File: //home/ubuntu/neovim/runtime/lua/vim/treesitter/_fold.lua
local ts = vim.treesitter
local Range = require('vim.treesitter._range')
local api = vim.api
---Treesitter folding is done in two steps:
---(1) compute the fold levels with the syntax tree and cache the result (`compute_folds_levels`)
---(2) evaluate foldexpr for each window, which reads from the cache (`foldupdate`)
---@class TS.FoldInfo
---
---@field levels string[] the cached foldexpr result for each line
---@field levels0 integer[] the cached raw fold levels
---
---The range edited since the last invocation of the callback scheduled in on_bytes.
---Should compute fold levels in this range.
---@field on_bytes_range? Range2
---
---The range on which to evaluate foldexpr.
---When in insert mode, the evaluation is deferred to InsertLeave.
---@field foldupdate_range? Range2
local FoldInfo = {}
FoldInfo.__index = FoldInfo
---@private
function FoldInfo.new()
return setmetatable({
levels0 = {},
levels = {},
}, FoldInfo)
end
--- Efficiently remove items from middle of a list a list.
---
--- Calling table.remove() in a loop will re-index the tail of the table on
--- every iteration, instead this function will re-index the table exactly
--- once.
---
--- Based on https://stackoverflow.com/questions/12394841/safely-remove-items-from-an-array-table-while-iterating/53038524#53038524
---
---@param t any[]
---@param first integer
---@param last integer
local function list_remove(t, first, last)
local n = #t
for i = 0, n - first do
t[first + i] = t[last + 1 + i]
t[last + 1 + i] = nil
end
end
---@package
---@param srow integer
---@param erow integer 0-indexed, exclusive
function FoldInfo:remove_range(srow, erow)
list_remove(self.levels, srow + 1, erow)
list_remove(self.levels0, srow + 1, erow)
end
--- Efficiently insert items into the middle of a list.
---
--- Calling table.insert() in a loop will re-index the tail of the table on
--- every iteration, instead this function will re-index the table exactly
--- once.
---
--- Based on https://stackoverflow.com/questions/12394841/safely-remove-items-from-an-array-table-while-iterating/53038524#53038524
---
---@param t any[]
---@param first integer
---@param last integer
---@param v any
local function list_insert(t, first, last, v)
local n = #t
-- Shift table forward
for i = n - first, 0, -1 do
t[last + 1 + i] = t[first + i]
end
-- Fill in new values
for i = first, last do
t[i] = v
end
end
---@package
---@param srow integer
---@param erow integer 0-indexed, exclusive
function FoldInfo:add_range(srow, erow)
list_insert(self.levels, srow + 1, erow, -1)
list_insert(self.levels0, srow + 1, erow, -1)
end
---@param range Range2
---@param srow integer
---@param erow_old integer
---@param erow_new integer 0-indexed, exclusive
local function edit_range(range, srow, erow_old, erow_new)
range[1] = math.min(srow, range[1])
if erow_old <= range[2] then
range[2] = range[2] + (erow_new - erow_old)
end
range[2] = math.max(range[2], erow_new)
end
-- TODO(lewis6991): Setup a decor provider so injections folds can be parsed
-- as the window is redrawn
---@param bufnr integer
---@param info TS.FoldInfo
---@param srow integer?
---@param erow integer? 0-indexed, exclusive
---@param parse_injections? boolean
local function compute_folds_levels(bufnr, info, srow, erow, parse_injections)
srow = srow or 0
erow = erow or api.nvim_buf_line_count(bufnr)
local parser = ts.get_parser(bufnr)
parser:parse(parse_injections and { srow, erow } or nil)
local enter_counts = {} ---@type table<integer, integer>
local leave_counts = {} ---@type table<integer, integer>
local prev_start = -1
local prev_stop = -1
parser:for_each_tree(function(tree, ltree)
local query = ts.query.get(ltree:lang(), 'folds')
if not query then
return
end
-- Collect folds starting from srow - 1, because we should first subtract the folds that end at
-- srow - 1 from the level of srow - 1 to get accurate level of srow.
for _, match, metadata in
query:iter_matches(tree:root(), bufnr, math.max(srow - 1, 0), erow, { all = true })
do
for id, nodes in pairs(match) do
if query.captures[id] == 'fold' then
local range = ts.get_range(nodes[1], bufnr, metadata[id])
local start, _, stop, stop_col = Range.unpack4(range)
if #nodes > 1 then
-- assumes nodes are ordered by range
local end_range = ts.get_range(nodes[#nodes], bufnr, metadata[id])
local _, _, end_stop, end_stop_col = Range.unpack4(end_range)
stop = end_stop
stop_col = end_stop_col
end
if stop_col == 0 then
stop = stop - 1
end
local fold_length = stop - start + 1
-- Fold only multiline nodes that are not exactly the same as previously met folds
-- Checking against just the previously found fold is sufficient if nodes
-- are returned in preorder or postorder when traversing tree
if
fold_length > vim.wo.foldminlines and not (start == prev_start and stop == prev_stop)
then
enter_counts[start + 1] = (enter_counts[start + 1] or 0) + 1
leave_counts[stop + 1] = (leave_counts[stop + 1] or 0) + 1
prev_start = start
prev_stop = stop
end
end
end
end
end)
local nestmax = vim.wo.foldnestmax
local level0_prev = info.levels0[srow] or 0
local leave_prev = leave_counts[srow] or 0
-- We now have the list of fold opening and closing, fill the gaps and mark where fold start
for lnum = srow + 1, erow do
local enter_line = enter_counts[lnum] or 0
local leave_line = leave_counts[lnum] or 0
local level0 = level0_prev - leave_prev + enter_line
-- Determine if it's the start/end of a fold
-- NB: vim's fold-expr interface does not have a mechanism to indicate that
-- two (or more) folds start at this line, so it cannot distinguish between
-- ( \n ( \n )) \n (( \n ) \n )
-- versus
-- ( \n ( \n ) \n ( \n ) \n )
-- Both are represented by ['>1', '>2', '2', '>2', '2', '1'], and
-- vim interprets as the second case.
-- If it did have such a mechanism, (clamped - clamped_prev)
-- would be the correct number of starts to pass on.
local adjusted = level0 ---@type integer
local prefix = ''
if enter_line > 0 then
prefix = '>'
if leave_line > 0 then
-- If this line ends a fold f1 and starts a fold f2, then move f1's end to the previous line
-- so that f2 gets the correct level on this line. This may reduce the size of f1 below
-- foldminlines, but we don't handle it for simplicity.
adjusted = level0 - leave_line
leave_line = 0
end
end
-- Clamp at foldnestmax.
local clamped = adjusted
if adjusted > nestmax then
prefix = ''
clamped = nestmax
end
-- Record the "real" level, so that it can be used as "base" of later compute_folds_levels().
info.levels0[lnum] = adjusted
info.levels[lnum] = prefix .. tostring(clamped)
leave_prev = leave_line
level0_prev = adjusted
end
end
local M = {}
---@type table<integer,TS.FoldInfo>
local foldinfos = {}
local group = api.nvim_create_augroup('treesitter/fold', {})
--- Update the folds in the windows that contain the buffer and use expr foldmethod (assuming that
--- the user doesn't use different foldexpr for the same buffer).
---
--- Nvim usually automatically updates folds when text changes, but it doesn't work here because
--- FoldInfo update is scheduled. So we do it manually.
---@package
---@param srow integer
---@param erow integer 0-indexed, exclusive
function FoldInfo:foldupdate(bufnr, srow, erow)
if self.foldupdate_range then
edit_range(self.foldupdate_range, srow, erow, erow)
else
self.foldupdate_range = { srow, erow }
end
if api.nvim_get_mode().mode:match('^i') then
-- foldUpdate() is guarded in insert mode. So update folds on InsertLeave
if #(api.nvim_get_autocmds({
group = group,
buffer = bufnr,
})) > 0 then
return
end
api.nvim_create_autocmd('InsertLeave', {
group = group,
buffer = bufnr,
once = true,
callback = function()
self:do_foldupdate(bufnr)
end,
})
return
end
self:do_foldupdate(bufnr)
end
---@package
function FoldInfo:do_foldupdate(bufnr)
-- InsertLeave is not executed when <C-C> is used for exiting the insert mode, leaving
-- do_foldupdate untouched. If another execution of foldupdate consumes foldupdate_range, the
-- InsertLeave do_foldupdate gets nil foldupdate_range. In that case, skip the update. This is
-- correct because the update that consumed the range must have incorporated the range that
-- InsertLeave meant to update.
if not self.foldupdate_range then
return
end
local srow, erow = self.foldupdate_range[1], self.foldupdate_range[2]
self.foldupdate_range = nil
for _, win in ipairs(vim.fn.win_findbuf(bufnr)) do
if vim.wo[win].foldmethod == 'expr' then
vim._foldupdate(win, srow, erow)
end
end
end
--- Schedule a function only if bufnr is loaded.
--- We schedule fold level computation for the following reasons:
--- * queries seem to use the old buffer state in on_bytes for some unknown reason;
--- * to avoid textlock;
--- * to avoid infinite recursion:
--- compute_folds_levels → parse → _do_callback → on_changedtree → compute_folds_levels.
---@param bufnr integer
---@param fn function
local function schedule_if_loaded(bufnr, fn)
vim.schedule(function()
if not api.nvim_buf_is_loaded(bufnr) then
return
end
fn()
end)
end
---@param bufnr integer
---@param foldinfo TS.FoldInfo
---@param tree_changes Range4[]
local function on_changedtree(bufnr, foldinfo, tree_changes)
schedule_if_loaded(bufnr, function()
local srow_upd, erow_upd ---@type integer?, integer?
local max_erow = api.nvim_buf_line_count(bufnr)
for _, change in ipairs(tree_changes) do
local srow, _, erow, ecol = Range.unpack4(change)
-- If a parser doesn't have any ranges explicitly set, treesitter will
-- return a range with end_row and end_bytes with a value of UINT32_MAX,
-- so clip end_row to the max buffer line.
-- TODO(lewis6991): Handle this generally
if erow > max_erow then
erow = max_erow
elseif ecol > 0 then
erow = erow + 1
end
-- Start from `srow - foldminlines`, because this edit may have shrunken the fold below limit.
srow = math.max(srow - vim.wo.foldminlines, 0)
compute_folds_levels(bufnr, foldinfo, srow, erow)
srow_upd = srow_upd and math.min(srow_upd, srow) or srow
erow_upd = erow_upd and math.max(erow_upd, erow) or erow
end
if #tree_changes > 0 then
foldinfo:foldupdate(bufnr, srow_upd, erow_upd)
end
end)
end
---@param bufnr integer
---@param foldinfo TS.FoldInfo
---@param start_row integer
---@param old_row integer
---@param old_col integer
---@param new_row integer
---@param new_col integer
local function on_bytes(bufnr, foldinfo, start_row, start_col, old_row, old_col, new_row, new_col)
-- extend the end to fully include the range
local end_row_old = start_row + old_row + 1
local end_row_new = start_row + new_row + 1
if new_row ~= old_row then
-- foldexpr can be evaluated before the scheduled callback is invoked. So it may observe the
-- outdated levels, which may spuriously open the folds that didn't change. So we should shift
-- folds as accurately as possible. For this to be perfectly accurate, we should track the
-- actual TSNodes that account for each fold, and compare the node's range with the edited
-- range. But for simplicity, we just check whether the start row is completely removed (e.g.,
-- `dd`) or shifted (e.g., `o`).
if new_row < old_row then
if start_col == 0 and new_row == 0 and new_col == 0 then
foldinfo:remove_range(start_row, start_row + (end_row_old - end_row_new))
else
foldinfo:remove_range(end_row_new, end_row_old)
end
else
if start_col == 0 and old_row == 0 and old_col == 0 then
foldinfo:add_range(start_row, start_row + (end_row_new - end_row_old))
else
foldinfo:add_range(end_row_old, end_row_new)
end
end
if foldinfo.on_bytes_range then
edit_range(foldinfo.on_bytes_range, start_row, end_row_old, end_row_new)
else
foldinfo.on_bytes_range = { start_row, end_row_new }
end
if foldinfo.foldupdate_range then
edit_range(foldinfo.foldupdate_range, start_row, end_row_old, end_row_new)
end
-- This callback must not use on_bytes arguments, because they can be outdated when the callback
-- is invoked. For example, `J` with non-zero count triggers multiple on_bytes before executing
-- the scheduled callback. So we accumulate the edited ranges in `on_bytes_range`.
schedule_if_loaded(bufnr, function()
if not foldinfo.on_bytes_range then
return
end
local srow, erow = foldinfo.on_bytes_range[1], foldinfo.on_bytes_range[2]
foldinfo.on_bytes_range = nil
-- Start from `srow - foldminlines`, because this edit may have shrunken the fold below limit.
srow = math.max(srow - vim.wo.foldminlines, 0)
compute_folds_levels(bufnr, foldinfo, srow, erow)
foldinfo:foldupdate(bufnr, srow, erow)
end)
end
end
---@param lnum integer|nil
---@return string
function M.foldexpr(lnum)
lnum = lnum or vim.v.lnum
local bufnr = api.nvim_get_current_buf()
local parser = vim.F.npcall(ts.get_parser, bufnr)
if not parser then
return '0'
end
if not foldinfos[bufnr] then
foldinfos[bufnr] = FoldInfo.new()
compute_folds_levels(bufnr, foldinfos[bufnr])
parser:register_cbs({
on_changedtree = function(tree_changes)
on_changedtree(bufnr, foldinfos[bufnr], tree_changes)
end,
on_bytes = function(_, _, start_row, start_col, _, old_row, old_col, _, new_row, new_col, _)
on_bytes(bufnr, foldinfos[bufnr], start_row, start_col, old_row, old_col, new_row, new_col)
end,
on_detach = function()
foldinfos[bufnr] = nil
end,
})
end
return foldinfos[bufnr].levels[lnum] or '0'
end
api.nvim_create_autocmd('OptionSet', {
pattern = { 'foldminlines', 'foldnestmax' },
desc = 'Refresh treesitter folds',
callback = function()
for bufnr, _ in pairs(foldinfos) do
foldinfos[bufnr] = FoldInfo.new()
compute_folds_levels(bufnr, foldinfos[bufnr])
foldinfos[bufnr]:foldupdate(bufnr, 0, api.nvim_buf_line_count(bufnr))
end
end,
})
return M