Irrelevant play
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@ -365,7 +365,7 @@ def correlation_loadings(D, T, P, test=True):
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def cv_lpls(X, Y, Z, a_max=2, nsets=None,alpha=.5):
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def cv_lpls(X, Y, Z, a_max=2, nsets=None,alpha=.5, mean_ctr=[2,0,1]):
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"""Performs crossvalidation to get generalisation error in lpls"""
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cv_iter = select_generators.pls_gen(X, Y, n_blocks=nsets,center=False,index_out=True)
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k, l = Y.shape
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@ -374,7 +374,7 @@ def cv_lpls(X, Y, Z, a_max=2, nsets=None,alpha=.5):
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T, W, P, Q, U, L, K, B, b0, evx, evy, evz = nipals_lpls(xcal,ycal,Z,
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a_max=a_max,
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alpha=alpha,
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mean_ctr=[2,0,1],
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mean_ctr=mean_ctr,
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verbose=False)
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for a in range(a_max):
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Yhat[a,ind,:] = b0[a][0][0] + dot(xi, B[a])
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@ -387,7 +387,7 @@ def cv_lpls(X, Y, Z, a_max=2, nsets=None,alpha=.5):
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rmsep = sqrt(sep.mean(1))
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return rmsep, Yhat, class_err
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def jk_lpls(X, Y, Z, a_max, nsets=None, alpha=.5):
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def jk_lpls(X, Y, Z, a_max, nsets=None, alpha=.5, mean_ctr=[2,0,1]):
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cv_iter = select_generators.pls_gen(X, Y, n_blocks=nsets,center=False,index_out=False)
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m, n = X.shape
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k, l = Y.shape
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@ -401,7 +401,7 @@ def jk_lpls(X, Y, Z, a_max, nsets=None, alpha=.5):
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T, W, P, Q, U, L, K, B, b0, evx, evy, evz = nipals_lpls(xcal,ycal,Z,
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a_max=a_max,
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alpha=alpha,
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mean_ctr=[2,0,1],
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mean_ctr=mean_ctr,
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scale='loads',
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verbose=False)
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WWx[i,:,:] = W
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@ -152,7 +152,18 @@ def parents_dag(go_terms, ontology=['BP']):
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edge_dict[nn] = [head]
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return edge_dict
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def gene_GO_hypergeo_test(genelist, universe, ontology = ['BP']):
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def gene_GO_hypergeo_test(genelist,universe="entrezUniverse",ontology="BP",chip = "hgu133a",pval_cutoff=0.01,cond=False,test_direction="over"):
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pvals = geneGoHyperGeoTest(entrezGeneIds, lib=None, ontology=ontology[0], universe=universe)
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return pvals
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#assert(scipy.alltrue([True for i in genelist if i in universe]))
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universeGeneIds=universe
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params = rpy.r.new("GOHyperGParams",
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geneIds=genelist,
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annotation="hgu133a",
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ontology=ontology,
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pvalueCutoff=pval_cutoff,
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conditional=cond,
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testDirection=test_direction
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)
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result = rpy.r.summary(rpy.r.hyperGTest(params))
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return rpy.r.summary(result), params
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@ -12,7 +12,7 @@ from plots_lpls import plot_corrloads
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######## DATA ##########
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# full smoker data
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DX = dataset.read_ftsv(open("../../data/smokers-full/Xfull.ftsv"))
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DX = dataset.read_ftsv(open("../../data/smokers-full/Smokers.ftsv"))
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DY = dataset.read_ftsv(open("../../data/smokers-full/Yg.ftsv"))
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Y = DY.asarray().astype('d')
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# select subset genes by SAM
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@ -32,7 +32,7 @@ print "SAM done"
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qq = rpy.r('qobj<-qvalue(sam.out@p.value)')
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qvals = asarray(qq['qvalues'])
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# cut off
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cutoff = 2
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cutoff = 0.05
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index = where(qvals<cutoff)[0]
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# Subset data
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@ -58,7 +58,7 @@ print "\nNumber of genes: %s" %len(gene_ids)
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rpy.r.library("GOSim")
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# Go-term similarity matrix
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methods = ("JiangConrath","Resnik","Lin","CoutoEnriched","CoutoJiangConrath","CoutoResnik","CoutoLin")
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meth = methods[3]
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meth = methods[0]
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print "Term-term similarity matrix (method = %s)" %meth
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if meth=="CoutoEnriched":
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rpy.r('setEnrichmentFactors(alpha=0.1,beta=0.5)')
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@ -75,23 +75,23 @@ if len(nanindex)>0:
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# Z-matrix
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#Z, newind = rpy_go.genego_matrix(terms, tmat, gene_ids, terms,func=mean)
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#Z = Z.T
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Z1 = rpy_go.genego_sim(gene2goterms,gene_ids,terms,rpytmat1,go_term_sim="OA",term_sim=meth)
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Z = rpy_go.genego_sim(gene2goterms,gene_ids,terms,rpytmat1,go_term_sim="OA",term_sim=meth)
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#### do another
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meth = methods[4]
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rpytmat = rpy.with_mode(rpy.NO_CONVERSION, rpy.r.getTermSim)(terms, method=meth,verbose=False)
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tmat = rpy.r.assign("haha", rpytmat)
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#meth = methods[4]
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#rpytmat = rpy.with_mode(rpy.NO_CONVERSION, rpy.r.getTermSim)(terms, method=meth,verbose=False)
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#tmat = rpy.r.assign("haha", rpytmat)
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# check if all terms where found
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nanindex = where(isnan(tmat[:,0]))[0]
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if len(nanindex)>0:
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raise valueError("NANs in tmat")
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#nanindex = where(isnan(tmat[:,0]))[0]
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#if len(nanindex)>0:
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# raise valueError("NANs in tmat")
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# Z-matrix
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#Z, newind = rpy_go.genego_matrix(terms, tmat, gene_ids, terms,func=mean)
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#Z = Z.T
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Z = rpy_go.genego_sim(gene2goterms,gene_ids,terms,rpytmat,go_term_sim="OA",term_sim=meth)
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#Z = rpy_go.genego_sim(gene2goterms,gene_ids,terms,rpytmat,go_term_sim="OA",term_sim=meth)
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@ -105,17 +105,20 @@ Xr = X[:,newind]
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######## LPLSR ########
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print "LPLSR ..."
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a_max = 5
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aopt = 2
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alpha=.6
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T, W, P, Q, U, L, K, B, b0, evx, evy, evz = nipals_lpls(Xr,Y,Z, a_max, alpha)
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aopt = 3
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alpha=.4
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mean_ctr = [2, 0, 1]
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T, W, P, Q, U, L, K, B, b0, evx, evy, evz = nipals_lpls(Xr,Y,Z, a_max,
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alpha=alpha,
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mean_ctr=mean_ctr)
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# Correlation loadings
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dx,Rx,rssx = correlation_loadings(Xr, T, P)
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dx,Ry,rssy = correlation_loadings(Y, T, Q)
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cadz,Rz,rssz = correlation_loadings(Z.T, W, L)
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# Prediction error
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rmsep , yhat, class_error = cv_lpls(Xr, Y, Z, a_max, alpha=alpha)
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alpha_check=False
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rmsep , yhat, class_error = cv_lpls(Xr, Y, Z, a_max, alpha=alpha,mean_ctr=mean_ctr)
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alpha_check=True
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if alpha_check:
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Alpha = arange(0.01, 1, .1)
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Rmsep,Yhat, CE = [],[],[]
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@ -127,8 +130,6 @@ if alpha_check:
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Rmsep = asarray(Rmsep)
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Yhat = asarray(Yhat)
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CE = asarray(CE)
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figure(200)
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@ -158,7 +159,7 @@ title('Classification accuracy')
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figure(3) # Hypoid correlations
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plot_corrloads(Rz, pc1=0, pc2=1, s=tsqz/10.0, c='b', zorder=5, expvar=evz, ax=None)
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ax = gca()
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ylabels = DY.get_identifiers('_cat', sorted=True)
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ylabels = DY.get_identifiers('_status', sorted=True)
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plot_corrloads(Ry, pc1=0, pc2=1, s=150, c='g', zorder=5, expvar=evy, ax=ax,labels=ylabels)
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figure(3)
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