Module:bac à sable/Darmo117/regex
La documentation pour ce module peut être créée à Module:bac à sable/Darmo117/regex/Documentation
local m_table = require('Module:table')
local p = {}
-- Constants
local START = 'start'
local END = 'end'
local OR = 'or'
local GROUP = 'group'
local CLASS = 'class'
local QUANTIFIED = 'quantified'
local SYMBOL = 'symbol'
local NON_GREEDY = 'non-greedy'
-- TODO trouver les autres classes
local PREDEFINED_CLASSES = {
['w'] = function(c)
return nil -- TODO
end,
['d'] = function(c)
return tonumber(c) ~= nil
end,
['s'] = function(c)
return nil -- TODO
end,
['b'] = function(c)
return nil -- TODO
end,
}
for class, predicate in pairs(PREDEFINED_CLASSES) do
PREDEFINED_CLASSES[mw.ustring.upper(class)] = function(c)
return not predicate(c)
end
end
PREDEFINED_CLASSES['n'] = function(c)
return c == '\n'
end
PREDEFINED_CLASSES['r'] = function(c)
return c == '\r'
end
PREDEFINED_CLASSES['.'] = function(_)
return true
end
-- Utility functions
--- Tests wether the given element is a group.
local function isGroup(element)
return type(element) == 'table' and element[GROUP] ~= nil
end
--- Tests wether the given element is a character class.
local function isClass(element)
return type(element) == 'table' and type(element[CLASS]) == 'function'
end
--- Tests wether the given element is a character literal.
local function isLiteral(element)
return type(element) == 'string'
end
--- Tests wether the given element is a character literal.
local function isStarOrPlusQuantifier(element)
return type(element) == 'table' and (element[SYMBOL] == '*' or element[SYMBOL] == '+')
end
local function checkIfQuantifiable(element, i)
if not isGroup(element) and not isClass(element) and not isLiteral(element) then
error(mw.ustring.format('nothing to repeat at position %d', i), 0)
end
end
local function createQuantifier(min, max, value, symbol)
return {
[QUANTIFIED] = value,
[SYMBOL] = symbol,
[NON_GREEDY] = false,
['min'] = min,
['max'] = max,
}
end
-- Functions
--- Handles the simple quantifiers (*, + and ?).
--- @param tree table The current regex tree.
--- @param c string The current character.
--- @param i number The current index.
local function handleQuantifier(tree, c, i)
local lastIndex = m_table.length(tree)
local prevValue = tree[lastIndex]
local min, max
checkIfQuantifiable(prevValue, i - 1)
if c == '*' then
min = 0
max = math.huge
elseif c == '+' then
min = 1
max = math.huge
elseif c == '?' then
min = 0
max = 1
end
tree[lastIndex] = createQuantifier(min, max, prevValue, c)
end
--- Compiles the given regex.
--- May throw an error if a syntax error is encountered.
--- @param regex string The regular expression to compile.
--- @param endChar string The character to stop at.
--- If it is not found, an error is raised.
--- @param startIndex number The index to start at in the regex.
--- @return table The compiled regular expression as a tree.
local function pcreCompile_impl(regex, endChar, startIndex)
local regexTree = {}
local endCharFound = false
local len = mw.ustring.len(regex)
local inGroup = endChar == ')'
local inOr = false
local inQuantifierRange = endChar == '}'
local commaFoundInRange = false
local otherCharFoundInRange = false
local inClass = endChar == ']'
local escape = false
local i = startIndex
local currentTree = regexTree
if inQuantifierRange then
currentTree.min = -1
currentTree.max = -1
end
repeat
local c = mw.ustring.sub(regex, i, i)
if not escape and c == endChar then
if inQuantifierRange then
if currentTree.min ~= -1 then
if currentTree.max == -1 then
if commaFoundInRange then
currentTree.max = math.huge
else
currentTree.max = currentTree.min
end
-- Quantifier range is out of order.
elseif currentTree.max < currentTree.min then
error(mw.ustring.format('quantifier range min greater than max at position %d', i), 0)
end
else
currentTree.min = nil
currentTree.max = nil
-- To keep the “}” after returning.
i = i - 1
end
end
endCharFound = true
else
if inQuantifierRange then
table.insert(currentTree, c)
if not otherCharFoundInRange then
local digit = tonumber(c)
if digit ~= nil then
if commaFoundInRange then
if currentTree.max == -1 then
currentTree.max = 0
end
currentTree.max = currentTree.max * 10 + digit
else
if currentTree.min == -1 then
currentTree.min = 0
end
currentTree.min = currentTree.min * 10 + digit
end
elseif c == ',' then
commaFoundInRange = true
else
currentTree.min = nil
currentTree.max = nil
-- Set “endChar” to nil to avoid raising the error before the last return.
endChar = nil
-- Remove last char and step back in case “c” is a “(”.
table.remove(currentTree, m_table.length(currentTree))
i = i - 1
break
end
end
-- In group or root regex
else
-- Capture group
if not escape and c == '(' then
-- TODO gérer ?:, ?<=, ?=, ?<!, ?! et ?> (atomic group = no backtrack)
local subGroup, endIndex = pcreCompile_impl(regex, ')', i + 1)
table.insert(currentTree, { [GROUP] = subGroup })
i = endIndex
-- Stray end of group
elseif not escape and c == ')' and not inGroup then
error(mw.ustring.format('unexpected ")" at position %d', i), 0)
-- Alternative
elseif not escape and c == '|' then
if not inOr then
inOr = true
regexTree = { [OR] = { regexTree } }
end
table.insert(regexTree[OR], {})
currentTree = regexTree[OR][m_table.length(regexTree[OR])]
-- Line/string start
elseif not escape and c == '^' then
table.insert(currentTree, START)
-- Line/string end
elseif not escape and c == '$' then
table.insert(currentTree, END)
-- Dot special character
elseif not escape and c == '.' or escape and PREDEFINED_CLASSES[c] then
table.insert(currentTree, { [CLASS] = PREDEFINED_CLASSES[c] })
-- Quantifiers (*, + and ?)
elseif not escape and (c == '*' or c == '+' or c == '?') then
local lastIndex = m_table.length(currentTree)
local prevValue = currentTree[lastIndex]
local skip = false
if c == '?' and isStarOrPlusQuantifier(prevValue) then
prevValue[NON_GREEDY] = true
skip = true
end
if not skip then
handleQuantifier(currentTree, c, i)
end
-- Quantifier range
elseif not escape and c == '{' then
local repetition, endIndex = pcreCompile_impl(regex, '}', i + 1)
if repetition.min ~= nil then
local lastIndex = m_table.length(currentTree)
local prevValue = currentTree[lastIndex]
checkIfQuantifiable(prevValue, i - 1)
currentTree[lastIndex] = createQuantifier(repetition.min, repetition.max, prevValue, '{}')
else
table.insert(currentTree, '{')
m_table.arrayConcat(currentTree, repetition)
end
i = endIndex
-- Escape next character
elseif not escape and c == '\\' then
escape = true
-- Default case: add literal character to the current sequence
else
table.insert(currentTree, c)
if escape then
escape = false
end
end
end
i = i + 1
end
until endCharFound or i == len + 1
if not endCharFound and endChar ~= nil then
error(mw.ustring.format('expected "%s" at position %d', endChar, i), 0)
end
return regexTree, i
end
--- Compiles the given regular expression.
--- May throw an error if a syntax error is encountered.
--- @param regex string The regular expression to compile.
--- @return table The compiled regular expression as a tree.
function p.pcreCompile(regex)
local success, value = pcall(pcreCompile_impl, regex, nil, 1)
if success then
return value
else
error('Regex syntax error: ' .. value)
end
end
-- Flags
p.I = 'i'
p.G = 'g'
p.M = 'm'
--- Tests wether the given string matches the given regex
--- then returns all captured matches.
--- @param s string The string to test.
--- @param regex string|table The regex (as a string or compiled).
--- @param offset number The index to start from in parameter "s".
--- @param flags table|nil The flags (i, g or m).
--- @return table|nil An array containing all matches or nil if the match failed.
--- The array index 0 contains the whole match, subsequent indices
--- contain the values from the corresponding capture group if any.
function p.pcreMatch(s, regex, offset, flags)
local compiledRegex = type(regex) == 'table' and regex or p.pcreCompile(regex)
local startIndex = offset or 1
flags = flags or {}
-- TODO
return nil
end
--- Tests wether the given string matches the given regex.
--- @param s string The string to test.
--- @param regex string|table The regex (as a string or compiled).
--- @param offset number The index to start from in parameter "s".
--- @param flags table|nil The flags (i, g or m).
--- @return boolean True if and only if parameter "s" matches the
--- given regex from the given index.
function p.pcreFind(s, regex, offset, flags)
return p.pcreMatch(s, regex, offset, flags) ~= nil
end
return p