### This file is part of the 'foreign' package for R. # Copyright (c) 2004 Stephen Eglen # Enhancements Copyright (c) 2004-7 R Development Core Team # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # A copy of the GNU General Public License is available at # http://www.r-project.org/Licenses/ ## Read in a file in Octave text data format. read.octave <- function(file) { ## Read in a file in Octave text data format (as created by "save ## -ascii" in Octave 2.x) and return a list of the objects ## successfully read, along with information on read failures. ## E.g., create two variables in Octave ## octave> ident_mat = eye(3); ## octave> twopi = 2 * pi; ## octave> save -ascii 'octfile.dat' ## then load this file into R: ## > o <- read.octave("octfile.dat") ## > o ## $twopi ## [1] 6.283185 ## $ident.mat ## [,1] [,2] [,3] ## [1,] 1 0 0 ## [2,] 0 1 0 ## [3,] 0 0 1 skip_lines_to_next_item <- function(con) { ## Read in data from the connection until we hit the next ## variable (assuming "# name" is the first line for a new ## variable). We need to also handle the special case when this ## gets us to the end of the connection. looking <- TRUE while(looking) { line <- readLines(con, n = 1L) if(length(grep("^# name: ", line)) == 1L) { ## We have reached the next variable. pushBack(line, con) looking <- FALSE } else if(length(line) == 0L) { ## We have reached the end of file. looking <- FALSE } } } read_octave_matrix <- function(con) { ## Helper function: read in a real matrix/array. ## Format of the header varies depending on whether matrix is 2d ## or higher. So need to do a check first. line <- readLines(con, 1L) if(regexpr("^# rows:", line) > 0L) { ## Dealing with a 2d matrix; this header is of the form: ## # type: matrix ## # rows: 15 ## # columns: 15 ## followed by 15 rows of data ... nr <- as.integer(gsub("# rows: ", "", line)) nc <- as.integer(gsub("# columns: ", "", readLines(con, 1L))) data <- scan(con, nlines = nr, quiet = TRUE) matrix(data, nrow = nr, ncol = nc, byrow = TRUE) } else { ## Assume we have N-d array; this has the format: ## # type: matrix ## # ndims: 3 ## 15 15 6 ## followed by the data, one element per row. ## After reading in ndims (3 here), we read in the size of ## each dimension (15 x 15 x 6) and then read in the ## corresponding number of elements. ## ndims <- as.integer(gsub("# ndims: ", "", line)) dims <- scan(con, nlines = 1L, quiet = TRUE) data <- scan(con, n = prod(dims), quiet = TRUE) array(data, dim = dims) } } read_octave_complex_matrix <- function(con) { ## Helper function: read in a complex matrix/array. ## See read_octave_matrix(). line <- readLines(con, 1L) if(regexpr("^# rows:", line) > 0L) { nr <- as.integer(gsub("# rows: ", "", line)) nc <- as.integer(gsub("# columns: ", "", readLines(con, 1L))) data <- readLines(con, n = nr) cl <- paste(data, sep = "", collapse = "") c1 <- gsub("\\(", "", cl) c1 <- gsub("\\)", "", c1) c1 <- gsub(",", " ", c1) s <- unlist(strsplit(c1, " ")) nums <- as.numeric(s[-1L]) # Remove initial space. reals <- nums[seq.int(from = 1L, by = 2L, length.out = length(nums)/2)] imags <- nums[seq.int(from = 2L, by = 2L, length.out = length(nums)/2)] matrix(data = complex(real = reals, imaginary = imags), nrow = nr, ncol = nc, byrow = TRUE) } else { ## ndims <- as.integer(gsub("# ndims: ", "", line)) dims <- scan(con, nlines = 1L, quiet = TRUE) data <- readLines(con, n = prod(dims)) data <- gsub("\\(", "", data) data <- gsub("\\)", "", data) nums <- strsplit(data, ",") stopifnot(all(sapply(nums, length) == 2)) array(complex(real = as.numeric(sapply(nums, "[", 1L)), imaginary = as.numeric(sapply(nums, "[", 2L))), dim = dims) } } read_octave_string_array <- function(con) { ## Helper function: read in a string array. elements <- as.numeric(gsub("# elements: ", "", readLines(con, 1L))) d <- readLines(con, n = 2L * elements) ## Remove the odd-numbered lines, they just store "length". d[seq.int(from = 2L, by = 2L, length.out = length(d)/2L)] } read_octave_scalar <- function(con) { ## Helper function: read in a scalar. as.numeric(scan(con, nlines = 1L, quiet = TRUE)) } read_octave_complex_scalar <- function(con) { ## Helper function: read in a complex scalar. d <- readLines(con, n = 1L) ## Remove parens then split. str <- gsub("\\(", "", d) str <- gsub("\\)", "", str) nums <- as.numeric(unlist(strsplit(str, ","))) stopifnot(length(nums) == 2L) complex(real = nums[1L], imaginary = nums[2L]) } read_octave_range <- function(con) { ## Helper function: read in a range. d <- readLines(con, n = 1L) # Skip over "# base, limit, increment". d <- as.numeric(scan(con, nlines = 1L, quiet = TRUE)) stopifnot(length(d) == 3L) seq.int(from = d[1L], to = d[2L], by = d[3L]) } read_octave_unknown <- function(con, type) { ## Skip over unknown Octave types. ## If we do not recognize the type of Octave variable, give a ## warning, and try reading until the next variable. ## This only works for unknown atomic types, so let us hope we ## have code for all recursive ones ... warning(gettextf("cannot handle unknown type %s", sQuote(type)), domain = NA) skip_lines_to_next_item(con) NULL } read_octave_list <- function(con) { ## Helper function: read in a list. ## Note that lists are deprecated now in favor of cells. n <- as.numeric(gsub("# length: ", "", readLines(con, 1L))) out <- vector("list", n) for(i in seq_len(n)) { ## Skip over "# name: _val" lines. readLines(con, 1L) out[[i]] <- read_item(con) } out } read_octave_cell <- function(con) { ## Helper function: read in a cell. nr <- as.numeric(gsub("# rows: ", "", readLines(con, 1L))) nc <- as.numeric(gsub("# columns: ", "", readLines(con, 1L))) out <- vector("list", nr * nc) dim(out) <- c(nr, nc) for(j in seq_len(nc)) { for(i in seq_len(nr)) { ## Skip over "# name: " lines. readLines(con, 1L) ## Get the next cell element. out[[i, j]] <- read_item(con) } ## Argh. There seem to be empty lines after each column of ## cell elements? Let us not rely on this, and instead read ## on to the next item. skip_lines_to_next_item(con) } out } read_octave_struct <- function(con) { ## Helper function: read in a struct. n <- as.numeric(gsub("# length: ", "", readLines(con, 1L))) out <- vector("list", n) for(i in seq_len(n)) { ## Skip over "# name: _val" lines. name <- gsub("# name: ", "", readLines(con, 1L)) out[[i]] <- read_item(con) names(out)[i] <- name } out } read_octave_bool <- function(con) { ## Helper function: read in a bool. as.logical(scan(con, nlines = 1L, quiet = TRUE)) } read_octave_bool_matrix <- function(con) { ## Helper function: read in a bool matrix. nr <- as.integer(gsub("# rows: ", "", readLines(con, 1L))) nc <- as.integer(gsub("# columns: ", "", readLines(con, 1L))) data <- scan(con, nlines = nr, quiet = TRUE) matrix(as.logical(data), nrow = nr, ncol = nc, byrow = TRUE) } read_item <- function(con) { ## Assume that the name has already been read. type <- gsub("# type: ", "", readLines(con, 1L)) switch(type, "matrix" = read_octave_matrix(con), "scalar" = read_octave_scalar(con), "string" = read_octave_string_array(con), "string array" = read_octave_string_array(con), "range" = read_octave_range(con), "complex matrix" = read_octave_complex_matrix(con), "complex scalar" = read_octave_complex_scalar(con), "list" = read_octave_list(con), "cell" = read_octave_cell(con), "struct" = read_octave_struct(con), "bool" = read_octave_bool(con), "bool matrix" = read_octave_bool_matrix(con), read_octave_unknown(con, type)) } zz <- file(file, "r") on.exit(close(zz)) readLines(zz, n = 1L) # Skip over the header line. ## Build up a return list of items -- separately store the return ## values and the names. items <- list() names <- character() reading <- TRUE while(reading) { line <- readLines(zz, 1L, ok = TRUE) if(length(line) == 0L) { reading <- FALSE } else { items <- c(items, list(read_item(zz))) names <- c(names, gsub("# name: ", "", line)) } } names(items) <- names items }