129 lines
3.7 KiB
R
129 lines
3.7 KiB
R
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# Usage:
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# ~$ Rscript runtime_test.R
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textplot <- function(...) {
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text <- unlist(list(...))
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if (length(text) > 20) {
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text <- c(text[1:17],
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' ...... (skipped, text too long) ......',
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text[c(-1, 0) + length(text)])
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}
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plot(NA, xlim = c(0, 1), ylim = c(0, 1),
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bty = 'n', xaxt = 'n', yaxt = 'n', xlab = '', ylab = '')
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for (i in seq_along(text)) {
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text(0, 1 - (i / 20),
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text[[i]], pos = 4)
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}
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}
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# library(CVEpureR) # load CVE's pure R implementation
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library(CVE) # load CVE
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#' Writes log information to console. (to not get bored^^)
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tell.user <- function(name, start, i, length) {
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cat("\rRunning Test (", name, "):",
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i, "/", length,
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" - elapsed:", format(Sys.time() - start), "\033[K")
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}
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#' Computes "distance" of spanned subspaces.
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#' @param B1 Semi-orthonormal basis matrix
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#' @param B2 Semi-orthonormal basis matrix
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#' @return Frobenius norm of subspace projection matrix diff.
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subspace.dist <- function(B1, B2){
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P1 <- tcrossprod(B1, B1)
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P2 <- tcrossprod(B2, B2)
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return(norm(P1 - P2, type = 'F'))
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}
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# Set random seed
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set.seed(437)
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# Number of simulations
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SIM.NR <- 50L
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# maximal number of iterations in curvilinear search algorithm
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MAXIT <- 50L
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# number of arbitrary starting values for curvilinear optimization
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ATTEMPTS <- 10L
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# set names of datasets
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ds.names <- paste0("M", seq(7))
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# Set used CVE method
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methods <- c("simple", "weighted") # c("legacy", "simple", "linesearch", "sgd")
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# Setup error and time tracking variables
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error <- matrix(NA, SIM.NR, length(methods) * length(ds.names))
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time <- matrix(NA, SIM.NR, ncol(error))
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colnames(error) <- kronecker(paste0(ds.names, '-'), methods, paste0)
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colnames(time) <- colnames(error)
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# Create new log file and write CSV (actualy TSV) header.
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# (do not overwrite existing logs)
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log.nr <- length(list.files('tmp/', pattern = '.*\\.log'))
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file <- file.path('tmp', paste0('test', log.nr, '.log'))
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cat('dataset\tmethod\terror\ttime\n', sep = '', file = file)
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# Open a new pdf device for plotting into (do not overwrite existing ones)
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path <- paste0('test', log.nr, '.pdf')
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pdf(file.path('tmp', path))
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cat('Plotting to file:', path, '\n')
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# only for telling user (to stdout)
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count <- 0
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start <- Sys.time()
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# Start simulation loop.
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for (sim in 1:SIM.NR) {
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# Repeat for each dataset.
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for (name in ds.names) {
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tell.user(name, start, (count <- count + 1), SIM.NR * length(ds.names))
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# Create a new dataset
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ds <- dataset(name)
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# Prepare X, Y and combine to data matrix
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Y <- ds$Y
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X <- ds$X
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data <- cbind(Y, X)
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# get dimensions
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k <- ncol(ds$B)
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for (method in methods) {
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dr.time <- system.time(
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dr <- cve.call(X, Y,
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method = method,
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k = k,
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attempts = ATTEMPTS
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)
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)
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dr$B <- coef(dr, k)
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key <- paste0(name, '-', method)
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error[sim, key] <- subspace.dist(dr$B, ds$B) / sqrt(2 * k)
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time[sim, key] <- dr.time["elapsed"]
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# Log results to file (mostly for long running simulations)
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cat(paste0(
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c(name, method, error[sim, key], time[sim, key]),
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collapse = '\t'
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), '\n',
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sep = '', file = file, append = TRUE
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)
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}
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}
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}
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cat("\n\n## Time [sec] Summary:\n")
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print(summary(time))
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cat("\n## Error Summary:\n")
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print(summary(error))
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boxplot(error,
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main = paste0("Error (Nr of simulations ", SIM.NR, ")"),
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ylab = "Error",
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las = 2
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)
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boxplot(time,
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main = paste0("Time (Nr of simulations ", SIM.NR, ")"),
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ylab = "Time [sec]",
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las = 2
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)
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