X-Git-Url: http://gitweb.michael.orlitzky.com/?a=blobdiff_plain;f=mjo-common.tex;h=efa10a26045d9f199bd3bdb1f8c9f5ec97c1cb19;hb=d84c704c13a2e30c232710801c5483059094dac3;hp=edb5428046caad9e17e75fad390f1d56a3f8d819;hpb=d6a9f13f45fead88404ee02cb446db2f3047eee8;p=mjotex.git diff --git a/mjo-common.tex b/mjo-common.tex index edb5428..efa10a2 100644 --- a/mjo-common.tex +++ b/mjo-common.tex @@ -3,19 +3,71 @@ % % Place the argument in matching left/right parntheses. -\DeclarePairedDelimiter{\of}{ \lparen }{ \rparen } +\providecommand*{\of}[1]{ \left({#1}\right) } % Group terms using parentheses. -\newcommand*{\qty}[1]{ \left\lparen {#1} \right\rparen } +\providecommand*{\qty}[1]{ \left({#1}\right) } + +% Group terms using square brackets. +\providecommand*{\sqty}[1]{ \left[{#1}\right] } % Create a set from the given elements -\DeclarePairedDelimiter{\set}{ \lbrace }{ \rbrace } +\providecommand*{\set}[1]{\left\lbrace{#1}\right\rbrace} % A set comprehension, where the ``such that...'' bar is added % automatically. The bar was chosen over a colon to avoid ambiguity % with the L : V -> V notation. We can't leverage \set here because \middle % needs \left and \right present. -\newcommand*{\setc}[2]{ \left\lbrace {#1}\ \middle|\ {#2} \right\rbrace } +\providecommand*{\setc}[2]{\left\lbrace{#1}\ \middle|\ {#2} \right\rbrace} % A pair of things. -\DeclarePairedDelimiterX{\pair}[2]{ \lparen }{ \rparen}{ {#1}, {#2} } +\providecommand*{\pair}[2]{ \left({#1},{#2}\right) } + +% A triple of things. +\providecommand*{\triple}[3]{ \left({#1},{#2},{#3}\right) } + +% The Cartesian product of two things. +\providecommand*{\cartprod}[2]{ {#1}\times{#2} } + +% The Cartesian product of three things. +\providecommand*{\cartprodthree}[3]{ \cartprod{{#1}}{\cartprod{{#2}}{{#3}}} } + +% The direct sum of two things. +\providecommand*{\directsum}[2]{ {#1}\oplus{#2} } + +% The factorial operator. +\providecommand*{\factorial}[1]{ {#1}! } + +% +% Product spaces +% +% All of the product spaces (for example, R^n) that follow default to +% an exponent of ``n'', but that exponent can be changed by providing +% it as an optional argument. If the exponent given is ``1'', then it +% will be omitted entirely. +% + +% The natural n-space, N x N x N x ... x N. +\providecommand*{\Nn}[1][n]{ + \mathbb{N}\if\detokenize{#1}\detokenize{1}{}\else^{#1}\fi +} + +% The integral n-space, Z x Z x Z x ... x Z. +\providecommand*{\Zn}[1][n]{ + \mathbb{Z}\if\detokenize{#1}\detokenize{1}{}\else^{#1}\fi +} + +% The rational n-space, Q x Q x Q x ... x Q. +\providecommand*{\Qn}[1][n]{ + \mathbb{Q}\if\detokenize{#1}\detokenize{1}{}\else^{#1}\fi +} + +% The real n-space, R x R x R x ... x R. +\providecommand*{\Rn}[1][n]{ + \mathbb{R}\if\detokenize{#1}\detokenize{1}{}\else^{#1}\fi +} + +% The complex n-space, C x C x C x ... x C. +\providecommand*{\Cn}[1][n]{ + \mathbb{C}\if\detokenize{#1}\detokenize{1}{}\else^{#1}\fi +}