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2024-04-16 23:25:20 +02:00
for thmenv <- @⟨theorem,lemma,exercise,definition,corollary,example⟩
for thmprefix <- @⟨@thmenv:thm,lem,exe,def,cor,exa⟩
block auto !math start
for env <- @⟨$1,enumerate,itemize,align*⟩
string @⟨@env:begin,olist,ulist,dm⟩
name @⟨@env:environment,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,leq,geq,lt,gt⟩
for symbol <- @⟨@operator:=,\neq,\leq,\geq,<,>⟩
block auto
string a@operator
name align at @operator
snip &@symbol $0
block auto 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$,
⟩}}$0
block auto
for constant <- @⟨star,delta,Delta,pi,tau,psi,phi,rho,sigma,alpha,beta,theta,gamma,omega,Omega⟩
string @constant
snip \\@constant
for shortconstant <- @⟨eps,lam⟩
string @shortconstant
snip \\@⟨@shortconstant:epsilon,lambda⟩
for operator <- @⟨overline,hat,abs,norm,prob,diprod,sin,cos,sqrt,ln,lrb,zmod⟩
string @operator
snip \\@operator$|1⟨{$1}, $0⟩
for bioperator <- @⟨iprod,frac,binom⟩
string @bioperator
snip \\@bioperator$|1⟨ $1,{$1}⟩$|2⟨ $2,{$2}⟩ $0
string set
desc Create a set by escaping the brackets
snip \{$1\}
pattern e([%a%d])
name auto exponent
snip ^@0
pattern s([%a%d])
name auto subscript
snip _@0
pattern (\?[%a]+)(%d)
name auto digt subscript
snip @0_@1
string ss
name subscript
snip _{$1}$0
string ee
name exponent
snip ^{$1}$0
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