diff options
-rw-r--r-- | wqflask/wqflask/my_pylmm/pyLMM/gwas.py | 70 | ||||
-rw-r--r-- | wqflask/wqflask/my_pylmm/pyLMM/lmm.py | 10 | ||||
-rw-r--r-- | wqflask/wqflask/my_pylmm/pyLMM/standalone.py | 31 |
3 files changed, 52 insertions, 59 deletions
diff --git a/wqflask/wqflask/my_pylmm/pyLMM/gwas.py b/wqflask/wqflask/my_pylmm/pyLMM/gwas.py index b901c0e2..8b344a90 100644 --- a/wqflask/wqflask/my_pylmm/pyLMM/gwas.py +++ b/wqflask/wqflask/my_pylmm/pyLMM/gwas.py @@ -19,7 +19,6 @@ import pdb import time -import sys # from utility import temp_data import lmm2 @@ -36,12 +35,10 @@ def formatResult(id,beta,betaSD,ts,ps): return "\t".join([str(x) for x in [id,beta,betaSD,ts,ps]]) + "\n" def compute_snp(j,n,snp_ids,lmm2,REML,q = None): - # print("COMPUTE SNP",j,snp_ids,"\n") result = [] for snp_id in snp_ids: snp,id = snp_id x = snp.reshape((n,1)) # all the SNPs - # print "X=",x # if refit: # L.fit(X=snp,REML=REML) ts,ps,beta,betaVar = lmm2.association(x,REML=REML,returnBeta=True) @@ -51,32 +48,28 @@ def compute_snp(j,n,snp_ids,lmm2,REML,q = None): q = compute_snp.q q.put([j,result]) return j - # PS.append(ps) - # TS.append(ts) - # return len(result) - # compute.q.put(result) - # return None def f_init(q): compute_snp.q = q -def gwas(Y,G,K,restricted_max_likelihood=True,refit=False,verbose=True): +def gwas(Y,G,K,uses,restricted_max_likelihood=True,refit=False,verbose=True): """ - Execute a GWAS. The G matrix should be n inds (cols) x m snps (rows) + GWAS. The G matrix should be n inds (cols) x m snps (rows) """ + progress,debug,info,mprint = uses('progress','debug','info','mprint') + matrix_initialize() cpu_num = mp.cpu_count() numThreads = None # for now use all available threads kfile2 = False reml = restricted_max_likelihood - sys.stderr.write(str(G.shape)+"\n") + mprint("G",G) n = G.shape[1] # inds inds = n m = G.shape[0] # snps snps = m - sys.stderr.write(str(m)+" SNPs\n") - # print "***** GWAS: G",G.shape,G + info("%s SNPs",snps) assert snps>inds, "snps should be larger than inds (snps=%d,inds=%d)" % (snps,inds) # CREATE LMM object for association @@ -85,19 +78,10 @@ def gwas(Y,G,K,restricted_max_likelihood=True,refit=False,verbose=True): lmm2 = LMM2(Y,K) # ,Kva,Kve,X0,verbose=verbose) if not refit: - if verbose: sys.stderr.write("Computing fit for null model\n") + info("Computing fit for null model") lmm2.fit() # follow GN model in run_other - if verbose: sys.stderr.write("\t heritability=%0.3f, sigma=%0.3f\n" % (lmm2.optH,lmm2.optSigma)) - - # outFile = "test.out" - # out = open(outFile,'w') - out = sys.stderr - - def outputResult(id,beta,betaSD,ts,ps): - out.write(formatResult(id,beta,betaSD,ts,ps)) - def printOutHead(): out.write("\t".join(["SNP_ID","BETA","BETA_SD","F_STAT","P_VALUE"]) + "\n") - - # printOutHead() + info("heritability=%0.3f, sigma=%0.3f" % (lmm2.optH,lmm2.optSigma)) + res = [] # Set up the pool @@ -106,26 +90,24 @@ def gwas(Y,G,K,restricted_max_likelihood=True,refit=False,verbose=True): p = mp.Pool(numThreads, f_init, [q]) collect = [] - # Buffers for pvalues and t-stats - # PS = [] - # TS = [] count = 0 job = 0 jobs_running = 0 + jobs_completed = 0 for snp in G: snp_id = (snp,'SNPID') count += 1 if count % 1000 == 0: job += 1 - if verbose: - sys.stderr.write("Job %d At SNP %d\n" % (job,count)) + debug("Job %d At SNP %d" % (job,count)) if numThreads == 1: - print "Running on 1 THREAD" + debug("Running on 1 THREAD") compute_snp(job,n,collect,lmm2,reml,q) collect = [] j,lst = q.get() - if verbose: - sys.stderr.write("Job "+str(j)+" finished\n") + debug("Job "+str(j)+" finished") + jobs_completed += 1 + progress("GWAS2",jobs_completed,snps/1000) res.append((j,lst)) else: p.apply_async(compute_snp,(job,n,collect,lmm2,reml)) @@ -134,8 +116,9 @@ def gwas(Y,G,K,restricted_max_likelihood=True,refit=False,verbose=True): while jobs_running > cpu_num: try: j,lst = q.get_nowait() - if verbose: - sys.stderr.write("Job "+str(j)+" finished\n") + debug("Job "+str(j)+" finished") + jobs_completed += 1 + progress("GWAS2",jobs_completed,snps/1000) res.append((j,lst)) jobs_running -= 1 except Queue.Empty: @@ -150,24 +133,23 @@ def gwas(Y,G,K,restricted_max_likelihood=True,refit=False,verbose=True): if numThreads==1 or count<1000 or len(collect)>0: job += 1 - print "Collect final batch size %i job %i @%i: " % (len(collect), job, count) + debug("Collect final batch size %i job %i @%i: " % (len(collect), job, count)) compute_snp(job,n,collect,lmm2,reml,q) collect = [] j,lst = q.get() res.append((j,lst)) - print "count=",count," running=",jobs_running," collect=",len(collect) + debug("count=%i running=%i collect=%i" % (count,jobs_running,len(collect))) for job in range(jobs_running): j,lst = q.get(True,15) # time out - if verbose: - sys.stderr.write("Job "+str(j)+" finished\n") + debug("Job "+str(j)+" finished") + jobs_completed += 1 + progress("GWAS2",jobs_completed,snps/1000) res.append((j,lst)) - print "Before sort",[res1[0] for res1 in res] + mprint("Before sort",[res1[0] for res1 in res]) res = sorted(res,key=lambda x: x[0]) - # if verbose: - # print "res=",res[0][0:10] - print "After sort",[res1[0] for res1 in res] - print [len(res1[1]) for res1 in res] + mprint("After sort",[res1[0] for res1 in res]) + info([len(res1[1]) for res1 in res]) ts = [item[0] for j,res1 in res for item in res1] ps = [item[1] for j,res1 in res for item in res1] return ts,ps diff --git a/wqflask/wqflask/my_pylmm/pyLMM/lmm.py b/wqflask/wqflask/my_pylmm/pyLMM/lmm.py index eab7d91d..1e00002a 100644 --- a/wqflask/wqflask/my_pylmm/pyLMM/lmm.py +++ b/wqflask/wqflask/my_pylmm/pyLMM/lmm.py @@ -57,11 +57,11 @@ import gwas # ---- A trick to decide on the environment: try: from wqflask.my_pylmm.pyLMM import chunks - from gn2 import uses, set_progress_storage + from gn2 import uses, progress_set_func except ImportError: has_gn2=False import standalone as handlers - from standalone import uses, set_progress_storage + from standalone import uses, progress_set_func sys.stderr.write("WARNING: LMM standalone version missing the Genenetwork2 environment\n") pass @@ -348,6 +348,7 @@ def run_other_new(pheno_vector, t_stats, p_values = gwas.gwas(Y, G.T, K, + uses, restricted_max_likelihood=True, refit=False,verbose=True) Bench().report() @@ -812,7 +813,10 @@ def gn2_redis(key,species,new_code=True): params = json.loads(json_params) tempdata = temp_data.TempData(params['temp_uuid']) - set_progress_storage(tempdata) + def update_tempdata(loc,i,total): + tempdata.store("percent_complete",round(i*100.0/total)) + debug("Updating REDIS percent_complete=%d" % (round(i*100.0/total))) + progress_set_func(update_tempdata) print('kinship', np.array(params['kinship_matrix'])) print('pheno', np.array(params['pheno_vector'])) diff --git a/wqflask/wqflask/my_pylmm/pyLMM/standalone.py b/wqflask/wqflask/my_pylmm/pyLMM/standalone.py index 7cc3e871..36bf8fd5 100644 --- a/wqflask/wqflask/my_pylmm/pyLMM/standalone.py +++ b/wqflask/wqflask/my_pylmm/pyLMM/standalone.py @@ -17,24 +17,31 @@ logger = logging.getLogger('lmm2') logging.basicConfig(level=logging.DEBUG) np.set_printoptions(precision=3,suppress=True) -last_location = None -last_progress = 0 +progress_location = None +progress_current = None +progress_prev_perc = None -def set_progress_storage(location): - global storage - storage = location +def progress_default_func(location,count,total): + global progress_current + value = round(count*100.0/total) + progress_current = value + +progress_func = progress_default_func + +def progress_set_func(func): + global progress_func + progress_func = func def progress(location, count, total): - global last_location - global last_progress + global progress_location + global progress_prev_perc perc = round(count*100.0/total) - # print(last_progress,";",perc) - if perc != last_progress and (location != last_location or perc > 98 or perc > last_progress + 5): - storage.store("percent_complete",perc) + if perc != progress_prev_perc and (location != progress_location or perc > 98 or perc > progress_prev_perc + 5): + progress_func(location, count, total) logger.info("Progress: %s %d%%" % (location,perc)) - last_location = location - last_progress = perc + progress_location = location + progress_prev_perc = perc def mprint(msg,data): """ |