# test_that("bootstrap_persistence_thresholds can do homology calculation with all three packages",{ # # skip_if_not_installed("TDA") # skip_if_not_installed("TDAstats") # # D <- TDA::circleUnif(n = 50,r = 1) # # ripser = import_ripser() # expect_length(bootstrap_persistence_thresholds(X = D,maxdim = 1,thresh = 2.1,num_workers = 2,num_samples = 3),2) # expect_length(bootstrap_persistence_thresholds(X = D,FUN_diag = "ripsDiag",FUN_boot = "ripsDiag",maxdim = 1,thresh = 2.1,num_workers = 2,num_samples = 3),2) # # expect_length(bootstrap_persistence_thresholds(X = D,FUN_diag = "PyH",FUN_boot = "PyH",maxdim = 1,thresh = 2,ripser = ripser,num_workers = 2,num_samples = 3),2) # expect_length(bootstrap_persistence_thresholds(X = D,FUN_boot = "ripsDiag",maxdim = 1,thresh = 2,calculate_representatives = T,num_workers = 2,num_samples = 3),2) # expect_length(bootstrap_persistence_thresholds(X = D,FUN_diag = "ripsDiag",maxdim = 1,thresh = 2,calculate_representatives = T,num_workers = 2,num_samples = 3),3) # # expect_length(bootstrap_persistence_thresholds(X = D,FUN_boot = "PyH",maxdim = 1,thresh = 2,ripser = ripser,calculate_representatives = T,num_workers = 2,num_samples = 3),2) # expect_length(bootstrap_persistence_thresholds(X = as.matrix(dist(D)),maxdim = 1,thresh = 2,distance_mat = T,num_workers = 2,num_samples = 3),2) # expect_length(bootstrap_persistence_thresholds(X = as.matrix(dist(D)),FUN_boot = "ripsDiag",maxdim = 1,thresh = 2,distance_mat = T,num_workers = 2,num_samples = 3),2) # # expect_length(bootstrap_persistence_thresholds(X = as.matrix(dist(D)),FUN_boot = "PyH",maxdim = 1,thresh = 2,ripser = ripser,distance_mat = T,num_workers = 2,num_samples = 3),2) # expect_length(bootstrap_persistence_thresholds(X = as.matrix(dist(D)),FUN_boot = "ripsDiag",maxdim = 1,thresh = 2,calculate_representatives = T,distance_mat = T,num_workers = 2,num_samples = 3),2) # expect_length(bootstrap_persistence_thresholds(X = as.matrix(dist(D)),FUN_diag = "ripsDiag",maxdim = 1,thresh = 2,calculate_representatives = T,distance_mat = T,num_workers = 2,num_samples = 3),3) # # expect_length(bootstrap_persistence_thresholds(X = as.matrix(dist(D)),FUN_boot = "PyH",FUN_diag = "PyH",maxdim = 1,thresh = 2,ripser = ripser,calculate_representatives = T,distance_mat = T,num_workers = 2,num_samples = 3),3) # # }) # test_that("bootstrap_persistence_thresholds can detect incorrect parameters correctly",{ # # skip_if_not_installed("TDA") # skip_if_not_installed("TDAstats") # # # X, FUN, maxdim, thresh, distance_mat, ripser, ignore_infinite_cluster, calculate_representatives, num_samples, alpha, return_subsetted, return_diag # expect_error(bootstrap_persistence_thresholds(data.frame(),maxdim = 1,thresh = 2),"X") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1),maxdim = 1,thresh = 2),"X") # expect_error(bootstrap_persistence_thresholds(data.frame(x = c(1,2),y = c("1","2")),maxdim = 1,thresh = 2),"X") # expect_error(bootstrap_persistence_thresholds(X = NULL,maxdim = 1,thresh = 2),"X") # expect_error(bootstrap_persistence_thresholds(X = data.frame(x = c(1,NA)),maxdim = 1,thresh = 2),"missing") # expect_error(bootstrap_persistence_thresholds(data.frame(x = c(1),y = c(2)),maxdim = 1,thresh = 2),"two") # # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "calculatehomology",maxdim = 1,thresh = 2),"calculate_homology") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = NULL,maxdim = 1,thresh = 2),"NULL") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = 2,maxdim = 1,thresh = 2),"string") # # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_boot = "calculatehomology",maxdim = 1,thresh = 2),"calculate_homology") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_boot = NULL,maxdim = 1,thresh = 2),"NULL") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_boot = 2,maxdim = 1,thresh = 2),"string") # # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),maxdim = 1.1,thresh = 2),"whole") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),maxdim = NA,thresh = 2),"NA") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),maxdim = -1,thresh = 2),"negative") # # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),maxdim = 1,thresh = 0),"positive") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),maxdim = 1,thresh = NaN),"NaN") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),maxdim = 1,thresh = "2"),"numeric") # # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "calculate_homology",maxdim = 1,thresh = 2,distance_mat = "F"),"logical") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "ripsDiag",maxdim = 1,thresh = 2,distance_mat = c(F,T)),"single") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "ripsDiag",maxdim = 1,thresh = 2,distance_mat = NULL),"NULL") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "ripsDiag",maxdim = 1,thresh = 2,distance_mat = NA),"NA") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "ripsDiag",maxdim = 1,thresh = 2,distance_mat = T),"square") # # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "calculate_homology",maxdim = 1,thresh = 2,p_less_than_alpha = "F"),"logical") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "ripsDiag",maxdim = 1,thresh = 2,p_less_than_alpha = c(F,T)),"single") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "ripsDiag",maxdim = 1,thresh = 2,p_less_than_alpha = NULL),"NULL") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "ripsDiag",maxdim = 1,thresh = 2,p_less_than_alpha = NA),"NA") # # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "calculate_homology",maxdim = 1,thresh = 2,return_pvals = "F"),"logical") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "ripsDiag",maxdim = 1,thresh = 2,return_pvals = c(F,T)),"single") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "ripsDiag",maxdim = 1,thresh = 2,return_pvals = NULL),"NULL") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "ripsDiag",maxdim = 1,thresh = 2,return_pvals = NA),"NA") # # # PyH parameters (ripser,ignore_infinite_cluster,calculate_representatives) are all working, tested in test-python.R # # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "ripsDiag",maxdim = 1,thresh = 2,calculate_representatives = c(T,F)),"boolean") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "calculate_homology",maxdim = 1,thresh = 2,calculate_representatives = NULL),"NULL") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "calculate_homology",maxdim = 1,thresh = 2,calculate_representatives = NA),"NA") # # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "ripsDiag",maxdim = 1,thresh = 2,num_samples = 0),"one") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "calculate_homology",maxdim = 1,thresh = 2,num_samples = Inf),"finite") # # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "ripsDiag",maxdim = 1,thresh = 2,alpha = NA),"NA") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "calculate_homology",maxdim = 1,thresh = 2,alpha = 2),"1") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "calculate_homology",maxdim = 1,thresh = 2,alpha = c(0.5,0.4)),"single") # # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "calculate_homology",maxdim = 1,thresh = 2,return_subsetted = c(T,F)),"single") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "calculate_homology",maxdim = 1,thresh = 2,return_subsetted = NULL),"NULL") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "ripsDiag",maxdim = 1,thresh = 2,return_diag = Inf),"logical") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "ripsDiag",maxdim = 1,thresh = 2,return_diag = NULL),"NULL") # expect_error(bootstrap_persistence_thresholds(data.frame(x = 1:10,y = 1:10),FUN_diag = "ripsDiag",maxdim = 1,thresh = 2,return_diag = NA),"NA") # # }) # test_that("bootstrap_persistence_thresholds is computing properly",{ # # skip_if_not_installed("TDA") # skip_if_not_installed("TDAstats") # # D <- TDA::circleUnif(n = 50,r = 1) # # # ripsDiag # bs <- bootstrap_persistence_thresholds(X = D,FUN_diag = "ripsDiag",maxdim = 1,thresh = 2,calculate_representatives = T,return_diag = T,num_workers = 2,num_samples = 3,return_subsetted = T) # expect_length(bs$representatives,nrow(bs$diag)) # expect_lte(length(bs$thresholds),2) # expect_gt(bs$thresholds[[1]],0) # expect_gt(bs$thresholds[[2]],0) # expect_length(bs$subsetted_representatives,nrow(bs$subsetted_diag)) # if(length(which(bs$subsetted_diag$dimension == 0)) > 0) # { # expect_true(min(bs$subsetted_diag[which(bs$subsetted_diag$dimension == 0),]$death - bs$subsetted_diag[which(bs$subsetted_diag$dimension == 0),]$birth) > bs$thresholds[[1]]) # } # if(length(which(bs$subsetted_diag$dimension == 1)) > 0) # { # expect_true(min(bs$subsetted_diag[which(bs$subsetted_diag$dimension == 1),]$death - bs$subsetted_diag[which(bs$subsetted_diag$dimension == 1),]$birth) > bs$thresholds[[2]]) # } # bs <- bootstrap_persistence_thresholds(X = D,FUN_diag = "ripsDiag",maxdim = 1,thresh = 2,calculate_representatives = T,return_diag = T,num_workers = 2,num_samples = 3,return_subsetted = T) # expect_length(bs$representatives,nrow(bs$diag)) # expect_lte(length(bs$thresholds),2) # expect_gt(bs$thresholds[[1]],0) # expect_gt(bs$thresholds[[2]],0) # expect_length(bs$subsetted_representatives,nrow(bs$subsetted_diag)) # if(length(which(bs$subsetted_diag$dimension == 0)) > 0) # { # expect_true(min(bs$subsetted_diag[which(bs$subsetted_diag$dimension == 0),]$death - bs$subsetted_diag[which(bs$subsetted_diag$dimension == 0),]$birth) > bs$thresholds[[1]]) # } # if(length(which(bs$subsetted_diag$dimension == 1)) > 0) # { # expect_true(min(bs$subsetted_diag[which(bs$subsetted_diag$dimension == 1),]$death - bs$subsetted_diag[which(bs$subsetted_diag$dimension == 1),]$birth) > bs$thresholds[[2]]) # } # bs <- bootstrap_persistence_thresholds(X = D,FUN_diag = "ripsDiag",FUN_boot = "ripsDiag",maxdim = 1,thresh = 2,calculate_representatives = T,return_diag = T,num_workers = 2,num_samples = 3,return_subsetted = T) # expect_length(bs$representatives,nrow(bs$diag)) # expect_lte(length(bs$thresholds),2) # expect_gt(bs$thresholds[[1]],0) # expect_gt(bs$thresholds[[2]],0) # expect_length(bs$subsetted_representatives,nrow(bs$subsetted_diag)) # expect_true(min(bs$subsetted_diag[which(bs$subsetted_diag$dimension == 0),]$death - bs$subsetted_diag[which(bs$subsetted_diag$dimension == 0),]$birth) > bs$thresholds[[1]]) # expect_true(min(bs$subsetted_diag[which(bs$subsetted_diag$dimension == 1),]$death - bs$subsetted_diag[which(bs$subsetted_diag$dimension == 1),]$birth) > bs$thresholds[[2]]) # # # calculate_homology # bs <- bootstrap_persistence_thresholds(X = D,maxdim = 1,thresh = 2,return_diag = T,num_workers = 2,num_samples = 3,return_subsetted = T) # expect_length(bs$thresholds,2) # expect_gt(bs$thresholds[[1]],0) # expect_gt(bs$thresholds[[2]],0) # if(length(which(bs$subsetted_diag$dimension == 1)) > 0) # { # expect_true(min(bs$subsetted_diag[which(bs$subsetted_diag$dimension == 1),]$death - bs$subsetted_diag[which(bs$subsetted_diag$dimension == 1),]$birth) > bs$thresholds[[2]]) # } # # # check on circle: # bs <- bootstrap_persistence_thresholds(X = D,FUN_diag = "ripsDiag",maxdim = 1,thresh = 2,return_diag = T,num_workers = 2,num_samples = 3) # expect_lte(length(bs$subsetted_diag$dimension),2) # bs <- bootstrap_persistence_thresholds(X = D,maxdim = 1,thresh = 2,return_diag = T,num_workers = 2,num_samples = 3) # expect_lte(length(bs$subsetted_diag$dimension),1) # # # one example by hand to verify thresholds # D <- data.frame(x = c(0,0,0),y = c(1,2,2.5)) # diag <- diagram_to_df(TDA::ripsDiag(D,maxdimension = 0,maxscale = 2.5,library = "dionysus")) # permuted_diag <- function(D,s) # { # return(TDA::ripsDiag(X = D[s,],maxdimension = 0,maxscale = 2.5,library = "dionysus")) # } # d1 <- diagram_distance(diag,permuted_diag(D = D,s = c(1,1,1)),dim = 0,p = Inf) # d2 <- diagram_distance(diag,permuted_diag(D = D,s = c(2,2,2)),dim = 0,p = Inf) # d3 <- diagram_distance(diag,permuted_diag(D = D,s = c(3,3,3)),dim = 0,p = Inf) # d4 <- diagram_distance(diag,permuted_diag(D = D,s = c(1,1,2)),dim = 0,p = Inf) # d5 <- diagram_distance(diag,permuted_diag(D = D,s = c(1,1,3)),dim = 0,p = Inf) # d6 <- diagram_distance(diag,permuted_diag(D = D,s = c(2,2,1)),dim = 0,p = Inf) # d7 <- diagram_distance(diag,permuted_diag(D = D,s = c(2,2,3)),dim = 0,p = Inf) # d8 <- diagram_distance(diag,permuted_diag(D = D,s = c(3,3,1)),dim = 0,p = Inf) # d9 <- diagram_distance(diag,permuted_diag(D = D,s = c(3,3,2)),dim = 0,p = Inf) # d10 <- diagram_distance(diag,diag,dim = 0,p = Inf) # unique_vals <- unique(c(d1,d2,d3,d4,d5,d6,d7,d8,d9,d10)) # thresholds <- c() # for(i in 1:3) # { # for(j in 1:3) # { # for(k in 1:3) # { # thresholds <- c(thresholds,2*stats::quantile(unique_vals[c(i,j,k)],probs = 0.95)[[1]]) # } # } # } # thresholds <- unique(thresholds) # expect_true(bootstrap_persistence_thresholds(X = D,FUN_diag = "ripsDiag",FUN_boot = "ripsDiag",maxdim = 0,thresh = 2.5,num_workers = 2,num_samples = 3)$thresholds %in% thresholds) # # # check p-values # D <- TDA::circleUnif(n = 100,r = 1) # bs <- bootstrap_persistence_thresholds(X = D,maxdim = 1,thresh = 2,return_diag = T,num_workers = 2,return_subsetted = T,return_pvals = T) # expect_lte(length(bs$pvals),2L) # expect_true(bs$pvals[[1]] < 0.1) # if(length(bs$pvals) == 2L) # { # expect_true(bs$pvals[[2]] < 0.1) # } # # bs <- bootstrap_persistence_thresholds(X = D,maxdim = 1,thresh = 2,return_diag = T,num_workers = 2,return_subsetted = T,return_pvals = T,p_less_than_alpha = T,alpha = 1/31) # expect_identical(length(bs$pvals),0L) # # bs <- bootstrap_persistence_thresholds(X = D,FUN_diag = "ripsDiag",FUN_boot = "ripsDiag",maxdim = 1,thresh = 2,return_diag = T,num_workers = 2,return_subsetted = T,return_pvals = T,calculate_representatives = T,alpha = 1/31) # expect_lte(length(bs$pvals),2L) # expect_true(bs$pvals[[1]] < 0.1) # if(length(bs$pvals) == 2L) # { # expect_true(bs$pvals[[2]] < 0.1) # } # bs <- bootstrap_persistence_thresholds(X = D,FUN_diag = "ripsDiag",FUN_boot = "ripsDiag",maxdim = 1,thresh = 2,return_diag = T,num_workers = 2,return_subsetted = T,return_pvals = T,calculate_representatives = T,alpha = 1/31,p_less_than_alpha = T) # expect_identical(length(bs$subsetted_representatives),0L) # # })