PlotLayout <- function(fun, plot_dims, var, ..., special_args = NULL, nrow = NULL, ncol = NULL, toptitle = NULL, row_titles = NULL, col_titles = NULL, bar_scale = 1, title_scale = 1, title_margin_scale = 1, title_left_shift_scale = 1, subtitle_scale = 1, subtitle_margin_scale = 1, brks = NULL, cols = NULL, drawleg = 'S', titles = NULL, subsampleg = NULL, bar_limits = NULL, triangle_ends = NULL, col_inf = NULL, col_sup = NULL, color_fun = clim.colors, draw_bar_ticks = TRUE, draw_separators = FALSE, triangle_ends_scale = 1, bar_extra_labels = NULL, units = NULL, units_scale = 1, bar_label_scale = 1, bar_tick_scale = 1, bar_extra_margin = rep(0, 4), bar_left_shift_scale = 1, bar_label_digits = 4, extra_margin = rep(0, 4), fileout = NULL, width = NULL, height = NULL, size_units = 'in', res = 100, close_device = TRUE) { # If there is any filenames to store the graphics, process them # to select the right device if (!is.null(fileout)) { deviceInfo <- .SelectDevice(fileout = fileout, width = width, height = height, units = size_units, res = res) saveToFile <- deviceInfo$fun fileout <- deviceInfo$files } is_single_na <- function(x) ifelse(length(x) > 1, FALSE, is.na(x)) # Check var if (is.array(var) || (is_single_na(var))) { var <- list(var) } else if (is.list(var)) { if (!all(sapply(var, is.array) | sapply(var, is_single_na))) { stop("Parameter 'var' must be an array or a list of arrays (or NA values).") } } else { stop("Parameter 'var' must be an array or a list of arrays.") } # Check fun if (length(fun) == 1) { if (is.function(fun)) { fun <- as.character(substitute(fun)) } if (is.character(fun)) { fun <- rep(fun, length(var)) } } if (!is.character(fun) || (length(fun) != length(var))) { stop("Parameter 'fun' must be a single function or a vector of function names, one for each array provided in parameter 'var'.") } # Check special_args if (!is.null(special_args)) { if (!is.list(special_args) || any(!sapply(special_args, is.list))) { stop("Parameter 'special_args' must be a list of lists.") } else if (length(special_args) != length(var)) { stop("Parameter 'special_args' must contain a list of special arguments for each array provided in 'var'.") } } # Check plot_dims if (is.character(plot_dims) || is.numeric(plot_dims)) { plot_dims <- replicate(length(var), plot_dims, simplify = FALSE) } if (!is.list(plot_dims) || !all(sapply(plot_dims, is.character) | sapply(plot_dims, is.numeric)) || (length(plot_dims) != length(var))) { stop("Parameter 'plot_dims' must contain a single numeric or character vector with dimension identifiers or a vector for each array provided in parameter 'var'.") } # Check nrow if (!is.null(nrow)) { if (!is.numeric(nrow)) { stop("Parameter 'nrow' must be numeric or NULL.") } nrow <- round(nrow) } # Check ncol if (!is.null(ncol)) { if (!is.numeric(ncol)) { stop("Parameter 'ncol' must be numeric or NULL.") } ncol <- round(ncol) } # Check toptitle if (is.null(toptitle) || is.na(toptitle)) { toptitle <- '' } if (!is.character(toptitle)) { stop("Parameter 'toptitle' must be a character string.") } # Check row_titles if (!is.null(row_titles)) { if (!is.character(row_titles)) { stop("Parameter 'row_titles' must be a vector of character strings.") } } # Check col_titles if (!is.null(row_titles)) { if (!is.character(row_titles)) { stop("Parameter 'row_titles' must be a vector of character strings.") } } # Check drawleg if (is.character(drawleg)) { if (drawleg %in% c('up', 'u', 'U', 'top', 't', 'T', 'north', 'n', 'N')) { drawleg <- 'N' } else if (drawleg %in% c('down', 'd', 'D', 'bottom', 'b', 'B', 'south', 's', 'S')) { drawleg <- 'S' } else if (drawleg %in% c('right', 'r', 'R', 'east', 'e', 'E')) { drawleg <- 'E' } else if (drawleg %in% c('left', 'l', 'L', 'west', 'w', 'W')) { drawleg <- 'W' } else { stop("Parameter 'drawleg' must be either TRUE, FALSE or a valid identifier of a position (see ?PlotMultiMap).") } } else if (!is.logical(drawleg)) { stop("Parameter 'drawleg' must be either TRUE, FALSE or a valid identifier of a position (see ?PlotMultiMap).") } if (drawleg != FALSE && all(sapply(var, is_single_na)) && (is.null(brks) || length(brks) < 2)) { stop("Either data arrays in 'var' or breaks in 'brks' must be provided if 'drawleg' is requested.") } # Check the rest of parameters (unless the user simply wants to build an empty layout) var_limits <- NULL if (!all(sapply(var, is_single_na))) { var_limits <- c(min(unlist(var), na.rm = TRUE), max(unlist(var), na.rm = TRUE)) if ((any(is.infinite(var_limits)) || var_limits[1] == var_limits[2])) { stop("Arrays in parameter 'var' must contain at least 2 different values.") } } colorbar <- ColorBar(brks, cols, FALSE, subsampleg, bar_limits, var_limits, triangle_ends, col_inf, col_sup, color_fun, plot = FALSE, draw_bar_ticks, draw_separators, triangle_ends_scale, bar_extra_labels, units, units_scale, bar_label_scale, bar_tick_scale, bar_extra_margin, bar_label_digits) # Check bar_scale if (!is.numeric(bar_scale)) { stop("Parameter 'bar_scale' must be numeric.") } # Check bar_left_shift_scale if (!is.numeric(bar_left_shift_scale)) { stop("Parameter 'bar_left_shift_scale' must be numeric.") } # Check title_scale if (!is.numeric(title_scale)) { stop("Parameter 'title_scale' must be numeric.") } # Check title_margin_scale if (!is.numeric(title_margin_scale)) { stop("Parameter 'title_margin_scale' must be numeric.") } # Check title_left_shift_scale if (!is.numeric(title_left_shift_scale)) { stop("Parameter 'title_left_shift_scale' must be numeric.") } # Check subtitle_scale if (!is.numeric(subtitle_scale)) { stop("Parameter 'subtite_scale' must be numeric.") } # Check subtitle_margin_scale if (!is.numeric(subtitle_margin_scale)) { stop("Parameter 'subtite_margin_scale' must be numeric.") } # Check titles if (!all(sapply(titles, is.character))) { stop("Parameter 'titles' must be a vector of character strings.") } # Check extra_margin if (!is.numeric(extra_margin) || length(extra_margin) != 4) { stop("Parameter 'extra_margin' must be a numeric vector with 4 elements.") } # Check width if (is.null(width)) { if (is.null(fileout)) { width <- 7 } else { width <- 11 } } if (!is.numeric(width)) { stop("Parameter 'width' must be numeric.") } # Check height if (is.null(height)) { if (is.null(fileout)) { height <- 7 } else { height <- 8 } } if (!is.numeric(height)) { stop("Parameter 'height' must be numeric.") } # Check close_device if (!is.logical(close_device)) { stop("Parameter 'close_device' must be logical.") } # Count the total number of maps and reorder each array of maps to have the lat and lon dimensions at the end. n_plots <- 0 plot_array_i <- 1 for (plot_array in var) { if (is_single_na(plot_array)) { n_plots <- n_plots + 1 } else { dim_ids <- plot_dims[[plot_array_i]] if (is.character(dim_ids)) { dimnames <- NULL if (!is.null(names(dim(plot_array)))) { dimnames <- names(dim(plot_array)) } else if (!is.null(attr(plot_array, 'dimensions'))) { dimnames <- attr(plot_array, 'dimensions') } if (!is.null(dimnames)) { if (any(!sapply(dim_ids, `%in%`, dimnames))) { stop("All arrays provided in parameter 'var' must have all the dimensions in 'plot_dims'.") } dim_ids <- sapply(dim_ids, function(x) which(dimnames == x)[1]) var[[plot_array_i]] <- .aperm2(var[[plot_array_i]], c((1:length(dim(plot_array)))[-dim_ids], dim_ids)) } else { .warning(paste0("Assuming the ", plot_array_i, "th array provided in 'var' has 'plot_dims' as last dimensions (right-most).")) dims <- tail(c(rep(1, length(dim_ids)), dim(plot_array)), length(dim_ids)) dim_ids <- tail(1:length(dim(plot_array)), length(dim_ids)) if (length(dim(var[[plot_array_i]])) < length(dims)) { dim(var[[plot_array_i]]) <- dims } } } else if (any(dim_ids > length(dim(plot_array)))) { stop("Parameter 'plot_dims' contains dimension identifiers out of range.") } n_plots <- n_plots + prod(dim(plot_array)[-dim_ids]) #n_plots <- n_plots + prod(head(c(rep(1, length(dim_ids)), dim(plot_array)), length(dim(plot_array)))) if (length(dim(var[[plot_array_i]])) == length(dim_ids)) { dim(var[[plot_array_i]]) <- c(1, dim(var[[plot_array_i]])) } plot_dims[[plot_array_i]] <- dim_ids } plot_array_i <- plot_array_i + 1 } if (is.null(nrow) && is.null(ncol)) { ncol <- ceiling(sqrt(n_plots)) nrow <- ceiling(n_plots/ncol) } else if (is.null(ncol)) { ncol <- ceiling(n_plots/nrow) } else if (is.null(nrow)) { nrow <- ceiling(n_plots/ncol) } else if (nrow * ncol < n_plots) { stop("There are more arrays to plot in 'var' than cells defined by 'nrow' x 'ncol'.") } if (is.logical(drawleg) && drawleg) { if (nrow > ncol) { drawleg <- 'S' } else { drawleg <- 'E' } } vertical <- drawleg %in% c('E', 'W') # Open connection to graphical device if (!is.null(fileout)) { saveToFile(fileout) } else if (names(dev.cur()) == 'null device') { dev.new(units = size_units, res = res, width = width, height = height) } else if (prod(par('mfrow')) > 1) { dev.new(units = units, res = res, width = width, height = height) } # Take size of device and set up layout: # --------------------------------------------- # |0000000000000000000000000000000000000000000| # |0000000000000000 TOP TITLE 0000000000000000| # |0000000000000000000000000000000000000000000| # |-------------------------------------------| # |00000|0000000000000000000000000000000000000| # |00000|000000000000 ROW TITLES 0000000000000| # |00000|0000000000000000000000000000000000000| # |00000|-------------------------------------| # |0 0|222222222222222222|333333333333333333| # |0 C 0|222222222222222222|333333333333333333| # |0 O 0|222222222222222222|333333333333333333| # |0 L 0|2222 FIGURE 1 2222|3333 FIGURE 2 3333| # |0 0|222222222222222222|333333333333333333| # |0 T 0|222222222222222222|333333333333333333| # |0 I 0|222222222222222222|333333333333333333| # |0 T 0|-------------------------------------| # |0 L 0|444444444444444444|555555555555555555| # |0 S 0|444444444444444444|555555555555555555| # |0 0|444444444444444444|555555555555555555| # |00000|4444 FIGURE 3 4444|5555 FIGURE 4 5555| # |00000|444444444444444444|555555555555555555| # |00000|444444444444444444|555555555555555555| # |00000|444444444444444444|555555555555555555| # |-------------------------------------------| # |1111111111111111111111111111111111111111111| # |1111111111111111 COLOR BAR 1111111111111111| # |1111111111111111111111111111111111111111111| # --------------------------------------------- device_size <- par('din') device_size[1] <- device_size[1] - sum(extra_margin[c(2, 4)]) device_size[2] <- device_size[2] - sum(extra_margin[c(1, 3)]) cs <- char_size <- par('csi') title_cex <- 2.5 * title_scale title_margin <- 0.5 * title_cex * title_margin_scale subtitle_cex <- 1.5 * subtitle_scale subtitle_margin <- 0.5 * sqrt(nrow * ncol) * subtitle_cex * subtitle_margin_scale mat_layout <- 1:(nrow * ncol) + ifelse(drawleg != FALSE, 1, 0) mat_layout <- matrix(mat_layout, nrow, ncol, byrow = TRUE) fsu <- figure_size_units <- 10 # unitless widths <- rep(fsu, ncol) heights <- rep(fsu, nrow) n_figures <- nrow * ncol if (length(row_titles) > 0) { mat_layout <- cbind(rep(0, dim(mat_layout)[1]), mat_layout) widths <- c(((subtitle_cex + subtitle_margin / 2) * cs / device_size[1]) * ncol * fsu, widths) } if (length(col_titles) > 0) { mat_layout <- rbind(rep(0, dim(mat_layout)[2]), mat_layout) heights <- c(((subtitle_cex + subtitle_margin) * cs / device_size[2]) * nrow * fsu, heights) } if (drawleg != FALSE) { if (drawleg == 'N') { mat_layout <- rbind(rep(1, dim(mat_layout)[2]), mat_layout) heights <- c(round(bar_scale * 2 * nrow), heights) } else if (drawleg == 'S') { mat_layout <- rbind(mat_layout, rep(1, dim(mat_layout)[2])) heights <- c(heights, round(bar_scale * 2 * nrow)) } else if (drawleg == 'W') { mat_layout <- cbind(rep(1, dim(mat_layout)[1]), mat_layout) widths <- c(round(bar_scale * 3 * ncol), widths) } else if (drawleg == 'E') { mat_layout <- cbind(mat_layout, rep(1, dim(mat_layout)[1])) widths <- c(widths, round(bar_scale * 3 * ncol)) } n_figures <- n_figures + 1 } if (toptitle != '') { mat_layout <- rbind(rep(0, dim(mat_layout)[2]), mat_layout) heights <- c(((title_cex + title_margin) * cs / device_size[2]) * nrow * fsu, heights) } par(oma = extra_margin) layout(mat_layout, widths, heights) # Draw the color bar if (drawleg != FALSE) { if (length(row_titles) > 0) { bar_extra_margin[2] <- bar_extra_margin[2] + (subtitle_cex + subtitle_margin / 2) * bar_left_shift_scale } ColorBar(colorbar$brks, colorbar$cols, vertical, subsampleg, bar_limits, var_limits, triangle_ends = triangle_ends, col_inf = colorbar$col_inf, col_sup = colorbar$col_sup, color_fun, plot = TRUE, draw_bar_ticks, draw_separators, triangle_ends_scale, bar_extra_labels, units, units_scale, bar_label_scale, bar_tick_scale, bar_extra_margin, bar_label_digits) } # Draw titles if (toptitle != '' || length(col_titles) > 0 || length(row_titles) > 0) { plot(0, type = 'n', ann = FALSE, axes = FALSE, xaxs = 'i', yaxs = 'i', xlim = c(0, 1), ylim = c(0, 1)) width_lines <- par('fin')[1] / par('csi') plot_lines <- par('pin')[1] / par('csi') plot_range <- par('xaxp')[2] - par('xaxp')[1] size_units_per_line <- plot_range / plot_lines if (toptitle != '') { title_x_center <- par('xaxp')[1] - par('mar')[2] * size_units_per_line + ncol * width_lines * size_units_per_line / 2 if (length(row_titles) > 0) { title_x_center <- title_x_center - (1 - title_left_shift_scale) * (subtitle_cex + subtitle_margin) / 2 * size_units_per_line } title_y_center <- par('mar')[3] + (title_margin + title_cex) / 2 if (length(col_titles > 0)) { title_y_center <- title_y_center + (subtitle_margin + subtitle_cex) } mtext(toptitle, cex = title_cex, line = title_y_center, at = title_x_center, padj = 0.5) } if (length(col_titles) > 0) { t_x_center <- par('xaxp')[1] - par('mar')[2] * size_units_per_line for (t in 1:ncol) { mtext(col_titles[t], cex = subtitle_cex, line = par('mar')[3] + (subtitle_margin + subtitle_cex) / 2, at = t_x_center + (t - 0.5) * width_lines * size_units_per_line, padj = 0.5) } } height_lines <- par('fin')[2] / par('csi') plot_lines <- par('pin')[2] / par('csi') plot_range <- par('yaxp')[2] - par('yaxp')[1] size_units_per_line <- plot_range / plot_lines if (length(row_titles) > 0) { t_y_center <- par('yaxp')[1] - par('mar')[1] * size_units_per_line for (t in 1:nrow) { mtext(row_titles[t], cex = subtitle_cex, line = par('mar')[2] + (subtitle_margin + subtitle_cex) / 2, at = t_y_center - (t - 1.5) * height_lines * size_units_per_line, padj = 0.5, side = 2) } } par(new = TRUE) } array_number <- 1 plot_number <- 1 # For each array provided in var lapply(var, function(x) { if (is_single_na(x)) { if (!all(sapply(var[array_number:length(var)], is_single_na))) { plot.new() par(new = FALSE) } plot_number <<- plot_number + 1 } else { # For each of the arrays provided in that array apply(x, (1:length(dim(x)))[1:(length(dim(x)) - length(plot_dims[[array_number]]))], function(y) { # Do the plot fun_args <- c(list(y, toptitle = titles[plot_number]), list(...), special_args[[array_number]]) funct <- fun[[array_number]] if (fun[[array_number]] %in% c('PlotEquiMap', 'PlotStereoMap', 'PlotSection')) { fun_args <- c(fun_args, list(brks = colorbar$brks, cols = colorbar$cols, col_inf = colorbar$col_inf, col_sup = colorbar$col_sup, drawleg = FALSE)) } do.call(fun[[array_number]], fun_args) plot_number <<- plot_number + 1 }) } array_number <<- array_number + 1 }) # If the graphic was saved to file, close the connection with the device if (!is.null(fileout) && close_device) dev.off() invisible(list(brks = colorbar$brks, cols = colorbar$cols, col_inf = colorbar$col_inf, col_sup = colorbar$col_sup, layout_matrix = mat_layout)) }