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local info = {
version = 1.002,
comment = "basics for scintilla lpeg lexer for context/metafun",
author = "Hans Hagen, PRAGMA-ADE, Hasselt NL",
copyright = "PRAGMA ADE / ConTeXt Development Team",
license = "see context related readme files",
comment = "contains copyrighted code from mitchell.att.foicica.com",
}
-- The fold and lex functions are copied and patched from original code by Mitchell (see
-- lexer.lua). All errors are mine.
--
-- I've considered making a whole copy and patch the other functions too as we need
-- an extra nesting model. However, I don't want to maintain too much. An unfortunate
-- change in 3.03 is that no longer a script can be specified. This means that instead
-- of loading the extensions via the properties file, we now need to load them in our
-- own lexers, unless of course we replace lexer.lua completely (which adds another
-- installation issue). The loading takes place with:
--
-- if not lexer._CONTEXTEXTENSIONS then
-- dofile(_LEXERHOME .. "/scite-context-lexer.lua")
-- end
--
-- So, where pre 3.03 we loaded that file and in that file the original lexing code, we
-- now do the reverse. I also moved some helpers here because the new module structure
-- hides some (now local) functions.
--
-- Another change has been that _LEXERHOME is no longer available. It looks like more and
-- more functionality gets dropped so maybe at some point we need to ship our own dll/so
-- files. For instance, I'd like to have access to the current filename etc.
--
-- An increase in the number of built in styles made our own crash (probably due to some
-- maximum being reached) so some measures has been taken. We now get pretty close to
-- replacing the main lexer.lua file.
--
-- Also needed: preamble scan once. Can be handled in caller below and _M.preamble.
--
-- For huge files folding can be pretty slow and I do have some large ones that I keep
-- open all the time. Loading is normally no ussue, unless one has remembered the status
-- and the cursor is at the last line of a 200K line file. Optimizing the fold function
-- brought down loading of char-def.lua from 14 sec => 8 sec. Replacing the word_match
-- function and optimizing the lex function gained another 2+ seconds. A 6 second load
-- is quite ok for me.
-- Function load(lexer_name) starts with _M.WHITESPACE = lexer_name..'_whitespace' which
-- means that we need to have it frozen at the moment we load another lexer. Because spacing
-- is used to revert to a parent lexer we need to make sure that we load children as late
-- as possible in order not to get the wrong whitespace trigger. This took me quite a while
-- to figure out (not being that familiar with the internals). The lex and fold functions
-- have been optimized. It is a pitty that there is no proper print available.
-- Maybe it's safer to copy the other methods here so that we have no dependencies, apart
-- from the c library. We need to copy anyway as helpers are local
local lpeg = require 'lpeg'
local R, P, S, C, V, Cp, Cs, Ct, Cmt, Cc, Cf, Cg = lpeg.R, lpeg.P, lpeg.S, lpeg.C, lpeg.V, lpeg.Cp, lpeg.Cs, lpeg.Ct, lpeg.Cmt, lpeg.Cc, lpeg.Cf, lpeg.Cg
local lpegmatch = lpeg.match
local find, gmatch, match, lower, upper, gsub = string.find, string.gmatch, string.match, string.lower, string.upper, string.gsub
local concat = table.concat
local global = _G
local type, next, setmetatable, rawset = type, next, setmetatable, rawset
if lexer then
-- in recent c++ code the lexername and loading is hard coded
elseif _LEXERHOME then
dofile(_LEXERHOME .. '/lexer.lua') -- pre 3.03 situation
else
dofile('lexer.lua') -- whatever
end
lexer.context = lexer.context or { }
local context = lexer.context
context.patterns = context.patterns or { }
local patterns = context.patterns
lexer._CONTEXTEXTENSIONS = true
local locations = {
-- lexer.context.path,
"data", -- optional data directory
"..", -- regular scite directory
}
local function collect(name)
-- local definitions = loadfile(name .. ".luc") or loadfile(name .. ".lua")
local okay, definitions = pcall(function () return require(name) end)
if okay then
if type(definitions) == "function" then
definitions = definitions()
end
if type(definitions) == "table" then
return definitions
end
end
end
function context.loaddefinitions(name)
for i=1,#locations do
local data = collect(locations[i] .. "/" .. name)
if data then
return data
end
end
end
-- maybe more efficient:
function context.word_match(words,word_chars,case_insensitive)
local chars = '%w_' -- maybe just "" when word_chars
if word_chars then
chars = '^([' .. chars .. gsub(word_chars,'([%^%]%-])', '%%%1') ..']+)'
else
chars = '^([' .. chars ..']+)'
end
if case_insensitive then
local word_list = { }
for i=1,#words do
word_list[lower(words[i])] = true
end
return P(function(input, index)
local s, e, word = find(input,chars,index)
return word and word_list[lower(word)] and e + 1 or nil
end)
else
local word_list = { }
for i=1,#words do
word_list[words[i]] = true
end
return P(function(input, index)
local s, e, word = find(input,chars,index)
return word and word_list[word] and e + 1 or nil
end)
end
end
local idtoken = R("az","AZ","\127\255","__")
local digit = R("09")
local sign = S("+-")
local period = P(".")
local space = S(" \n\r\t\f\v")
patterns.idtoken = idtoken
patterns.digit = digit
patterns.sign = sign
patterns.period = period
patterns.cardinal = digit^1
patterns.integer = sign^-1 * digit^1
patterns.real =
sign^-1 * ( -- at most one
digit^1 * period * digit^0 -- 10.0 10.
+ digit^0 * period * digit^1 -- 0.10 .10
+ digit^1 -- 10
)
patterns.restofline = (1-S("\n\r"))^1
patterns.space = space
patterns.spacing = space^1
patterns.nospacing = (1-space)^1
patterns.anything = P(1)
function context.exact_match(words,word_chars,case_insensitive)
local characters = concat(words)
local pattern -- the concat catches _ etc
if word_chars == true or word_chars == false or word_chars == nil then
word_chars = ""
end
if type(word_chars) == "string" then
pattern = S(characters) + idtoken
if case_insensitive then
pattern = pattern + S(upper(characters)) + S(lower(characters))
end
if word_chars ~= "" then
pattern = pattern + S(word_chars)
end
elseif word_chars then
pattern = word_chars
end
if case_insensitive then
local list = { }
for i=1,#words do
list[lower(words[i])] = true
end
return Cmt(pattern^1, function(_,i,s)
return list[lower(s)] -- and i or nil
end)
else
local list = { }
for i=1,#words do
list[words[i]] = true
end
return Cmt(pattern^1, function(_,i,s)
return list[s] -- and i or nil
end)
end
end
-- spell checking (we can only load lua files)
-- return {
-- words = {
-- ["someword"] = "someword",
-- ["anotherword"] = "Anotherword",
-- },
-- }
local lists = { }
local splitter = (Cf(Ct("") * (Cg(C((1-S(" \t\n\r"))^1 * Cc(true))) + P(1))^1,rawset) )^0
local splitter = (Cf(Ct("") * (Cg(C(R("az","AZ","\127\255")^1) * Cc(true)) + P(1))^1,rawset) )^0
local function splitwords(words)
return lpegmatch(splitter,words)
end
function context.setwordlist(tag,limit) -- returns hash (lowercase keys and original values)
if not tag or tag == "" then
return false
elseif lists[tag] ~= nil then
return lists[tag]
else
local list = context.loaddefinitions("spell-" .. tag)
if not list or type(list) ~= "table" then
lists[tag] = false
return false
elseif type(list.words) == "string" then
list = splitwords(list.words) or false
lists[tag] = list
return list
else
list = list.words or false
lists[tag] = list
return list
end
end
end
patterns.wordtoken = R("az","AZ","\127\255")
patterns.wordpattern = patterns.wordtoken^3 -- todo: if limit and #s < limit then
function context.checkedword(validwords,s,i) -- ,limit
if not validwords then
return true, { "text", i }
-- return true, { "default", i }
else
-- keys are lower
local word = validwords[s]
if word == s then
return true, { "okay", i } -- exact match
elseif word then
return true, { "warning", i } -- case issue
else
local word = validwords[lower(s)]
if word == s then
return true, { "okay", i } -- exact match
elseif word then
return true, { "warning", i } -- case issue
elseif upper(s) == s then
return true, { "warning", i } -- probably a logo or acronym
else
return true, { "error", i }
end
end
end
end
function context.styleofword(validwords,s) -- ,limit
if not validwords then
return "text"
else
-- keys are lower
local word = validwords[s]
if word == s then
return "okay" -- exact match
elseif word then
return "warning" -- case issue
else
local word = validwords[lower(s)]
if word == s then
return "okay" -- exact match
elseif word then
return "warning" -- case issue
elseif upper(s) == s then
return "warning" -- probably a logo or acronym
else
return "error"
end
end
end
end
-- overloaded functions
local FOLD_BASE = SC_FOLDLEVELBASE
local FOLD_HEADER = SC_FOLDLEVELHEADERFLAG
local FOLD_BLANK = SC_FOLDLEVELWHITEFLAG
local get_style_at = GetStyleAt
local get_property = GetProperty
local get_indent_amount = GetIndentAmount
local h_table, b_table, n_table = { }, { }, { }
setmetatable(h_table, { __index = function(t,level) local v = { level, FOLD_HEADER } t[level] = v return v end })
setmetatable(b_table, { __index = function(t,level) local v = { level, FOLD_BLANK } t[level] = v return v end })
setmetatable(n_table, { __index = function(t,level) local v = { level } t[level] = v return v end })
-- local newline = P("\r\n") + S("\r\n")
-- local splitlines = Ct( ( Ct ( (Cp() * Cs((1-newline)^1) * newline^-1) + (Cp() * Cc("") * newline) ) )^0)
--
-- local lines = lpegmatch(splitlines,text) -- iterating over lines is faster
-- for i=1, #lines do
-- local li = lines[i]
-- local line = li[2]
-- if line ~= "" then
-- local pos = li[1]
-- for i=1,nofpatterns do
-- for s, m in gmatch(line,patterns[i]) do
-- if hash[m] then
-- local symbols = fold_symbols[get_style_at(start_pos + pos + s - 1)]
-- if symbols then
-- local l = symbols[m]
-- if l then
-- local t = type(l)
-- if t == 'number' then
-- current_level = current_level + l
-- elseif t == 'function' then
-- current_level = current_level + l(text, pos, line, s, match)
-- end
-- if current_level < FOLD_BASE then -- integrate in previous
-- current_level = FOLD_BASE
-- end
-- end
-- end
-- end
-- end
-- end
-- if current_level > prev_level then
-- folds[line_num] = h_table[prev_level] -- { prev_level, FOLD_HEADER }
-- else
-- folds[line_num] = n_table[prev_level] -- { prev_level }
-- end
-- prev_level = current_level
-- else
-- folds[line_num] = b_table[prev_level] -- { prev_level, FOLD_BLANK }
-- end
-- line_num = line_num + 1
-- end
local newline = P("\r\n") + S("\r\n")
local p_yes = Cp() * Cs((1-newline)^1) * newline^-1
local p_nop = newline
local function fold_by_parsing(text,start_pos,start_line,start_level,lexer)
local foldsymbols = lexer._foldsymbols
if not foldsymbols then
return { }
end
local patterns = foldsymbols._patterns
if not patterns then
return { }
end
local nofpatterns = #patterns
if nofpatterns == 0 then
return { }
end
local folds = { }
local line_num = start_line
local prev_level = start_level
local current_level = prev_level
local validmatches = foldsymbols._validmatches
if not validmatches then
validmatches = { }
for symbol, matches in next, foldsymbols do -- whatever = { start = 1, stop = -1 }
if not find(symbol,"^_") then -- brrr
for s, _ in next, matches do
validmatches[s] = true
end
end
end
foldsymbols._validmatches = validmatches
end
local function action_y(pos,line) -- we can consider moving the local functions outside (drawback: folds is kept)
for i=1,nofpatterns do
for s, m in gmatch(line,patterns[i]) do
if validmatches[m] then
local symbols = foldsymbols[get_style_at(start_pos + pos + s - 1)]
if symbols then
local action = symbols[m]
if action then
if type(action) == 'number' then -- we could store this in validmatches if there was only one symbol category
current_level = current_level + action
else
current_level = current_level + action(text,pos,line,s,m)
end
if current_level < FOLD_BASE then
current_level = FOLD_BASE
end
end
end
end
end
end
if current_level > prev_level then
folds[line_num] = h_table[prev_level] -- { prev_level, FOLD_HEADER }
else
folds[line_num] = n_table[prev_level] -- { prev_level }
end
prev_level = current_level
line_num = line_num + 1
end
local function action_n()
folds[line_num] = b_table[prev_level] -- { prev_level, FOLD_BLANK }
line_num = line_num + 1
end
if lexer._reset_parser then
lexer._reset_parser()
end
local lpegpattern = (p_yes/action_y + p_nop/action_n)^0 -- not too efficient but indirect function calls are neither but
lpegmatch(lpegpattern,text) -- keys are not pressed that fast ... large files are slow anyway
return folds
end
local function fold_by_indentation(text,start_pos,start_line,start_level)
local folds = { }
local current_line = start_line
local prev_level = start_level
for _, line in gmatch(text,'([\t ]*)(.-)\r?\n') do
if line ~= "" then
local current_level = FOLD_BASE + get_indent_amount(current_line)
if current_level > prev_level then -- next level
local i = current_line - 1
while true do
local f = folds[i]
if f and f[2] == FOLD_BLANK then
i = i - 1
else
break
end
end
local f = folds[i]
if f then
f[2] = FOLD_HEADER
end -- low indent
folds[current_line] = n_table[current_level] -- { current_level } -- high indent
elseif current_level < prev_level then -- prev level
local f = folds[current_line - 1]
if f then
f[1] = prev_level -- high indent
end
folds[current_line] = n_table[current_level] -- { current_level } -- low indent
else -- same level
folds[current_line] = n_table[prev_level] -- { prev_level }
end
prev_level = current_level
else
folds[current_line] = b_table[prev_level] -- { prev_level, FOLD_BLANK }
end
current_line = current_line + 1
end
return folds
end
local function fold_by_line(text,start_pos,start_line,start_level)
local folds = { }
for _ in gmatch(text,".-\r?\n") do
folds[start_line] = n_table[start_level] -- { start_level }
start_line = start_line + 1
end
return folds
end
local threshold_by_lexer = 512 * 1024 -- we don't know the filesize yet
local threshold_by_parsing = 512 * 1024 -- we don't know the filesize yet
local threshold_by_indentation = 512 * 1024 -- we don't know the filesize yet
local threshold_by_line = 512 * 1024 -- we don't know the filesize yet
function context.fold(text,start_pos,start_line,start_level) -- hm, we had size thresholds .. where did they go
if text == '' then
return { }
end
local lexer = global._LEXER
local fold_by_lexer = lexer._fold
local fold_by_symbols = lexer._foldsymbols
local filesize = 0 -- we don't know that
if fold_by_lexer then
if filesize <= threshold_by_lexer then
return fold_by_lexer(text,start_pos,start_line,start_level,lexer)
end
elseif fold_by_symbols and get_property('fold.by.parsing',1) > 0 then
if filesize <= threshold_by_parsing then
return fold_by_parsing(text,start_pos,start_line,start_level,lexer)
end
elseif get_property('fold.by.indentation',1) > 0 then
if filesize <= threshold_by_indentation then
return fold_by_indentation(text,start_pos,start_line,start_level,lexer)
end
elseif get_property('fold.by.line',1) > 0 then
if filesize <= threshold_by_line then
return fold_by_line(text,start_pos,start_line,start_level,lexer)
end
end
return { }
end
-- The following code is mostly unchanged:
local function add_rule(lexer, id, rule)
if not lexer._RULES then
lexer._RULES = {}
lexer._RULEORDER = {}
end
lexer._RULES[id] = rule
lexer._RULEORDER[#lexer._RULEORDER + 1] = id
end
local function add_style(lexer, token_name, style)
local len = lexer._STYLES.len
if len == 32 then
len = len + 8
end
if len >= 128 then
print('Too many styles defined (128 MAX)')
end
lexer._TOKENS[token_name] = len
lexer._STYLES[len] = style
lexer._STYLES.len = len + 1
end
local function join_tokens(lexer)
local patterns, order = lexer._RULES, lexer._RULEORDER
local token_rule = patterns[order[1]]
for i=2,#order do
token_rule = token_rule + patterns[order[i]]
end
lexer._TOKENRULE = token_rule
return lexer._TOKENRULE
end
local function add_lexer(grammar, lexer, token_rule)
local token_rule = join_tokens(lexer)
local lexer_name = lexer._NAME
local children = lexer._CHILDREN
for i=1,#children do
local child = children[i]
if child._CHILDREN then
add_lexer(grammar, child)
end
local child_name = child._NAME
local rules = child._EMBEDDEDRULES[lexer_name]
local rules_token_rule = grammar['__'..child_name] or rules.token_rule
grammar[child_name] = (-rules.end_rule * rules_token_rule)^0 * rules.end_rule^-1 * V(lexer_name)
local embedded_child = '_' .. child_name
grammar[embedded_child] = rules.start_rule * (-rules.end_rule * rules_token_rule)^0 * rules.end_rule^-1
token_rule = V(embedded_child) + token_rule
end
grammar['__' .. lexer_name] = token_rule
grammar[lexer_name] = token_rule^0
end
local function build_grammar(lexer, initial_rule)
local children = lexer._CHILDREN
if children then
local lexer_name = lexer._NAME
if not initial_rule then
initial_rule = lexer_name
end
local grammar = { initial_rule }
add_lexer(grammar, lexer)
lexer._INITIALRULE = initial_rule
lexer._GRAMMAR = Ct(P(grammar))
else
lexer._GRAMMAR = Ct(join_tokens(lexer)^0)
end
end
-- so far. We need these local functions in the next one.
function context.lex(text,init_style)
local lexer = global._LEXER
local grammar = lexer._GRAMMAR
if not grammar then
return { }
elseif lexer._LEXBYLINE then -- we could keep token
local tokens = { }
local offset = 0
local noftokens = 0
if true then
for line in gmatch(text,'[^\r\n]*\r?\n?') do -- could be an lpeg
local line_tokens = lpegmatch(grammar,line)
if line_tokens then
for i=1,#line_tokens do
local token = line_tokens[i]
token[2] = token[2] + offset
noftokens = noftokens + 1
tokens[noftokens] = token
end
end
offset = offset + #line
if noftokens > 0 and tokens[noftokens][2] ~= offset then
noftokens = noftokens + 1
tokens[noftokens] = { 'default', offset + 1 }
end
end
else -- alternative
local lasttoken, lastoffset
for line in gmatch(text,'[^\r\n]*\r?\n?') do -- could be an lpeg
local line_tokens = lpegmatch(grammar,line)
if line_tokens then
for i=1,#line_tokens do
lasttoken = line_tokens[i]
lastoffset = lasttoken[2] + offset
lasttoken[2] = lastoffset
noftokens = noftokens + 1
tokens[noftokens] = lasttoken
end
end
offset = offset + #line
if lastoffset ~= offset then
lastoffset = offset + 1
lasttoken = { 'default', lastoffset }
noftokens = noftokens + 1
tokens[noftokens] = lasttoken
end
end
end
return tokens
elseif lexer._CHILDREN then
-- as we cannot print, tracing is not possible ... this might change as we can as well
-- generate them all in one go (sharing as much as possible)
local _hash = lexer._HASH
if not hash then
hash = { }
lexer._HASH = hash
end
grammar = hash[init_style]
if grammar then
lexer._GRAMMAR = grammar
else
for style, style_num in next, lexer._TOKENS do
if style_num == init_style then
-- the name of the lexers is filtered from the whitespace
-- specification
local lexer_name = match(style,'^(.+)_whitespace') or lexer._NAME
if lexer._INITIALRULE ~= lexer_name then
grammar = hash[lexer_name]
if not grammar then
build_grammar(lexer,lexer_name)
grammar = lexer._GRAMMAR
hash[lexer_name] = grammar
end
end
break
end
end
grammar = grammar or lexer._GRAMMAR
hash[init_style] = grammar
end
return lpegmatch(grammar,text)
else
return lpegmatch(grammar,text)
end
end
-- todo: keywords: one lookup and multiple matches
function context.token(name, patt)
return Ct(patt * Cc(name) * Cp())
end
lexer.fold = context.fold
lexer.lex = context.lex
lexer.token = context.token
lexer.exact_match = context.exact_match
-- helper .. alas ... the lexer's lua instance is rather crippled .. not even
-- math is part of it
local floor = math and math.floor
local char = string.char
if not floor then
floor = function(n)
return tonumber(string.format("%d",n))
end
math = math or { }
math.floor = floor
end
local function utfchar(n)
if n < 0x80 then
return char(n)
elseif n < 0x800 then
return char(
0xC0 + floor(n/0x40),
0x80 + (n % 0x40)
)
elseif n < 0x10000 then
return char(
0xE0 + floor(n/0x1000),
0x80 + (floor(n/0x40) % 0x40),
0x80 + (n % 0x40)
)
elseif n < 0x40000 then
return char(
0xF0 + floor(n/0x40000),
0x80 + floor(n/0x1000),
0x80 + (floor(n/0x40) % 0x40),
0x80 + (n % 0x40)
)
else
-- return char(
-- 0xF1 + floor(n/0x1000000),
-- 0x80 + floor(n/0x40000),
-- 0x80 + floor(n/0x1000),
-- 0x80 + (floor(n/0x40) % 0x40),
-- 0x80 + (n % 0x40)
-- )
return "?"
end
end
context.utfchar = utfchar
-- a helper from l-lpeg:
local gmatch = string.gmatch
local function make(t)
local p
for k, v in next, t do
if not p then
if next(v) then
p = P(k) * make(v)
else
p = P(k)
end
else
if next(v) then
p = p + P(k) * make(v)
else
p = p + P(k)
end
end
end
return p
end
function lpeg.utfchartabletopattern(list)
local tree = { }
for i=1,#list do
local t = tree
for c in gmatch(list[i],".") do
if not t[c] then
t[c] = { }
end
t = t[c]
end
end
return make(tree)
end
-- patterns.invisibles =
-- P(utfchar(0x00A0)) -- nbsp
-- + P(utfchar(0x2000)) -- enquad
-- + P(utfchar(0x2001)) -- emquad
-- + P(utfchar(0x2002)) -- enspace
-- + P(utfchar(0x2003)) -- emspace
-- + P(utfchar(0x2004)) -- threeperemspace
-- + P(utfchar(0x2005)) -- fourperemspace
-- + P(utfchar(0x2006)) -- sixperemspace
-- + P(utfchar(0x2007)) -- figurespace
-- + P(utfchar(0x2008)) -- punctuationspace
-- + P(utfchar(0x2009)) -- breakablethinspace
-- + P(utfchar(0x200A)) -- hairspace
-- + P(utfchar(0x200B)) -- zerowidthspace
-- + P(utfchar(0x202F)) -- narrownobreakspace
-- + P(utfchar(0x205F)) -- math thinspace
patterns.invisibles = lpeg.utfchartabletopattern {
utfchar(0x00A0), -- nbsp
utfchar(0x2000), -- enquad
utfchar(0x2001), -- emquad
utfchar(0x2002), -- enspace
utfchar(0x2003), -- emspace
utfchar(0x2004), -- threeperemspace
utfchar(0x2005), -- fourperemspace
utfchar(0x2006), -- sixperemspace
utfchar(0x2007), -- figurespace
utfchar(0x2008), -- punctuationspace
utfchar(0x2009), -- breakablethinspace
utfchar(0x200A), -- hairspace
utfchar(0x200B), -- zerowidthspace
utfchar(0x202F), -- narrownobreakspace
utfchar(0x205F), -- math thinspace
}
-- now we can make:
patterns.iwordtoken = patterns.wordtoken - patterns.invisibles
patterns.iwordpattern = patterns.iwordtoken^3
-- require("themes/scite-context-theme")
-- In order to deal with some bug in additional styles (I have no cue what is
-- wrong, but additional styles get ignored and clash somehow) I just copy the
-- original lexer code ... see original for comments.
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