library(testit) op = options(digits = 3, scipen = 0, knitr.digits.signif = TRUE) assert('format_sci() uses correct number of significant digits', { (format_sci(1) %==% '1') (format_sci(0) %==% '0') (format_sci(3.1415e2) %==% '314') (format_sci(3.1415) %==% '3.14') }) options(op) op = options(digits = 14, scipen = 0, knitr.digits.signif = TRUE) assert('format_sci() prints numerics at maximum number of significant digits', { (format_sci(3.14159265358979) %==% '3.1415926535898') }) options(op) op = options(digits = 4, scipen = 0) assert('format_sci() turns numbers into scientific notations', { (format_sci(c(1.84e8, 1e5, 2.34e3)) %==% c('1.84\\times 10^{8}', '10^{5}', '2340')) (format_sci(1.23456789 * 10^-5) %==% '1.2346\\times 10^{-5}') (format_sci(10^-5) %==% '10^{-5}') (format_sci(10^5) %==% '10^{5}') (format_sci(-10^-5) %==% '-10^{-5}') (format_sci(-10^5) %==% '-10^{5}') (format_sci(9.87654e6, 'html') %==% '9.8765 × 106') (format_sci(9.87654e6, 'rst') %==% '9.8765 |times| 10 :sup:`6`') (format_sci(letters) %==% letters) (format_sci(NA_real_) %==% NA_character_) }) assert('format_sci() coerces non-numeric and non-double values to characters', { (format_sci(Sys.Date()) == as.character(Sys.Date())) (format_sci(1000000L) == '1000000') }) # https://github.com/yihui/knitr/issues/1625 assert('format_sci() does not convert roman numerals to arabic numerals', { (format_sci(as.roman(c(1, 4, 7, 33, 100))) %==% c('I', 'IV', 'VII', 'XXXIII', 'C')) }) assert('format_sci() for Rnw does not add \\ensuremath{} at all', { (!grepl('[\\]ensuremath', format_sci(c(1e4, 1.2345e10, 2 * pnorm(-(3:4)), -Inf)))) }) assert('the inline hook for Rnw applies \\ensuremath{} correctly', { (.inline.hook.tex(1e4) == '\\ensuremath{10^{4}}') (.inline.hook.tex(-Inf) == '\\ensuremath{-\\infty{}}') (.inline.hook.tex(-1.23) == '-1.23') (.inline.hook.tex(c(1.2345e10, 2 * pnorm(-(3:4)))) == "\\ensuremath{1.2345\\times 10^{10}}, 0.0027, \\ensuremath{6.3342\\times 10^{-5}}") }) assert('Infinity and NaN are formatted correctly', { (format_sci(-Inf) %==% '-\\infty{}') (format_sci(-Inf, 'html') %==% '-∞') (format_sci(-Inf, 'rst') %==% '-Inf') (format_sci(NaN) %==% 'NaN') }) assert('sanitize_fn() warns against spaces in filenames', { (has_warning(sanitize_fn('figure/a b'))) }) options(op) assert('fig_path() sanitizes paths', { (sanitize_fn('fig/foo') %==% 'fig/foo') (sanitize_fn('figure/a b c', FALSE) %==% 'figure/a_b__c') (sanitize_fn('fig space/a.b') %==% 'fig_space/a.b') (sanitize_fn('../c.d') %==% '../c.d') (sanitize_fn('./../c..d') %==% './../c..d') (sanitize_fn('C:/foo/bar') %==% 'C:/foo/bar') }) assert('fig_chunk() generates figure filenames for a code chunk', { (fig_chunk('foo') %==% 'figure/foo-1') (fig_chunk('foo', 'pdf') %==% 'figure/foo-1.pdf') (fig_chunk('foo', 'png', 2) %==% 'figure/foo-2.png') (fig_chunk('foo', 'svg', 1:5) %==% sprintf('figure/foo-%d.svg', 1:5)) (fig_chunk('foo', fig.path = 'my_figure/') %==% 'my_figure/foo-1') (fig_chunk('foo', '.pdf') %==%'figure/foo-1.pdf') }) assert('all_figs() generates all figure paths for a code chunk', { opts = list(fig.path = 'abc/', label = 'foo', fig.num = 3) (all_figs(opts, '.svg') %==% sprintf('abc/foo-%d.svg', 1:3)) (all_figs(opts, c('png', 'pdf')) %==% apply( expand.grid(1:3, c('.png', '.pdf')), 1, function(x) { paste0(c('abc/foo-', x), collapse = '') } )) }) assert('escape_latex() escapes special LaTeX characters', { (escape_latex('# $ % & ~ _ ^ \\ { }') %==% '\\# \\$ \\% \\& \\textasciitilde{} \\_ \\textasciicircum{} \\textbackslash{} \\{ \\}' ) (escape_latex('a b', spaces = TRUE) %==% 'a b') (escape_latex('a b', spaces = TRUE) %==% 'a \\ \\ b') }) assert('indent_block() works when the first element is empty (#790)', { (indent_block(c('', 'a')) %==% c(' ', ' a')) (indent_block(c('', '')) %==% c(' ', ' ')) }) assert('current_input() returns NULL by default', { (is.null(current_input())) (suppressWarnings(is.null(current_input(TRUE)))) }) assert('color_def() generates LaTeX code to define a color variable', { (color_def(NA) %==% '') (color_def('red') %==% '\\definecolor{shadecolor}{rgb}{1, 0, 0}') (color_def('#00ff00') %==% '\\definecolor{shadecolor}{rgb}{0, 1, 0}') (color_def('.5,.6,.7', 'fgcolor') %==% '\\definecolor{fgcolor}{rgb}{.5, .6, .7}') }) cw = function(...) unclass(combine_words(...)) assert('combine_words() combines multiple words into a single string', { (cw(NULL) %==% NULL) (cw(c('a')) %==% 'a') (cw(c('a', 'b')) %==% 'a and b') (cw(c('a', 'b'), and = "") %==% 'a, b') (cw(c('a', 'b', 'c')) %==% 'a, b, and c') (cw(c('a', 'b', 'c'), and = '') %==% 'a, b, c') (cw(c('a', 'b', 'c'), ' / ', '') %==% 'a / b / c') (cw(c('a', 'b', 'c'), before = '"') %==% '"a", "b", and "c"') (cw(c('a', 'b', 'c'), before = '``', after = "''") %==% "``a'', ``b'', and ``c''") (cw(c('a', 'b', 'c'), before = '``', after = "''", oxford_comma = FALSE) %==% "``a'', ``b'' and ``c''") }) rm(list = 'cw') opts = list( fig.cap = 'Figure "caption" <>.', fig.lp = 'Fig:', label = 'foo' ) assert('.img.cap() generates the figure caption and alt attribute', { (.img.cap(list(fig.cap = NULL), FALSE) %==% "") (.img.cap(opts, FALSE) %==% opts$fig.cap) (.img.cap(opts, TRUE, TRUE) %==% 'Figure "caption" <>.') opts$fig.alt = 'Figure "alternative text" <>.' (.img.cap(opts, TRUE, TRUE) %==% 'Figure "alternative text" <>.') (.img.cap(opts, FALSE) %==% opts$fig.cap) (.img.cap(list(fig.cap = '', fig.alt = "alt"), FALSE) %==% "") (.img.cap(list(fig.cap = '', fig.alt = "alt"), TRUE) %==% "alt") }) z = as.strict_list(list(a = 1, aa = 2, bbb = 3)) assert('as.strict_list() does not allow partial matching', { (z$b %==% NULL) (z$bbb %==% 3) }) out = c('*hello*', raw_output('content *protect* me!'), '*world*') pre = extract_raw_output(out) pre$value = gsub('[*]([^*]+)[*]', '\\1', pre$value) # think this as Pandoc conversion # raw output was protected from the conversion (e.g. *protect* was not converted) assert('restore_raw_output() restores raw output', { (restore_raw_output(pre$value, pre$chunks) %==% 'hello\ncontent *protect* me!\nworld') }) assert('raw_block() returns a raw attribute block for Pandoc', { (c(raw_latex('\\emph{x}')) %==% '\n```{=latex}\n\\emph{x}\n```\n') (c(raw_html('foo')) %==% '\n```{=html}\nfoo\n```\n') }) assert('block_class() turns a character vector into Pandoc attributes for code block classes', { (block_class(NULL) %==% NULL) (block_class('a') %==% 'a') (block_class('a', '.b') %==% '.a') (block_class('a b') %==% c('.a', '.b')) (block_class(c('a', 'b')) %==% c('.a', '.b')) }) assert('when collapse is TRUE, class.* and attr.* become NULL except for class.source and attr.source', { keys = unlist(lapply( c('class.', 'attr.'), paste0, c('source', 'output', 'message', 'warning', 'error') )) keys_source = c('class.source', 'attr.source') opts = fix_options(opts_chunk$merge(c(setNames(as.list(keys), keys), list(collapse = TRUE)))) (opts[keys_source] %==% as.list(setNames(keys_source, keys_source))) (!any(names(opts) %in% setdiff(keys, keys_source))) rm(keys, keys_source, opts) }) assert('default strip.white is conditional to collapse', { opts = opts_chunk$get(default = TRUE) (fix_options(opts)$strip.white %==% TRUE) opts$collapse = TRUE (fix_options(opts)$strip.white %==% FALSE) opts$strip.white = TRUE (fix_options(opts)$strip.white %==% TRUE) rm(opts) }) assert('pandoc_to gets the current Pandoc format', { opts = opts_knit$get(c('rmarkdown.pandoc.to', 'rmarkdown.pandoc.from')) opts_knit$delete(c("rmarkdown.pandoc.from", "rmarkdown.pandoc.to")) (pandoc_from() %==% 'markdown') (pandoc_to() %==% NULL) opts_knit$set(rmarkdown.pandoc.from = 'gfm', rmarkdown.pandoc.to = 'docx') (pandoc_from() %==% 'gfm') (pandoc_to() %==% 'docx') (pandoc_to('docx')) (!pandoc_to('pptx')) (pandoc_to(c('docx', 'pptx'))) opts_knit$set(opts) }) assert('comment_out() add prefix and newlines if asked', { (comment_out("a") %==% "## a\n") (comment_out("ab cd") %==% "## ab cd\n") (comment_out("ab cd\n") %==% "## ab cd\n") (comment_out("") %==% "## \n") (comment_out("\n") %==% "## \n") (comment_out(c("a", "b")) %==% c("## a\n", "## b\n")) (comment_out(c("a", "b"), which = 2) %==% c("a\n", "## b\n")) (comment_out("a", newline = FALSE) %==% "## a") (comment_out("a", prefix = "$") %==% "$ a\n") (comment_out("a", prefix = NULL) %==% "a\n") }) assert('remove_urls() removes the link', { (remove_urls(c('[a](b)', '[a b](c)')) %==% c('a', 'a b')) (remove_urls('a [b](c) d.') %==% 'a b d.') (remove_urls('a [b](c) d [e f+g](h) i.') %==% 'a b d e f+g i.') (remove_urls('a [b](c) `[d](e)` f.') %==% 'a b `[d](e)` f.') }) assert('options using `-` are converted to `.` and default value replaced', { opts = opts_chunk$merge(list('fig-cap' = 'caption', 'out-width' = 300)) (is.null(dot_names(opts)[['fig-cap']])) (is.null(dot_names(opts)[['out-width']])) (dot_names(opts)[['fig.cap']] %==% 'caption') (dot_names(opts)[['out.width']] %==% 300) rm(opts) }) assert('fig.format and fig.dpi', { opts = opts_chunk$merge(list('fig-format' = 'svg', 'fig-dpi' = 750)) (is.null(dot_names(opts)[['fig-format']])) (is.null(dot_names(opts)[['fig-dpi']])) (dot_names(opts)[['dev']] %==% 'svg') (dot_names(opts)[['dpi']] %==% 750) rm(opts) }) assert('options using `.` are converted to `-` and default value replaced', { opts = opts_chunk$merge(list('fig.cap' = 'caption', 'out.width' = 300)) (is.null(dash_names(opts)[['fig.cap']])) (is.null(dash_names(opts)[['out.width']])) (dash_names(opts)[['fig-cap']] %==% 'caption') (dash_names(opts)[['out-width']] %==% 300) rm(opts) }) assert('dev and dpi are convert to fig-format and fig-dpi', { opts = opts_chunk$merge(list('dev' = 'svg', 'dpi' = 750)) (is.null(dash_names(opts)[['dev']])) (is.null(dash_names(opts)[['dpi']])) (dash_names(opts)[['fig-format']] %==% 'svg') (dash_names(opts)[['fig-dpi']] %==% 750) rm(opts) })