neovim/runtime/lua/vim/treesitter/query.lua
2022-12-02 16:05:00 +01:00

653 lines
19 KiB
Lua

local a = vim.api
local language = require('vim.treesitter.language')
-- query: pattern matching on trees
-- predicate matching is implemented in lua
--
---@class Query
---@field captures string[] List of captures used in query
---@field info table Contains used queries, predicates, directives
---@field query userdata Parsed query
local Query = {}
Query.__index = Query
local M = {}
---@private
local function dedupe_files(files)
local result = {}
local seen = {}
for _, path in ipairs(files) do
if not seen[path] then
table.insert(result, path)
seen[path] = true
end
end
return result
end
---@private
local function safe_read(filename, read_quantifier)
local file, err = io.open(filename, 'r')
if not file then
error(err)
end
local content = file:read(read_quantifier)
io.close(file)
return content
end
---@private
--- Adds {ilang} to {base_langs}, only if {ilang} is different than {lang}
---
---@return boolean true If lang == ilang
local function add_included_lang(base_langs, lang, ilang)
if lang == ilang then
return true
end
table.insert(base_langs, ilang)
return false
end
--- Gets the list of files used to make up a query
---
---@param lang string Language to get query for
---@param query_name string Name of the query to load (e.g., "highlights")
---@param is_included (boolean|nil) Internal parameter, most of the time left as `nil`
---@return string[] query_files List of files to load for given query and language
function M.get_query_files(lang, query_name, is_included)
local query_path = string.format('queries/%s/%s.scm', lang, query_name)
local lang_files = dedupe_files(a.nvim_get_runtime_file(query_path, true))
if #lang_files == 0 then
return {}
end
local base_query = nil
local extensions = {}
local base_langs = {}
-- Now get the base languages by looking at the first line of every file
-- The syntax is the following :
-- ;+ inherits: ({language},)*{language}
--
-- {language} ::= {lang} | ({lang})
local MODELINE_FORMAT = '^;+%s*inherits%s*:?%s*([a-z_,()]+)%s*$'
local EXTENDS_FORMAT = '^;+%s*extends%s*$'
for _, filename in ipairs(lang_files) do
local file, err = io.open(filename, 'r')
if not file then
error(err)
end
local extension = false
for modeline in
function()
return file:read('*l')
end
do
if not vim.startswith(modeline, ';') then
break
end
local langlist = modeline:match(MODELINE_FORMAT)
if langlist then
for _, incllang in ipairs(vim.split(langlist, ',', true)) do
local is_optional = incllang:match('%(.*%)')
if is_optional then
if not is_included then
if add_included_lang(base_langs, lang, incllang:sub(2, #incllang - 1)) then
extension = true
end
end
else
if add_included_lang(base_langs, lang, incllang) then
extension = true
end
end
end
elseif modeline:match(EXTENDS_FORMAT) then
extension = true
end
end
if extension then
table.insert(extensions, filename)
elseif base_query == nil then
base_query = filename
end
io.close(file)
end
local query_files = {}
for _, base_lang in ipairs(base_langs) do
local base_files = M.get_query_files(base_lang, query_name, true)
vim.list_extend(query_files, base_files)
end
vim.list_extend(query_files, { base_query })
vim.list_extend(query_files, extensions)
return query_files
end
---@private
local function read_query_files(filenames)
local contents = {}
for _, filename in ipairs(filenames) do
table.insert(contents, safe_read(filename, '*a'))
end
return table.concat(contents, '')
end
--- The explicitly set queries from |vim.treesitter.query.set_query()|
local explicit_queries = setmetatable({}, {
__index = function(t, k)
local lang_queries = {}
rawset(t, k, lang_queries)
return lang_queries
end,
})
--- Sets the runtime query named {query_name} for {lang}
---
--- This allows users to override any runtime files and/or configuration
--- set by plugins.
---
---@param lang string Language to use for the query
---@param query_name string Name of the query (e.g., "highlights")
---@param text string Query text (unparsed).
function M.set_query(lang, query_name, text)
explicit_queries[lang][query_name] = M.parse_query(lang, text)
end
--- Returns the runtime query {query_name} for {lang}.
---
---@param lang string Language to use for the query
---@param query_name string Name of the query (e.g. "highlights")
---
---@return Query Parsed query
function M.get_query(lang, query_name)
if explicit_queries[lang][query_name] then
return explicit_queries[lang][query_name]
end
local query_files = M.get_query_files(lang, query_name)
local query_string = read_query_files(query_files)
if #query_string > 0 then
return M.parse_query(lang, query_string)
end
end
local query_cache = vim.defaulttable(function()
return setmetatable({}, { __mode = 'v' })
end)
--- Parse {query} as a string. (If the query is in a file, the caller
--- should read the contents into a string before calling).
---
--- Returns a `Query` (see |lua-treesitter-query|) object which can be used to
--- search nodes in the syntax tree for the patterns defined in {query}
--- using `iter_*` methods below.
---
--- Exposes `info` and `captures` with additional context about {query}.
--- - `captures` contains the list of unique capture names defined in
--- {query}.
--- -` info.captures` also points to `captures`.
--- - `info.patterns` contains information about predicates.
---
---@param lang string Language to use for the query
---@param query string Query in s-expr syntax
---
---@return Query Parsed query
function M.parse_query(lang, query)
language.require_language(lang)
local cached = query_cache[lang][query]
if cached then
return cached
else
local self = setmetatable({}, Query)
self.query = vim._ts_parse_query(lang, query)
self.info = self.query:inspect()
self.captures = self.info.captures
query_cache[lang][query] = self
return self
end
end
--- Gets the text corresponding to a given node
---
---@param node userdata |tsnode|
---@param source (number|string) Buffer or string from which the {node} is extracted
---@param opts (table|nil) Optional parameters.
--- - concat: (boolean) Concatenate result in a string (default true)
---@return (string[]|string)
function M.get_node_text(node, source, opts)
opts = opts or {}
local concat = vim.F.if_nil(opts.concat, true)
local start_row, start_col, start_byte = node:start()
local end_row, end_col, end_byte = node:end_()
if type(source) == 'number' then
local lines
local eof_row = a.nvim_buf_line_count(source)
if start_row >= eof_row then
return nil
end
if end_col == 0 then
lines = a.nvim_buf_get_lines(source, start_row, end_row, true)
end_col = -1
else
lines = a.nvim_buf_get_lines(source, start_row, end_row + 1, true)
end
if #lines > 0 then
if #lines == 1 then
lines[1] = string.sub(lines[1], start_col + 1, end_col)
else
lines[1] = string.sub(lines[1], start_col + 1)
lines[#lines] = string.sub(lines[#lines], 1, end_col)
end
end
return concat and table.concat(lines, '\n') or lines
elseif type(source) == 'string' then
return source:sub(start_byte + 1, end_byte)
end
end
-- Predicate handler receive the following arguments
-- (match, pattern, bufnr, predicate)
local predicate_handlers = {
['eq?'] = function(match, _, source, predicate)
local node = match[predicate[2]]
if not node then
return true
end
local node_text = M.get_node_text(node, source)
local str
if type(predicate[3]) == 'string' then
-- (#eq? @aa "foo")
str = predicate[3]
else
-- (#eq? @aa @bb)
str = M.get_node_text(match[predicate[3]], source)
end
if node_text ~= str or str == nil then
return false
end
return true
end,
['lua-match?'] = function(match, _, source, predicate)
local node = match[predicate[2]]
if not node then
return true
end
local regex = predicate[3]
return string.find(M.get_node_text(node, source), regex)
end,
['match?'] = (function()
local magic_prefixes = { ['\\v'] = true, ['\\m'] = true, ['\\M'] = true, ['\\V'] = true }
---@private
local function check_magic(str)
if string.len(str) < 2 or magic_prefixes[string.sub(str, 1, 2)] then
return str
end
return '\\v' .. str
end
local compiled_vim_regexes = setmetatable({}, {
__index = function(t, pattern)
local res = vim.regex(check_magic(pattern))
rawset(t, pattern, res)
return res
end,
})
return function(match, _, source, pred)
local node = match[pred[2]]
if not node then
return true
end
local regex = compiled_vim_regexes[pred[3]]
return regex:match_str(M.get_node_text(node, source))
end
end)(),
['contains?'] = function(match, _, source, predicate)
local node = match[predicate[2]]
if not node then
return true
end
local node_text = M.get_node_text(node, source)
for i = 3, #predicate do
if string.find(node_text, predicate[i], 1, true) then
return true
end
end
return false
end,
['any-of?'] = function(match, _, source, predicate)
local node = match[predicate[2]]
if not node then
return true
end
local node_text = M.get_node_text(node, source)
-- Since 'predicate' will not be used by callers of this function, use it
-- to store a string set built from the list of words to check against.
local string_set = predicate['string_set']
if not string_set then
string_set = {}
for i = 3, #predicate do
string_set[predicate[i]] = true
end
predicate['string_set'] = string_set
end
return string_set[node_text]
end,
}
-- As we provide lua-match? also expose vim-match?
predicate_handlers['vim-match?'] = predicate_handlers['match?']
-- Directives store metadata or perform side effects against a match.
-- Directives should always end with a `!`.
-- Directive handler receive the following arguments
-- (match, pattern, bufnr, predicate, metadata)
local directive_handlers = {
['set!'] = function(_, _, _, pred, metadata)
if #pred == 4 then
-- (#set! @capture "key" "value")
local _, capture_id, key, value = unpack(pred)
if not metadata[capture_id] then
metadata[capture_id] = {}
end
metadata[capture_id][key] = value
else
local _, key, value = unpack(pred)
-- (#set! "key" "value")
metadata[key] = value
end
end,
-- Shifts the range of a node.
-- Example: (#offset! @_node 0 1 0 -1)
['offset!'] = function(match, _, _, pred, metadata)
local capture_id = pred[2]
local offset_node = match[capture_id]
local range = { offset_node:range() }
local start_row_offset = pred[3] or 0
local start_col_offset = pred[4] or 0
local end_row_offset = pred[5] or 0
local end_col_offset = pred[6] or 0
range[1] = range[1] + start_row_offset
range[2] = range[2] + start_col_offset
range[3] = range[3] + end_row_offset
range[4] = range[4] + end_col_offset
-- If this produces an invalid range, we just skip it.
if range[1] < range[3] or (range[1] == range[3] and range[2] <= range[4]) then
if not metadata[capture_id] then
metadata[capture_id] = {}
end
metadata[capture_id].range = range
end
end,
}
--- Adds a new predicate to be used in queries
---
---@param name string Name of the predicate, without leading #
---@param handler function(match:string, pattern:string, bufnr:number, predicate:function)
function M.add_predicate(name, handler, force)
if predicate_handlers[name] and not force then
error(string.format('Overriding %s', name))
end
predicate_handlers[name] = handler
end
--- Adds a new directive to be used in queries
---
--- Handlers can set match level data by setting directly on the
--- metadata object `metadata.key = value`, additionally, handlers
--- can set node level data by using the capture id on the
--- metadata table `metadata[capture_id].key = value`
---
---@param name string Name of the directive, without leading #
---@param handler function(match:string, pattern:string, bufnr:number, predicate:function, metadata:table)
function M.add_directive(name, handler, force)
if directive_handlers[name] and not force then
error(string.format('Overriding %s', name))
end
directive_handlers[name] = handler
end
--- Lists the currently available directives to use in queries.
---@return string[] List of supported directives.
function M.list_directives()
return vim.tbl_keys(directive_handlers)
end
--- Lists the currently available predicates to use in queries.
---@return string[] List of supported predicates.
function M.list_predicates()
return vim.tbl_keys(predicate_handlers)
end
---@private
local function xor(x, y)
return (x or y) and not (x and y)
end
---@private
local function is_directive(name)
return string.sub(name, -1) == '!'
end
---@private
function Query:match_preds(match, pattern, source)
local preds = self.info.patterns[pattern]
for _, pred in pairs(preds or {}) do
-- Here we only want to return if a predicate DOES NOT match, and
-- continue on the other case. This way unknown predicates will not be considered,
-- which allows some testing and easier user extensibility (#12173).
-- Also, tree-sitter strips the leading # from predicates for us.
local pred_name
local is_not
-- Skip over directives... they will get processed after all the predicates.
if not is_directive(pred[1]) then
if string.sub(pred[1], 1, 4) == 'not-' then
pred_name = string.sub(pred[1], 5)
is_not = true
else
pred_name = pred[1]
is_not = false
end
local handler = predicate_handlers[pred_name]
if not handler then
error(string.format('No handler for %s', pred[1]))
return false
end
local pred_matches = handler(match, pattern, source, pred)
if not xor(is_not, pred_matches) then
return false
end
end
end
return true
end
---@private
function Query:apply_directives(match, pattern, source, metadata)
local preds = self.info.patterns[pattern]
for _, pred in pairs(preds or {}) do
if is_directive(pred[1]) then
local handler = directive_handlers[pred[1]]
if not handler then
error(string.format('No handler for %s', pred[1]))
return
end
handler(match, pattern, source, pred, metadata)
end
end
end
--- Returns the start and stop value if set else the node's range.
-- When the node's range is used, the stop is incremented by 1
-- to make the search inclusive.
---@private
local function value_or_node_range(start, stop, node)
if start == nil and stop == nil then
local node_start, _, node_stop, _ = node:range()
return node_start, node_stop + 1 -- Make stop inclusive
end
return start, stop
end
--- Iterate over all captures from all matches inside {node}
---
--- {source} is needed if the query contains predicates; then the caller
--- must ensure to use a freshly parsed tree consistent with the current
--- text of the buffer (if relevant). {start_row} and {end_row} can be used to limit
--- matches inside a row range (this is typically used with root node
--- as the {node}, i.e., to get syntax highlight matches in the current
--- viewport). When omitted, the {start} and {end} row values are used from the given node.
---
--- The iterator returns three values: a numeric id identifying the capture,
--- the captured node, and metadata from any directives processing the match.
--- The following example shows how to get captures by name:
--- <pre>lua
--- for id, node, metadata in query:iter_captures(tree:root(), bufnr, first, last) do
--- local name = query.captures[id] -- name of the capture in the query
--- -- typically useful info about the node:
--- local type = node:type() -- type of the captured node
--- local row1, col1, row2, col2 = node:range() -- range of the capture
--- ... use the info here ...
--- end
--- </pre>
---
---@param node userdata |tsnode| under which the search will occur
---@param source (number|string) Source buffer or string to extract text from
---@param start number Starting line for the search
---@param stop number Stopping line for the search (end-exclusive)
---
---@return number capture Matching capture id
---@return table capture_node Capture for {node}
---@return table metadata for the {capture}
function Query:iter_captures(node, source, start, stop)
if type(source) == 'number' and source == 0 then
source = vim.api.nvim_get_current_buf()
end
start, stop = value_or_node_range(start, stop, node)
local raw_iter = node:_rawquery(self.query, true, start, stop)
---@private
local function iter()
local capture, captured_node, match = raw_iter()
local metadata = {}
if match ~= nil then
local active = self:match_preds(match, match.pattern, source)
match.active = active
if not active then
return iter() -- tail call: try next match
end
self:apply_directives(match, match.pattern, source, metadata)
end
return capture, captured_node, metadata
end
return iter
end
--- Iterates the matches of self on a given range.
---
--- Iterate over all matches within a {node}. The arguments are the same as
--- for |Query:iter_captures()| but the iterated values are different:
--- an (1-based) index of the pattern in the query, a table mapping
--- capture indices to nodes, and metadata from any directives processing the match.
--- If the query has more than one pattern, the capture table might be sparse
--- and e.g. `pairs()` method should be used over `ipairs`.
--- Here is an example iterating over all captures in every match:
--- <pre>lua
--- for pattern, match, metadata in cquery:iter_matches(tree:root(), bufnr, first, last) do
--- for id, node in pairs(match) do
--- local name = query.captures[id]
--- -- `node` was captured by the `name` capture in the match
---
--- local node_data = metadata[id] -- Node level metadata
---
--- ... use the info here ...
--- end
--- end
--- </pre>
---
---@param node userdata |tsnode| under which the search will occur
---@param source (number|string) Source buffer or string to search
---@param start number Starting line for the search
---@param stop number Stopping line for the search (end-exclusive)
---
---@return number pattern id
---@return table match
---@return table metadata
function Query:iter_matches(node, source, start, stop)
if type(source) == 'number' and source == 0 then
source = vim.api.nvim_get_current_buf()
end
start, stop = value_or_node_range(start, stop, node)
local raw_iter = node:_rawquery(self.query, false, start, stop)
local function iter()
local pattern, match = raw_iter()
local metadata = {}
if match ~= nil then
local active = self:match_preds(match, pattern, source)
if not active then
return iter() -- tail call: try next match
end
self:apply_directives(match, pattern, source, metadata)
end
return pattern, match, metadata
end
return iter
end
return M