local utf = unicode.utf8
-vis = buffers.newvisualizer("lam")
+local vis = buffers.newvisualizer("lam")
local colors = {
"prettytwo",
-- Symbols that should have a different representation
local symbols = {
- [' '] = {repr = '\\obs '},
+ -- Note, the space we replace with is a Unicode non-breaking space
+ -- (U+00A0).
+ [' '] = {repr = ' '},
['_'] = {repr = '\\_'},
- ['->'] = {repr = '\\rightarrow'},
+ ['->'] = {repr = '→'},
+ ['=>'] = {repr = '⇒'},
-- The default * sits very high above the baseline, \ast (u+2217) looks
-- better.
['*'] = {repr = '\\ast'},
- ['~'] = {repr = '\\sim'},
+ ['~'] = {repr = '\\HDLine[width=.20 * \\the\\textwidth]'},
+ ['|'] = {repr = '\\char' .. utf.byte('|')},
+ -- Use ▶ from our roman font, since Iwona doesn't have the glyph
+ ['▶'] = {repr = '{\\rm{}▶}'},
}
-
-- Keywords that should be bold
local keywords = {
['case'] = {},
['of'] = {},
['let'] = {},
+ ['letrec'] = {},
+ ['letnonrec'] = {},
['in'] = {},
+ ['DEFAULT'] = {small = true},
}
+local in_block = 0
+local submatches = {}
+local bases = {}
+-- Store the last line for each indent level
+local indentlines = {}
+
+function array_concat(a1, a2)
+ local res = a1
+ for k,v in ipairs(a2) do
+ table.insert(res, v)
+ end
+ return res
+end
+
+
-- See if str starts with a symbol, and return the remaining string and that
-- symbol. If no symbol from the table is matched, just returns the first
-- character. We can do a lookup directly, since symbols can be different in
local function take_word(str)
-- A word must always start with a-z (in particular, λ is not a valid
-- start of a word).
- res, newstr = utf.match(str, "^([a-zA-Z][%a%d_]+)(.*)")
+ res, newstr = utf.match(str, "^([a-zA-Z][%a%d%+%-%,_]+)(.*)")
return res, newstr or str
end
if not bases[base] then
-- Register that we've added this base
bases[base] = true
- -- Add a pattern for this base
- submatches[#submatches+1] = "^(" .. base .. ")([%a%d,]+)$"
+ -- Add a patterns for this base. First, the base with a single
+ -- letter or number subscript.
+ submatches[#submatches+1] = "^(" .. base .. ")([%a%d])$"
+ -- Seconde, the base with a longer prefix that includes at least
+ -- one of +-, (to catch things like ri+1, but not return).
+ submatches[#submatches+1] = "^(" .. base .. ")([%a%d]*[%-%+,]+[%a%d%-%+,]*)$"
end
end
return word
end
+-- Do proper aligning for subsequent lines. For example, in
+-- foo = bar
+-- | baz
+-- We replace the spaces in the second line with a skip with the same with as
+-- "foo ", to align the | with the =.
+-- For this, we keep a table "indentlines", which contains all previous lines
+-- with smaller indent levels that are still "in scope" (e.g., have not yet
+-- been followed by a line with a smaller indent level). For example:
+-- line1
+-- line2
+-- line3
+-- line4
+-- line5
+-- After the last line, the table will contain:
+-- { 0 = "line1", 2 = " line4", 4 = " line5"}
+-- In other words, line3 is no longer in scope since it is "hidden" by
+-- line4, and line is no longer in scope since it is replaced by line4.
+local function do_indent(line)
+ newind, rest = utf.match(line, '^(%s*)(.*)')
+ prev = -1
+ -- Loop all the previous lines
+ for indent, unused in pairs(indentlines) do
+ if indent > #newind then
+ -- Remove any lines with a larger indent
+ indentlines[indent] = nil
+ elseif indent < #newind and indent > prev then
+ -- Find the last line (e.g, with the highest indent) with an
+ -- indent smaller than the new indent. This is the line from which
+ -- we need to copy the indent.
+ prev = indent
+ end
+ end
+
+ -- Always store this line, possibly overwriting a previous line with the
+ -- same indent
+ indentlines[#newind] = line
+
+ if prev ~= -1 then
+ -- If there is a previous line with a smaller indent, make sure we
+ -- align with it. We do this by taking a prefix from that previous
+ -- line just as long as our indent. This gives us a bunch of
+ -- whitespace, with a few non-whitespace characters. We find out the
+ -- width of this prefix, and put whitespace just as wide as that
+ -- prefix before the current line, instead of the whitespace
+ -- characters that were there.
+ -- Doing this is slightly risky, since the prefix might contain
+ -- unfinished markup (e.g., \foo{bar without the closing }). We might
+ -- need to solve this later.
+ copyind = utf.sub(indentlines[prev], 1, #newind)
+ setwidth = "\\setwidthof{" .. copyind .. "}\\to\\pretlamalignwidth"
+ hskip = "\\hskip\\pretlamalignwidth"
+ return "{" .. setwidth .. hskip .. "}" .. rest
+ end
+ -- No previous line? Just return the unmodified line then
+ return line
+end
+
+
+-- Mark the begin of a block of lambda formatted buffers or expressions. This
+-- means that, until you call end_of_block again, the subscript bases are
+-- shared. For example, if you have \lam{y1} some text \lam{yn} within a
+-- single block, the yn will properly get subscripted. Be sure to call
+-- end_of_block again!
+--
+-- Blocks can be partially nested, meaning that the block
+-- won't be closed until end_of_block was called exactly as often as
+-- begin_of_block. However, subscripts from the inner block can still
+-- influence subscripts in the outer block.
+function vis.begin_of_block()
+ vis.begin_of_display()
+ in_block = in_block + 1
+end
+
+-- Ends the current block
+function vis.end_of_block()
+ in_block = in_block - 1
+end
+
function vis.begin_of_display()
- -- Initially allow subscripts using _ or just appending a number (later,
- -- we will add extra patterns here.
- submatches = {"^(.*)_([%a%d,]+)$", "^(.*[^%d])(%d+)$"}
- -- This stores all the bases we've encountered so far (to prevent
- -- duplicates). For each of them there will be a pattern in submatches
- -- above.
- bases = {}
+ if in_block == 0 then
+ -- Initially allow subscripts using _ or just appending a number (later,
+ -- we will add extra patterns here.
+ submatches = {"^(%a*)_([%a%d,]+)$", "^(%a+)(%d[%d,]+)$"}
+ -- This stores all the bases we've encountered so far (to prevent
+ -- duplicates). For each of them there will be a pattern in submatches
+ -- above.
+ bases = {}
+ end
+ indentlines = {}
end
+
-- Make things work for inline typeing (e.g., \type{}) as well.
vis.begin_of_inline = vis.begin_of_display
vis.end_of_inline = vis.end_of_display
function vis.flush_line(str,nested)
- local result, state = { }, 0
- local finish, change = buffers.finish_state, buffers.change_state
- -- Set the colorscheme, which is used by finish_state and change_state
- buffers.currentcolors = colors
+ buffers.flush_result(vis.do_line(str, false), nested)
+end
+
+function vis.do_line(str, no_indent)
+ local result = {}
+ if not no_indent then
+ -- Allow ignore of the indentation stuff when we're calling ourselves
+ -- for a partial line.
+ str = do_indent(str)
+ end
while str ~= "" do
local found = false
local word, symbol
- -- See if the next token is a word
- word, str = take_word(str)
- if word then
- if keywords[res] then
- -- Make all keywords bold
- word = "{\\bold " .. word .. "}"
+ local text, rest = utf.match(str, "^%-%-(.-)%-%-(.*)")
+ if text then
+ table.insert(result, '\\strikethrough{')
+ -- Recursively call ourselves to handle spaces gracefully.
+ result = array_concat(result, vis.do_line(text, true))
+ table.insert(result, '}')
+ -- Eat the processed characters
+ str = rest
+ elseif utf.match(str, "^%-%-") then
+ table.insert(result, '{\\italic{--')
+ -- Recursively call ourselves to handle spaces gracefully.
+ result = array_concat(result, vis.do_line(utf.sub(str, 3), true))
+ table.insert(result, '}}')
+ -- Done with this line
+ str = ''
+ else
+ -- See if the next token is a word
+ word, str = take_word(str)
+ if word then
+ if keywords[res] then
+ -- Make all keywords bold
+ word = "{\\bold " .. word .. "}"
+ if keywords[res].small then
+ word = "\\small" .. word -- Curlies were added above
+ end
+ else
+ -- Process any subscripts in the word
+ word = do_subscripts(word)
+ end
+ table.insert(result, word)
else
- -- Process any subscripts in the word
- word = do_subscripts(word)
+ -- The next token is not a word, it must be a symbol
+ symbol, str = take_symbol(str)
+ table.insert(result, symbol)
end
- else
- -- The next token is not a word, it must be a symbol
- symbol, str = take_symbol(str)
end
-
- -- Append the resulting token
- result[#result+1] = word or symbol
end
- state = finish(state, result)
- buffers.flush_result(result,nested)
+ return result
end
-- vim: set sw=4 sts=4 expandtab ai: