""" This module will contain functions to be used in computation of the data used to generate various kinds of heatmaps. """ from functools import reduce from typing import Any, Dict, Sequence from gn3.computations.slink import slink from gn3.computations.qtlreaper import generate_traits_file from gn3.computations.correlations2 import compute_correlation from gn3.db.genotypes import build_genotype_file, load_genotype_samples from gn3.db.traits import ( retrieve_trait_data, retrieve_trait_info, generate_traits_filename) def export_trait_data( trait_data: dict, strainlist: Sequence[str], dtype: str = "val", var_exists: bool = False, n_exists: bool = False): """ Export data according to `strainlist`. Mostly used in calculating correlations. DESCRIPTION: Migrated from https://github.com/genenetwork/genenetwork1/blob/master/web/webqtl/base/webqtlTrait.py#L166-L211 PARAMETERS trait: (dict) The dictionary of key-value pairs representing a trait strainlist: (list) A list of strain names dtype: (str) ... verify what this is ... var_exists: (bool) A flag indicating existence of variance n_exists: (bool) A flag indicating existence of ndata """ def __export_all_types(tdata, strain): sample_data = [] if tdata[strain]["value"]: sample_data.append(tdata[strain]["value"]) if var_exists: if tdata[strain]["variance"]: sample_data.append(tdata[strain]["variance"]) else: sample_data.append(None) if n_exists: if tdata[strain]["ndata"]: sample_data.append(tdata[strain]["ndata"]) else: sample_data.append(None) else: if var_exists and n_exists: sample_data += [None, None, None] elif var_exists or n_exists: sample_data += [None, None] else: sample_data.append(None) return tuple(sample_data) def __exporter(accumulator, strain): # pylint: disable=[R0911] if strain in trait_data["data"]: if dtype == "val": return accumulator + (trait_data["data"][strain]["value"], ) if dtype == "var": return accumulator + (trait_data["data"][strain]["variance"], ) if dtype == "N": return accumulator + (trait_data["data"][strain]["ndata"], ) if dtype == "all": return accumulator + __export_all_types(trait_data["data"], strain) raise KeyError("Type `%s` is incorrect" % dtype) if var_exists and n_exists: return accumulator + (None, None, None) if var_exists or n_exists: return accumulator + (None, None) return accumulator + (None,) return reduce(__exporter, strainlist, tuple()) def trait_display_name(trait: Dict): """ Given a trait, return a name to use to display the trait on a heatmap. DESCRIPTION Migrated from https://github.com/genenetwork/genenetwork1/blob/master/web/webqtl/base/webqtlTrait.py#L141-L157 """ if trait.get("db", None) and trait.get("trait_name", None): if trait["db"]["dataset_type"] == "Temp": desc = trait["description"] if desc.find("PCA") >= 0: return "%s::%s" % ( trait["db"]["displayname"], desc[desc.rindex(':')+1:].strip()) return "%s::%s" % ( trait["db"]["displayname"], desc[:desc.index('entered')].strip()) prefix = "%s::%s" % ( trait["db"]["dataset_name"], trait["trait_name"]) if trait["cellid"]: return "%s::%s" % (prefix, trait["cellid"]) return prefix return trait["description"] def cluster_traits(traits_data_list: Sequence[Dict]): """ Clusters the trait values. DESCRIPTION Attempts to replicate the clustering of the traits, as done at https://github.com/genenetwork/genenetwork1/blob/master/web/webqtl/heatmap/Heatmap.py#L138-L162 """ def __compute_corr(tdata_i, tdata_j): if tdata_i[0] == tdata_j[0]: return 0.0 corr_vals = compute_correlation(tdata_i[1], tdata_j[1]) corr = corr_vals[0] if (1 - corr) < 0: return 0.0 return 1 - corr def __cluster(tdata_i): return tuple( __compute_corr(tdata_i, tdata_j) for tdata_j in enumerate(traits_data_list)) return tuple(__cluster(tdata_i) for tdata_i in enumerate(traits_data_list)) def heatmap_data(traits_names, conn: Any): """ heatmap function DESCRIPTION This function is an attempt to reproduce the initialisation at https://github.com/genenetwork/genenetwork1/blob/master/web/webqtl/heatmap/Heatmap.py#L46-L64 and also the clustering and slink computations at https://github.com/genenetwork/genenetwork1/blob/master/web/webqtl/heatmap/Heatmap.py#L138-L165 with the help of the `gn3.computations.heatmap.cluster_traits` function. It does not try to actually draw the heatmap image. PARAMETERS: TODO: Elaborate on the parameters here... """ threshold = 0 # webqtlConfig.PUBLICTHRESH def __retrieve_traitlist_and_datalist(threshold, fullname): trait = retrieve_trait_info(threshold, fullname, conn) return (trait, retrieve_trait_data(trait, conn)) traits_details = [ __retrieve_traitlist_and_datalist(threshold, fullname) for fullname in traits_names] traits_list = tuple(x[0] for x in traits_details) traits_data_list = [x[1] for x in traits_details] genotype_filename = build_genotype_file(traits_list[0]["riset"]) strainlist = load_genotype_samples(genotype_filename) exported_traits_data_list = tuple( export_trait_data(td, strainlist) for td in traits_data_list) slink_data = slink(cluster_traits(exported_traits_data_list)) ordering_data = compute_heatmap_order(slink_data) strains_and_values = retrieve_strains_and_values( ordering_data, strainlist, exported_traits_data_list) strains_values = strains_and_values[0][1] trait_values = [t[2] for t in strains_and_values] traits_filename = generate_traits_filename() generate_traits_file(strains_values, trait_values, traits_filename) return { "slink_data": slink_data, "ordering_data": ordering_data, "strainlist": strainlist, "genotype_filename": genotype_filename, "traits_list": traits_list, "traits_data_list": traits_data_list, "exported_traits_data_list": exported_traits_data_list, "traits_filename": traits_filename } def compute_traits_order(slink_data, neworder: tuple = tuple()): """ Compute the order of the traits for clustering from `slink_data`. This function tries to reproduce the creation and update of the `neworder` variable in https://github.com/genenetwork/genenetwork1/blob/master/web/webqtl/heatmap/Heatmap.py#L120 and in the `web.webqtl.heatmap.Heatmap.draw` function in GN1 """ def __order_maker(norder, slnk_dt): if isinstance(slnk_dt[0], int) and isinstance(slnk_dt[1], int): return norder + (slnk_dt[0], slnk_dt[1]) if isinstance(slnk_dt[0], int): return __order_maker((norder + (slnk_dt[0], )), slnk_dt[1]) if isinstance(slnk_dt[1], int): return __order_maker(norder, slnk_dt[0]) + (slnk_dt[1], ) return __order_maker(__order_maker(norder, slnk_dt[0]), slnk_dt[1]) return __order_maker(neworder, slink_data) def retrieve_strains_and_values(orders, strainlist, traits_data_list): """ Get the strains and their corresponding values from `strainlist` and `traits_data_list`. This migrates the code in https://github.com/genenetwork/genenetwork1/blob/master/web/webqtl/heatmap/Heatmap.py#L215-221 """ # This feels nasty! There's a lot of mutation of values here, that might # indicate something untoward in the design of this function and its # dependents ==> Review strains = [] values = [] rets = [] for order in orders: temp_val = traits_data_list[order] for i, strain in enumerate(strainlist): if temp_val[i] is not None: strains.append(strain) values.append(temp_val[i]) rets.append([order, strains[:], values[:]]) strains = [] values = [] return rets def nearest_marker_finder(genotype): """ Returns a function to be used with `genotype` to compute the nearest marker to the trait passed to the returned function. https://github.com/genenetwork/genenetwork1/blob/master/web/webqtl/heatmap/Heatmap.py#L425-434 """ def __compute_distances(chromo, trait): loci = chromo.get("loci", None) if not loci: return None return tuple( { "name": locus["name"], "distance": abs(locus["Mb"] - trait["mb"]) } for locus in loci) def __finder(trait): _chrs = tuple( _chr for _chr in genotype["chromosomes"] if str(_chr["name"]) == str(trait["chr"])) if len(_chrs) == 0: return None distances = tuple( distance for dists in filter( lambda x: x is not None, (__compute_distances(_chr, trait) for _chr in _chrs)) for distance in dists) nearest = min(distances, key=lambda d: d["distance"]) return nearest["name"] return __finder def get_nearest_marker(traits_list, genotype): """ Retrieves the nearest marker for each of the traits in the list. DESCRIPTION: This migrates the code in https://github.com/genenetwork/genenetwork1/blob/master/web/webqtl/heatmap/Heatmap.py#L419-L438 """ if not genotype["Mbmap"]: return [None] * len(trait_list) marker_finder = nearest_marker_finder(genotype) return [marker_finder(trait) for trait in traits_list] def get_lrs_from_chr(trait, chr_name): chromosome = trait["chromosomes"].get(chr_name) if chromosome: return [ locus["LRS"] for locus in sorted(chromosome["loci"], key=lambda loc: loc["Locus"])] return [None] # # Grey + Blue + Red # def generate_heatmap(): # cols = 20 # y_axis = (["%s"%x for x in range(1, cols+1)][:-1] + ["X"]) #replace last item with x for now # x_axis = heatmap_x_axis_names() # data = generate_random_data(height=cols, width=len(x_axis)) # fig = px.imshow( # data, # x=x_axis, # y=y_axis, # width=500) # fig.update_traces(xtype="array") # fig.update_traces(ytype="array") # # fig.update_traces(xgap=10) # fig.update_xaxes( # visible=True, # title_text="Traits", # title_font_size=16) # fig.update_layout( # coloraxis_colorscale=[ # [0.0, '#3B3B3B'], [0.4999999999999999, '#ABABAB'], # [0.5, '#F5DE11'], [1.0, '#FF0D00']]) # fig.write_html("%s/%s"%(heatmap_dir, "test_image.html")) # return fig