\ProvidesPackage{packages/macros} \RequirePackage{amsfonts} % Include missing symbols s.a "Natural Numbers" \usepackage{amsthm} % for 'proof' environment % Snippet to add dots to TOC % Thanks to "user11232" at https://tex.stackexchange.com/questions/53898/how-to-get-lines-with-dots-in-the-table-of-contents-for-sections %\usepackage{tocloft} %\renewcommand{\cftpartleader}{\cftdotfill{\cftdotsep}} % for parts %\renewcommand{\cftsecleader}{\cftdotfill{\cftdotsep}} % for sections \newcommand{\N}{\mathbb{N}} % Natural numbers symbol \newcommand{\Z}{\mathbb{Z}} % Integer symbol \newcommand{\Q}{\mathbb{Q}} % Rational numbers symbol \newcommand{\R}{\mathbb{R}} % Real numbers symbol \newcommand{\C}{\mathbb{C}} % Complex numbers symbol \newcommand{\Cat}{\mathcal{C}} % Category \newcommand{\Set}{\mathbf{Set}} % Set category \newcommand{\K}{\mathbb{K}} % Corps \newcommand{\Hq}{\mathbb{H}} % Quaternions numbers symbol \newcommand{\Ot}{\mathbb{O}} % Octonions numbers symbol \newcommand{\Se}{\mathbb{S}} % Sedenions numbers symbol \newcommand{\Pn}{\mathbb{P}} % Sets of all the prime numbers \newcommand{\false}{F} % New symbol for false value \newcommand{\true}{V} % New symbol for true value \DeclareMathOperator{\Rel}{\mathcal{R}} % New symbol for binary relations \DeclareMathOperator{\composes}{\circ} % New symbol composing morphisms \DeclarePairedDelimiter{\abs}{|}{|} \DeclarePairedDelimiter{\card}{|}{|} \DeclarePairedDelimiter{\floor}{\lfloor}{\rfloor} \DeclarePairedDelimiter{\ceil}{\lceil}{\rceil} \DeclarePairedDelimiter{\fractional}{\{}{\}} \newtheorem{definition}{\lang{Définition}{Definition}} \newtheorem{theorem}{\lang{Théorème}{Theoreme}} \newtheorem{lemme}{Lemme} \newcommandx{\suite}[3][1=n,2=n]{$(#3_{#1})_{#2 \in \N}$} \newcommand{\innerproduct}[2]{\langle #1, #2 \rangle} \newenvironment{definition_sq}{\begin{mdframed}\begin{definition}}{\end{definition}\end{mdframed}} \newenvironment{theorem_sq}{\begin{mdframed}\begin{theorem}}{\end{theorem}\end{mdframed}} \newenvironment{lemme_sq}{\begin{mdframed}\begin{lemme}}{\end{lemme}\end{mdframed}} \newcommand{\norm}[1]{\lVert#1\rVert} \newcommand{\Norm}[1]{\lVert #1\rVert} \newcommand{\powerset}[1]{\mathcal{P}(#1)} % Power set \newcommand{\converges}{\rightarrow} \newcommand{\equivalence}{\Leftrightarrow} \renewcommand{\implies}{\Longrightarrow} \newcommand{\Limplies}{\Longleftarrow} \newcommand{\impliespart}{\fbox{$\implies$}} \newcommand{\Limpliespart}{\fbox{$\Limplies$}} \DeclareMathOperator{\divides}{\mid} \DeclareMathOperator{\suchas}{\text{\lang{tel que}{such as}}} \renewcommand{\function}[3]{#1 \colon #2 \longrightarrow #3} \newcommand{\functiondef}[2]{\hspace{15pt}#1 \longmapsto #2} \newcommand{\otherwise}{\text{\lang{Sinon}{Otherwise}}} \DeclareMathOperator{\union}{\cup} \DeclareMathOperator{\Union}{\bigcup} \DeclareMathOperator{\intersection}{\cap} \DeclareMathOperator{\Intersection}{\bigcap} \DeclareMathOperator{\cartesianProduct}{\times} \DeclareMathOperator{\CartesianProduct}{\bigtimes} \newcommand{\discreteInterval}[1]{[\![#1]\!]} \renewcommand{\smallskip}{\vspace{3pt}} \renewcommand{\medskip}{\vspace{6pt}} \renewcommand{\bigskip}{\vspace{12pt}}