Merge branch 'dev' into mercury

nvim: change function name in cmp.lua
        [snippets] only jump inside snippets with tab
        fix snippets config
        custtom colored nodes for for snippets
        write latex keymaps the 0.7 way
This commit is contained in:
David JULIEN 2022-04-29 00:24:14 +02:00
commit 24781bbf71
Signed by: swytch
GPG Key ID: 498590A3AA82A06F
5 changed files with 396 additions and 378 deletions

View File

@ -20,32 +20,32 @@ local f = ls.function_node
local copy = utils.copy
ls.snippets = {
c = {
s("main", {
t({ "int main(int argc, char* argv[])" }),
t({ "", "{", "\t" }),
ls.add_snippets( "c", {
s("main", {
t({ "int main(int argc, char* argv[])" }),
t({ "", "{", "\t" }),
i(0),
t({ "", "\treturn 0;"}),
t({ "", "}"}),
}),
s("fn", {
-- Simple static text.
t("//Parameters: "),
-- function, first parameter is the function, second the Placeholders
-- whose text it gets as input.
f(copy, 2),
t({ "", "" }),
-- Placeholder/Insert.
i(1),
t("("),
-- Placeholder with initial text.
i(2, "int foo"),
-- Linebreak
t({ ")", "{", "\t" }),
i(0),
t({ "", "\treturn 0;"}),
t({ "", "}"}),
}),
s("fn", {
-- Simple static text.
t("//Parameters: "),
-- function, first parameter is the function, second the Placeholders
-- whose text it gets as input.
f(copy, 2),
t({ "", "" }),
-- Placeholder/Insert.
i(1),
t("("),
-- Placeholder with initial text.
i(2, "int foo"),
-- Linebreak
t({ ")", "{", "\t" }),
i(0),
t({ "", "\treturn 0;"}),
t({ "", "}"}),
}),
},
}
}),
}, {
key = "c"
})

View File

@ -10,13 +10,13 @@ opt.formatoptions = "trq1jp"
opt.tabstop = 4
-- Caps
utils.map("i", "AA", "À")
utils.map("i", "CC", "Ç")
utils.map("i", "EE", "É")
vim.keymap.set("i", "AA", "À")
vim.keymap.set("i", "CC", "Ç")
vim.keymap.set("i", "EE", "É")
-- Unbreakable spaces
utils.map("i", "<Space>etc", "\\,etc.")
utils.map("i", "<Space>:", "\\,:")
vim.keymap.set("i", "<Space>etc", "\\,etc.")
vim.keymap.set("i", "<Space>:", "\\,:")
-- Snippets
local ls = require("luasnip")
@ -44,86 +44,86 @@ local function rec_ls()
)
end
ls.snippets = {
tex = {
-- rec_ls is self-referencing. That makes this snippet 'infinite' eg. have as many
-- \item as necessary by utilizing a choiceNode.
s("ls", {
t({ "\\begin{itemize}", "\t\\item " }),
i(1),
t({ "" }),
d(2, rec_ls, {}),
t({ "", "\\end{itemize}", "" }),
}),
s("lsl", {
t({ "\\begin{itemize}[label=" }),
i(1),
t( { "]", "\t\\item " }),
i(2),
t({ "" }),
d(3, rec_ls, {}),
t({ "", "\\end{itemize}", "" }),
}),
s("frm", {
t({ "\\begin{" }),
i(1),
t({ "}[" }),
i(2),
t({ "]{" }),
f(copy, 1),
t({ ":" }),
i(3, "foo"),
t({ "}", "\t" }),
i(0),
t({ "", "\\end{" }),
f(copy, 1),
t({ "}", "" }),
}),
s("env", {
t({ "\\begin{" }),
i(1, "foo"),
t({ "}", "\t" }),
i(2),
t({ "", "\\end{" }),
f(copy,1),
t({ "}"}),
}),
s("tikz", {
t({ "\\begin{center}" }),
t({ "", "\t\\begin{tikzpicture}[main/.style = {draw,circle}]", "\t\t" }),
i(1),
t({ "", "\t\\end{tikzpicture}", "\\end{center}" }),
}),
s("ra", { t( "\\rightarrow" )}),
s("Ra", { t("\\Rightarrow" )}),
s("la", { t("\\leftarrow" )}),
s("La", { t("\\Leftarrow" )}),
s("lra", { t("\\leftrightarrow" )}),
s("Lra", { t("\\Leftrightarrow" )}),
s("bb", {
t({ "\\textbf{" }),
i(1),
t({ "}"}),
}),
s("tt", {
t({ "\\texttt{" }),
ls.add_snippets("tex", {
-- rec_ls is self-referencing. That makes this snippet 'infinite' eg. have as many
-- \item as necessary by utilizing a choiceNode.
s("ls", {
t({ "\\begin{itemize}", "\t\\item " }),
i(1),
t({ "" }),
d(2, rec_ls, {}),
t({ "", "\\end{itemize}", "" }),
}),
s("lsl", {
t({ "\\begin{itemize}[label=" }),
i(1),
t( { "]", "\t\\item " }),
i(2),
t({ "" }),
d(3, rec_ls, {}),
t({ "", "\\end{itemize}", "" }),
}),
s("frm", {
t({ "\\begin{" }),
i(1),
t({ "}[" }),
i(2),
t({ "]{" }),
f(copy, 1),
t({ ":" }),
i(3, "foo"),
t({ "}", "\t" }),
i(0),
t({ "", "\\end{" }),
f(copy, 1),
t({ "}", "" }),
}),
s("env", {
t({ "\\begin{" }),
i(1, "foo"),
t({ "}", "\t" }),
i(2),
t({ "", "\\end{" }),
f(copy,1),
t({ "}"}),
}),
s("tikz", {
t({ "\\begin{center}" }),
t({ "", "\t\\begin{tikzpicture}[main/.style = {draw,circle}]", "\t\t" }),
i(1),
t({ "", "\t\\end{tikzpicture}", "\\end{center}" }),
}),
s("ra", { t( "\\rightarrow" )}),
s("Ra", { t("\\Rightarrow" )}),
s("la", { t("\\leftarrow" )}),
s("La", { t("\\Leftarrow" )}),
s("lra", { t("\\leftrightarrow" )}),
s("Lra", { t("\\Leftrightarrow" )}),
s("bb", {
t({ "\\textbf{" }),
i(1),
t({ "}"}),
}),
s("ii", {
t({ "\\textit{" }),
i(1),
t({ "}"}),
}),
s("uu", {
t({ "\\underline{" }),
i(1),
t({ "}"}),
}),
s("fsc", {
t({ "\\textsc{" }),
i(1),
t({ "}"}),
}),
},
}
}),
s("tt", {
t({ "\\texttt{" }),
i(1),
t({ "}"}),
}),
s("ii", {
t({ "\\textit{" }),
i(1),
t({ "}"}),
}),
s("uu", {
t({ "\\underline{" }),
i(1),
t({ "}"}),
}),
s("fsc", {
t({ "\\textsc{" }),
i(1),
t({ "}"}),
}),
}, {
key = "tex"
})

View File

@ -7,7 +7,7 @@ local cmp = require("cmp")
local luasnip = require("luasnip")
local cmp_autopairs = require('nvim-autopairs.completion.cmp')
local check_backspace = function()
local has_words_before = function()
local line, col = unpack(vim.api.nvim_win_get_cursor(0))
return col ~= 0 and
vim.api.nvim_buf_get_lines(0, line - 1, line, true)[1]:
@ -62,9 +62,9 @@ cmp.setup {
["<Tab>"] = cmp.mapping(function(fallback)
if cmp.visible() then
cmp.select_next_item()
elseif luasnip.expand_or_jumpable() then
elseif luasnip.expand_or_locally_jumpable() then
luasnip.expand_or_jump()
elseif check_backspace() then
elseif has_words_before() then
cmp.complete()
else
fallback()

View File

@ -31,7 +31,26 @@ ls.config.set_config({
ext_opts = {
[types.choiceNode] = {
active = {
virt_text = { { "choiceNode", "Comment" } },
virt_text = { { "", "LuaSnipChoice" } },
},
inactive = {
virt_text = { { "", "LuaSnipInactive" } },
},
},
[types.functionNode] = {
active = {
virt_text = { { "", "LuaSnipFunction" } },
},
inactive = {
virt_text = { { "", "LuaSnipInactive" } },
},
},
[types.insertNode] = {
active = {
virt_text = { { "", "LuaSnipInsert" } },
},
inactive = {
virt_text = { { "", "LuaSnipInactive" } },
},
},
},
@ -59,270 +78,269 @@ local function date_input(fmt)
return sn(nil, i(1, os.date(fmt)))
end
ls.snippets = {
-- When trying to expand a snippet, luasnip first searches the tables for
-- each filetype specified in 'filetype' followed by 'all'.
-- If ie. the filetype is 'lua.c'
-- - luasnip.lua
-- - luasnip.c
-- - luasnip.all
-- are searched in that order.
all = {
-- snippets are added via ls.add_snippets(filetype, snippets[, opts]), where
-- opts may specify the `type` of the snippets ("snippets" or "autosnippets",
-- for snippets that should expand directly after the trigger is typed).
--
-- opts can also specify a key. By passing an unique key to each add_snippets, it's possible to reload snippets by
-- re-`:luafile`ing the file in which they are defined (eg. this one).
ls.add_snippets( "all", {
-- trigger is fn.
s("fn", {
-- Simple static text.
t("//Parameters: "),
-- function, first parameter is the function, second the Placeholders
-- whose text it gets as input.
f(copy, 2),
t({ "", "function " }),
-- Placeholder/Insert.
i(1),
t("("),
-- Placeholder with initial text.
i(2, "int foo"),
-- Linebreak
t({ ") {", "\t" }),
-- Last Placeholder, exit Point of the snippet. EVERY 'outer' SNIPPET NEEDS Placeholder 0.
i(0),
t({ "", "}" }),
}),
s("class", {
-- Choice: Switch between two different Nodes, first parameter is its position, second a list of nodes.
c(1, {
t("public "),
t("private "),
}),
t("class "),
i(2),
t(" "),
c(3, {
t("{"),
-- sn: Nested Snippet. Instead of a trigger, it has a position, just like insert-nodes. !!! These don't expect a 0-node!!!!
-- Inside Choices, Nodes don't need a position as the choice node is the one being jumped to.
sn(nil, {
t("extends "),
i(1),
t(" {"),
}),
sn(nil, {
t("implements "),
i(1),
t(" {"),
}),
}),
t({ "", "\t" }),
i(0),
t({ "", "}" }),
}),
-- Use a dynamic_node to interpolate the output of a
-- function (see date_input above) into the initial
-- value of an insert_node.
s("novel", {
t("It was a dark and stormy night on "),
d(1, date_input, {}, "%A, %B %d of %Y"),
t(" and the clocks were striking thirteen."),
}),
-- Parsing snippets: First parameter: Snippet-Trigger, Second: Snippet body.
-- Placeholders are parsed into choices with 1. the placeholder text(as a snippet) and 2. an empty string.
-- This means they are not SELECTed like in other editors/Snippet engines.
ls.parser.parse_snippet(
"lspsyn",
"Wow! This ${1:Stuff} really ${2:works. ${3:Well, a bit.}}"
),
s("fn", {
-- Simple static text.
t("//Parameters: "),
-- function, first parameter is the function, second the Placeholders
-- whose text it gets as input.
f(copy, 2),
t({ "", "function " }),
-- Placeholder/Insert.
i(1),
t("("),
-- Placeholder with initial text.
i(2, "int foo"),
-- Linebreak
t({ ") {", "\t" }),
-- Last Placeholder, exit Point of the snippet. EVERY 'outer' SNIPPET NEEDS Placeholder 0.
i(0),
t({ "", "}" }),
}),
s("class", {
-- Choice: Switch between two different Nodes, first parameter is its position, second a list of nodes.
c(1, {
t("public "),
t("private "),
}),
t("class "),
i(2),
t(" "),
c(3, {
t("{"),
-- sn: Nested Snippet. Instead of a trigger, it has a position, just like insert-nodes. !!! These don't expect a 0-node!!!!
-- Inside Choices, Nodes don't need a position as the choice node is the one being jumped to.
sn(nil, {
t("extends "),
i(1),
t(" {"),
}),
sn(nil, {
t("implements "),
i(1),
t(" {"),
}),
}),
t({ "", "\t" }),
i(0),
t({ "", "}" }),
}),
-- Use a dynamic_node to interpolate the output of a
-- function (see date_input above) into the initial
-- value of an insert_node.
s("novel", {
t("It was a dark and stormy night on "),
d(1, date_input, {}, "%A, %B %d of %Y"),
t(" and the clocks were striking thirteen."),
}),
-- Parsing snippets: First parameter: Snippet-Trigger, Second: Snippet body.
-- Placeholders are parsed into choices with 1. the placeholder text(as a snippet) and 2. an empty string.
-- This means they are not SELECTed like in other editors/Snippet engines.
ls.parser.parse_snippet(
"lspsyn",
"Wow! This ${1:Stuff} really ${2:works. ${3:Well, a bit.}}"
),
-- When wordTrig is set to false, snippets may also expand inside other words.
ls.parser.parse_snippet(
{ trig = "te", wordTrig = false },
"${1:cond} ? ${2:true} : ${3:false}"
),
-- When wordTrig is set to false, snippets may also expand inside other words.
ls.parser.parse_snippet(
{ trig = "te", wordTrig = false },
"${1:cond} ? ${2:true} : ${3:false}"
),
-- When regTrig is set, trig is treated like a pattern, this snippet will expand after any number.
ls.parser.parse_snippet({ trig = "%d", regTrig = true }, "A Number!!"),
-- Using the condition, it's possible to allow expansion only in specific cases.
s("cond", {
t("will only expand in c-style comments"),
}, {
condition = function(line_to_cursor, matched_trigger, captures)
-- optional whitespace followed by //
return line_to_cursor:match("%s*//")
end,
}),
-- there's some built-in conditions in "luasnip.extras.expand_conditions".
s("cond2", {
t("will only expand at the beginning of the line"),
}, {
condition = conds.line_begin,
}),
-- The last entry of args passed to the user-function is the surrounding snippet.
s(
{ trig = "a%d", regTrig = true },
f(function(_, snip)
return "Triggered with " .. snip.trigger .. "."
end, {})
),
-- It's possible to use capture-groups inside regex-triggers.
s(
{ trig = "b(%d)", regTrig = true },
f(function(_, snip)
return "Captured Text: " .. snip.captures[1] .. "."
end, {})
),
s({ trig = "c(%d+)", regTrig = true }, {
t("will only expand for even numbers"),
}, {
condition = function(line_to_cursor, matched_trigger, captures)
return tonumber(captures[1]) % 2 == 0
end,
}),
-- Use a function to execute any shell command and print its text.
s("bash", f(bash, {}, "ls")),
-- Short version for applying String transformations using function nodes.
s("transform", {
i(1, "initial text"),
t({ "", "" }),
-- lambda nodes accept an l._1,2,3,4,5, which in turn accept any string transformations.
-- This list will be applied in order to the first node given in the second argument.
l(l._1:match("[^i]*$"):gsub("i", "o"):gsub(" ", "_"):upper(), 1),
}),
s("transform2", {
i(1, "initial text"),
t("::"),
i(2, "replacement for e"),
t({ "", "" }),
-- Lambdas can also apply transforms USING the text of other nodes:
l(l._1:gsub("e", l._2), { 1, 2 }),
}),
s({ trig = "trafo(%d+)", regTrig = true }, {
-- env-variables and captures can also be used:
l(l.CAPTURE1:gsub("1", l.TM_FILENAME), {}),
}),
-- Set store_selection_keys = "<Tab>" (for example) in your
-- luasnip.config.setup() call to access TM_SELECTED_TEXT. In
-- this case, select a URL, hit Tab, then expand this snippet.
s("link_url", {
t('<a href="'),
f(function(_, snip)
return snip.env.TM_SELECTED_TEXT[1] or {}
end, {}),
t('">'),
i(1),
t("</a>"),
i(0),
}),
-- Shorthand for repeating the text in a given node.
s("repeat", { i(1, "text"), t({ "", "" }), r(1) }),
-- Directly insert the ouput from a function evaluated at runtime.
s("part", p(os.date, "%Y")),
-- use matchNodes to insert text based on a pattern/function/lambda-evaluation.
s("mat", {
i(1, { "sample_text" }),
t(": "),
m(1, "%d", "contains a number", "no number :("),
}),
-- The inserted text defaults to the first capture group/the entire
-- match if there are none
s("mat2", {
i(1, { "sample_text" }),
t(": "),
m(1, "[abc][abc][abc]"),
}),
-- It is even possible to apply gsubs' or other transformations
-- before matching.
s("mat3", {
i(1, { "sample_text" }),
t(": "),
m(
1,
l._1:gsub("[123]", ""):match("%d"),
"contains a number that isn't 1, 2 or 3!"
),
}),
-- `match` also accepts a function, which in turn accepts a string
-- (text in node, \n-concatted) and returns any non-nil value to match.
-- If that value is a string, it is used for the default-inserted text.
s("mat4", {
i(1, { "sample_text" }),
t(": "),
m(1, function(text)
return (#text % 2 == 0 and text) or nil
end),
}),
-- The nonempty-node inserts text depending on whether the arg-node is
-- empty.
s("nempty", {
i(1, "sample_text"),
n(1, "i(1) is not empty!"),
}),
-- dynamic lambdas work exactly like regular lambdas, except that they
-- don't return a textNode, but a dynamicNode containing one insertNode.
-- This makes it easier to dynamically set preset-text for insertNodes.
s("dl1", {
i(1, "sample_text"),
t({ ":", "" }),
dl(2, l._1, 1),
}),
-- Obviously, it's also possible to apply transformations, just like lambdas.
s("dl2", {
i(1, "sample_text"),
i(2, "sample_text_2"),
t({ "", "" }),
dl(3, l._1:gsub("\n", " linebreak ") .. l._2, { 1, 2 }),
}),
-- Alternative printf-like notation for defining snippets. It uses format
-- string with placeholders similar to the ones used with Python's .format().
s(
"fmt1",
fmt("To {title} {} {}.", {
i(2, "Name"),
i(3, "Surname"),
title = c(1, { t("Mr."), t("Ms.") }),
})
),
-- To escape delimiters use double them, e.g. `{}` -> `{{}}`.
-- Multi-line format strings by default have empty first/last line removed.
-- Indent common to all lines is also removed. Use the third `opts` argument
-- to control this behaviour.
s(
"fmt2",
fmt(
[[
foo({1}, {3}) {{
return {2} * {4}
}}
]],
{
i(1, "x"),
r(1),
i(2, "y"),
r(2),
}
)
),
-- Empty placeholders are numbered automatically starting from 1 or the last
-- value of a numbered placeholder. Named placeholders do not affect numbering.
s(
"fmt3",
fmt("{} {a} {} {1} {}", {
t("1"),
t("2"),
a = t("A"),
})
),
-- The delimiters can be changed from the default `{}` to something else.
s(
"fmt4",
fmt("foo() { return []; }", i(1, "x"), { delimiters = "[]" })
),
-- `fmta` is a convenient wrapper that uses `<>` instead of `{}`.
s("fmt5", fmta("foo() { return <>; }", i(1, "x"))),
-- By default all args must be used. Use strict=false to disable the check
s(
"fmt6",
fmt("use {} only", { t("this"), t("not this") }, { strict = false })
),
},
}
-- When regTrig is set, trig is treated like a pattern, this snippet will expand after any number.
ls.parser.parse_snippet({ trig = "%d", regTrig = true }, "A Number!!"),
-- Using the condition, it's possible to allow expansion only in specific cases.
s("cond", {
t("will only expand in c-style comments"),
}, {
condition = function(line_to_cursor, matched_trigger, captures)
-- optional whitespace followed by //
return line_to_cursor:match("%s*//")
end,
}),
-- there's some built-in conditions in "luasnip.extras.expand_conditions".
s("cond2", {
t("will only expand at the beginning of the line"),
}, {
condition = conds.line_begin,
}),
-- The last entry of args passed to the user-function is the surrounding snippet.
s(
{ trig = "a%d", regTrig = true },
f(function(_, snip)
return "Triggered with " .. snip.trigger .. "."
end, {})
),
-- It's possible to use capture-groups inside regex-triggers.
s(
{ trig = "b(%d)", regTrig = true },
f(function(_, snip)
return "Captured Text: " .. snip.captures[1] .. "."
end, {})
),
s({ trig = "c(%d+)", regTrig = true }, {
t("will only expand for even numbers"),
}, {
condition = function(line_to_cursor, matched_trigger, captures)
return tonumber(captures[1]) % 2 == 0
end,
}),
-- Use a function to execute any shell command and print its text.
s("bash", f(bash, {}, "ls")),
-- Short version for applying String transformations using function nodes.
s("transform", {
i(1, "initial text"),
t({ "", "" }),
-- lambda nodes accept an l._1,2,3,4,5, which in turn accept any string transformations.
-- This list will be applied in order to the first node given in the second argument.
l(l._1:match("[^i]*$"):gsub("i", "o"):gsub(" ", "_"):upper(), 1),
}),
s("transform2", {
i(1, "initial text"),
t("::"),
i(2, "replacement for e"),
t({ "", "" }),
-- Lambdas can also apply transforms USING the text of other nodes:
l(l._1:gsub("e", l._2), { 1, 2 }),
}),
s({ trig = "trafo(%d+)", regTrig = true }, {
-- env-variables and captures can also be used:
l(l.CAPTURE1:gsub("1", l.TM_FILENAME), {}),
}),
-- Set store_selection_keys = "<Tab>" (for example) in your
-- luasnip.config.setup() call to access TM_SELECTED_TEXT. In
-- this case, select a URL, hit Tab, then expand this snippet.
s("link_url", {
t('<a href="'),
f(function(_, snip)
return snip.env.TM_SELECTED_TEXT[1] or {}
end, {}),
t('">'),
i(1),
t("</a>"),
i(0),
}),
-- Shorthand for repeating the text in a given node.
s("repeat", { i(1, "text"), t({ "", "" }), r(1) }),
-- Directly insert the ouput from a function evaluated at runtime.
s("part", p(os.date, "%Y")),
-- use matchNodes to insert text based on a pattern/function/lambda-evaluation.
s("mat", {
i(1, { "sample_text" }),
t(": "),
m(1, "%d", "contains a number", "no number :("),
}),
-- The inserted text defaults to the first capture group/the entire
-- match if there are none
s("mat2", {
i(1, { "sample_text" }),
t(": "),
m(1, "[abc][abc][abc]"),
}),
-- It is even possible to apply gsubs' or other transformations
-- before matching.
s("mat3", {
i(1, { "sample_text" }),
t(": "),
m(
1,
l._1:gsub("[123]", ""):match("%d"),
"contains a number that isn't 1, 2 or 3!"
),
}),
-- `match` also accepts a function, which in turn accepts a string
-- (text in node, \n-concatted) and returns any non-nil value to match.
-- If that value is a string, it is used for the default-inserted text.
s("mat4", {
i(1, { "sample_text" }),
t(": "),
m(1, function(text)
return (#text % 2 == 0 and text) or nil
end),
}),
-- The nonempty-node inserts text depending on whether the arg-node is
-- empty.
s("nempty", {
i(1, "sample_text"),
n(1, "i(1) is not empty!"),
}),
-- dynamic lambdas work exactly like regular lambdas, except that they
-- don't return a textNode, but a dynamicNode containing one insertNode.
-- This makes it easier to dynamically set preset-text for insertNodes.
s("dl1", {
i(1, "sample_text"),
t({ ":", "" }),
dl(2, l._1, 1),
}),
-- Obviously, it's also possible to apply transformations, just like lambdas.
s("dl2", {
i(1, "sample_text"),
i(2, "sample_text_2"),
t({ "", "" }),
dl(3, l._1:gsub("\n", " linebreak ") .. l._2, { 1, 2 }),
}),
-- Alternative printf-like notation for defining snippets. It uses format
-- string with placeholders similar to the ones used with Python's .format().
s(
"fmt1",
fmt("To {title} {} {}.", {
i(2, "Name"),
i(3, "Surname"),
title = c(1, { t("Mr."), t("Ms.") }),
})
),
-- To escape delimiters use double them, e.g. `{}` -> `{{}}`.
-- Multi-line format strings by default have empty first/last line removed.
-- Indent common to all lines is also removed. Use the third `opts` argument
-- to control this behaviour.
s(
"fmt2",
fmt(
[[
foo({1}, {3}) {{
return {2} * {4}
}}
]],
{
i(1, "x"),
r(1),
i(2, "y"),
r(2),
}
)
),
-- Empty placeholders are numbered automatically starting from 1 or the last
-- value of a numbered placeholder. Named placeholders do not affect numbering.
s(
"fmt3",
fmt("{} {a} {} {1} {}", {
t("1"),
t("2"),
a = t("A"),
})
),
-- The delimiters can be changed from the default `{}` to something else.
s(
"fmt4",
fmt("foo() { return []; }", i(1, "x"), { delimiters = "[]" })
),
-- `fmta` is a convenient wrapper that uses `<>` instead of `{}`.
s("fmt5", fmta("foo() { return <>; }", i(1, "x"))),
-- By default all args must be used. Use strict=false to disable the check
s(
"fmt6",
fmt("use {} only", { t("this"), t("not this") }, { strict = false })
),
}, {
key = "all",
})
-- autotriggered snippets have to be defined in a separate table, luasnip.autosnippets.
ls.autosnippets = {

@ -1 +1 @@
Subproject commit d77e1cfe127418ab00c6d5fb076f89cdf9b49e94
Subproject commit 9b46e0fa3d2bfca3b376961d822eb5d965da48ed