local tex = require('Snippets.luasniphelperslatex') local helper = require('Snippets.luasniphelpers') return { s({ trig = '$', snippetType = 'autosnippet' }, fmta( '$<>$', { i(1), } ) ), s({ trig = "txt", snippetType = "autosnippet" }, fmta( '\\text{<>}', { i(1), } ), { condition = tex.in_mathzone } ), s({ trig = '/', snippetType = 'autosnippet' }, fmta( '\\frac{<>}{<>}', { i(1), i(2), } ), { condition = tex.in_mathzone } ), s({ trig = "sum", snippetType = "autosnippet" }, fmta( '\\sum_{<>}^{<>}', { i(1), i(2), } ), { condition = tex.in_mathzone } ), s({ trig = "lim", snippetType = "autosnippet" }, fmta( '\\lim_{<>}', { i(1), } ), { condition = tex.in_mathzone } ), s({ trig = "int", snippetType = "autosnippet" }, fmta( '\\int_{<>}^{<>}', { i(1), i(2), } ), { condition = tex.in_mathzone } ), s({ trig = 'prt', snippetType = 'autosnippet' }, { t('\\partial ') }, { condition = tex.in_mathzone } ), s({ trig = 'mcl', snippetType = 'autosnippet' }, fmta( '\\mathcal{<>}', { i(1), } ) ), s({ trig = 'mcs', snippetType = 'autosnippet' }, fmta( '\\mathscr{<>}', { i(1), } ) ), s({ trig = "vec", snippetType = "autosnippet" }, fmta( '\\vec{<>}', { i(1), } ), { condition = tex.in_mathzone } ), s({ trig = "hat", snippetType = "autosnippet" }, fmta( '\\hat{<>}', { i(1), } ), { condition = tex.in_mathzone } ), s({ trig = "tld", snippetType = "autosnippet" }, fmta( '\\tilde{<>}', { i(1), } ), { condition = tex.in_mathzone } ), s({ trig = "vrl", snippetType = "autosnippet" }, fmta( '\\overline{<>}', { i(1), } ), { condition = tex.in_mathzone } ), s({ trig = "bar", snippetType = "autosnippet" }, fmta( '\\bar{<>}', { i(1), } ), { condition = tex.in_mathzone } ), s({ trig = "bsl", snippetType = "autosnippet" }, fmta( '\\boldsymbol{<>}', { i(1), } ), { condition = tex.in_mathzone } ), s({ trig = 'ΓΆΓΆ', snippetType = 'autosnippet' }, fmta( '^{<>}', { i(1), } ), { condition = tex.in_mathzone } ), s({ trig = 'sqr', snippetType = 'autosnippet' }, fmta( '\\sqrt[<>]{<>}', { i(1), i(2), } ), { condition = tex.in_mathzone } ), s({ trig = 'll', snippetType = 'autosnippet' }, fmta( '_{<>}', { i(1), } ), { condition = tex.in_mathzone } ), s({ trig = "ngl", snippetType = "autosnippet" }, { t('\\langle '), }, { condition = tex.in_mathzone } ), s({ trig = "ngr", snippetType = "autosnippet" }, { t('\\rangle '), }, { condition = tex.in_mathzone } ), s({ trig = "lr", snippetType = "autosnippet" }, fmta( '\\left(<>\\right)', { i(1), } ), { condition = tex.in_mathzone } ), s({ trig = 'mdl', snippetType = 'autosnippet' }, { t('\\middle'), }, { condition = tex.in_mathzone } ), s({ trig = 'dgg', snippetType = 'autosnippet' }, { t('\\dagger '), }, { condition = tex.in_mathzone } ), s({ trig = 'df', snippetType = 'autosnippet' }, { t('\\,d ') }, { condition = tex.in_mathzone } ), s({ trig = 'bgg', snippetType = 'autosnippet' }, { t('\\bigg '), }, { condition = tex.in_mathzone } ), s({ trig = 'rvr', snippetType = 'autosnippet' }, { t('\\rvert '), }, { condition = tex.in_mathzone } ), s({ trig = "sin", snippetType = "autosnippet" }, fmta( '\\sin{\\left(<>\\right)}', { i(1), } ), { condition = tex.in_mathzone } ), s({ trig = "cos", snippetType = "autosnippet" }, fmta( '\\cos{\\left(<>\\right)}', { i(1), } ), { condition = tex.in_mathzone } ), s({ trig = "tan", snippetType = "autosnippet" }, fmta( '\\tan{\\left(<>\\right)}', { i(1), } ), { condition = tex.in_mathzone } ), s({ trig = "dets", snippetType = "autosnippet" }, fmta( '\\det{(<>)}', { i(1), } ), { condition = tex.in_mathzone } ), s({ trig = "detm", snippetType = "autosnippet" }, fmta([[\det{\begin{vmatrix} <> \end{vmatrix}} ]], { i(1), } ), { condition = tex.in_mathzone } ), s({ trig = "mtrx", snippetType = "autosnippet" }, fmta([[\begin{pmatrix} <> \end{pmatrix} ]], { i(1), } ), { condition = tex.in_mathzone } ), s({ trig = "ln", snippetType = "autosnippet" }, fmta( '\\ln{\\left(<>\\right)}', { i(1), } ), { condition = tex.in_mathzone } ), s({ trig = "exp", snippetType = "autosnippet" }, fmta( '\\exp\\left(<>\\right)', { i(1), } ), { condition = tex.in_mathzone } ), s({ trig = "bra", snippetType = "autosnippet" }, fmta( '\\left\\langle <>\\right|', { i(1), } ), { condition = tex.in_mathzone } ), s({ trig = "ket", snippetType = "autosnippet" }, fmta( '\\left| <>\\right\\rangle', { i(1), } ), { condition = tex.in_mathzone } ), s({ trig = "brkt", snippetType = "autosnippet" }, fmta( '\\left\\langle <>\\middle| <>\\right\\rangle', { i(1), i(2), } ), { condition = tex.in_mathzone } ), }