cat(rep('=', 80), '\n\n', 'OUTPUT FROM: supplemental/14_api_browser_comparison.R', '\n\n', sep = '' ) # Load the API tree and the natural tree datasets api.tree <- read.csv('../data/supplemental/api_tree.csv') natural.tree <- readRDS('../data/supplemental/natural_tree.rds') ############# # Figure S3 # ############# natural.tree$w <- NA natural.tree$w[natural.tree$step == 1] <- 1 # All recs in the first step come from a common origin video natural.tree$w[natural.tree$step == 2] <- 1 # All recs in the second step come from a unique origin (one of the 20 recs from the first video) # If a recommendation appears in a step multiple times, we only get recs for that video once, but upweight those videos according to freq for(i in 1:nrow(natural.tree)){ if(natural.tree$step[i] == 1) next if(natural.tree$step[i] == 2) next paths.to.rec <- (natural.tree$originID[i] == natural.tree$recID) & (natural.tree$step == natural.tree$step[i] - 1) sum(natural.tree$w[paths.to.rec]) natural.tree$w[i] <- sum(natural.tree$w[paths.to.rec]) } weighted.means <- c(weighted.mean(natural.tree$in.api.tree[natural.tree$step == 1], w = natural.tree$w[natural.tree$step == 1]), weighted.mean(natural.tree$in.api.tree[natural.tree$step == 2], w = natural.tree$w[natural.tree$step == 2]), weighted.mean(natural.tree$in.api.tree[natural.tree$step == 3], w = natural.tree$w[natural.tree$step == 3]), weighted.mean(natural.tree$in.api.tree[natural.tree$step == 4], w = natural.tree$w[natural.tree$step == 4]), weighted.mean(natural.tree$in.api.tree[natural.tree$step == 5], w = natural.tree$w[natural.tree$step == 5]) ) pdf('../results/proportion_by_step_in_tree_weighted.pdf') barplot(weighted.means, main = 'Weighted Proportion of Natural Recs in API Tree (In Step)', names.arg = c('Step 1', 'Step 2', 'Step 3', 'Step 4', 'Step 5'), ylab = 'Proportion of Naturalistic Recs in API Tree', ylim = c(0,1) ) dev.off() ############################### # Table in Appendix Section 4 # ############################### set.seed(63110) to.label <- natural.tree[sample(which(natural.tree$in.api.tree == 0 & natural.tree$step == 5), 10),] step.five.recs <- to.label$recID for(i in 1:nrow(to.label)){ step.six.origin <- to.label$recID[i] step.six.origin.str <- paste0('\\verb|', step.six.origin, '|') if(!(step.six.origin %in% api.tree$RecID)) step.six.origin.str <- paste0(step.six.origin.str, '***') step.five.origin <- to.label$originID[i] step.five.origin.str <- paste0('\\verb|', step.five.origin, '|') if(!(step.five.origin %in% api.tree$RecID)) step.five.origin.str <- paste0(step.five.origin.str, '***') step.four.origin <- natural.tree$originID[natural.tree$step == 4 & natural.tree$recID == step.five.origin][1] step.four.origin.str <- paste0('\\verb|', step.four.origin, '|') if(!(step.four.origin %in% api.tree$RecID)) step.four.origin.str <- paste0(step.four.origin.str, '***') step.three.origin <- natural.tree$originID[natural.tree$step == 3 & natural.tree$recID == step.four.origin][1] step.three.origin.str <- paste0('\\verb|', step.three.origin, '|') if(!(step.three.origin %in% api.tree$RecID)) step.three.origin.str <- paste0(step.three.origin.str, '***') step.two.origin <- natural.tree$originID[natural.tree$step == 2 & natural.tree$recID == step.three.origin][1] step.two.origin.str <- paste0('\\verb|', step.two.origin, '|') if(!(step.two.origin %in% api.tree$RecID)) step.two.origin.str <- paste0(step.two.origin.str, '***') step.one.origin <- natural.tree$originID[natural.tree$step == 1 & natural.tree$recID == step.two.origin][1] step.one.origin.str <- paste0('\\verb|', step.one.origin, '|') if(!(step.one.origin %in% api.tree$RecID)) step.one.origin.str <- paste0(step.one.origin.str, '***') row <- paste(step.six.origin.str, step.five.origin.str, step.four.origin.str, step.three.origin.str, step.two.origin.str, step.one.origin.str, sep = ' & ') row <- paste0(row, ' \\\\') cat(row) cat('\n') }