X-Git-Url: http://gitweb.michael.orlitzky.com/?p=mjotex.git;a=blobdiff_plain;f=mjo-linear_algebra.tex;h=02e1d12aba4d6383ee2b79f44eea272d96457329;hp=91cc42dc26850c9959e829da35bddc60408ff89c;hb=eaa1f615a11b7010088cb848ce909c47beb3fb4d;hpb=b4474a4d73a36b4e35875b05d6c5b3202fa2773e diff --git a/mjo-linear_algebra.tex b/mjo-linear_algebra.tex index 91cc42d..02e1d12 100644 --- a/mjo-linear_algebra.tex +++ b/mjo-linear_algebra.tex @@ -2,37 +2,96 @@ % Standard operations from linear algebra. % +% Needed for \lvert, \rVert, etc. and \operatorname. +\usepackage{amsmath} + +% Wasysym contains the \ocircle that we use in \directsumperp. +\usepackage{wasysym} + +% Part of the adjustbox package; needed to clip the \perp sign. +\usepackage{trimclip} + \input{mjo-common} +% Absolute value (modulus) of a scalar. +\newcommand*{\abs}[1]{\left\lvert{#1}\right\rvert} + +% Norm of a vector. +\newcommand*{\norm}[1]{\left\lVert{#1}\right\rVert} + % The inner product between its two arguments. -\newcommand*{\ip}[2]{ \langle {#1}, {#2} \rangle } +\newcommand*{\ip}[2]{\left\langle{#1},{#2}\right\rangle} % The tensor product of its two arguments. -\newcommand*{\tp}[2]{ {#1} \otimes {#2} } +\newcommand*{\tp}[2]{ {#1}\otimes{#2} } + +% The Kronecker product of its two arguments. The usual notation for +% this is the same as the tensor product notation used for \tp, but +% that leads to confusion because the two definitions may not agree. +\newcommand*{\kp}[2]{ {#1}\odot{#2} } + +% The adjoint of a linear operator. +\newcommand*{\adjoint}[1]{ #1^{*} } + +% The ``transpose'' of a linear operator; namely, the adjoint, but +% specialized to real matrices. +\newcommand*{\transpose}[1]{ #1^{T} } + +% The trace of an operator. +\newcommand*{\trace}[1]{ \operatorname{trace}\of{{#1}} } % The ``span of'' operator. The name \span is already taken. -\newcommand*{\spanof}[1]{ \operatorname{span} \of{{#1}} } +\newcommand*{\spanof}[1]{ \operatorname{span}\of{{#1}} } % The ``co-dimension of'' operator. \newcommand*{\codim}{ \operatorname{codim} } -% The trace of an operator. -\newcommand*{\trace}[1]{ \operatorname{trace} \of{{#1}} } - % The orthogonal projection of its second argument onto the first. \newcommand*{\proj}[2] { \operatorname{proj}\of{#1, #2} } % The ``Automorphism group of'' operator. -\newcommand*{\Aut}[1]{ \operatorname{Aut} \of{{#1}} } +\newcommand*{\Aut}[1]{ \operatorname{Aut}\of{{#1}} } % The ``Lie algebra of'' operator. -\newcommand*{\Lie}[1]{ \operatorname{Lie} \of{{#1}} } +\newcommand*{\Lie}[1]{ \operatorname{Lie}\of{{#1}} } % The ``write a matrix as a big vector'' operator. -\newcommand*{\vectorize}[1]{ \operatorname{vec} \of{{#1}} } +\newcommand*{\vectorize}[1]{ \operatorname{vec}\of{{#1}} } % The ``write a big vector as a matrix'' operator. -\newcommand*{\matricize}[1]{ \operatorname{mat} \of{{#1}} } +\newcommand*{\matricize}[1]{ \operatorname{mat}\of{{#1}} } + +% An inline column vector, with parentheses and a transpose operator. +\newcommand*{\colvec}[1]{ \left({#1}\right)^{T} } + +% Bounded linear operators on some space. The required argument is the +% domain of those operators, and the optional argument is the +% codomain. If the optional argument is omitted, the required argument +% is used for both. +\newcommand*{\boundedops}[2][]{ + \mathcal{B}\of{ {#2} + \if\relax\detokenize{#1}\relax + {}% + \else + {,{#1}}% + \fi + } +} + + +% +% Orthogonal direct sum. +% +% First declare my ``perp in a circle'' operator, which is meant to be +% like an \obot or an \operp except has the correct weight circle. It's +% achieved by overlaying an \ocircle with a \perp, but only after we +% clip off the top half of the \perp sign and shift it up. +\DeclareMathOperator{\oplusperp}{\mathbin{ + \ooalign{ + $\ocircle$\cr + \raisebox{0.625\height}{$\clipbox{0pt 0pt 0pt 0.5\height}{$\perp$}$}\cr + } +}} -% The inverse of the adjoint of an operator (the argument). -\newcommand*{\adjinv}[1]{ \left( {#1}^{*} \right)^{-1} } +% Now declare an orthogonal direct sum in terms of \oplusperp. +\newcommand*{\directsumperp}[2]{ {#1}\oplusperp{#2} }