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for thmenv <- @⟨theorem,lemma,exercise,definition,corollary,example⟩
for thmprefix <- @⟨@thmenv:thm,lem,exe,def,cor,exa⟩
block auto start
string begin
name environment
snip
\begin{$1}
$0
\end{$1}
block auto !math start
for env <- @⟨enumerate,itemize,align*⟩
string @⟨@env:olist,ulist,dm⟩
name @⟨@env:ordered list,unordered list,display math⟩
snip
\begin{@env}
$0
\end{@env}
string proof
snip
\begin{proof}$?1⟨[Proof of @^⟨$1⟩]⟩
$0
\end{proof}
string ciff
name cases for ⟺
snip
\begin{enumerate}
\item[$\implies$]$1,
\item[$\impliedby$]$2,
\end{enumerate}
$0
string item
snip \item$|1⟨,[$1] $0⟩
block text
string ref
snip \ref{$1}$0
string r@thmprefix
snip \ref{@thmprefix:$1}$0
string pref
snip (\ref{$1})$0
string pr@thmprefix
snip (\ref{@thmprefix:$1})$0
string quote
snip ``$1''$0
string forcecr
snip {\ \\\\}
pattern ([Ll]et)
name definition
snip @1 \$$1 = $2\$
block auto
string im
name inline math
snip \$$1\$$0
block math
for shorthand <- @⟨sum,prod⟩
for symbol <- @⟨@shorthand:sigma,pi⟩
for operation <- @⟨@shorthand:sum,product⟩
string b@shorthand
name @symbol @operation
desc Write out a @operation using big @symbol notation
snip \\@symbol{$|1⟨$1 = $2,$1⟩}^$|2⟨{$2},\infty$2⟩ $0
for matkind <- @⟨matrix,determinant⟩
for matenv <- @⟨@matkind:bmatrix,vmatrix⟩
for shorthand <- @⟨@matkind:mat,det⟩
string 2@shorthand
name 2x2 @matkind
snip
\begin{@matenv}
$1 & $2 \\\\
$3 & $4
\end{@matenv}
string 3@shorthand
name 3x3 @matkind
snip
\begin{@matenv}
$1 & $2 & $3 \\\\
$4 & $5 & $6 \\\\
$7 & $8 & $9
\end{@matenv}
for operator <- @⟨eq,neq,defas,leq,geq,lt,gt,iip,iib,iff⟩
for symbol <- @⟨@operator:=,\neq,\coloneq,\leq,\geq,<,>,\implies,\impliedby,\iff⟩
block auto
abbr @operator @symbol
string a@operator
name align at @operator
snip &@symbol $0
block start
string al@operator
name aligned @operator
snip
\\\\ $1 &@symbol $2
$0
string cr@operator
name start with @operator
snip \\\\&@symbol $0
block start
string eqsystem
name system of equations
snip
\left\{
\begin{array}{rl}
$0
\end{array}
\right\}
block end
for suffix <- @⟨add,sub,rmul,pow,inv⟩
string ex@suffix
snip
&& \lrb{\square @⟨@suffix:
+ $1,
- $1,
\cdot $1,
^{$1},
^{-1},
⟩}$0
for prefix <- @⟨neg,mul,ln⟩
string ex@prefix
snip && \lrb{@⟨@prefix:-,$1,\ln⟩ \square}$0
string exdiv
snip && \lrb{\frac \square {$1}}$0
string exint
snip && \lrb{\int\square \dif $1}$0
string exdint
snip && \lrb{\int_{$1}^{$2}\square \dif $3}$0
for kind <- @⟨texpl,extrin,exbound,exdef⟩
string @kind
snip
&& \lrb{\text{@⟨@kind:
$1,
triangle inequality on $$1$,
$$1$ is bounded,
definition of $$1$,
⟩}}$0
block auto
for constkind <- @⟨default,shortened⟩
for constant <- @⟨@constkind:
@⟨star,delta,Delta,pi,tau,psi,phi,rho,sigma,alpha,beta,theta,gamma,omega,Omega,half,ordop,land,lor⟩,
@⟨lam,eps,iinf⟩
for expansion <- @⟨@constkind:
@constant,
@⟨@constant:lambda,epsilon,ifty⟩
for operator <- @⟨,e,s⟩
string @operator@constant
snip @⟨@operator:,^,_⟩\\@expansion
abbr niinf -\ifty
abbr eniinf ^{-\ifty}
abbr sniinf _{-\ifty}
abbr frl \forall
abbr exs \exists
abbr nin \not\in
abbr ccup \cup
abbr ccap \cap
abbr nope \bot
abbr yee \top
abbr nlnl \pm
abbr vsm \vecspace
abbr oball \ball
for noperator <- @⟨ordop,land,lor⟩
string @noperator
snip \\@noperator
for operator <- @⟨overline,hat,bar,abs,norm,prob,diprod,sin,cos,sqrt,ln,lrb,zmod,gen,diam,prob⟩
string @operator
snip \\@operator$|1⟨{$1}, $0⟩
for bioperator <- @⟨iprod,frac,binom,dist⟩
string @bioperator
snip \\@bioperator$|1⟨ $1,{$1}⟩$|2⟨ $2,{$2}⟩ $0
string set
desc Create a set by escaping the brackets
snip \{$1\}
pattern (.*)e@⟨t(%a),(%d)⟩
name auto exponent
snip @0^@1 $0
pattern (.*)so(%a)
name auto subscript
snip @0_@1 $0
pattern (\?[%a]+)(%d)
name auto digt subscript
snip @0_@1 $0
string ss
name subscript
snip _{$1} $0
string ee
name exponent
snip ^{$1} $0
pattern (%a)(.)pp
name auto function call
snip @0(@1) $0
pattern (%a)d(.)p
name auto derivative call
snip @0'(@1) $0
pattern (%a)i(.)p
name auto preimage call
snip @0^{-1}(@1) $0
block !word
abbr .inv ^{-1}
abbr .neg _-
abbr .pos _+
for limtarget <- @⟨anything,zero,infinity,negative infinity⟩
for prefix <- @⟨@limtarget:,z,i,n⟩
for limtargetsymbol <- @⟨@limtarget:$2,0,\infty,-\infty⟩
string @prefix⋄lim
name limit to @limtarget
snip \lim_{$1 \to @limtargetsymbol} $0
string dint
name definite integral
snip \int_{$|1⟨$1,-\infty$1⟩}^$|2⟨{$2},\infty$2⟩ $3 \dif $0
string iint
name indefinite integral
snip \int $1 \dif $0