("height", height).attr("width", function() {
+ if (pad4heatmap) {
+ return data.chrEnd.slice(-1)[0] - margin.left;
+ }
+ return data.chrEnd.slice(-1)[0] - margin.left + chrGap / 2;
+ }).attr("fill", "none").attr("stroke", "black").attr("stroke-width", "none");
+ });
+ };
+ chart.width = function(value) {
+ if (!arguments.length) {
+ return width;
+ }
+ width = value;
+ return chart;
+ };
+ chart.height = function(value) {
+ if (!arguments.length) {
+ return height;
+ }
+ height = value;
+ return chart;
+ };
+ chart.margin = function(value) {
+ if (!arguments.length) {
+ return margin;
+ }
+ margin = value;
+ return chart;
+ };
+ chart.titlepos = function(value) {
+ if (!arguments.length) {
+ return titlepos;
+ }
+ titlepos;
+ return chart;
+ };
+ chart.axispos = function(value) {
+ if (!arguments.length) {
+ return axispos;
+ }
+ axispos = value;
+ return chart;
+ };
+ chart.ylim = function(value) {
+ if (!arguments.length) {
+ return ylim;
+ }
+ ylim = value;
+ return chart;
+ };
+ chart.additive_ylim = function(value) {
+ if (!arguments.length) {
+ return additive_ylim;
+ }
+ additive_ylim = value;
+ return chart;
+ };
+ chart.nyticks = function(value) {
+ if (!arguments.length) {
+ return nyticks;
+ }
+ nyticks = value;
+ return chart;
+ };
+ chart.yticks = function(value) {
+ if (!arguments.length) {
+ return yticks;
+ }
+ yticks = value;
+ return chart;
+ };
+ chart.chrGap = function(value) {
+ if (!arguments.length) {
+ return chrGap;
+ }
+ chrGap = value;
+ return chart;
+ };
+ chart.darkrect = function(value) {
+ if (!arguments.length) {
+ return darkrect;
+ }
+ darkrect = value;
+ return chart;
+ };
+ chart.lightrect = function(value) {
+ if (!arguments.length) {
+ return lightrect;
+ }
+ lightrect = value;
+ return chart;
+ };
+ chart.linecolor = function(value) {
+ var linecolor;
+ if (!arguments.length) {
+ return linecolor;
+ }
+ linecolor = value;
+ return chart;
+ };
+ chart.linewidth = function(value) {
+ if (!arguments.length) {
+ return linewidth;
+ }
+ linewidth = value;
+ return chart;
+ };
+ chart.pointcolor = function(value) {
+ if (!arguments.length) {
+ return pointcolor;
+ }
+ pointcolor = value;
+ return chart;
+ };
+ chart.pointsize = function(value) {
+ if (!arguments.length) {
+ return pointsize;
+ }
+ pointsize = value;
+ return chart;
+ };
+ chart.pointstroke = function(value) {
+ if (!arguments.length) {
+ return pointstroke;
+ }
+ pointstroke = value;
+ return chart;
+ };
+ chart.title = function(value) {
+ if (!arguments.length) {
+ return title;
+ }
+ title = value;
+ return chart;
+ };
+ chart.xlab = function(value) {
+ if (!arguments.length) {
+ return xlab;
+ }
+ xlab = value;
+ return chart;
+ };
+ chart.ylab = function(value) {
+ if (!arguments.length) {
+ return ylab;
+ }
+ ylab = value;
+ return chart;
+ };
+ chart.rotate_ylab = function(value) {
+ if (!arguments.length) {
+ return rotate_ylab;
+ }
+ rotate_ylab = value;
+ return chart;
+ };
+ chart.lodvarname = function(value) {
+ if (!arguments.length) {
+ return lodvarname;
+ }
+ lodvarname = value;
+ return chart;
+ };
+ chart.pad4heatmap = function(value) {
+ if (!arguments.length) {
+ return pad4heatmap;
+ }
+ pad4heatmap = value;
+ return chart;
+ };
+ chart.pointsAtMarkers = function(value) {
+ if (!arguments.length) {
+ return pointsAtMarkers;
+ }
+ pointsAtMarkers = value;
+ return chart;
+ };
+ chart.yscale = function() {
+ return yscale;
+ };
+ chart.additive_yscale = function() {
+ return additive_yscale;
+ };
+ chart.xscale = function() {
+ return xscale;
+ };
+ chart.lodcurve = function() {
+ return lodcurve;
+ };
+ chart.additivecurve = function() {
+ return additivecurve;
+ };
+ chart.markerSelect = function() {
+ return markerSelect;
+ };
+ chart.chrSelect = function() {
+ return chrSelect;
+ };
+ return chart;
+ };
+
+ root.lodchart = lodchart;
+
+ reorgLodData = function(data, lodvarname) {
+ var additiveval, chr, i, j, lodcolumn, lodval, marker, pos, _i, _j, _k, _len, _len1, _len2, _ref, _ref1, _ref2;
+ if (lodvarname == null) {
+ lodvarname = null;
+ }
+ data.posByChr = {};
+ data.lodByChr = {};
+ data.additiveByChr = {};
+ _ref = data.chrnames;
+ for (i = _i = 0, _len = _ref.length; _i < _len; i = ++_i) {
+ chr = _ref[i];
+ data.posByChr[chr] = [];
+ data.lodByChr[chr] = [];
+ data.additiveByChr[chr] = [];
+ _ref1 = data.pos;
+ for (j = _j = 0, _len1 = _ref1.length; _j < _len1; j = ++_j) {
+ pos = _ref1[j];
+ if (data.chr[j] === chr) {
+ data.posByChr[chr].push(pos);
+ if (!Array.isArray(data.lodnames)) {
+ data.lodnames = [data.lodnames];
+ }
+ additiveval = (function() {
+ var _k, _len2, _ref2, _results;
+ _ref2 = data.lodnames;
+ _results = [];
+ for (_k = 0, _len2 = _ref2.length; _k < _len2; _k++) {
+ lodcolumn = _ref2[_k];
+ _results.push(data['additive'][j]);
+ }
+ return _results;
+ })();
+ lodval = (function() {
+ var _k, _len2, _ref2, _results;
+ _ref2 = data.lodnames;
+ _results = [];
+ for (_k = 0, _len2 = _ref2.length; _k < _len2; _k++) {
+ lodcolumn = _ref2[_k];
+ _results.push(data[lodcolumn][j]);
+ }
+ return _results;
+ })();
+ data.additiveByChr[chr].push(additiveval);
+ data.lodByChr[chr].push(lodval);
+ }
+ }
+ }
+ if (lodvarname != null) {
+ data.markers = [];
+ _ref2 = data.markernames;
+ for (i = _k = 0, _len2 = _ref2.length; _k < _len2; i = ++_k) {
+ marker = _ref2[i];
+ if (marker !== "") {
+ data.markers.push({
+ name: marker,
+ chr: data.chr[i],
+ pos: data.pos[i],
+ lod: data[lodvarname][i]
+ });
+ }
+ }
+ }
+ return data;
+ };
+
+ chrscales = function(data, width, chrGap, leftMargin, pad4heatmap) {
+ var L, chr, chrEnd, chrLength, chrStart, cur, d, i, maxd, rng, totalChrLength, w, _i, _j, _len, _len1, _ref, _ref1;
+ chrStart = [];
+ chrEnd = [];
+ chrLength = [];
+ totalChrLength = 0;
+ maxd = 0;
+ _ref = data.chrnames;
+ for (_i = 0, _len = _ref.length; _i < _len; _i++) {
+ chr = _ref[_i];
+ d = maxdiff(data.posByChr[chr]);
+ if (d > maxd) {
+ maxd = d;
+ }
+ rng = d3.extent(data.posByChr[chr]);
+ chrStart.push(rng[0]);
+ chrEnd.push(rng[1]);
+ L = rng[1] - rng[0];
+ chrLength.push(L);
+ totalChrLength += L;
+ }
+ if (pad4heatmap) {
+ data.recwidth = maxd;
+ chrStart = chrStart.map(function(x) {
+ return x - maxd / 2;
+ });
+ chrEnd = chrEnd.map(function(x) {
+ return x + maxd / 2;
+ });
+ chrLength = chrLength.map(function(x) {
+ return x + maxd;
+ });
+ totalChrLength += chrLength.length * maxd;
+ }
+ data.chrStart = [];
+ data.chrEnd = [];
+ cur = leftMargin;
+ if (!pad4heatmap) {
+ cur += chrGap / 2;
+ }
+ data.xscale = {};
+ _ref1 = data.chrnames;
+ for (i = _j = 0, _len1 = _ref1.length; _j < _len1; i = ++_j) {
+ chr = _ref1[i];
+ data.chrStart.push(cur);
+ w = Math.round((width - chrGap * (data.chrnames.length - pad4heatmap)) / totalChrLength * chrLength[i]);
+ data.chrEnd.push(cur + w);
+ cur = data.chrEnd[i] + chrGap;
+ data.xscale[chr] = d3.scale.linear().domain([chrStart[i], chrEnd[i]]).range([data.chrStart[i], data.chrEnd[i]]);
+ }
+ return data;
+ };
+
+ maxdiff = function(x) {
+ var d, i, result, _i, _ref;
+ if (x.length < 2) {
+ return null;
+ }
+ result = x[1] - x[0];
+ if (x.length < 3) {
+ return result;
+ }
+ for (i = _i = 2, _ref = x.length; 2 <= _ref ? _i < _ref : _i > _ref; i = 2 <= _ref ? ++_i : --_i) {
+ d = x[i] - x[i - 1];
+ if (d > result) {
+ result = d;
+ }
+ }
+ return result;
+ };
+
+ formatAxis = function(d) {
+ var ndig;
+ d = d[1] - d[0];
+ ndig = Math.floor(Math.log(d % 10) / Math.log(10));
+ if (ndig > 0) {
+ ndig = 0;
+ }
+ ndig = Math.abs(ndig);
+ return d3.format("." + ndig + "f");
+ };
+
+}).call(this);
diff --git a/wqflask/wqflask/static/new/javascript/marker_regression.coffee b/wqflask/wqflask/static/new/javascript/marker_regression.coffee
index a0d492c1..8038ad9a 100755
--- a/wqflask/wqflask/static/new/javascript/marker_regression.coffee
+++ b/wqflask/wqflask/static/new/javascript/marker_regression.coffee
@@ -87,12 +87,12 @@ class Manhattan_Plot
high_qtl_count += 1
console.log("high_qtl_count:", high_qtl_count)
- if high_qtl_count > 10000
- @y_axis_filter = 2
- else if high_qtl_count > 1000
- @y_axis_filter = 1
- else
- @y_axis_filter = 0
+ #if high_qtl_count > 10000
+ @y_axis_filter = 2
+ #else if high_qtl_count > 1000
+ # @y_axis_filter = 1
+ #else
+ # @y_axis_filter = 0
create_coordinates: () ->
@@ -364,8 +364,8 @@ class Manhattan_Plot
.append("text")
.attr("class", "chr_label")
.text((d) =>
- if @max_chr == "24"
- if d[0] == 23
+ if @max_chr == 23
+ if d[0] == "23"
return "X"
else if d[0] == "24"
return "X/Y"
@@ -404,16 +404,16 @@ class Manhattan_Plot
return @y_scale(d[1])
)
.attr("r", (d) =>
- if d[1] > 3
- return 3
- else
- return 2
+ #if d[1] > 3
+ # return 3
+ #else
+ return 2
)
.attr("fill", (d) =>
- if d[1] > 3
- return "white"
- else
- return "black"
+ #if d[1] > 3
+ # return "white"
+ #else
+ return "black"
)
.attr("stroke", "black")
.attr("stroke-width", "1")
@@ -435,16 +435,16 @@ class Manhattan_Plot
this_id = "point_" + String(d[2])
d3.select("#" + this_id).classed("d3_highlight", false)
.attr("r", (d) =>
- if d[1] > 2
- return 3
- else
- return 2
+ #if d[1] > 2
+ # return 3
+ #else
+ return 2
)
.attr("fill", (d) =>
- if d[1] > 2
- return "white"
- else
- return "black"
+ #if d[1] > 2
+ # return "white"
+ #else
+ return "black"
)
.attr("stroke", "black")
.attr("stroke-width", "1")
diff --git a/wqflask/wqflask/static/new/javascript/marker_regression.js b/wqflask/wqflask/static/new/javascript/marker_regression.js
index 59b801d5..e3c316dd 100755
--- a/wqflask/wqflask/static/new/javascript/marker_regression.js
+++ b/wqflask/wqflask/static/new/javascript/marker_regression.js
@@ -94,13 +94,7 @@
}
}
console.log("high_qtl_count:", high_qtl_count);
- if (high_qtl_count > 10000) {
- return this.y_axis_filter = 2;
- } else if (high_qtl_count > 1000) {
- return this.y_axis_filter = 1;
- } else {
- return this.y_axis_filter = 0;
- }
+ return this.y_axis_filter = 2;
};
Manhattan_Plot.prototype.create_coordinates = function() {
@@ -299,8 +293,8 @@
return this.svg.selectAll("text").data(chr_info, function(d) {
return d;
}).enter().append("text").attr("class", "chr_label").text(function(d) {
- if (_this.max_chr === "24") {
- if (d[0] === 23) {
+ if (_this.max_chr === 23) {
+ if (d[0] === "23") {
return "X";
} else if (d[0] === "24") {
return "X/Y";
@@ -330,17 +324,9 @@
}).attr("cy", function(d) {
return _this.y_scale(d[1]);
}).attr("r", function(d) {
- if (d[1] > 3) {
- return 3;
- } else {
- return 2;
- }
+ return 2;
}).attr("fill", function(d) {
- if (d[1] > 3) {
- return "white";
- } else {
- return "black";
- }
+ return "black";
}).attr("stroke", "black").attr("stroke-width", "1").attr("id", function(d) {
return "point_" + String(d[2]);
}).classed("circle", true).on("mouseover", function(d) {
@@ -353,17 +339,9 @@
var this_id;
this_id = "point_" + String(d[2]);
return d3.select("#" + this_id).classed("d3_highlight", false).attr("r", function(d) {
- if (d[1] > 2) {
- return 3;
- } else {
- return 2;
- }
+ return 2;
}).attr("fill", function(d) {
- if (d[1] > 2) {
- return "white";
- } else {
- return "black";
- }
+ return "black";
}).attr("stroke", "black").attr("stroke-width", "1");
}).append("svg:title").text(function(d) {
return d[2];
diff --git a/wqflask/wqflask/static/new/javascript/panelutil.coffee b/wqflask/wqflask/static/new/javascript/panelutil.coffee
new file mode 100644
index 00000000..42636369
--- /dev/null
+++ b/wqflask/wqflask/static/new/javascript/panelutil.coffee
@@ -0,0 +1,205 @@
+# A variety of utility functions used by the different panel functions
+
+root = exports ? this
+
+# determine rounding of axis labels
+formatAxis = (d) ->
+ d = d[1] - d[0]
+ ndig = Math.floor( Math.log(d % 10) / Math.log(10) )
+ ndig = 0 if ndig > 0
+ ndig = Math.abs(ndig)
+ d3.format(".#{ndig}f")
+
+# unique values of array (ignore nulls)
+unique = (x) ->
+ output = {}
+ output[v] = v for v in x when v
+ output[v] for v of output
+
+# Pull out a variable (column) from a two-dimensional array
+pullVarAsArray = (data, variable) ->
+ v = []
+ for i of data
+ v = v.concat data[i][variable]
+ v
+
+# reorganize lod/pos by chromosome
+# lodvarname==null -> case for multiple LOD columns (lodheatmap)
+# lodvarname provided -> case for one LOD column (lodchart)
+reorgLodData = (data, lodvarname=null) ->
+ data.posByChr = {}
+ data.lodByChr = {}
+
+ for chr,i in data.chrnames
+ data.posByChr[chr] = []
+ data.lodByChr[chr] = []
+ for pos,j in data.pos
+ if data.chr[j] == chr
+ data.posByChr[chr].push(pos)
+ data.lodnames = [data.lodnames] unless Array.isArray(data.lodnames)
+ lodval = (data[lodcolumn][j] for lodcolumn in data.lodnames)
+ data.lodByChr[chr].push(lodval)
+
+ if lodvarname?
+ data.markers = []
+ for marker,i in data.markernames
+ if marker != ""
+ data.markers.push({name:marker, chr:data.chr[i], pos:data.pos[i], lod:data[lodvarname][i]})
+
+ data
+
+# calculate chromosome start/end + scales, for heat map
+chrscales = (data, width, chrGap, leftMargin, pad4heatmap) ->
+ # start and end of chromosome positions
+ chrStart = []
+ chrEnd = []
+ chrLength = []
+ totalChrLength = 0
+ maxd = 0
+ for chr in data.chrnames
+ d = maxdiff(data.posByChr[chr])
+ maxd = d if d > maxd
+
+ rng = d3.extent(data.posByChr[chr])
+ chrStart.push(rng[0])
+ chrEnd.push(rng[1])
+ L = rng[1] - rng[0]
+ chrLength.push(L)
+ totalChrLength += L
+
+ # adjust lengths for heatmap
+ if pad4heatmap
+ data.recwidth = maxd
+ chrStart = chrStart.map (x) -> x-maxd/2
+ chrEnd = chrEnd.map (x) -> x+maxd/2
+ chrLength = chrLength.map (x) -> x+maxd
+ totalChrLength += (chrLength.length*maxd)
+
+ # break up x axis into chromosomes by length, with gaps
+ data.chrStart = []
+ data.chrEnd = []
+ cur = leftMargin
+ cur += chrGap/2 unless pad4heatmap
+ data.xscale = {}
+ for chr,i in data.chrnames
+ data.chrStart.push(cur)
+ w = Math.round((width-chrGap*(data.chrnames.length-pad4heatmap))/totalChrLength*chrLength[i])
+ data.chrEnd.push(cur + w)
+ cur = data.chrEnd[i] + chrGap
+ # x-axis scales, by chromosome
+ data.xscale[chr] = d3.scale.linear()
+ .domain([chrStart[i], chrEnd[i]])
+ .range([data.chrStart[i], data.chrEnd[i]])
+
+ # return data with new stuff added
+ data
+
+# Select a set of categorical colors
+# ngroup is positive integer
+# palette = "dark" or "pastel"
+selectGroupColors = (ngroup, palette) ->
+ return [] if ngroup == 0
+
+ if palette == "dark"
+ return ["slateblue"] if ngroup == 1
+ return ["MediumVioletRed", "slateblue"] if ngroup == 2
+ return colorbrewer.Set1[ngroup] if ngroup <= 9
+ return d3.scale.category20().range()[0...ngroup]
+ else
+ return [d3.rgb(190, 190, 190)] if ngroup == 1
+ return ["lightpink", "lightblue"] if ngroup == 2
+ return colorbrewer.Pastel1[ngroup] if ngroup <= 9
+ # below is rough attempt to make _big_ pastel palette
+ return ["#8fc7f4", "#fed7f8", "#ffbf8e", "#fffbb8",
+ "#8ce08c", "#d8ffca", "#f68788", "#ffd8d6",
+ "#d4a7fd", "#f5f0f5", "#cc968b", "#f4dcd4",
+ "#f3b7f2", "#f7f6f2", "#bfbfbf", "#f7f7f7",
+ "#fcfd82", "#fbfbcd", "#87feff", "#defaf5"][0...ngroup]
+
+# expand element/array (e.g., of colors) to a given length
+# single elment -> array, then repeated to length n
+expand2vector = (input, n) ->
+ return input if Array.isArray(input) and input.length >= n
+ input = [input] unless Array.isArray(input)
+ input = (input[0] for i of d3.range(n)) if input.length == 1 and n > 1
+ input
+
+# median of a vector
+median = (x) ->
+ return null if !x?
+ n = x.length
+ x.sort((a,b) -> a-b)
+ if n % 2 == 1
+ return x[(n-1)/2]
+ (x[n/2] + x[(n/2)-1])/2
+
+# given a vector of x's, return hash with values to left and right, and the differences
+getLeftRight = (x) ->
+ n = x.length
+ x.sort( (a,b) -> a-b )
+
+ xdif = []
+ result = {}
+ for v in x
+ result[v] = {}
+
+ for i in [1...n]
+ xdif.push(x[i]-x[i-1])
+ result[x[i]].left = x[i-1]
+ for i in [0...(n-1)]
+ result[x[i]].right = x[i+1]
+
+ xdif = median(xdif)
+ result.mediandiff = xdif
+
+ result[x[0]].left = x[0]-xdif
+ result[x[n-1]].right = x[n-1]+xdif
+ result.extent = [x[0]-xdif/2, x[n-1]+xdif/2]
+
+ result
+
+# maximum difference between adjacent values in a vector
+maxdiff = (x) ->
+ return null if x.length < 2
+ result = x[1] - x[0]
+ return result if x.length < 3
+ for i in [2...x.length]
+ d = x[i] - x[i-1]
+ result = d if d > result
+ result
+
+# matrix extent, min max
+matrixMin = (mat) ->
+ result = mat[0][0]
+ for i of mat
+ for j of mat[i]
+ result = mat[i][j] if result > mat[i][j]
+ result
+
+matrixMax = (mat) ->
+ result = mat[0][0]
+ for i of mat
+ for j of mat[i]
+ result = mat[i][j] if result < mat[i][j]
+ result
+
+matrixMaxAbs = (mat) ->
+ result = Math.abs(mat[0][0])
+ for i of mat
+ for j of mat[i]
+ result = Math.abs(mat[i][j]) if result < mat[i][j]
+ result
+
+matrixExtent = (mat) -> [matrixMin(mat), matrixMax(mat)]
+
+d3.selection.prototype.moveToFront = () ->
+ this.each () -> this.parentNode.appendChild(this)
+
+d3.selection.prototype.moveToBack = () ->
+ this.each () ->
+ firstChild = this.parentNode.firstchild
+ this.parentNode.insertBefore(this, firstChild) if firstChild
+
+forceAsArray = (x) ->
+ return x if Array.isArray(x)
+ [x] \ No newline at end of file
diff --git a/wqflask/wqflask/static/new/javascript/panelutil.js b/wqflask/wqflask/static/new/javascript/panelutil.js
new file mode 100644
index 00000000..d5e7fd27
--- /dev/null
+++ b/wqflask/wqflask/static/new/javascript/panelutil.js
@@ -0,0 +1,324 @@
+// Generated by CoffeeScript 1.6.1
+(function() {
+ var chrscales, expand2vector, forceAsArray, formatAxis, getLeftRight, matrixExtent, matrixMax, matrixMaxAbs, matrixMin, maxdiff, median, pullVarAsArray, reorgLodData, root, selectGroupColors, unique;
+
+ root = typeof exports !== "undefined" && exports !== null ? exports : this;
+
+ formatAxis = function(d) {
+ var ndig;
+ d = d[1] - d[0];
+ ndig = Math.floor(Math.log(d % 10) / Math.log(10));
+ if (ndig > 0) {
+ ndig = 0;
+ }
+ ndig = Math.abs(ndig);
+ return d3.format("." + ndig + "f");
+ };
+
+ unique = function(x) {
+ var output, v, _i, _len, _results;
+ output = {};
+ for (_i = 0, _len = x.length; _i < _len; _i++) {
+ v = x[_i];
+ if (v) {
+ output[v] = v;
+ }
+ }
+ _results = [];
+ for (v in output) {
+ _results.push(output[v]);
+ }
+ return _results;
+ };
+
+ pullVarAsArray = function(data, variable) {
+ var i, v;
+ v = [];
+ for (i in data) {
+ v = v.concat(data[i][variable]);
+ }
+ return v;
+ };
+
+ reorgLodData = function(data, lodvarname) {
+ var chr, i, j, lodcolumn, lodval, marker, pos, _i, _j, _k, _len, _len1, _len2, _ref, _ref1, _ref2;
+ if (lodvarname == null) {
+ lodvarname = null;
+ }
+ data.posByChr = {};
+ data.lodByChr = {};
+ _ref = data.chrnames;
+ for (i = _i = 0, _len = _ref.length; _i < _len; i = ++_i) {
+ chr = _ref[i];
+ data.posByChr[chr] = [];
+ data.lodByChr[chr] = [];
+ _ref1 = data.pos;
+ for (j = _j = 0, _len1 = _ref1.length; _j < _len1; j = ++_j) {
+ pos = _ref1[j];
+ if (data.chr[j] === chr) {
+ data.posByChr[chr].push(pos);
+ if (!Array.isArray(data.lodnames)) {
+ data.lodnames = [data.lodnames];
+ }
+ lodval = (function() {
+ var _k, _len2, _ref2, _results;
+ _ref2 = data.lodnames;
+ _results = [];
+ for (_k = 0, _len2 = _ref2.length; _k < _len2; _k++) {
+ lodcolumn = _ref2[_k];
+ _results.push(data[lodcolumn][j]);
+ }
+ return _results;
+ })();
+ data.lodByChr[chr].push(lodval);
+ }
+ }
+ }
+ if (lodvarname != null) {
+ data.markers = [];
+ _ref2 = data.markernames;
+ for (i = _k = 0, _len2 = _ref2.length; _k < _len2; i = ++_k) {
+ marker = _ref2[i];
+ if (marker !== "") {
+ data.markers.push({
+ name: marker,
+ chr: data.chr[i],
+ pos: data.pos[i],
+ lod: data[lodvarname][i]
+ });
+ }
+ }
+ }
+ return data;
+ };
+
+ chrscales = function(data, width, chrGap, leftMargin, pad4heatmap) {
+ var L, chr, chrEnd, chrLength, chrStart, cur, d, i, maxd, rng, totalChrLength, w, _i, _j, _len, _len1, _ref, _ref1;
+ chrStart = [];
+ chrEnd = [];
+ chrLength = [];
+ totalChrLength = 0;
+ maxd = 0;
+ _ref = data.chrnames;
+ for (_i = 0, _len = _ref.length; _i < _len; _i++) {
+ chr = _ref[_i];
+ d = maxdiff(data.posByChr[chr]);
+ if (d > maxd) {
+ maxd = d;
+ }
+ rng = d3.extent(data.posByChr[chr]);
+ chrStart.push(rng[0]);
+ chrEnd.push(rng[1]);
+ L = rng[1] - rng[0];
+ chrLength.push(L);
+ totalChrLength += L;
+ }
+ if (pad4heatmap) {
+ data.recwidth = maxd;
+ chrStart = chrStart.map(function(x) {
+ return x - maxd / 2;
+ });
+ chrEnd = chrEnd.map(function(x) {
+ return x + maxd / 2;
+ });
+ chrLength = chrLength.map(function(x) {
+ return x + maxd;
+ });
+ totalChrLength += chrLength.length * maxd;
+ }
+ data.chrStart = [];
+ data.chrEnd = [];
+ cur = leftMargin;
+ if (!pad4heatmap) {
+ cur += chrGap / 2;
+ }
+ data.xscale = {};
+ _ref1 = data.chrnames;
+ for (i = _j = 0, _len1 = _ref1.length; _j < _len1; i = ++_j) {
+ chr = _ref1[i];
+ data.chrStart.push(cur);
+ w = Math.round((width - chrGap * (data.chrnames.length - pad4heatmap)) / totalChrLength * chrLength[i]);
+ data.chrEnd.push(cur + w);
+ cur = data.chrEnd[i] + chrGap;
+ data.xscale[chr] = d3.scale.linear().domain([chrStart[i], chrEnd[i]]).range([data.chrStart[i], data.chrEnd[i]]);
+ }
+ return data;
+ };
+
+ selectGroupColors = function(ngroup, palette) {
+ if (ngroup === 0) {
+ return [];
+ }
+ if (palette === "dark") {
+ if (ngroup === 1) {
+ return ["slateblue"];
+ }
+ if (ngroup === 2) {
+ return ["MediumVioletRed", "slateblue"];
+ }
+ if (ngroup <= 9) {
+ return colorbrewer.Set1[ngroup];
+ }
+ return d3.scale.category20().range().slice(0, ngroup);
+ } else {
+ if (ngroup === 1) {
+ return [d3.rgb(190, 190, 190)];
+ }
+ if (ngroup === 2) {
+ return ["lightpink", "lightblue"];
+ }
+ if (ngroup <= 9) {
+ return colorbrewer.Pastel1[ngroup];
+ }
+ return ["#8fc7f4", "#fed7f8", "#ffbf8e", "#fffbb8", "#8ce08c", "#d8ffca", "#f68788", "#ffd8d6", "#d4a7fd", "#f5f0f5", "#cc968b", "#f4dcd4", "#f3b7f2", "#f7f6f2", "#bfbfbf", "#f7f7f7", "#fcfd82", "#fbfbcd", "#87feff", "#defaf5"].slice(0, ngroup);
+ }
+ };
+
+ expand2vector = function(input, n) {
+ var i;
+ if (Array.isArray(input) && input.length >= n) {
+ return input;
+ }
+ if (!Array.isArray(input)) {
+ input = [input];
+ }
+ if (input.length === 1 && n > 1) {
+ input = (function() {
+ var _results;
+ _results = [];
+ for (i in d3.range(n)) {
+ _results.push(input[0]);
+ }
+ return _results;
+ })();
+ }
+ return input;
+ };
+
+ median = function(x) {
+ var n;
+ if (x == null) {
+ return null;
+ }
+ n = x.length;
+ x.sort(function(a, b) {
+ return a - b;
+ });
+ if (n % 2 === 1) {
+ return x[(n - 1) / 2];
+ }
+ return (x[n / 2] + x[(n / 2) - 1]) / 2;
+ };
+
+ getLeftRight = function(x) {
+ var i, n, result, v, xdif, _i, _j, _k, _len, _ref;
+ n = x.length;
+ x.sort(function(a, b) {
+ return a - b;
+ });
+ xdif = [];
+ result = {};
+ for (_i = 0, _len = x.length; _i < _len; _i++) {
+ v = x[_i];
+ result[v] = {};
+ }
+ for (i = _j = 1; 1 <= n ? _j < n : _j > n; i = 1 <= n ? ++_j : --_j) {
+ xdif.push(x[i] - x[i - 1]);
+ result[x[i]].left = x[i - 1];
+ }
+ for (i = _k = 0, _ref = n - 1; 0 <= _ref ? _k < _ref : _k > _ref; i = 0 <= _ref ? ++_k : --_k) {
+ result[x[i]].right = x[i + 1];
+ }
+ xdif = median(xdif);
+ result.mediandiff = xdif;
+ result[x[0]].left = x[0] - xdif;
+ result[x[n - 1]].right = x[n - 1] + xdif;
+ result.extent = [x[0] - xdif / 2, x[n - 1] + xdif / 2];
+ return result;
+ };
+
+ maxdiff = function(x) {
+ var d, i, result, _i, _ref;
+ if (x.length < 2) {
+ return null;
+ }
+ result = x[1] - x[0];
+ if (x.length < 3) {
+ return result;
+ }
+ for (i = _i = 2, _ref = x.length; 2 <= _ref ? _i < _ref : _i > _ref; i = 2 <= _ref ? ++_i : --_i) {
+ d = x[i] - x[i - 1];
+ if (d > result) {
+ result = d;
+ }
+ }
+ return result;
+ };
+
+ matrixMin = function(mat) {
+ var i, j, result;
+ result = mat[0][0];
+ for (i in mat) {
+ for (j in mat[i]) {
+ if (result > mat[i][j]) {
+ result = mat[i][j];
+ }
+ }
+ }
+ return result;
+ };
+
+ matrixMax = function(mat) {
+ var i, j, result;
+ result = mat[0][0];
+ for (i in mat) {
+ for (j in mat[i]) {
+ if (result < mat[i][j]) {
+ result = mat[i][j];
+ }
+ }
+ }
+ return result;
+ };
+
+ matrixMaxAbs = function(mat) {
+ var i, j, result;
+ result = Math.abs(mat[0][0]);
+ for (i in mat) {
+ for (j in mat[i]) {
+ if (result < mat[i][j]) {
+ result = Math.abs(mat[i][j]);
+ }
+ }
+ }
+ return result;
+ };
+
+ matrixExtent = function(mat) {
+ return [matrixMin(mat), matrixMax(mat)];
+ };
+
+ d3.selection.prototype.moveToFront = function() {
+ return this.each(function() {
+ return this.parentNode.appendChild(this);
+ });
+ };
+
+ d3.selection.prototype.moveToBack = function() {
+ return this.each(function() {
+ var firstChild;
+ firstChild = this.parentNode.firstchild;
+ if (firstChild) {
+ return this.parentNode.insertBefore(this, firstChild);
+ }
+ });
+ };
+
+ forceAsArray = function(x) {
+ if (Array.isArray(x)) {
+ return x;
+ }
+ return [x];
+ };
+
+}).call(this);
diff --git a/wqflask/wqflask/static/new/javascript/scatterplot.coffee b/wqflask/wqflask/static/new/javascript/scatterplot.coffee
new file mode 100644
index 00000000..546205ce
--- /dev/null
+++ b/wqflask/wqflask/static/new/javascript/scatterplot.coffee
@@ -0,0 +1,407 @@
+scatterplot = () ->
+ width = 800
+ height = 500
+ margin = {left:60, top:40, right:40, bottom: 40, inner:5}
+ axispos = {xtitle:25, ytitle:30, xlabel:5, ylabel:5}
+ titlepos = 20
+ xNA = {handle:true, force:false, width:15, gap:10}
+ yNA = {handle:true, force:false, width:15, gap:10}
+ xlim = null
+ ylim = null
+ nxticks = 5
+ xticks = null
+ nyticks = 5
+ yticks = null
+ rectcolor = d3.rgb(230, 230, 230)
+ pointcolor = null
+ pointstroke = "black"
+ pointsize = 3 # default = no visible points at markers
+ title = ""
+ xlab = "X"
+ ylab = "Y"
+ rotate_ylab = null
+ yscale = d3.scale.linear()
+ xscale = d3.scale.linear()
+ xvar = 0
+ yvar = 1
+ pointsSelect = null
+ dataByInd = true
+
+ ## the main function
+ chart = (selection) ->
+ selection.each (data) ->
+
+ if dataByInd
+ x = data.data.map (d) -> d[xvar]
+ y = data.data.map (d) -> d[yvar]
+ else # reorganize data
+ x = data.data[xvar]
+ y = data.data[yvar]
+
+ # grab indID if it's there
+ # if no indID, create a vector of them
+ indID = data?.indID ? null
+ indID = indID ? [1..x.length]
+
+ # groups of colors
+ group = data?.group ? (1 for i in x)
+ ngroup = d3.max(group)
+ group = (g-1 for g in group) # changed from (1,2,3,...) to (0,1,2,...)
+
+ # colors of the points in the different groups
+ pointcolor = pointcolor ? selectGroupColors(ngroup, "dark")
+ pointcolor = expand2vector(pointcolor, ngroup)
+
+ # if all (x,y) not null
+ xNA.handle = false if x.every (v) -> (v?) and !xNA.force
+ yNA.handle = false if y.every (v) -> (v?) and !yNA.force
+ if xNA.handle
+ paneloffset = xNA.width + xNA.gap
+ panelwidth = width - paneloffset
+ else
+ paneloffset = 0
+ panelwidth = width
+ if yNA.handle
+ panelheight = height - (yNA.width + yNA.gap)
+ else
+ panelheight = height
+
+ xlim = xlim ? d3.extent(x)
+ ylim = ylim ? d3.extent(y)
+
+ # I'll replace missing values something smaller than what's observed
+ na_value = d3.min(x.concat y) - 100
+
+ # Select the svg element, if it exists.
+ svg = d3.select(this).selectAll("svg").data([data])
+
+ # Otherwise, create the skeletal chart.
+ gEnter = svg.enter().append("svg").append("g")
+
+ # Update the outer dimensions.
+ svg.attr("width", width+margin.left+margin.right)
+ .attr("height", height+margin.top+margin.bottom)
+
+ g = svg.select("g")
+
+ # box
+ g.append("rect")
+ .attr("x", paneloffset+margin.left)
+ .attr("y", margin.top)
+ .attr("height", panelheight)
+ .attr("width", panelwidth)
+ .attr("fill", rectcolor)
+ .attr("stroke", "none")
+ if xNA.handle
+ g.append("rect")
+ .attr("x", margin.left)
+ .attr("y", margin.top)
+ .attr("height", panelheight)
+ .attr("width", xNA.width)
+ .attr("fill", rectcolor)
+ .attr("stroke", "none")
+ if xNA.handle and yNA.handle
+ g.append("rect")
+ .attr("x", margin.left)
+ .attr("y", margin.top+height - yNA.width)
+ .attr("height", yNA.width)
+ .attr("width", xNA.width)
+ .attr("fill", rectcolor)
+ .attr("stroke", "none")
+ if yNA.handle
+ g.append("rect")
+ .attr("x", margin.left+paneloffset)
+ .attr("y", margin.top+height-yNA.width)
+ .attr("height", yNA.width)
+ .attr("width", panelwidth)
+ .attr("fill", rectcolor)
+ .attr("stroke", "none")
+
+ # simple scales (ignore NA business)
+ xrange = [margin.left+paneloffset+margin.inner, margin.left+paneloffset+panelwidth-margin.inner]
+ yrange = [margin.top+panelheight-margin.inner, margin.top+margin.inner]
+ xscale.domain(xlim).range(xrange)
+ yscale.domain(ylim).range(yrange)
+ xs = d3.scale.linear().domain(xlim).range(xrange)
+ ys = d3.scale.linear().domain(ylim).range(yrange)
+
+ # "polylinear" scales to handle missing values
+ if xNA.handle
+ xscale.domain([na_value].concat xlim)
+ .range([margin.left + xNA.width/2].concat xrange)
+ x = x.map (e) -> if e? then e else na_value
+ if yNA.handle
+ yscale.domain([na_value].concat ylim)
+ .range([height+margin.top-yNA.width/2].concat yrange)
+ y = y.map (e) -> if e? then e else na_value
+
+ # if yticks not provided, use nyticks to choose pretty ones
+ yticks = yticks ? ys.ticks(nyticks)
+ xticks = xticks ? xs.ticks(nxticks)
+
+ # title
+ titlegrp = g.append("g").attr("class", "title")
+ .append("text")
+ .attr("x", margin.left + width/2)
+ .attr("y", margin.top - titlepos)
+ .text(title)
+
+ # x-axis
+ xaxis = g.append("g").attr("class", "x axis")
+ xaxis.selectAll("empty")
+ .data(xticks)
+ .enter()
+ .append("line")
+ .attr("x1", (d) -> xscale(d))
+ .attr("x2", (d) -> xscale(d))
+ .attr("y1", margin.top)
+ .attr("y2", margin.top+height)
+ .attr("fill", "none")
+ .attr("stroke", "white")
+ .attr("stroke-width", 1)
+ .style("pointer-events", "none")
+ xaxis.selectAll("empty")
+ .data(xticks)
+ .enter()
+ .append("text")
+ .attr("x", (d) -> xscale(d))
+ .attr("y", margin.top+height+axispos.xlabel)
+ .text((d) -> formatAxis(xticks)(d))
+ xaxis.append("text").attr("class", "title")
+ .attr("x", margin.left+width/2)
+ .attr("y", margin.top+height+axispos.xtitle)
+ .text(xlab)
+ if xNA.handle
+ xaxis.append("text")
+ .attr("x", margin.left+xNA.width/2)
+ .attr("y", margin.top+height+axispos.xlabel)
+ .text("N/A")
+
+ # y-axis
+ rotate_ylab = rotate_ylab ? (ylab.length > 1)
+ yaxis = g.append("g").attr("class", "y axis")
+ yaxis.selectAll("empty")
+ .data(yticks)
+ .enter()
+ .append("line")
+ .attr("y1", (d) -> yscale(d))
+ .attr("y2", (d) -> yscale(d))
+ .attr("x1", margin.left)
+ .attr("x2", margin.left+width)
+ .attr("fill", "none")
+ .attr("stroke", "white")
+ .attr("stroke-width", 1)
+ .style("pointer-events", "none")
+ yaxis.selectAll("empty")
+ .data(yticks)
+ .enter()
+ .append("text")
+ .attr("y", (d) -> yscale(d))
+ .attr("x", margin.left-axispos.ylabel)
+ .text((d) -> formatAxis(yticks)(d))
+ yaxis.append("text").attr("class", "title")
+ .attr("y", margin.top+height/2)
+ .attr("x", margin.left-axispos.ytitle)
+ .text(ylab)
+ .attr("transform", if rotate_ylab then "rotate(270,#{margin.left-axispos.ytitle},#{margin.top+height/2})" else "")
+ if yNA.handle
+ yaxis.append("text")
+ .attr("x", margin.left-axispos.ylabel)
+ .attr("y", margin.top+height-yNA.width/2)
+ .text("N/A")
+
+ indtip = d3.tip()
+ .attr('class', 'd3-tip')
+ .html((d,i) -> indID[i])
+ .direction('e')
+ .offset([0,10])
+ svg.call(indtip)
+
+ points = g.append("g").attr("id", "points")
+ pointsSelect =
+ points.selectAll("empty")
+ .data(d3.range(x.length))
+ .enter()
+ .append("circle")
+ .attr("cx", (d,i) -> xscale(x[i]))
+ .attr("cy", (d,i) -> yscale(y[i]))
+ .attr("class", (d,i) -> "pt#{i}")
+ .attr("r", pointsize)
+ .attr("fill", (d,i) -> pointcolor[group[i]])
+ .attr("stroke", pointstroke)
+ .attr("stroke-width", "1")
+ .attr("opacity", (d,i) ->
+ return 1 if (x[i]? or xNA.handle) and (y[i]? or yNA.handle)
+ return 0)
+ .on("mouseover.paneltip", indtip.show)
+ .on("mouseout.paneltip", indtip.hide)
+
+ # box
+ g.append("rect")
+ .attr("x", margin.left+paneloffset)
+ .attr("y", margin.top)
+ .attr("height", panelheight)
+ .attr("width", panelwidth)
+ .attr("fill", "none")
+ .attr("stroke", "black")
+ .attr("stroke-width", "none")
+ if xNA.handle
+ g.append("rect")
+ .attr("x", margin.left)
+ .attr("y", margin.top)
+ .attr("height", panelheight)
+ .attr("width", xNA.width)
+ .attr("fill", "none")
+ .attr("stroke", "black")
+ .attr("stroke-width", "none")
+ if xNA.handle and yNA.handle
+ g.append("rect")
+ .attr("x", margin.left)
+ .attr("y", margin.top+height - yNA.width)
+ .attr("height", yNA.width)
+ .attr("width", xNA.width)
+ .attr("fill", "none")
+ .attr("stroke", "black")
+ .attr("stroke-width", "none")
+ if yNA.handle
+ g.append("rect")
+ .attr("x", margin.left+paneloffset)
+ .attr("y", margin.top+height-yNA.width)
+ .attr("height", yNA.width)
+ .attr("width", panelwidth)
+ .attr("fill", "none")
+ .attr("stroke", "black")
+ .attr("stroke-width", "none")
+
+ ## configuration parameters
+ chart.width = (value) ->
+ return width if !arguments.length
+ width = value
+ chart
+
+ chart.height = (value) ->
+ return height if !arguments.length
+ height = value
+ chart
+
+ chart.margin = (value) ->
+ return margin if !arguments.length
+ margin = value
+ chart
+
+ chart.axispos = (value) ->
+ return axispos if !arguments.length
+ axispos = value
+ chart
+
+ chart.titlepos = (value) ->
+ return titlepos if !arguments.length
+ titlepos
+ chart
+
+ chart.xlim = (value) ->
+ return xlim if !arguments.length
+ xlim = value
+ chart
+
+ chart.nxticks = (value) ->
+ return nxticks if !arguments.length
+ nxticks = value
+ chart
+
+ chart.xticks = (value) ->
+ return xticks if !arguments.length
+ xticks = value
+ chart
+
+ chart.ylim = (value) ->
+ return ylim if !arguments.length
+ ylim = value
+ chart
+
+ chart.nyticks = (value) ->
+ return nyticks if !arguments.length
+ nyticks = value
+ chart
+
+ chart.yticks = (value) ->
+ return yticks if !arguments.length
+ yticks = value
+ chart
+
+ chart.rectcolor = (value) ->
+ return rectcolor if !arguments.length
+ rectcolor = value
+ chart
+
+ chart.pointcolor = (value) ->
+ return pointcolor if !arguments.length
+ pointcolor = value
+ chart
+
+ chart.pointsize = (value) ->
+ return pointsize if !arguments.length
+ pointsize = value
+ chart
+
+ chart.pointstroke = (value) ->
+ return pointstroke if !arguments.length
+ pointstroke = value
+ chart
+
+ chart.dataByInd = (value) ->
+ return dataByInd if !arguments.length
+ dataByInd = value
+ chart
+
+ chart.title = (value) ->
+ return title if !arguments.length
+ title = value
+ chart
+
+ chart.xlab = (value) ->
+ return xlab if !arguments.length
+ xlab = value
+ chart
+
+ chart.ylab = (value) ->
+ return ylab if !arguments.length
+ ylab = value
+ chart
+
+ chart.rotate_ylab = (value) ->
+ return rotate_ylab if !arguments.length
+ rotate_ylab = value
+ chart
+
+ chart.xvar = (value) ->
+ return xvar if !arguments.length
+ xvar = value
+ chart
+
+ chart.yvar = (value) ->
+ return yvar if !arguments.length
+ yvar = value
+ chart
+
+ chart.xNA = (value) ->
+ return xNA if !arguments.length
+ xNA = value
+ chart
+
+ chart.yNA = (value) ->
+ return yNA if !arguments.length
+ yNA = value
+ chart
+
+ chart.yscale = () ->
+ return yscale
+
+ chart.xscale = () ->
+ return xscale
+
+ chart.pointsSelect = () ->
+ return pointsSelect
+
+ # return the chart function
+ chart \ No newline at end of file
diff --git a/wqflask/wqflask/static/new/javascript/scatterplot.js b/wqflask/wqflask/static/new/javascript/scatterplot.js
new file mode 100644
index 00000000..23a66e6b
--- /dev/null
+++ b/wqflask/wqflask/static/new/javascript/scatterplot.js
@@ -0,0 +1,406 @@
+// Generated by CoffeeScript 1.6.1
+(function() {
+ var scatterplot;
+
+ scatterplot = function() {
+ var axispos, chart, dataByInd, height, margin, nxticks, nyticks, pointcolor, pointsSelect, pointsize, pointstroke, rectcolor, rotate_ylab, title, titlepos, width, xNA, xlab, xlim, xscale, xticks, xvar, yNA, ylab, ylim, yscale, yticks, yvar;
+ width = 800;
+ height = 500;
+ margin = {
+ left: 60,
+ top: 40,
+ right: 40,
+ bottom: 40,
+ inner: 5
+ };
+ axispos = {
+ xtitle: 25,
+ ytitle: 30,
+ xlabel: 5,
+ ylabel: 5
+ };
+ titlepos = 20;
+ xNA = {
+ handle: true,
+ force: false,
+ width: 15,
+ gap: 10
+ };
+ yNA = {
+ handle: true,
+ force: false,
+ width: 15,
+ gap: 10
+ };
+ xlim = null;
+ ylim = null;
+ nxticks = 5;
+ xticks = null;
+ nyticks = 5;
+ yticks = null;
+ rectcolor = d3.rgb(230, 230, 230);
+ pointcolor = null;
+ pointstroke = "black";
+ pointsize = 3;
+ title = "";
+ xlab = "X";
+ ylab = "Y";
+ rotate_ylab = null;
+ yscale = d3.scale.linear();
+ xscale = d3.scale.linear();
+ xvar = 0;
+ yvar = 1;
+ pointsSelect = null;
+ dataByInd = true;
+ chart = function(selection) {
+ return selection.each(function(data) {
+ var g, gEnter, group, i, indID, indtip, na_value, ngroup, panelheight, paneloffset, panelwidth, points, svg, titlegrp, x, xaxis, xrange, xs, y, yaxis, yrange, ys, _i, _ref, _ref1, _ref2, _results;
+ if (dataByInd) {
+ x = data.data.map(function(d) {
+ return d[xvar];
+ });
+ y = data.data.map(function(d) {
+ return d[yvar];
+ });
+ } else {
+ x = data.data[xvar];
+ y = data.data[yvar];
+ }
+ indID = (_ref = data != null ? data.indID : void 0) != null ? _ref : null;
+ indID = indID != null ? indID : (function() {
+ _results = [];
+ for (var _i = 1, _ref1 = x.length; 1 <= _ref1 ? _i <= _ref1 : _i >= _ref1; 1 <= _ref1 ? _i++ : _i--){ _results.push(_i); }
+ return _results;
+ }).apply(this);
+ group = (_ref2 = data != null ? data.group : void 0) != null ? _ref2 : (function() {
+ var _j, _len, _results1;
+ _results1 = [];
+ for (_j = 0, _len = x.length; _j < _len; _j++) {
+ i = x[_j];
+ _results1.push(1);
+ }
+ return _results1;
+ })();
+ ngroup = d3.max(group);
+ group = (function() {
+ var _j, _len, _results1;
+ _results1 = [];
+ for (_j = 0, _len = group.length; _j < _len; _j++) {
+ g = group[_j];
+ _results1.push(g - 1);
+ }
+ return _results1;
+ })();
+ pointcolor = pointcolor != null ? pointcolor : selectGroupColors(ngroup, "dark");
+ pointcolor = expand2vector(pointcolor, ngroup);
+ if (x.every(function(v) {
+ return (v != null) && !xNA.force;
+ })) {
+ xNA.handle = false;
+ }
+ if (y.every(function(v) {
+ return (v != null) && !yNA.force;
+ })) {
+ yNA.handle = false;
+ }
+ if (xNA.handle) {
+ paneloffset = xNA.width + xNA.gap;
+ panelwidth = width - paneloffset;
+ } else {
+ paneloffset = 0;
+ panelwidth = width;
+ }
+ if (yNA.handle) {
+ panelheight = height - (yNA.width + yNA.gap);
+ } else {
+ panelheight = height;
+ }
+ xlim = xlim != null ? xlim : d3.extent(x);
+ ylim = ylim != null ? ylim : d3.extent(y);
+ na_value = d3.min(x.concat(y)) - 100;
+ svg = d3.select(this).selectAll("svg").data([data]);
+ gEnter = svg.enter().append("svg").append("g");
+ svg.attr("width", width + margin.left + margin.right).attr("height", height + margin.top + margin.bottom);
+ g = svg.select("g");
+ g.append("rect").attr("x", paneloffset + margin.left).attr("y", margin.top).attr("height", panelheight).attr("width", panelwidth).attr("fill", rectcolor).attr("stroke", "none");
+ if (xNA.handle) {
+ g.append("rect").attr("x", margin.left).attr("y", margin.top).attr("height", panelheight).attr("width", xNA.width).attr("fill", rectcolor).attr("stroke", "none");
+ }
+ if (xNA.handle && yNA.handle) {
+ g.append("rect").attr("x", margin.left).attr("y", margin.top + height - yNA.width).attr("height", yNA.width).attr("width", xNA.width).attr("fill", rectcolor).attr("stroke", "none");
+ }
+ if (yNA.handle) {
+ g.append("rect").attr("x", margin.left + paneloffset).attr("y", margin.top + height - yNA.width).attr("height", yNA.width).attr("width", panelwidth).attr("fill", rectcolor).attr("stroke", "none");
+ }
+ xrange = [margin.left + paneloffset + margin.inner, margin.left + paneloffset + panelwidth - margin.inner];
+ yrange = [margin.top + panelheight - margin.inner, margin.top + margin.inner];
+ xscale.domain(xlim).range(xrange);
+ yscale.domain(ylim).range(yrange);
+ xs = d3.scale.linear().domain(xlim).range(xrange);
+ ys = d3.scale.linear().domain(ylim).range(yrange);
+ if (xNA.handle) {
+ xscale.domain([na_value].concat(xlim)).range([margin.left + xNA.width / 2].concat(xrange));
+ x = x.map(function(e) {
+ if (e != null) {
+ return e;
+ } else {
+ return na_value;
+ }
+ });
+ }
+ if (yNA.handle) {
+ yscale.domain([na_value].concat(ylim)).range([height + margin.top - yNA.width / 2].concat(yrange));
+ y = y.map(function(e) {
+ if (e != null) {
+ return e;
+ } else {
+ return na_value;
+ }
+ });
+ }
+ yticks = yticks != null ? yticks : ys.ticks(nyticks);
+ xticks = xticks != null ? xticks : xs.ticks(nxticks);
+ titlegrp = g.append("g").attr("class", "title").append("text").attr("x", margin.left + width / 2).attr("y", margin.top - titlepos).text(title);
+ xaxis = g.append("g").attr("class", "x axis");
+ xaxis.selectAll("empty").data(xticks).enter().append("line").attr("x1", function(d) {
+ return xscale(d);
+ }).attr("x2", function(d) {
+ return xscale(d);
+ }).attr("y1", margin.top).attr("y2", margin.top + height).attr("fill", "none").attr("stroke", "white").attr("stroke-width", 1).style("pointer-events", "none");
+ xaxis.selectAll("empty").data(xticks).enter().append("text").attr("x", function(d) {
+ return xscale(d);
+ }).attr("y", margin.top + height + axispos.xlabel).text(function(d) {
+ return formatAxis(xticks)(d);
+ });
+ xaxis.append("text").attr("class", "title").attr("x", margin.left + width / 2).attr("y", margin.top + height + axispos.xtitle).text(xlab);
+ if (xNA.handle) {
+ xaxis.append("text").attr("x", margin.left + xNA.width / 2).attr("y", margin.top + height + axispos.xlabel).text("N/A");
+ }
+ rotate_ylab = rotate_ylab != null ? rotate_ylab : ylab.length > 1;
+ yaxis = g.append("g").attr("class", "y axis");
+ yaxis.selectAll("empty").data(yticks).enter().append("line").attr("y1", function(d) {
+ return yscale(d);
+ }).attr("y2", function(d) {
+ return yscale(d);
+ }).attr("x1", margin.left).attr("x2", margin.left + width).attr("fill", "none").attr("stroke", "white").attr("stroke-width", 1).style("pointer-events", "none");
+ yaxis.selectAll("empty").data(yticks).enter().append("text").attr("y", function(d) {
+ return yscale(d);
+ }).attr("x", margin.left - axispos.ylabel).text(function(d) {
+ return formatAxis(yticks)(d);
+ });
+ yaxis.append("text").attr("class", "title").attr("y", margin.top + height / 2).attr("x", margin.left - axispos.ytitle).text(ylab).attr("transform", rotate_ylab ? "rotate(270," + (margin.left - axispos.ytitle) + "," + (margin.top + height / 2) + ")" : "");
+ if (yNA.handle) {
+ yaxis.append("text").attr("x", margin.left - axispos.ylabel).attr("y", margin.top + height - yNA.width / 2).text("N/A");
+ }
+ indtip = d3.tip().attr('class', 'd3-tip').html(function(d, i) {
+ return indID[i];
+ }).direction('e').offset([0, 10]);
+ svg.call(indtip);
+ points = g.append("g").attr("id", "points");
+ pointsSelect = points.selectAll("empty").data(d3.range(x.length)).enter().append("circle").attr("cx", function(d, i) {
+ return xscale(x[i]);
+ }).attr("cy", function(d, i) {
+ return yscale(y[i]);
+ }).attr("class", function(d, i) {
+ return "pt" + i;
+ }).attr("r", pointsize).attr("fill", function(d, i) {
+ return pointcolor[group[i]];
+ }).attr("stroke", pointstroke).attr("stroke-width", "1").attr("opacity", function(d, i) {
+ if (((x[i] != null) || xNA.handle) && ((y[i] != null) || yNA.handle)) {
+ return 1;
+ }
+ return 0;
+ }).on("mouseover.paneltip", indtip.show).on("mouseout.paneltip", indtip.hide);
+ g.append("rect").attr("x", margin.left + paneloffset).attr("y", margin.top).attr("height", panelheight).attr("width", panelwidth).attr("fill", "none").attr("stroke", "black").attr("stroke-width", "none");
+ if (xNA.handle) {
+ g.append("rect").attr("x", margin.left).attr("y", margin.top).attr("height", panelheight).attr("width", xNA.width).attr("fill", "none").attr("stroke", "black").attr("stroke-width", "none");
+ }
+ if (xNA.handle && yNA.handle) {
+ g.append("rect").attr("x", margin.left).attr("y", margin.top + height - yNA.width).attr("height", yNA.width).attr("width", xNA.width).attr("fill", "none").attr("stroke", "black").attr("stroke-width", "none");
+ }
+ if (yNA.handle) {
+ return g.append("rect").attr("x", margin.left + paneloffset).attr("y", margin.top + height - yNA.width).attr("height", yNA.width).attr("width", panelwidth).attr("fill", "none").attr("stroke", "black").attr("stroke-width", "none");
+ }
+ });
+ };
+ chart.width = function(value) {
+ if (!arguments.length) {
+ return width;
+ }
+ width = value;
+ return chart;
+ };
+ chart.height = function(value) {
+ if (!arguments.length) {
+ return height;
+ }
+ height = value;
+ return chart;
+ };
+ chart.margin = function(value) {
+ if (!arguments.length) {
+ return margin;
+ }
+ margin = value;
+ return chart;
+ };
+ chart.axispos = function(value) {
+ if (!arguments.length) {
+ return axispos;
+ }
+ axispos = value;
+ return chart;
+ };
+ chart.titlepos = function(value) {
+ if (!arguments.length) {
+ return titlepos;
+ }
+ titlepos;
+ return chart;
+ };
+ chart.xlim = function(value) {
+ if (!arguments.length) {
+ return xlim;
+ }
+ xlim = value;
+ return chart;
+ };
+ chart.nxticks = function(value) {
+ if (!arguments.length) {
+ return nxticks;
+ }
+ nxticks = value;
+ return chart;
+ };
+ chart.xticks = function(value) {
+ if (!arguments.length) {
+ return xticks;
+ }
+ xticks = value;
+ return chart;
+ };
+ chart.ylim = function(value) {
+ if (!arguments.length) {
+ return ylim;
+ }
+ ylim = value;
+ return chart;
+ };
+ chart.nyticks = function(value) {
+ if (!arguments.length) {
+ return nyticks;
+ }
+ nyticks = value;
+ return chart;
+ };
+ chart.yticks = function(value) {
+ if (!arguments.length) {
+ return yticks;
+ }
+ yticks = value;
+ return chart;
+ };
+ chart.rectcolor = function(value) {
+ if (!arguments.length) {
+ return rectcolor;
+ }
+ rectcolor = value;
+ return chart;
+ };
+ chart.pointcolor = function(value) {
+ if (!arguments.length) {
+ return pointcolor;
+ }
+ pointcolor = value;
+ return chart;
+ };
+ chart.pointsize = function(value) {
+ if (!arguments.length) {
+ return pointsize;
+ }
+ pointsize = value;
+ return chart;
+ };
+ chart.pointstroke = function(value) {
+ if (!arguments.length) {
+ return pointstroke;
+ }
+ pointstroke = value;
+ return chart;
+ };
+ chart.dataByInd = function(value) {
+ if (!arguments.length) {
+ return dataByInd;
+ }
+ dataByInd = value;
+ return chart;
+ };
+ chart.title = function(value) {
+ if (!arguments.length) {
+ return title;
+ }
+ title = value;
+ return chart;
+ };
+ chart.xlab = function(value) {
+ if (!arguments.length) {
+ return xlab;
+ }
+ xlab = value;
+ return chart;
+ };
+ chart.ylab = function(value) {
+ if (!arguments.length) {
+ return ylab;
+ }
+ ylab = value;
+ return chart;
+ };
+ chart.rotate_ylab = function(value) {
+ if (!arguments.length) {
+ return rotate_ylab;
+ }
+ rotate_ylab = value;
+ return chart;
+ };
+ chart.xvar = function(value) {
+ if (!arguments.length) {
+ return xvar;
+ }
+ xvar = value;
+ return chart;
+ };
+ chart.yvar = function(value) {
+ if (!arguments.length) {
+ return yvar;
+ }
+ yvar = value;
+ return chart;
+ };
+ chart.xNA = function(value) {
+ if (!arguments.length) {
+ return xNA;
+ }
+ xNA = value;
+ return chart;
+ };
+ chart.yNA = function(value) {
+ if (!arguments.length) {
+ return yNA;
+ }
+ yNA = value;
+ return chart;
+ };
+ chart.yscale = function() {
+ return yscale;
+ };
+ chart.xscale = function() {
+ return xscale;
+ };
+ chart.pointsSelect = function() {
+ return pointsSelect;
+ };
+ return chart;
+ };
+
+}).call(this);
diff --git a/wqflask/wqflask/static/new/javascript/show_trait_mapping_tools.coffee b/wqflask/wqflask/static/new/javascript/show_trait_mapping_tools.coffee
index 1d375686..6118eae8 100755
--- a/wqflask/wqflask/static/new/javascript/show_trait_mapping_tools.coffee
+++ b/wqflask/wqflask/static/new/javascript/show_trait_mapping_tools.coffee
@@ -120,6 +120,7 @@ $ ->
)
$("#plink_compute").click(() =>
+ $("#static_progress_bar_container").modal()
url = "/marker_regression"
$('input[name=method]').val("plink")
$('input[name=mapping_display_all]').val($('input[name=display_all_plink]'))
@@ -135,11 +136,11 @@ $ ->
alert("Sorry, an error occurred")
console.log(xhr)
clearInterval(this.my_timer)
- $('#progress_bar_container').modal('hide')
+ $('#static_progress_bar_container').modal('hide')
$("body").html("We got an error.")
success: (data) =>
clearInterval(this.my_timer)
- $('#progress_bar_container').modal('hide')
+ $('#static_progress_bar_container').modal('hide')
$("body").html(data)
)
console.log("settingInterval")
@@ -149,6 +150,7 @@ $ ->
)
$("#gemma_compute").click(() =>
+ $("#static_progress_bar_container").modal()
url = "/marker_regression"
$('input[name=method]').val("gemma")
$('input[name=mapping_display_all]').val($('input[name=display_all_gemma]'))
@@ -164,11 +166,11 @@ $ ->
alert("Sorry, an error occurred")
console.log(xhr)
clearInterval(this.my_timer)
- $('#progress_bar_container').modal('hide')
+ $('#static_progress_bar_container').modal('hide')
$("body").html("We got an error.")
success: (data) =>
clearInterval(this.my_timer)
- $('#progress_bar_container').modal('hide')
+ $('#static_progress_bar_container').modal('hide')
$("body").html(data)
)
console.log("settingInterval")
diff --git a/wqflask/wqflask/static/new/javascript/show_trait_mapping_tools.js b/wqflask/wqflask/static/new/javascript/show_trait_mapping_tools.js
index dbc26e3b..ee930c80 100755
--- a/wqflask/wqflask/static/new/javascript/show_trait_mapping_tools.js
+++ b/wqflask/wqflask/static/new/javascript/show_trait_mapping_tools.js
@@ -132,6 +132,7 @@
});
$("#plink_compute").click(function() {
var form_data, url;
+ $("#static_progress_bar_container").modal();
url = "/marker_regression";
$('input[name=method]').val("plink");
$('input[name=mapping_display_all]').val($('input[name=display_all_plink]'));
@@ -147,12 +148,12 @@
alert("Sorry, an error occurred");
console.log(xhr);
clearInterval(_this.my_timer);
- $('#progress_bar_container').modal('hide');
+ $('#static_progress_bar_container').modal('hide');
return $("body").html("We got an error.");
},
success: function(data) {
clearInterval(_this.my_timer);
- $('#progress_bar_container').modal('hide');
+ $('#static_progress_bar_container').modal('hide');
return $("body").html(data);
}
});
@@ -162,6 +163,7 @@
});
$("#gemma_compute").click(function() {
var form_data, url;
+ $("#static_progress_bar_container").modal();
url = "/marker_regression";
$('input[name=method]').val("gemma");
$('input[name=mapping_display_all]').val($('input[name=display_all_gemma]'));
@@ -177,12 +179,12 @@
alert("Sorry, an error occurred");
console.log(xhr);
clearInterval(_this.my_timer);
- $('#progress_bar_container').modal('hide');
+ $('#static_progress_bar_container').modal('hide');
return $("body").html("We got an error.");
},
success: function(data) {
clearInterval(_this.my_timer);
- $('#progress_bar_container').modal('hide');
+ $('#static_progress_bar_container').modal('hide');
return $("body").html(data);
}
});
diff --git a/wqflask/wqflask/static/new/js_external/d3-tip.min.js b/wqflask/wqflask/static/new/js_external/d3-tip.min.js
new file mode 100644
index 00000000..d881b1dc
--- /dev/null
+++ b/wqflask/wqflask/static/new/js_external/d3-tip.min.js
@@ -0,0 +1 @@
+!function(t,e){"function"==typeof define&&define.amd?define(["d3"],e):t.d3.tip=e(t.d3)}(this,function(t){return function(){function e(t){w=m(t),T=w.createSVGPoint(),document.body.appendChild(v)}function n(){return"n"}function r(){return[0,0]}function o(){return" "}function l(){var t=d();return{top:t.n.y-v.offsetHeight,left:t.n.x-v.offsetWidth/2}}function s(){var t=d();return{top:t.s.y,left:t.s.x-v.offsetWidth/2}}function f(){var t=d();return{top:t.e.y-v.offsetHeight/2,left:t.e.x}}function i(){var t=d();return{top:t.w.y-v.offsetHeight/2,left:t.w.x-v.offsetWidth}}function u(){var t=d();return{top:t.nw.y-v.offsetHeight,left:t.nw.x-v.offsetWidth}}function a(){var t=d();return{top:t.ne.y-v.offsetHeight,left:t.ne.x}}function c(){var t=d();return{top:t.sw.y,left:t.sw.x-v.offsetWidth}}function p(){var t=d();return{top:t.se.y,left:t.e.x}}function y(){var e=t.select(document.createElement("div"));return e.style({position:"absolute",top:0,opacity:0,"pointer-events":"none","box-sizing":"border-box"}),e.node()}function m(t){return t=t.node(),"svg"==t.tagName.toLowerCase()?t:t.ownerSVGElement}function d(){var e=b||t.event.target,n={},r=e.getScreenCTM(),o=e.getBBox(),l=o.width,s=o.height,f=o.x,i=o.y;return T.x=f,T.y=i,n.nw=T.matrixTransform(r),T.x+=l,n.ne=T.matrixTransform(r),T.y+=s,n.se=T.matrixTransform(r),T.x-=l,n.sw=T.matrixTransform(r),T.y-=s/2,n.w=T.matrixTransform(r),T.x+=l,n.e=T.matrixTransform(r),T.x-=l/2,T.y-=s/2,n.n=T.matrixTransform(r),T.y+=s,n.s=T.matrixTransform(r),n}var g=n,h=r,x=o,v=y(),w=null,T=null,b=null;e.show=function(){var n=Array.prototype.slice.call(arguments);n[n.length-1]instanceof SVGElement&&(b=n.pop());var r,o=x.apply(this,n),l=h.apply(this,n),s=g.apply(this,n),f=t.select(v),i=H.length,u=document.documentElement.scrollTop||document.body.scrollTop,a=document.documentElement.scrollLeft||document.body.scrollLeft;for(f.html(o).style({opacity:1,"pointer-events":"all"});i--;)f.classed(H[i],!1);return r=E.get(s).apply(this),f.classed(s,!0).style({top:r.top+l[0]+u+"px",left:r.left+l[1]+a+"px"}),e},e.hide=function(){return nodel=t.select(v),nodel.style({opacity:0,"pointer-events":"none"}),e},e.attr=function(n){if(arguments.length<2&&"string"==typeof n)return t.select(v).attr(n);var r=Array.prototype.slice.call(arguments);return t.selection.prototype.attr.apply(t.select(v),r),e},e.style=function(n){if(arguments.length<2&&"string"==typeof n)return t.select(v).style(n);var r=Array.prototype.slice.call(arguments);return t.selection.prototype.style.apply(t.select(v),r),e},e.direction=function(n){return arguments.length?(g=null==n?n:t.functor(n),e):g},e.offset=function(n){return arguments.length?(h=null==n?n:t.functor(n),e):h},e.html=function(n){return arguments.length?(x=null==n?n:t.functor(n),e):x};var E=t.map({n:l,s:s,e:f,w:i,nw:u,ne:a,sw:c,se:p}),H=E.keys();return e}}); \ No newline at end of file
diff --git a/wqflask/wqflask/templates/correlation_page.html b/wqflask/wqflask/templates/correlation_page.html
index e4819d61..61d17a22 100755
--- a/wqflask/wqflask/templates/correlation_page.html
+++ b/wqflask/wqflask/templates/correlation_page.html
@@ -25,6 +25,7 @@
<table id="corr_results" class="table table-hover table-striped table-bordered">
<thead>
<tr>
+ {% if dataset.type == 'ProbeSet' %}
<th>Trait</th>
<th>Symbol</th>
<th>Description</th>
@@ -47,11 +48,27 @@
<th>Tissue rho</th>
<th>Tissue p(rho)</th>
{% endif %}
+ {% elif dataset.type == "Publish" %}
+ <th>Record ID</th>
+ <th>Phenotype</th>
+ <th>Authors</th>
+ <th>Year</th>
+ {% if corr_method == 'pearson' %}
+ <th>Sample r</th>
+ <th>N Cases</th>
+ <th>Sample p(r)</th>
+ {% else %}
+ <th>Sample rho</th>
+ <th>N Cases</th>
+ <th>Sample p(rho)</th>
+ {% endif %}
+ {% endif %}
</tr>
</thead>
<tbody>
{% for trait in correlation_results %}
<tr>
+ {% if dataset.type == 'ProbeSet' %}
<td><a href="/show_trait?trait_id={{trait.name}}&amp;dataset={{trait.dataset.name}}">{{ trait.name }}</a></td>
<td>{{ trait.symbol }}</td>
<td>{{ trait.description }} <br><br> <b>Aliases</b>: {{ trait.alias }}</td>
@@ -65,6 +82,15 @@
<td>{{'%0.3f'|format(trait.lit_corr)}}</td>
<td>{{'%0.3f'|format(trait.tissue_corr)}}</td>
<td>{{'%0.3e'|format(trait.tissue_pvalue)}}</td>
+ {% elif dataset.type == "Publish" %}
+ <td><a href="/show_trait?trait_id={{trait.name}}&amp;dataset={{trait.dataset.name}}">{{ trait.name }}</a></td>
+ <td>{{ trait.post_publication_description }}</td>
+ <td>{{ trait.authors }}</td>
+ <td>{{ trait.year }}</td>
+ <td><a target="_blank" href="corr_scatter_plot?dataset_1={{dataset.name}}&dataset_2={{trait.dataset.name}}&trait_1={{this_trait.name}}&trait_2={{trait.name}}">{{'%0.3f'|format(trait.sample_r)}}</a></td>
+ <td>{{ trait.num_overlap }}</td>
+ <td>{{'%0.3e'|format(trait.sample_p)}}</td>
+ {% endif %}
</tr>
{% endfor %}
</tbody>
diff --git a/wqflask/wqflask/templates/interval_mapping.html b/wqflask/wqflask/templates/interval_mapping.html
index e4b93bf4..e3c164ea 100755
--- a/wqflask/wqflask/templates/interval_mapping.html
+++ b/wqflask/wqflask/templates/interval_mapping.html
@@ -5,6 +5,8 @@
<link rel="stylesheet" type="text/css" href="/static/new/packages/DataTables/css/jquery.dataTables.css" />
<link rel="stylesheet" type="text/css" href="/static/packages/DT_bootstrap/DT_bootstrap.css" />
<link rel="stylesheet" type="text/css" href="/static/packages/TableTools/media/css/TableTools.css" />
+ <link rel="stylesheet" type="text/css" href="/static/new/css/panelutil.css" />
+ <link rel="stylesheet" type="text/css" href="/static/new/css/d3-tip.min.css" />
{% endblock %}
{% block content %} <!-- Start of body -->
@@ -17,7 +19,7 @@
Whole Genome Mapping
</h2>
</div>
- <div id="interval_map" class="interval_map">
+ <div id="topchart">
</div>
<div>
@@ -69,7 +71,10 @@
<!-- <script language="javascript" type="text/javascript" src="/static/packages/jqplot/excanvas.js"></script>-->
<![endif]-->
<script language="javascript" type="text/javascript" src="http://d3js.org/d3.v3.min.js"></script>
- <script language="javascript" type="text/javascript" src="/static/new/javascript/interval_mapping.js"></script>
+ <script language="javascript" type="text/javascript" src="/static/new/js_external/d3-tip.min.js"></script>
+ <script language="javascript" type="text/javascript" src="/static/new/javascript/panelutil.js"></script>
+ <script language="javascript" type="text/javascript" src="/static/new/javascript/lod_chart.js"></script>
+ <script language="javascript" type="text/javascript" src="/static/new/javascript/interval_map_new.js"></script>
<script language="javascript" type="text/javascript" src="/static/new/packages/DataTables/js/jquery.js"></script>
<script language="javascript" type="text/javascript" src="/static/new/packages/DataTables/js/jquery.dataTables.min.js"></script>
<script language="javascript" type="text/javascript" src="/static/new/packages/DataTables/js/dataTables.scientific.js"></script>
diff --git a/wqflask/wqflask/templates/show_trait_details.html b/wqflask/wqflask/templates/show_trait_details.html
index b57c3c21..88fd74d9 100755
--- a/wqflask/wqflask/templates/show_trait_details.html
+++ b/wqflask/wqflask/templates/show_trait_details.html
@@ -29,7 +29,7 @@
-<div class="btn-toolbar">
+<!--<div class="btn-toolbar">
<div class="btn-group">
<button class="btn btn-primary" title="Add to collection">
<i class="icon-plus-sign icon-white"></i> Add
@@ -63,4 +63,4 @@
</button>
</div>
-</div>
+</div>-->
diff --git a/wqflask/wqflask/templates/show_trait_mapping_tools.html b/wqflask/wqflask/templates/show_trait_mapping_tools.html
index f380988e..a2c7564f 100755
--- a/wqflask/wqflask/templates/show_trait_mapping_tools.html
+++ b/wqflask/wqflask/templates/show_trait_mapping_tools.html
@@ -7,7 +7,7 @@
<a href="#interval_mapping" data-toggle="tab">Interval Mapping</a>
</li>
<li>
- <a href="#marker_regression" data-toggle="tab">Marker Regression</a>
+ <a href="#pylmm" data-toggle="tab">pyLMM</a>
</li>
<li>
<a href="#plink" data-toggle="tab">PLINK</a>
@@ -112,7 +112,7 @@
</div>
</div>
- <div class="tab-pane" id="marker_regression">
+ <div class="tab-pane" id="pylmm">
<div class="control-group" id="display_all_div">
<label class="control-label">Display all</label>
<div class="controls">
diff --git a/wqflask/wqflask/templates/show_trait_progress_bar.html b/wqflask/wqflask/templates/show_trait_progress_bar.html
index 0c3f0e6e..aebf64a4 100755
--- a/wqflask/wqflask/templates/show_trait_progress_bar.html
+++ b/wqflask/wqflask/templates/show_trait_progress_bar.html
@@ -9,4 +9,17 @@
<div id="time_remaining">
</div>
</div>
+</div>
+
+<div id="static_progress_bar_container" class="modal hide fade" tabindex="-1" role="dialog" aria-labelledby="progress_bar" aria-hidden="true">
+ <div class="modal-header">
+ <h3 id="progress_bar">Loading... (Estimated time ~10-15m)</h3>
+ </div>
+ <div class="modal-body">
+ <div class="progress progress-striped active">
+ <div id="marker_regression_progress" class="bar" style="width: 100%"></div>
+ </div>
+ <div id="time_remaining">
+ </div>
+ </div>
</div> \ No newline at end of file
diff --git a/wqflask/wqflask/templates/show_trait_statistics_new.html b/wqflask/wqflask/templates/show_trait_statistics_new.html
index 3a68d8c5..8f6f07ce 100755
--- a/wqflask/wqflask/templates/show_trait_statistics_new.html
+++ b/wqflask/wqflask/templates/show_trait_statistics_new.html
@@ -10,9 +10,9 @@
<li>
<a href="#bar_chart_tab" data-toggle="tab">Bar Chart</a>
</li>
- <li>
+<!-- <li>
<a href="#box_plot_tab" data-toggle="tab">Box Plot</a>
- </li>
+ </li>-->
</ul>
<div class="tab-content">
<div class="tab-pane active" id="histogram_tab">
@@ -67,7 +67,7 @@
<div id="bar_chart"></div>
</div>
</div>
- <div class="tab-pane" id="box_plot_tab">
+<!-- <div class="tab-pane" id="box_plot_tab">
{% if sample_groups|length > 1 %}
<select class="box_plot_samples_group">
{% for group, pretty_group in sample_group_types.items() %}
@@ -79,7 +79,7 @@
<div id="box_plot_container">
<div id="box_plot"></div>
</div>
- </div>
+ </div>-->
</div>
</div>
</div>
diff --git a/wqflask/wqflask/user_manager.py b/wqflask/wqflask/user_manager.py
index e4fb60e4..2ee5bbca 100755
--- a/wqflask/wqflask/user_manager.py
+++ b/wqflask/wqflask/user_manager.py
@@ -131,7 +131,10 @@ class UserSession(object):
@property
def user_id(self):
"""Shortcut to the user_id"""
- return self.record['user_id']
+ if 'user_id' in self.record:
+ return self.record['user_id']
+ else:
+ return ''
@property
def user_ob(self):
diff --git a/wqflask/wqflask/views.py b/wqflask/wqflask/views.py
index 20516205..7bde1006 100755
--- a/wqflask/wqflask/views.py
+++ b/wqflask/wqflask/views.py
@@ -279,7 +279,7 @@ def interval_mapping_page():
if key in wanted or key.startswith(('value:')):
start_vars[key] = value
- version = "v7"
+ version = "v11"
key = "interval_mapping:{}:".format(version) + json.dumps(start_vars, sort_keys=True)
print("key is:", pf(key))
with Bench("Loading cache"):
generated by cgit v1.2.3 (git 2.44.0) at 2024-11-23 15:41:33 +0000