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satellite/home/features/neovim/config/lua/my/snippets/tex.lua

264 lines
6.2 KiB
Lua

local M = {}
local ls = require("luasnip")
local extras = require("luasnip.extras")
local conds = require("luasnip.extras.expand_conditions")
local t = ls.text_node
local i = ls.insert_node
local d = ls.dynamic_node
local f = ls.function_node
local sn = ls.snippet_node
local fmt = require("luasnip.extras.fmt").fmt
local n = extras.nonempty
local autosnippets = {}
-- {{{ Helpers
local function unlines(...)
return table.concat({ ... }, "\n")
end
local function flatten(arr)
local result = {}
for _, subarray in ipairs(arr) do
if type(subarray) == "table" then
for _, value in ipairs(subarray) do
table.insert(result, value)
end
else
table.insert(result, subarray)
end
end
return result
end
local function trig(name)
return { name = name, trig = name }
end
-- }}}
-- {{{ Math mode detection
-- Taken from: https://github.com/iurimateus/luasnip-latex-snippets.nvim/blob/main/lua/luasnip-latex-snippets/util/ts_utils.lua
local MATH_NODES = {
displayed_equation = true,
inline_formula = true,
math_environment = true,
}
local TEXT_NODES = {
text_mode = true,
label_definition = true,
label_reference = true,
}
local function get_node_at_cursor()
local pos = vim.api.nvim_win_get_cursor(0)
-- Subtract one to account for 1-based row indexing in nvim_win_get_cursor
local row, col = pos[1] - 1, pos[2]
local parser = vim.treesitter.get_parser(0, "latex")
if not parser then
return
end
local root_tree = parser:parse({ row, col, row, col })[1]
local root = root_tree and root_tree:root()
if not root then
return
end
return root:named_descendant_for_range(row, col, row, col)
end
local function in_text(check_parent)
local node = get_node_at_cursor()
while node do
if node:type() == "text_mode" then
if check_parent then
-- For \text{}
local parent = node:parent()
if parent and MATH_NODES[parent:type()] then
return false
end
end
return true
elseif MATH_NODES[node:type()] then
return false
end
node = node:parent()
end
return true
end
local function in_mathzone()
local node = get_node_at_cursor()
while node do
if TEXT_NODES[node:type()] then
return false
elseif MATH_NODES[node:type()] then
return true
end
node = node:parent()
end
return false
end
local function not_math()
return in_text(true)
end
-- }}}
-- {{{ Start of line & non-math
local beginTextCondition = function(...)
return conds.line_begin(...) and not_math()
end
local parseBeginText = ls.extend_decorator.apply(ls.parser.parse_snippet, {
condition = beginTextCondition,
}) --[[@as function]]
local snipBeginText = ls.extend_decorator.apply(ls.snippet, {
condition = beginTextCondition,
}) --[[@as function]]
local function env(name)
return "\\begin{" .. name .. "}\n\t$0\n\\end{" .. name .. "}"
end
local function optional_square_bracket_arg(index, default)
return sn(index, {
n(1, "[", ""),
i(1, default),
n(1, "]", ""),
})
end
local function theorem_env(name, prefix)
return snipBeginText(trig(name), {
t("\\begin{" .. name .. "}"),
optional_square_bracket_arg(1),
n(2, "\\label{" .. prefix .. ":", ""),
i(2),
n(2, "}", ""),
t({ "", "\t" }),
i(0),
t({ "", "\\end{" .. name .. "}" }),
})
end
vim.list_extend(autosnippets, {
parseBeginText(
{ trig = "begin", name = "Begin / end environment" },
env("$1")
),
-- {{{ Chapters / sections
parseBeginText(trig("chapter"), "\\chapter{$1}\n$0"),
parseBeginText(trig("section"), "\\section{$1}\n$0"),
parseBeginText(trig("subsection"), "\\subsection{$1}\n$0"),
parseBeginText(trig("subsubsection"), "\\subsubsection{$1}\n$0"),
-- }}}
-- {{{ Lists
parseBeginText({ trig = "item", name = "List item" }, "\\item"),
parseBeginText({ trig = "olist", name = "Ordered list" }, env("enumerate")),
parseBeginText({ trig = "ulist", name = "Unordered list" }, env("itemize")),
-- }}}
-- {{{ Theorem envs
theorem_env("theorem", "thm"),
theorem_env("lemma", "lem"),
theorem_env("exercise", "exe"),
theorem_env("definition", "def"),
theorem_env("corollary", "cor"),
theorem_env("example", "exa"),
snipBeginText(trig("proof"), {
t("\\begin{proof}"),
optional_square_bracket_arg(1),
t({ "", "\t" }),
i(0),
t({ "", "\\end{proof}" }),
}),
-- }}}
-- {{{ Special structures
parseBeginText(
{ trig = "ciff", name = "If and only if cases" },
unlines(
"\\begin{enumerate}",
"\t\\item[$\\implies$]$1",
"\t\\item[$\\impliedby$]$2",
"\\end{enumerate}",
"$0"
)
),
-- }}}
})
-- }}}
-- {{{ Non-math
local parseText = ls.extend_decorator.apply(ls.parser.parse_snippet, {
condition = not_math,
}) --[[@as function]]
local snipText = ls.extend_decorator.apply(ls.snippet, {
condition = not_math,
}) --[[@as function]]
local function ref(name, prefix)
return {
parseText(
{ trig = "r" .. name, name = name .. " reference" },
"\\ref{" .. prefix .. ":$1}$0"
),
parseText(
{ trig = "pr" .. name, name = name .. " reference" },
"(\\ref{" .. prefix .. ":$1})$0"
),
}
end
vim.list_extend(
autosnippets,
flatten({
-- {{{ References
ref("theorem", "thm"),
ref("lemma", "lem"),
ref("exercise", "exe"),
ref("definition", "def"),
ref("corollary", "cor"),
ref("example", "exa"),
{
parseText({ trig = "ref", name = "reference" }, "\\ref{$1}$0"),
parseText({ trig = "pref", name = "reference" }, "(\\ref{$1})$0"),
},
-- }}}
{
-- {{{ Misc
parseText(trig("quote"), "``$1''$0"),
parseText(trig("forcecr"), "{\\ \\\\\\\\}"),
-- }}}
-- {{{ Let ...
snipText(
{ trig = "([Ll]et)", trigEngine = "pattern", name = "definition" },
{
f(function(_, snip)
return snip.captures[1]
end),
t(" "),
sn(1, fmt("${} ≔ {}$", { i(1), i(2) })),
}
),
-- }}}
-- {{{ Display / inline math
parseText({ trig = "dm", name = "display math" }, env("align*")),
parseText({ trig = "im", name = "inline math" }, "\\$$1\\$$0"),
-- }}}
},
})
)
-- }}}
function M.setup()
ls.add_snippets("tex", autosnippets, {
type = "autosnippets",
default_priority = 0,
})
end
return M