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|
local api = vim.api
local locals = require'nvim-treesitter.locals'
local parsers = require'nvim-treesitter.parsers'
local M = {}
--- Gets the actual text content of a node
-- @param node the node to get the text from
-- @param bufnr the buffer containing the node
-- @return list of lines of text of the node
function M.get_node_text(node, bufnr)
local bufnr = bufnr or api.nvim_get_current_buf()
if not node then return {} end
-- We have to remember that end_col is end-exclusive
local start_row, start_col, end_row, end_col = node:range()
if start_row ~= end_row then
local lines = api.nvim_buf_get_lines(bufnr, start_row, end_row+1, false)
lines[1] = string.sub(lines[1], start_col+1)
lines[#lines] = string.sub(lines[#lines], 1, end_col)
return lines
else
local line = api.nvim_buf_get_lines(bufnr, start_row, start_row+1, false)[1]
-- If line is nil then the line is empty
return line and { string.sub(line, start_col+1, end_col) } or {}
end
end
--- Determines whether a node is the parent of another
-- @param dest the possible parent
-- @param source the possible child node
function M.is_parent(dest, source)
if not (dest and source) then return false end
local current = source
while current ~= nil do
if current == dest then
return true
end
current = current:parent()
end
return false
end
--- Get next node with same parent
-- @param node node
-- @param allow_switch_parents allow switching parents if last node
-- @param allow_next_parent allow next parent if last node and next parent without children
function M.get_next_node(node, allow_switch_parents, allow_next_parent)
local destination_node
local parent = node:parent()
if not parent then return end
local found_pos = 0
for i = 0,parent:named_child_count()-1,1 do
if parent:named_child(i) == node then
found_pos = i
break
end
end
if parent:named_child_count() > found_pos + 1 then
destination_node = parent:named_child(found_pos + 1)
elseif allow_switch_parents then
local next_node = M.get_next_node(node:parent())
if next_node and next_node:named_child_count() > 0 then
destination_node = next_node:named_child(0)
elseif next_node and allow_next_parent then
destination_node = next_node
end
end
return destination_node
end
--- Get previous node with same parent
-- @param node node
-- @param allow_switch_parents allow switching parents if first node
-- @param allow_previous_parent allow previous parent if first node and previous parent without children
function M.get_previous_node(node, allow_switch_parents, allow_previous_parent)
local destination_node
local parent = node:parent()
if not parent then return end
local found_pos = 0
for i = 0,parent:named_child_count()-1,1 do
if parent:named_child(i) == node then
found_pos = i
break
end
end
if 0 < found_pos then
destination_node = parent:named_child(found_pos - 1)
elseif allow_switch_parents then
local previous_node = M.get_previous_node(node:parent())
if previous_node and previous_node:named_child_count() > 0 then
destination_node = previous_node:named_child(previous_node:named_child_count() - 1)
elseif previous_node and allow_previous_parent then
destination_node = previous_node
end
end
return destination_node
end
function M.parent_scope(node, cursor_pos)
local bufnr = api.nvim_get_current_buf()
local scopes = locals.get_scopes(bufnr)
if not node or not scopes then return end
local row = cursor_pos.row
local col = cursor_pos.col
local iter_node = node
while iter_node ~= nil do
local row_, col_ = iter_node:start()
if vim.tbl_contains(scopes, iter_node) and (row_+1 ~= row or col_ ~= col) then
return iter_node
end
iter_node = iter_node:parent()
end
end
function M.containing_scope(node, bufnr)
local bufnr = bufnr or api.nvim_get_current_buf()
local scopes = locals.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 node
end
function M.get_named_children(node)
local nodes = {}
for i=0,node:named_child_count() - 1,1 do
nodes[i+1] = node:named_child(i)
end
return nodes
end
function M.nested_scope(node, cursor_pos)
local bufnr = api.nvim_get_current_buf()
local scopes = locals.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(M.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 = locals.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(M.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 = locals.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 = M.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
function M.get_node_at_cursor(winnr)
local cursor = api.nvim_win_get_cursor(winnr or 0)
local root = parsers.get_parser():parse():root()
return root:named_descendant_for_range(cursor[1]-1,cursor[2],cursor[1]-1,cursor[2])
end
-- Finds the definition node and it's scope node of a node
-- @param node starting node
-- @param bufnr buffer
-- @returns the definition node and the definition nodes scope node
function M.find_definition(node, bufnr)
local bufnr = bufnr or api.nvim_get_current_buf()
local node_text = M.get_node_text(node)[1]
local current_scope = M.containing_scope(node)
local matching_def_nodes = {}
-- If a scope wasn't found then use the root node
if current_scope == node then
current_scope = parsers.get_parser(bufnr).tree:root()
end
-- Get all definitions that match the node text
for _, def in ipairs(locals.get_definitions(bufnr)) do
for _, def_node in ipairs(M.get_local_nodes(def)) do
if M.get_node_text(def_node)[1] == node_text then
table.insert(matching_def_nodes, def_node)
end
end
end
-- Continue up each scope until we find the scope that contains the definition
while current_scope do
for _, def_node in ipairs(matching_def_nodes) do
if M.is_parent(current_scope, def_node) then
return def_node, current_scope
end
end
current_scope = M.containing_scope(current_scope:parent())
end
return node, parsers.get_parser(bufnr).tree:root()
end
-- Gets all nodes from a local list result.
-- @param local_def the local list result
-- @returns a list of nodes
function M.get_local_nodes(local_def)
local result = {}
M.recurse_local_nodes(local_def, function(_, node)
table.insert(result, node)
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 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
-- 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 = M.get_node_text(node)[1]
if not node_text or #node_text < 1 then return {} end
local scope_node = scope_node or parsers.get_parser(bufnr).tree:root()
local usages = {}
for match in locals.iter_locals(bufnr, scope_node) do
if match.reference
and match.reference.node
and M.get_node_text(match.reference.node)[1] == node_text
then
table.insert(usages, match.reference.node)
end
end
return usages
end
function M.highlight_node(node, buf, hl_namespace, hl_group)
if not node then return end
M.highlight_range({node:range()}, buf, hl_namespace, hl_group)
end
function M.highlight_range(range, buf, hl_namespace, hl_group)
local start_row, start_col, end_row, end_col = unpack(range)
vim.highlight.range(buf, hl_namespace, hl_group, {start_row, start_col}, {end_row, end_col})
end
-- Set visual selection to node
function M.update_selection(buf, node)
local start_row, start_col, end_row, end_col
if type(node) == 'table' then
start_row, start_col, end_row, end_col = unpack(node)
else
start_row, start_col, end_row, end_col = node:range()
end
if end_row == vim.fn.line('$') then
end_col = #vim.fn.getline('$')
end
-- Convert to 1-based indices
start_row = start_row + 1
start_col = start_col + 1
end_row = end_row + 1
end_col = end_col + 1
vim.fn.setpos(".", { buf, start_row, start_col, 0 })
vim.fn.nvim_exec("normal v", false)
-- Convert exclusive end position to inclusive
if end_col == 1 then
vim.fn.setpos(".", { buf, end_row - 1, -1, 0 })
else
vim.fn.setpos(".", { buf, end_row, end_col - 1, 0 })
end
end
-- Byte length of node range
function M.node_length(node)
local _, _, start_byte = node:start()
local _, _, end_byte = node:end_()
return end_byte - start_byte
end
--- Determines whether (line, col) position is in node range
-- @param node Node defining the range
-- @param line A line (0-based)
-- @param col A column (0-based)
function M.is_in_node_range(node, line, col)
local start_line, start_col, end_line, end_col = node:range()
if line >= start_line and line <= end_line then
if line == start_line and line == end_line then
return col >= start_col and col < end_col
elseif line == start_line then
return col >= start_col
elseif line == end_line then
return col < end_col
else
return true
end
else
return false
end
end
return M
|
