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|
-- Functions to handle locals
-- Locals are a generalization of definition and scopes
-- its the way nvim-treesitter uses to "understand" the code
local queries = require "nvim-treesitter.query"
local ts_utils = require "nvim-treesitter.ts_utils"
local api = vim.api
local M = {}
function M.collect_locals(bufnr)
return queries.collect_group_results(bufnr, "locals")
end
-- Iterates matches from a locals query file.
-- @param bufnr the buffer
-- @param root the root node
function M.iter_locals(bufnr, root)
return queries.iter_group_results(bufnr, "locals", root)
end
function M.get_locals(bufnr)
return queries.get_matches(bufnr, "locals")
end
--- Creates unique id for a node based on text and range
-- @param scope: the scope node of the definition
-- @param bufnr: the buffer
-- @param node_text: the node text to use
-- @returns a string id
function M.get_definition_id(scope, node_text)
-- Add a vaild starting character in case node text doesn't start with a valid one.
return table.concat({ "k", node_text or "", scope:range() }, "_")
end
function M.get_definitions(bufnr)
local locals = M.get_locals(bufnr)
local defs = {}
for _, loc in ipairs(locals) do
if loc.definition then
table.insert(defs, loc.definition)
end
end
return defs
end
function M.get_scopes(bufnr)
local locals = M.get_locals(bufnr)
local scopes = {}
for _, loc in ipairs(locals) do
if loc.scope and loc.scope.node then
table.insert(scopes, loc.scope.node)
end
end
return scopes
end
function M.get_references(bufnr)
local locals = M.get_locals(bufnr)
local refs = {}
for _, loc in ipairs(locals) do
if loc.reference and loc.reference.node then
table.insert(refs, loc.reference.node)
end
end
return refs
end
--- Gets a table with all the scopes containing a node
-- The order is from most specific to least (bottom up)
function M.get_scope_tree(node, bufnr)
local scopes = {}
for scope in M.iter_scope_tree(node, bufnr) do
table.insert(scopes, scope)
end
return scopes
end
--- Iterates over a nodes scopes moving from the bottom up
function M.iter_scope_tree(node, bufnr)
local last_node = node
return function()
if not last_node then
return
end
local scope = M.containing_scope(last_node, bufnr, false) or ts_utils.get_root_for_node(node)
last_node = scope:parent()
return scope
end
end
-- Gets a table of all nodes and their 'kinds' from a locals list
-- @param local_def the local list result
-- @returns a list of node entries
function M.get_local_nodes(local_def)
local result = {}
M.recurse_local_nodes(local_def, function(def, node, kind)
table.insert(result, vim.tbl_extend("keep", { kind = kind }, def))
end)
return result
end
-- Recurse locals results until a node is found.
-- The accumulator function is given
-- * The table of the node
-- * The node
-- * The full definition match `@definition.var.something` -> 'var.something'
-- * The last definition match `@definition.var.something` -> 'something'
-- @param The locals result
-- @param The accumulator function
-- @param The full match path to append to
-- @param The last match
function M.recurse_local_nodes(local_def, accumulator, full_match, last_match)
if type(local_def) ~= "table" then
return
end
if local_def.node then
accumulator(local_def, local_def.node, full_match, last_match)
else
for match_key, def in pairs(local_def) do
M.recurse_local_nodes(def, accumulator, full_match and (full_match .. "." .. match_key) or match_key, match_key)
end
end
end
--- Get a single dimension table to look definition nodes.
-- Keys are generated by using the range of the containing scope and the text of the definition node.
-- This makes looking up a definition for a given scope a simple key lookup.
--
-- This is memoized by buffer tick. If the function is called in succession
-- without the buffer tick changing, then the previous result will be used
-- since the syntax tree hasn't changed.
--
-- Usage lookups require finding the definition of the node, so `find_definition`
-- is called very frequently, which is why this lookup must be fast as possible.
--
-- @param bufnr: the buffer
-- @returns a table for looking up definitions
M.get_definitions_lookup_table = ts_utils.memoize_by_buf_tick(function(bufnr)
local definitions = M.get_definitions(bufnr)
local result = {}
for _, definition in ipairs(definitions) do
for _, node_entry in ipairs(M.get_local_nodes(definition)) do
local scopes = M.get_definition_scopes(node_entry.node, bufnr, node_entry.scope)
-- Always use the highest valid scope
local scope = scopes[#scopes]
local node_text = ts_utils.get_node_text(node_entry.node, bufnr)[1]
local id = M.get_definition_id(scope, node_text)
result[id] = node_entry
end
end
return result
end)
--- Gets all the scopes of a definition based on the scope type
-- Scope types can be
--
-- "parent": Uses the parent of the containing scope, basically, skipping a scope
-- "global": Uses the top most scope
-- "local": Uses the containg scope of the definition. This is the default
--
-- @param node: the definition node
-- @param bufnr: the buffer
-- @param scope_type: the scope type
function M.get_definition_scopes(node, bufnr, scope_type)
local scopes = {}
local scope_count = 1
-- Definition is valid for the containing scope
-- and the containing scope of that scope
if scope_type == "parent" then
scope_count = 2
-- Definition is valid in all parent scopes
elseif scope_type == "global" then
scope_count = nil
end
local i = 0
for scope in M.iter_scope_tree(node, bufnr) do
table.insert(scopes, scope)
i = i + 1
if scope_count and i >= scope_count then
break
end
end
return scopes
end
function M.find_definition(node, bufnr)
local def_lookup = M.get_definitions_lookup_table(bufnr)
local node_text = ts_utils.get_node_text(node, bufnr)[1]
for scope in M.iter_scope_tree(node, bufnr) do
local id = M.get_definition_id(scope, node_text)
if def_lookup[id] then
local entry = def_lookup[id]
return entry.node, scope, entry.kind
end
end
return node, ts_utils.get_root_for_node(node), nil
end
-- Finds usages of a node in a given scope.
-- @param node the node to find usages for
-- @param scope_node the node to look within
-- @returns a list of nodes
function M.find_usages(node, scope_node, bufnr)
local bufnr = bufnr or api.nvim_get_current_buf()
local node_text = ts_utils.get_node_text(node, bufnr)[1]
if not node_text or #node_text < 1 then
return {}
end
local scope_node = scope_node or ts_utils.get_root_for_node(node)
local usages = {}
for match in M.iter_locals(bufnr, scope_node) do
if
match.reference
and match.reference.node
and ts_utils.get_node_text(match.reference.node, bufnr)[1] == node_text
then
local def_node, _, kind = M.find_definition(match.reference.node, bufnr)
if kind == nil or def_node == node then
table.insert(usages, match.reference.node)
end
end
end
return usages
end
function M.containing_scope(node, bufnr, allow_scope)
local bufnr = bufnr or api.nvim_get_current_buf()
local allow_scope = allow_scope == nil or allow_scope == true
local scopes = M.get_scopes(bufnr)
if not node or not scopes then
return
end
local iter_node = node
while iter_node ~= nil and not vim.tbl_contains(scopes, iter_node) do
iter_node = iter_node:parent()
end
return iter_node or (allow_scope and node or nil)
end
function M.nested_scope(node, cursor_pos)
local bufnr = api.nvim_get_current_buf()
local scopes = M.get_scopes(bufnr)
if not node or not scopes then
return
end
local row = cursor_pos.row
local col = cursor_pos.col
local scope = M.containing_scope(node)
for _, child in ipairs(ts_utils.get_named_children(scope)) do
local row_, col_ = child:start()
if vim.tbl_contains(scopes, child) and ((row_ + 1 == row and col_ > col) or row_ + 1 > row) then
return child
end
end
end
function M.next_scope(node)
local bufnr = api.nvim_get_current_buf()
local scopes = M.get_scopes(bufnr)
if not node or not scopes then
return
end
local scope = M.containing_scope(node)
local parent = scope:parent()
if not parent then
return
end
local is_prev = true
for _, child in ipairs(ts_utils.get_named_children(parent)) do
if child == scope then
is_prev = false
elseif not is_prev and vim.tbl_contains(scopes, child) then
return child
end
end
end
function M.previous_scope(node)
local bufnr = api.nvim_get_current_buf()
local scopes = M.get_scopes(bufnr)
if not node or not scopes then
return
end
local scope = M.containing_scope(node)
local parent = scope:parent()
if not parent then
return
end
local is_prev = true
local children = ts_utils.get_named_children(parent)
for i = #children, 1, -1 do
if children[i] == scope then
is_prev = false
elseif not is_prev and vim.tbl_contains(scopes, children[i]) then
return children[i]
end
end
end
return M
|
