From 597866a705917012578f3e5627b3c494ca7b7a01 Mon Sep 17 00:00:00 2001 From: ukpfm Date: Wed, 31 Aug 2022 01:30:25 +0200 Subject: cheat-sheet and LICENSE --- .gitignore | 301 +++++++++++++++++++++++++++++++++++++++++++++ LICENSE | 14 +++ sheet.tex | 405 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ 3 files changed, 720 insertions(+) create mode 100644 .gitignore create mode 100644 LICENSE create mode 100644 sheet.tex diff --git a/.gitignore b/.gitignore new file mode 100644 index 0000000..706a98f --- /dev/null +++ b/.gitignore @@ -0,0 +1,301 @@ +## Core latex/pdflatex auxiliary files: +*.aux +*.lof +*.log +*.lot +*.fls +*.out +*.toc +*.fmt +*.fot +*.cb +*.cb2 +.*.lb + +## Intermediate documents: +*.dvi +*.xdv +*-converted-to.* +# these rules might exclude image files for figures etc. +*.ps +*.eps +*.pdf + +## Generated if empty string is given at "Please type another file name for output:" +.pdf + +## Bibliography auxiliary files (bibtex/biblatex/biber): +*.bbl +*.bcf +*.blg +*-blx.aux +*-blx.bib +*.run.xml + +## Build tool auxiliary files: +*.fdb_latexmk +*.synctex +*.synctex(busy) +*.synctex.gz +*.synctex.gz(busy) +*.pdfsync + +## Build tool directories for auxiliary files +# latexrun +latex.out/ + +## Auxiliary and intermediate files from other packages: +# algorithms +*.alg +*.loa + +# achemso +acs-*.bib + +# amsthm +*.thm + +# beamer +*.nav +*.pre +*.snm +*.vrb + +# changes +*.soc + +# comment +*.cut + +# cprotect +*.cpt + +# elsarticle (documentclass of Elsevier journals) +*.spl + +# endnotes +*.ent + +# fixme +*.lox + +# feynmf/feynmp +*.mf +*.mp +*.t[1-9] +*.t[1-9][0-9] +*.tfm + +#(r)(e)ledmac/(r)(e)ledpar +*.end +*.?end +*.[1-9] +*.[1-9][0-9] +*.[1-9][0-9][0-9] +*.[1-9]R +*.[1-9][0-9]R +*.[1-9][0-9][0-9]R +*.eledsec[1-9] +*.eledsec[1-9]R +*.eledsec[1-9][0-9] +*.eledsec[1-9][0-9]R +*.eledsec[1-9][0-9][0-9] +*.eledsec[1-9][0-9][0-9]R + +# glossaries +*.acn +*.acr +*.glg +*.glo +*.gls +*.glsdefs +*.lzo +*.lzs +*.slg +*.slo +*.sls + +# uncomment this for glossaries-extra (will ignore makeindex's style files!) +# *.ist + +# gnuplot +*.gnuplot +*.table + +# gnuplottex +*-gnuplottex-* + +# gregoriotex +*.gaux +*.glog +*.gtex + +# htlatex +*.4ct +*.4tc +*.idv +*.lg +*.trc +*.xref + +# hyperref +*.brf + +# knitr +*-concordance.tex +# TODO Uncomment the next line if you use knitr and want to ignore its generated tikz files +# *.tikz +*-tikzDictionary + +# listings +*.lol + +# luatexja-ruby +*.ltjruby + +# makeidx +*.idx +*.ilg +*.ind + +# minitoc +*.maf +*.mlf +*.mlt +*.mtc[0-9]* +*.slf[0-9]* +*.slt[0-9]* +*.stc[0-9]* + +# minted +_minted* +*.pyg + +# morewrites +*.mw + +# newpax +*.newpax + +# nomencl +*.nlg +*.nlo +*.nls + +# pax +*.pax + +# pdfpcnotes +*.pdfpc + +# sagetex +*.sagetex.sage +*.sagetex.py +*.sagetex.scmd + +# scrwfile +*.wrt + +# svg +svg-inkscape/ + +# sympy +*.sout +*.sympy +sympy-plots-for-*.tex/ + +# pdfcomment +*.upa +*.upb + +# pythontex +*.pytxcode +pythontex-files-*/ + +# tcolorbox +*.listing + +# thmtools +*.loe + +# TikZ & PGF +*.dpth +*.md5 +*.auxlock + +# titletoc +*.ptc + +# todonotes +*.tdo + +# vhistory +*.hst +*.ver + +# easy-todo +*.lod + +# xcolor +*.xcp + +# xmpincl +*.xmpi + +# xindy +*.xdy + +# xypic precompiled matrices and outlines +*.xyc +*.xyd + +# endfloat +*.ttt +*.fff + +# Latexian +TSWLatexianTemp* + +## Editors: +# WinEdt +*.bak +*.sav + +# Texpad +.texpadtmp + +# LyX +*.lyx~ + +# Kile +*.backup + +# gummi +.*.swp + +# KBibTeX +*~[0-9]* + +# TeXnicCenter +*.tps + +# auto folder when using emacs and auctex +./auto/* +*.el + +# expex forward references with \gathertags +*-tags.tex + +# standalone packages +*.sta + +# Makeindex log files +*.lpz + +# xwatermark package +*.xwm + +# REVTeX puts footnotes in the bibliography by default, unless the nofootinbib +# option is specified. Footnotes are the stored in a file with suffix Notes.bib. +# Uncomment the next line to have this generated file ignored. +#*Notes.bib diff --git a/LICENSE b/LICENSE new file mode 100644 index 0000000..ee7d6a5 --- /dev/null +++ b/LICENSE @@ -0,0 +1,14 @@ + DO WHAT THE FUCK YOU WANT TO PUBLIC LICENSE + Version 2, December 2004 + + Copyright (C) 2004 Sam Hocevar + + Everyone is permitted to copy and distribute verbatim or modified + copies of this license document, and changing it is allowed as long + as the name is changed. + + DO WHAT THE FUCK YOU WANT TO PUBLIC LICENSE + TERMS AND CONDITIONS FOR COPYING, DISTRIBUTION AND MODIFICATION + + 0. You just DO WHAT THE FUCK YOU WANT TO. + diff --git a/sheet.tex b/sheet.tex new file mode 100644 index 0000000..dfbc507 --- /dev/null +++ b/sheet.tex @@ -0,0 +1,405 @@ +\documentclass[11pt, a4paper, twoside]{article} +\usepackage[a4paper, margin=1cm]{geometry} +\usepackage{amsmath} +\usepackage{amsfonts} +\usepackage{multicol} +\usepackage[noend]{algorithm2e} +\usepackage[utf8]{inputenc} + +\setlength{\algomargin}{0pt} + +\begin{document} +\section{Laufzeit} +\hspace*{-.5cm} +\begin{tabular}{ l l l l } + Notations & Asymptotischer Vergleich & Formale Definition & Grenzen \\ + $f(n) \in \omega(g(n))$& + $f(n)$ wächst schneller als $g(n)$ & + $\forall c \exists n_0 \forall n > n_0 f(n) > c \cdot g(n)$ & + $$$\lim\sup\limits_{n \rightarrow \infty}\frac{f}{g} = \infty$$$ \\ + + $f(n) \in \Omega(g(n))$ & + $f(n)$ wächst min. so schnell wie $g(n)$ & + $\exists c \exists n_0 \forall n > n_0 c \cdot f(n) \leq g(n)$ & + $$$0 < \liminf\limits_{n \rightarrow \infty}\frac{f}{g} \leq \infty$$$ \\ + + \( f(n) \in \Theta(g(n)) \) & + $f(n)$ und $g(n)$ wachsen gleich schnell & + $f(n) \in \mathcal{O}(g(n)) \wedge f(n) \in \Omega(g(n))$ & + $$$0 < \lim\limits_{n \rightarrow \infty}\frac{f}{g} < \infty$$$ \\ + + \( f(n) \in \mathcal{O}(g(n)) \) & + $f(n)$ wächst max. so schnell wie $g(n)$ & + $\exists c \exists n_0 \forall n > n_0 f(n) \leq c \cdot g(n)$ & + $$$0 \leq \limsup\limits_{n \rightarrow \infty}\frac{f}{g} < \infty$$$ \\ + + \( f(n) \in o(g(n)) \) & + $f(n)$ wächst langsamer als $g(n)$ & + $\forall c \exists n_0 \forall n > n_0 c \cdot f(n) < g(n)$ & + $$$\lim\limits_{n \rightarrow \infty} \frac{f}{g} = \infty$$$ \\ + +\end{tabular} + +\subsection{Vergleich} +\begin{tabular}{|c|c|c|c|c|c|c|c|c|c|c|c|c|c|c|c|} + $1$ & $\log^*n$ & $\log n$ & $\log^2n$ & $\sqrt[3]{n}$ & + $\sqrt{n}$ & $n$ & $n^2$ & $n^3$ & $n^{\log n}$ & + $2^{\sqrt{n}}$ & $2^n$ & $3^n$ & $4^n$ & $n!$ & $2^{n^2}$ +\end{tabular} + +\begin{multicols}{3} + + \subsubsection*{Transitivität} + + $f_1(n) \in \mathcal{O}(f_2(n)) \wedge f_2(n) \in\mathcal{O}(f_3(n))$ \\ + $\Rightarrow f_1(n) \in \mathcal{O}(f_3(n))$ + + \subsubsection*{Summen} + + $f_1(n) \in \mathcal{O}f_3(n)) \wedge f_2(n) \in \mathcal{O}(f_3(n))$ \\ + $\Rightarrow f_1(n) + f_2(n) \in \mathcal{O}(f_3(n))$ + + \subsubsection*{Produkte} + + $f_1(n) \in \mathcal{O}(g_1(n)) \wedge f_2(n) \in \mathcal{O}(g_2(n))$ \\ + $\Rightarrow f_1(n) \cdot f_2(n) \in \mathcal{O}(g_1(n) \cdot g_2(n))$ + + + \columnbreak + + \subsection{Master-Theorem} + + Sei $T(n) = a \cdot T(\frac{n}{b}) + f(n)$ mit $f(n) \in \Theta(n^c)$ und i + $T(1) \in \Theta(1)$. Dann gilt + $ + T(n) \in \begin{cases} + \Theta(n^c) &\text{wenn } a < b^c, \\ + \Theta(n^c \log n) &\text{wenn } a = b^c, \\ + \Theta(n^{\log_b(a)}) &\text{wenn } a > b^c. + \end{cases} + $ + + \subsubsection{Monome} + + \begin{itemize} + \item $a \leq b \Rightarrow n^a \in \mathcal{O}(n^b)$ + \item $n^a \in \Theta(n^b) \Leftrightarrow a = b$ + \item $\sum_{v \in V}deg(v) = \Theta(m)$ + \item $\forall n \in \mathbb{N}: \sum^n_{k=0}k = \frac{n(n+1)}{2}$ + \item $ + \sum^b_{i=a} \in \begin{cases} + \Theta(c^a) &\text{wenn } c < 1, \\ + \Theta(c^b) &\text{wenn } c > 1, \\ + \Theta(b-a) &\text{wenn } c = 1. + \end{cases} + $ + \item $\log(ab) = \log(a) + \log(b)$ + \item $\log(\frac{a}{b}) = \log(a) - \log(b)$ + \item $a^{\log_a(b)} = b$ + \item $a^x = e^{ln(a) \cdot x}$ + \item $\log(a^b) = b \cdot \log(a)$ + \item $\log_b(n) = \frac{\log_a(n)}{\log_a(b)}$ + \end{itemize} + + %\subsubsection{Konstante Faktoren} + % + %$a \cdot f(n) \in \Theta(f(n))$ + + +\end{multicols} + +\begin{minipage}{0.7\textwidth} + + \section{Sortieren} + + \begin{tabular}[t]{c || c | c | c | c} + Algorithmus & best case & average & worst & Stabilität \\ + \hline + Insertion-Sort & + $\mathcal{O}(n)$ & $\mathcal{O}(n^2)$ & $\mathcal{O}(n^2)$ & stabil\\ + Bubble-Sort & + $\mathcal{O}(n)$ & $\mathcal{O}(n^2)$ & $\mathcal{O}(n^2)$ & stabil\\ + Merge-Sort & + $\mathcal{O}(n\log n)$ & $\mathcal{O}(n\log n)$ & $\mathcal{O}(n\log n)$ & stabil\\ + Quick-Sort & + $\mathcal{O}(n \log n)$ & $\mathcal{O}(n\log n)$ & $\mathcal{O}(n\log n)$ & i.A. nicht stabil\\ + Heap-Sort & + $\mathcal{O}(n\log n)$ & $\mathcal{O}(n\log n)$ & $\mathcal{O}(n\log n)$ & nicht stabil\\ + \hline + Bucket-Sort & + $\Theta(n+m)$ & $\Theta(n+m)$ & $\Theta(n+m)$ & + stabil $e \in [0, m)$\\ + Radix-Sort & + $\Theta(c \cdot n)$ & $\Theta(c\cdot n)$ & $\Theta(c\cdot n)$ & + stabil $e \in [0, n^c$\\ + \end{tabular} +\end{minipage} +\hfill +\begin{minipage}{0.3\textwidth} + \subsection{Heaps} + + \begin{tabular}[t]{c || c} + Bin.-Heap & Laufzeit \\ + \hline + push(x) & $\mathcal{O}(\log n)$ \\ + popMin() & $\mathcal{O}(\log n)$ \\ + devPrio(x, x') & $\mathcal{O}(\log n)$ \\ + build([$\mathbb{N}$; n]) & $\mathcal{O}(n)$ + \end{tabular} + + \begin{itemize} + \item linkes Kind: $2v + 1$ + \item rechts Kind: $2v + 2$ + \item Elternknoten: $ \lfloor \frac{v - 1}{2} \rfloor $ + \end{itemize} + +\end{minipage} + + +\begin{multicols}{2} + + \section{Datenstrukturen} + + \subsection{Listen} + + \begin{tabular}{c || c | c | c || c} + Operation & DLL & SLL & Array & Erklärung(*) \\ + \hline + first & 1 & 1 & 1 & \\ + last & 1 & 1 & 1 & \\ + insert & 1 & 1* & n & nur insertAfter \\ + remove & 1 & 1* & n & nur removeAfter \\ + pushBack & 1 & 1 & 1* & amortisiert \\ + pushFront & 1 & 1 & n & \\ + popBack & 1 & n & 1* & amortisiert \\ + popFront & 1 & 1 & n & \\ + concat & 1 & 1 & n & \\ + splice & 1 & 1 & n \\ + findNext & n & n & n + + \end{tabular} + + \subsection{Hash-Tabelle} + $\mathcal{H}$ heißt \textbf{universell}, wenn für ein zufälliges gewähltes + $h \in \mathcal{H}$ gilt: $U \rightarrow \{0, ..., m-1\}$ \\ + $\forall k, l \in U, k \neq l: Pr[h(k) = h(l) = \frac{1}{m}$ \\ + $h_{a,b}(k) = ((a\cdot k + b) \mod p) \mod m$ + + \subsection{Graphen} + + \begin{tabular}{c || c} + Algorithmus & Laufzeit \\ + \hline + BFS/DFS & $\Theta(n+m)$\\ + topoSort & $\Theta(n)$\\ + Kruskal & $\Theta(m \log n)$\\ + Prim & $\Theta((n+m)\log n)$ \\ + Dijksta & $\Theta((n + m) \log n)$\\ + Bellmann-Ford & $\Theta(nm)$\\ + Floyd-Warshall & $\Theta(n^3)$ \\ + \end{tabular} + +\end{multicols} + +\newpage + +\begin{multicols}{2} + + \subsubsection{DFS} + + \begin{tabular}{c || c | c} + Kante & DFS & FIN \\ + \hline + Vorkante & klein $\rightarrow$ groß & groß $\rightarrow$ klein \\ + Rückkante & groß $\rightarrow$ klein & klein $\rightarrow$ groß \\ + Querkante & groß $\rightarrow$ klein & groß $\rightarrow$ klein \\ + Baumkante & klein $\rightarrow$ groß & groß $\rightarrow$ klein \\ + \end{tabular} + \subsection{Bäume} + \subsubsection{Heap} + Priorität eines Knotens $\geq (\leq)$ Priorität der Kinder. + \textbf{BubbleUp}, \textbf{SinkDown}. \textbf{Build} mit \textbf{sinkDown} + beginnend mit letztem Knoten der vorletzten Ebene weiter nach oben. + \textbf{decPrio} entweder updaten, Eigenschaft wiederherstellen; löschen, + mit neuer Prio einfügen oder Lazy Evaluation. + + \subsubsection{(ab)-Baum} + Balanciert. \textbf{find}, \textbf{insert}, \textbf{remove}y in + $\Theta(log n)$. Zu viele Kinder: \textbf{rebalance} / \textbf{fuse}. + Zu viele Kinder: \textbf{split}. + + Linker Teilbaum $\leq$ Schlüssel k $<$ rechter Teilbaum + + Unendlich-Trick, für Invarianten. + + \subsection{Union-Find} + Rang: höhe des Baums, damit ist die Höhe h mind. $2^h$ Knoten, h $\in + \mathcal{O}(\log n)$. + Union hängt niedrigen Baum an höherrängigen Baum. Pfadkompression hängt alle + Knoten bei einem \textbf{find} an die Wurzel. + + + \columnbreak + \section{Amortisierte Analyse} + + \subsection{Aggregation} + Summiere die Kosten für alle Operationen. Teile Gesamtkkosten durch Anzahl + Operationen. + + \subsection{Charging} + Verteile Kosen-Tokens von teuren zu günstigen Operationen (Charging). Zeige: + jede Operation hat am Ende nur wenige Tokens. + + \subsection{Konto} + Günstige Operationen bezahlen mehr als sie tatsächlich kosten (ins Konto + einzahlen). Teure Operationen bezahlen tatsächliche Kosten zum Teil mit + Guthaben aus dem Konto. \textbf{Beachte: Konto darf nie negativ sein!} + + \subsection{Potential (Umgekehrte Kontomethode)} + Definiere Kontostand abhängig vom Zustand der Datenstruktur + (Potentialfunktion) + + amortisierten Kosten = tatsächliche Kosten + $+ \Phi(S_\text{nach}) -\Phi(S_\text{vor})$ + +\end{multicols} + +\section{Pseudocode} +\scriptsize +\begin{minipage}{.25\linewidth} + \begin{algorithm}[H] + DFS(Graph G, Node v) \\ + mark v \\ + dfs[v] := dfsCounter++ \\ + low[v] := dfs[v] \\ + \For{u $\in$ N(v)}{ + \eIf{not marked u}{ + dist[u] := dist[v] + 1 \\ + par[u] := v \\ + DFS(G, u) \\ + low[v] := min(low[v], low[u]) \\ + }{low[v] := min(low[v], dfs[u])} + } + fin[v] := fin++ \\ + \end{algorithm} +\end{minipage} +\begin{minipage}{.25\linewidth} + \begin{algorithm}[H] + topoSort(Graph G) \\ + fin := [$\infty$; n] \\ + curr := 0 \\ + \For{Node v in V}{ + \If{v is colored}{DFS(G,v)} + } + return V sorted by decreasing fin \\ + \end{algorithm} +\end{minipage} +\begin{minipage}{.25\linewidth} + \begin{algorithm}[H] + Kruskal(Graph G) \\ + U := Union-Find(G.v) \\ + PriorityQueue Q := empty \\ + \For{Edge e in E}{Q.push(e, len(e))} + \While{Q $\neq \emptyset$}{ + e := Q.popMin() \\ + \If{U.find(v) $\neq$ U.find(u)}{ + L.add(e) \\ + U.union(v, u) \\ + } + } + \end{algorithm} +\end{minipage} +\begin{minipage}{.25\linewidth} + \begin{algorithm}[H] + Prim(Graph G) \\ + Priority Queue Q := empty \\ + p := [0; n] \\ + \For{Node v in V}{ + Q.push(v, $\infty$) \\ + } + \While{Q $\neq \emptyset$}{ + u := Q.popMin() \\ + \For{Node v in N(u)}{ + \If{v $\in$ Q $\wedge$ (len(u, v) $<$ Q.prio(v))}{ + p[v] = u \\ + Q.decPrio(v, len(u, v) \\ + } + } + } + \end{algorithm} +\end{minipage} +\begin{minipage}{.25\linewidth} + \begin{algorithm}[H] + BFS(Graph G, Start s, Goal z) \\ + Queue Q := empty queue \\ + Q.push(s) \\ + s.layer = 0 \\ + \While{Q $\neq \emptyset$}{ + u := Q.pop() \\ + \For{Node v in N(u)}{ + \If{v.layer = $-\infty$}{ + Q.push(v) \\ + v.layer = u.layer + 1 + } + \If{v = z}{ + return z.layer + } + } + } + \end{algorithm} +\end{minipage} +\begin{minipage}{.25\linewidth} + \begin{algorithm}[H] + Dijkstra(Graph G, Node s) \\ + d := [$\infty$; n] \\ + d[s] := 0 \\ + PriorityQueue Q := empty priority queue \\ + \For{Node v in V}{ + Q.push(v, d[v]) + } + \While{Q $\neq \emptyset$}{ + u := Q.popMin() \\ + \For{Node v in N(u)}{ + \If{d[v] $>$ d[u] + len(u, v)}{ + d[v] := d[u] + len(u, v) \\ + Q.decPrio(v, d[v]) \\ + } + } + } + \end{algorithm} +\end{minipage} +\begin{minipage}{.25\linewidth} + \begin{algorithm}[H] + BellManFord(Graph G, Node s) \\ + d := [$\infty$, n] \\ + d[s] := 0 \\ + \For{n-1 iterations}{ + \For{(u, v) $\in$ E}{ + \If{d[v] $>$ d[u] + len(u, v)}{ + d[v] := d[u] + len(u, v) + } + } + } + \For{(u, v) $\in$ E}{ + \If{d[v] $>$ d[u] + len(u, v)}{ + return negative cycle + } + } + return d + \end{algorithm} +\end{minipage} +\begin{minipage}{.25\linewidth} + \begin{algorithm}[H] + FloydWarshall(Graph G) \\ + D := [$\infty$, n $\times$ n] \\ + \For{(u, v) $\in$ E}{D[u][v] := len(u, v)} + \For{v $\in$ V}{D[v][v] := 0} + \For{i $\in 1,...,n$}{ + \For{(u,v) $\in V \times V$}{ + D[u][v] := min(D[u][v], D[u][$v_i$] + D[$v_i$][v]) \\ + } + } + return D + \end{algorithm} +\end{minipage} +\end{document} -- cgit v1.2.3