From 7d1114cd66025cc18535f3cdab3105e66bbda48d Mon Sep 17 00:00:00 2001 From: Philipp Gesang Date: Sat, 1 Mar 2014 22:47:25 +0100 Subject: adopt more conventional directory structure --- mod/tex/context/third/rst/rst_helpers.lua | 657 ------------------------------ 1 file changed, 657 deletions(-) delete mode 100644 mod/tex/context/third/rst/rst_helpers.lua (limited to 'mod/tex/context/third/rst/rst_helpers.lua') diff --git a/mod/tex/context/third/rst/rst_helpers.lua b/mod/tex/context/third/rst/rst_helpers.lua deleted file mode 100644 index 97d4dd7..0000000 --- a/mod/tex/context/third/rst/rst_helpers.lua +++ /dev/null @@ -1,657 +0,0 @@ -#!/usr/bin/env texlua --------------------------------------------------------------------------------- --- FILE: rst_helpers.lua --- USAGE: called by rst_parser.lua --- DESCRIPTION: Complement to the reStructuredText parser --- AUTHOR: Philipp Gesang (Phg), --- CHANGED: 2013-03-26 23:55:04+0100 --------------------------------------------------------------------------------- --- - -local P, R, S, V, lpegmatch - = lpeg.P, lpeg.R, lpeg.S, lpeg.V, lpeg.match - -local C, Carg, Cb, Cc, Cg, - Cmt, Cp, Cs, Ct - = lpeg.C, lpeg.Carg, lpeg.Cb, lpeg.Cc, lpeg.Cg, - lpeg.Cmt, lpeg.Cp, lpeg.Cs, lpeg.Ct - -local helpers -helpers = thirddata.rst_helpers -helpers.table = {} -helpers.cell = {} - -local utf = unicode.utf8 -local utflen = utf.len - -local stringstrip = string.strip -local stringformat = string.format - -function helpers.dbg_writef(...) - if helpers.rst_debug then - io.write(stringformat(...)) - end -end - -local dbg_write = helpers.dbg_writef - -helpers.patterns = {} - -do - local p = helpers.patterns - p.dash = P"-" - p.equals = P"=" - p.plus = P"+" - p.bar = P"|" - p.eol = P"\n" - p.last = -P(1) - p.space = P" " - - p.dash_or_equals = p.dash + p.equals - - p.celldelim = p.bar + p.plus - p.cellcontent = (1 - p.celldelim) - p.cell = p.celldelim * C((1 - p.celldelim)^1) * #p.celldelim - p.cell_line = p.plus * p.dash^1 * #p.plus - p.dashesonly = p.dash^1 * p.last - p.spacesonly = p.space^1 * p.last - - p.col_start = Cp() * p.dash_or_equals^1 - p.col_stop = p.dash_or_equals^1 * Cp() - p.column_starts = Ct(p.col_start * ( p.space^1 * p.col_start)^1) - p.column_stops = Ct(p.col_stop * ( p.space^1 * p.col_stop)^1) - - p.st_headsep = p.equals^1 * (p.space^1 * p.equals^1)^1 - p.st_colspan = p.dash^1 * (p.space^1 * p.dash^1)^0 * p.space^0 * p.last - p.st_span_starts = Ct(Cp() * p.dash^1 * (p.space^1 * Cp() * p.dash^1)^0) - p.st_span_stops = Ct(p.dash^1 * Cp() * (p.space^1 * p.dash^1 * Cp())^0) - - - p.cells = P{ - [1] = "cells", - cells = p.celldelim - * (C(V"in_cell") - * (V"matchwidth" * C(V"in_cell"))^1), - - in_cell = p.cellcontent^1 - + (p.dash - p.cellcontent)^1, - - matchwidth = Cmt(C(p.celldelim) * Carg(1), function(s,i,del, layout) - local pos = 1 - local lw = layout.widths - for n=1, #lw do - pos = pos + lw[n] + 1 - if (i - 1) == pos then return true end - end - return false - end), - } - - p.sep_line = p.plus * (p.dash^1 * p.plus)^1 * p.last - p.sep_head = p.plus * (p.equals^1 * p.plus)^1 * p.last - - p.sep_part = ((1 - p.cell_line)^0 * p.cell_line) - p.sep_line - - p.new_row = p.sep_line + p.sep_head + p.sep_part - - p.whitespace = S" \t\v\r\n"^1 - p.strip = p.whitespace^0 * C((1 - (p.whitespace * p.last))^1) * p.whitespace^0 * p.last - - - local colon = P":" - local escaped_colon = P"\\:" - local nocolon = (escaped_colon + (1 - colon))^1 - p.colon_right = nocolon * colon - p.colon_keyval = colon^-1 * C(nocolon) * colon * p.space^1 * C((1 - (p.space^0 * P(-1)))^1) - - -- color expression matching for text roles - local digit = R"09" - local dot = P"." - local colvalue = digit * dot * digit^1 - + digit - + dot * digit^1 - local coldelim = P"_" + P"-" - p.rgbvalues = P"rgb_" - * Ct( C(colvalue) * coldelim * C(colvalue) * coldelim * C(colvalue) ) -end - -function helpers.cell.create(raw, n_row, n_col, parent, variant) - local p = helpers.patterns - local cell = {} - cell.stripped = raw and p.strip:match(raw) or "" - cell.content = raw - cell.width = raw and utflen(raw) or 0 - cell.bytes = raw and #raw or 0 - cell.variant = "normal" -- [normal|separator|y_continue|x_continue] - cell.pos = {} - cell.pos.x = n_col - cell.pos.y = n_row - cell.span = {} - cell.span.x = 1 - cell.span.y = 1 - cell.parent = parent - return cell -end - -function helpers.cell.get_x_span(content, layout, init) - local acc = 0 - local lw = layout.widths - for n=init, #lw do - acc = acc + lw[n] + 1 - if utflen(content) + 1 == acc then - return n - init - end - end - return false -end - - --- Extending a cell by 1 cell horizontally. -function helpers.cell.add_x (cell) - cell.span.x = cell.span.x + 1 -end - - -local function set_layout (line) - local p = helpers.patterns - local layout = {} - local slice = Ct((p.plus * C(p.dash^1) * #p.plus)^1) - - layout.widths = {} - layout.slices = {} - local elms = lpegmatch(slice, line) - for n=1, #elms do - local elm = elms[n] - layout.widths[n] = #elm - layout.slices[n] = elm - end - return layout -end - -function helpers.table.create(raw) - local newtab = {} - newtab.rows = {} - newtab.layout = set_layout(raw[1]) - - local p = helpers.patterns - - newtab.resolve_parent = function(row, col, array) - local array = array or newtab.rows - local cell = array[row][col] - local par_row, par_col = row, col - if cell.parent then - par_row, par_col = newtab.resolve_parent(cell.parent.y, cell.parent.x) - end - return par_row, par_col - end - - newtab.__init = function() - local hc = helpers.cell - local rowcount = 0 - local newtablayout = newtab.layout - for nr=1, #raw do - local row = raw[nr] - newtab.rows[nr] = {} - local this_row = newtab.rows[nr] - this_row.sepline = p.sep_line:match(row) - this_row.sephead = p.sep_head:match(row) - this_row.seppart = p.sep_part:match(row) - if this_row.sephead then - newtab.has_head = true - newtab.head_end = nr - end - - local splitted = { p.cells:match(row, 1, newtablayout) } - local pos_layout, pos_row = 1, 1 - local make_empty = {} - make_empty.n, make_empty.parent = 0, nil - - while pos_layout <= #newtablayout.widths do - local splitpos = splitted[pos_layout] - local layoutwidth = newtablayout.widths[pos_layout] - local span = 1 - local this - - if make_empty.n > 0 then - make_empty.n = make_empty.n - 1 - this = hc.create("", nr, pos_layout, make_empty.parent) - this.parent = make_empty.parent - p_row, p_col = newtab.resolve_parent(this.parent.y, this.parent.x) - local thisparent = newtab.rows[p_row][p_col] - if this_row.sepline or this_row.sephead or - newtab.rows[p_row][p_col].variant == "separator" then - this.variant = "separator" - else - this.variant = "empty1" - end - else - local cellwidth = utflen(splitpos) - if cellwidth > layoutwidth then - span = span + hc.get_x_span(splitpos, newtablayout, pos_layout) - end - pos_row = pos_row + span - this = hc.create(splitpos, nr, pos_layout, nil) - if p.dashesonly:match(splitpos) or - this_row.sepline or this_row.sephead then - this.variant = "separator" - end - this.span.x = span - make_empty.n = span - 1 - make_empty.parent = span > 1 and { y = nr, x = pos_layout } or nil - end - - this_row[pos_layout] = this - pos_layout = pos_layout + 1 - end -- while - end -- for loop over rows - - local oldrows = newtab.rows - local newrows = oldrows - for nc=1, #newtablayout.widths do - local width = newtablayout.widths[nc] - -- this is gonna be extremely slow but at least it's readable - local newrow - local currentrow = 1 - for nr=1, #newrows do - local row = newrows[nr] - local cell = row[nc] - dbg_write("nc: %s, nr:%2s | %9s | ", nc, nr,cell.variant) - if row.sepline or row.sephead - or p.dashesonly:match(cell.content) - or cell.variant == "separator" then -- separator; skipping and beginning new row - newrows[nr][nc] = cell - currentrow = currentrow + 1 - newrow = true - dbg_write("new >%24s< ", cell.stripped) - if cell.parent then dbg_write("parent |") else dbg_write("no par |") end - else - dbg_write("old >%24s< ", cell.stripped) - if cell.parent then dbg_write("parent |") else dbg_write("no par |") end - if newrow then - newrows[nr][nc] = cell - currentrow = currentrow + 1 - else -- continuing parent - - local par_row, par_col - local parent - if cell.parent then - par_row, par_col = newtab.resolve_parent(cell.parent.y, cell.parent.x, newrows) - dbg_write(" use %s,%2s | ", par_col, par_row) - else -- Using vertical predecessor. - par_row, par_col = newtab.resolve_parent(nr-1,nc, newrows) - dbg_write(" new %s,%2s | ", par_col, par_row) - end - parent = newrows[par_row][par_col] - - if newrows[nr].seppart then - dbg_write("span++") - parent.span.y = parent.span.y + 1 - end - - parent.content = parent.content .. cell.content - parent.stripped = parent.stripped .. " " .. cell.stripped - cell.variant = "empty2" - cell.parent = { x = par_col, y = par_row } - end - newrow = false - end - dbg_write("\n") - newrows[nr][nc] = cell - end -- for loop over rows - end -- for loop over columns - --newtab.rows = oldrows - newtab.rows = newrows - end - - newtab.__init() - ---[[ - newtab.__draw_debug = function() - for nr=1, #newtab.rows do - local row = newtab.rows[nr] - for nc=1, #row do - local cell = row[nc] - local field = cell.variant:sub(1,7) - if cell.parent then - field = field .. string.format(" %s,%2s",cell.parent.x, cell.parent.y) - end - dbg_write("%12s | ", field) - end - dbg_write("\n") - end - end ---]] - - return newtab -end - - - -function helpers.table.resolve_parent (row, col, array) - local cell = array[row][col] - local par_row, par_col = row, col - if cell.parent then - par_row, par_col = self.resolve_parent(cell.parent.y, cell.parent.x) - end - return par_row, par_col -end - - --- Check the column boundaries of a simple table. -function helpers.get_st_boundaries (str) - local p_column_starts = helpers.patterns.column_starts - local p_column_stops = helpers.patterns.column_stops - local starts, stops, slices, elms = { }, { }, { }, nil - - elms = lpegmatch(p_column_starts, str) - for n=1, #elms do - local elm = elms[n] - slices[n] = { start = elm } - starts[elm] = true - end - - elms = lpegmatch(p_column_stops, str) - for n=1, #elms do - local elm = elms[n] - slices[n]["stop"] = elm - stops[elm] = true - end - return { starts = starts, stops = stops, slices = slices } -end - -function helpers.table.simple(raw) - local rows = {} - local multispans = {} - local bounds = helpers.get_st_boundaries(raw[1]) - local p = helpers.patterns - - for nr=1, #raw do - local row = raw[nr] - local newrow = {} - if not p.st_headsep:match(row) and - not p.st_colspan:match(row) then - local starts, stops = {}, {} - local check_span = false - if p.st_colspan:match(raw[nr+1]) then -- expect spans over several columns - starts = p.st_span_starts:match(raw[nr+1]) - stops = p.st_span_stops :match(raw[nr+1]) - check_span = true - else - for ncol=1, #bounds.slices do - local slice = bounds.slices[ncol] - starts[ncol] = slice.start - stops [ncol] = slice.stop - end - end - - for nc=1, #starts do - local start = starts[nc] - -- last column can exceed layout width - local stop = nc ~= #starts and stops[nc] or #row - local cell = { - content = "", - span = { x = 1, y = 1 }, - } - cell.content = stringstrip(row:sub(start, stop)) - if check_span then - local start_at, stop_at - for ncol=1, #bounds.slices do - local slice = bounds.slices[ncol] - if slice.start == start then - start_at = ncol - end - if start_at and - not (ncol == #bounds.slices) then - if slice.stop == stop then - stop_at = ncol - break - end - else -- last column, width doesn't matter - stop_at = ncol - end - end - cell.span.x = 1 + stop_at - start_at - end - newrow[nc] = cell - end - elseif p.st_colspan:match(row) then - newrow.ignore = true - elseif not rows.head_end and - nr > 1 and #raw > nr then -- ends the header - rows.head_end = nr - newrow.head_sep = true - newrow.ignore = true - else - newrow.ignore = true - end - rows[nr] = newrow - end - - for nr=1, #rows do - local row = rows[nr] - if not row.ignore and row[1].content == "" then - row.ignore = true - for nc=1, #row do - local cell = row[nc] - local par_row, par_col = helpers.table.resolve_parent(nr - 1, nc, rows) - parent = rows[par_row][par_col] - parent.content = parent.content .. " " .. cell.content - cell.content = "" - end - - end - end - - return rows -end - -helpers.list = {} - -do - local c = {} - c.roman = S"ivxlcdm"^1 - c.Roman = S"IVXLCDM"^1 - c.alpha = R"az" - P"i" - P"v" - P"x" - P"l" - c.Alpha = R"AZ" - P"I" - P"V" - P"X" - P"L" - c.digit = R"09"^1 - c.auto = P"#" - - local stripme = S" ()." - local dontstrip = 1 - stripme - local itemstripper = stripme^0 * C(dontstrip^1) * stripme^0 - - local con = function (str) - str = itemstripper:match(str) - for conv, pat in next, c do - if pat:match(str) then - return conv - end - end - return false - end - helpers.list.conversion = con - - local rnums = { - i = 1, - v = 5, - x = 10, - l = 50, - c = 100, - d = 500, - m = 1000, - } - - local function roman_to_arab (str) - local n = 1 - local curr, succ - local max_three = { } - local value = 0 - while n <= #str do - if curr and curr == max_three[#max_three] then - if #max_three >= 3 then - return "Not a number" - else - max_three[#max_three+1] = curr - end - else - max_three = { curr } - end - - curr = rnums[str:sub(n,n)] or 1 - - n = n + 1 - succ = str:sub(n,n) - - if succ and succ ~= "" then - succ = rnums[succ] - if curr < succ then - --n = n + 1 - --value = value + succ - curr - value = value - curr - else - value = value + curr - end - else - value = value + curr - end - end - return value - end - helpers.list.roman_to_arab = roman_to_arab - - local suc = function (str, old) - str, old = itemstripper:match(str), itemstripper:match(old) - local n_str, n_old = tonumber(str), tonumber(old) - if n_str and n_old then -- arabic numeral - return n_str == n_old + 1 - end - - local con_str, con_old = con(str), con(old) - if con_str == "alpha" or - con_str == "Alpha" then - return str:byte() == old:byte() + 1 - else -- “I'm a Roman!” - “A woman?” - “No, *Roman*! - Au!” - “So your father was a woman?” - if not (str:lower() == str or - str:upper() == str) then -- uneven cased --> fail - return false - end - - local trc = thirddata.rst.state.roman_cache - n_str = trc[str] or nil - n_old = trc[old] or nil - if not n_str then - n_str = roman_to_arab(str:lower()) - trc[str] = n_str - end - if not n_old then - n_old = roman_to_arab(old:lower()) - trc[old] = n_old - end - return n_str == n_old + 1 - end - end - helpers.list.successor = suc - - local greater = function (str, old) - str, old = itemstripper:match(str), itemstripper:match(old) - local n_str, n_old = tonumber(str), tonumber(old) - if n_str and n_old then -- arabic numeral - return n_str > n_old - end - - local con_str, con_old = con(str), con(old) - if con_str == "alpha" or - con_str == "Alpha" then - return str:byte() > old:byte() - else - if not (str:lower() == str or - str:upper() == str) then -- uneven cased --> fail - return false - end - - - local trc = thirddata.rst.state.roman_cache - n_str = trc[str] or nil - n_old = trc[old] or nil - if not n_str then - n_str = roman_to_arab(str:lower()) - trc[str] = n_str - end - if not n_old then - n_old = roman_to_arab(old:lower()) - trc[old] = n_old - end - return n_str > n_old - end - end - helpers.list.greater = greater - - local gd = function(str) - str = itemstripper:match(str) - local value - local con_str = con(str) - if con_str == "alpha" or - con_str == "Alpha" then - return str:byte() - else - if not (str:lower() == str or - str:upper() == str) then - return false - end - - local trc = thirddata.rst.state.roman_cache - n_str = trc[str] or nil - if not n_str then - n_str = roman_to_arab(str:lower()) - trc[str] = n_str - end - return n_str - end - end - - helpers.list.get_decimal = gd -end - -helpers.string = {} - -do - --- This grammar inside the function is slightly faster than the - --- same as an upvalue with the value of “width” repeatedly given - --- via lpeg.Carg(). This holds for repeated calls as well. - local ulen = utflen - function helpers.string.wrapat (str, width) - local width = width or 65 - local linelength = 0 - local wrap = P{ - [1] = "wrapper", - - wrapper = Cs(V"nowhitespace"^0 * (Cs(V"wrapme") + V"other")^1), - whitespace = S" \t\v" + P"\n" / function() linelength = 0 end, - nowhitespace = 1 - V"whitespace", - typing = P[[\\type{]] * (1 - P"}")^0 * P"}", - typingenv = P[[\\starttyping]] * (1 - P[[\\stoptyping]])^0 * P[[\\stoptyping]], - ignore = V"typing" + V"typingenv", - --- the initial whitespace of the “other” pattern must not - --- be enforced (“^1”) as it will break the exceptions - --- (“ignore” pattern)! In general it is better to have the - --- wrapper ignore some valid breaks than to not have it - --- matching some valid strings at all. - other = Cmt(V"whitespace"^0 * (V"ignore" + (1 - V"whitespace")^1), function(s,i,w) - linelength = linelength + ulen(w) - return true - end), - wrapme = Cmt(V"whitespace"^1 * (1 - V"whitespace" - V"ignore")^1, function(s,i,w) - local lw = ulen(w) - if linelength + lw > width then - linelength = lw - return true - end - return false - end) / function (word) return "\n" .. word:match("[^%s]+") end, - } - - local reflowed = wrap:match(str) - return reflowed - end -end - -- cgit v1.2.3