\documentclass[10pt,a4paper]{article}

% Packages
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%\usepackage{opensans}          % Can't make this work so far. Shame. Would be lovely.
\usepackage[normalem]{ulem}     % For underlining links
% Most of the following are not required for the majority
% of cheat sheets but are needed for some symbol support.
\usepackage{amsmath}            % Symbols
\usepackage{MnSymbol}           % Symbols
\usepackage{wasysym}            % Symbols
%\usepackage[english,german,french,spanish,italian]{babel}              % Languages

% Document Info
\author{JairoG (PoleG)}
\pdfinfo{
  /Title (c-basico.pdf)
  /Creator (Cheatography)
  /Author (JairoG (PoleG))
  /Subject (C - Básico Cheat Sheet)
}

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% Header and Footer
\pagestyle{fancy}
\fancyhead{} % Set header to blank
\fancyfoot{} % Set footer to blank
\fancyhead[L]{
\noindent
\begin{multicols}{3}
\begin{tabulary}{5.8cm}{C}
    \SetRowColor{DarkBackground}
    \vspace{-7pt}
    {\parbox{\dimexpr\textwidth-2\fboxsep\relax}{\noindent
        \hspace*{-6pt}\includegraphics[width=5.8cm]{/web/www.cheatography.com/public/images/cheatography_logo.pdf}}
    }
\end{tabulary}
\columnbreak
\begin{tabulary}{11cm}{L}
    \vspace{-2pt}\large{\bf{\textcolor{DarkBackground}{\textrm{C - Básico Cheat Sheet}}}} \\
    \normalsize{by \textcolor{DarkBackground}{JairoG (PoleG)} via \textcolor{DarkBackground}{\uline{cheatography.com/132033/cs/26734/}}}
\end{tabulary}
\end{multicols}}

\fancyfoot[L]{ \footnotesize
\noindent
\begin{multicols}{3}
\begin{tabulary}{5.8cm}{LL}
  \SetRowColor{FootBackground}
  \mymulticolumn{2}{p{5.377cm}}{\bf\textcolor{white}{Cheatographer}}  \\
  \vspace{-2pt}JairoG (PoleG) \\
  \uline{cheatography.com/poleg} \\
  \end{tabulary}
\vfill
\columnbreak
\begin{tabulary}{5.8cm}{L}
  \SetRowColor{FootBackground}
  \mymulticolumn{1}{p{5.377cm}}{\bf\textcolor{white}{Cheat Sheet}}  \\
   \vspace{-2pt}Published 24th November, 2025.\\
   Updated 7th March, 2021.\\
   Page {\thepage} of \pageref{LastPage}.
\end{tabulary}
\vfill
\columnbreak
\begin{tabulary}{5.8cm}{L}
  \SetRowColor{FootBackground}
  \mymulticolumn{1}{p{5.377cm}}{\bf\textcolor{white}{Sponsor}}  \\
  \SetRowColor{white}
  \vspace{-5pt}
  %\includegraphics[width=48px,height=48px]{dave.jpeg}
  Measure your website readability!\\
  www.readability-score.com
\end{tabulary}
\end{multicols}}




\begin{document}
\raggedright
\raggedcolumns

% Set font size to small. Switch to any value
% from this page to resize cheat sheet text:
% www.emerson.emory.edu/services/latex/latex_169.html
\footnotesize % Small font.

\begin{multicols*}{3}

\begin{tabularx}{5.377cm}{x{3.03597 cm} x{1.94103 cm} }
\SetRowColor{DarkBackground}
\mymulticolumn{2}{x{5.377cm}}{\bf\textcolor{white}{Tipos de Datos}}  \tn
% Row 0
\SetRowColor{LightBackground}
bool & 1 bit \tn 
% Row Count 1 (+ 1)
% Row 1
\SetRowColor{white}
int & 4 byte \tn 
% Row Count 2 (+ 1)
% Row 2
\SetRowColor{LightBackground}
short & 2 byte \tn 
% Row Count 3 (+ 1)
% Row 3
\SetRowColor{white}
float & 4 byte \tn 
% Row Count 4 (+ 1)
% Row 4
\SetRowColor{LightBackground}
double & 8 byte \tn 
% Row Count 5 (+ 1)
% Row 5
\SetRowColor{white}
long double & 16 byte \tn 
% Row Count 6 (+ 1)
% Row 6
\SetRowColor{LightBackground}
char & 1 byte \tn 
% Row Count 7 (+ 1)
\hhline{>{\arrayrulecolor{DarkBackground}}--}
\end{tabularx}
\par\addvspace{1.3em}

\begin{tabularx}{5.377cm}{p{0.50124 cm} x{1.50372 cm} p{0.58478 cm} x{1.58726 cm} }
\SetRowColor{DarkBackground}
\mymulticolumn{4}{x{5.377cm}}{\bf\textcolor{white}{Operadores matemáticos}}  \tn
% Row 0
\SetRowColor{LightBackground}
{\bf{=}} & Asignación & {\bf{\&}} & AND (registro) \tn 
% Row Count 2 (+ 2)
% Row 1
\SetRowColor{white}
{\bf{+}} & Suma & {\bf{|}} & OR (registro) \tn 
% Row Count 4 (+ 2)
% Row 2
\SetRowColor{LightBackground}
{\bf{-}} & Resta & {\bf{\textasciicircum{}}} & XOR (registro) \tn 
% Row Count 6 (+ 2)
% Row 3
\SetRowColor{white}
{\bf{*}} & \seqsplit{Multiplicación} & {\bf{\textasciitilde{}}} & NOT (registro) \tn 
% Row Count 8 (+ 2)
% Row 4
\SetRowColor{LightBackground}
{\bf{/}} & División & {\bf{\textless{}\textless{}}} & Desplaz. bit izq \tn 
% Row Count 10 (+ 2)
% Row 5
\SetRowColor{white}
{\bf{\%}} & Módulo & {\bf{\textgreater{}\textgreater{}}} & Desplaz. bit der \tn 
% Row Count 12 (+ 2)
\hhline{>{\arrayrulecolor{DarkBackground}}----}
\end{tabularx}
\par\addvspace{1.3em}

\begin{tabularx}{5.377cm}{X}
\SetRowColor{DarkBackground}
\mymulticolumn{1}{x{5.377cm}}{\bf\textcolor{white}{Funciones}}  \tn
% Row 0
\SetRowColor{LightBackground}
\mymulticolumn{1}{x{5.377cm}}{{\bf{void}} nombre () \{\}} \tn 
% Row Count 1 (+ 1)
% Row 1
\SetRowColor{white}
\mymulticolumn{1}{x{5.377cm}}{Estas funciones {\bf{NO}} devuelven valores, podemos verlas como un simple bloque de código que podemos repetir haciendo diversas llamadas} \tn 
% Row Count 4 (+ 3)
% Row 2
\SetRowColor{LightBackground}
\mymulticolumn{1}{x{5.377cm}}{{\bf{tipo\_de\_dato}} nombre () \{\}} \tn 
% Row Count 5 (+ 1)
% Row 3
\SetRowColor{white}
\mymulticolumn{1}{x{5.377cm}}{Estas funciones {\bf{SI}} devuelven valores, pueden ser de cualquier tipo (int, char, float ...). Su principal diferencia es que cuando hacemos las llamadas a dichas funciones en esa llamada tendremos un valor. ¿Qué valor? el que pongamos el {\bf{return}}. ES OBLIGATORIO el return} \tn 
% Row Count 11 (+ 6)
% Row 4
\SetRowColor{LightBackground}
\mymulticolumn{1}{x{5.377cm}}{{\bf{Estructura de función}}} \tn 
% Row Count 12 (+ 1)
% Row 5
\SetRowColor{white}
\mymulticolumn{1}{x{5.377cm}}{Al declarar una función podemos hacerlo bien sin parámetros {\bf{paréntesis vacios}}, o bien podemos pasarle parámetros, los cuales necesitamos rellenar en la llamada {\bf{paréntesis (tipo\_dato}} {\emph{nombre{\bf{}})}} podemos poner tantos parámetros como quedamos} \tn 
% Row Count 18 (+ 6)
\hhline{>{\arrayrulecolor{DarkBackground}}-}
\SetRowColor{LightBackground}
\mymulticolumn{1}{x{5.377cm}}{\{\{fa-exclamation\}\} En el caso de las funciones con parámetros, podemos poner tantos parámetros como {\bf{tipo\_dato}} {\emph{nombre}} pongamos}  \tn 
\hhline{>{\arrayrulecolor{DarkBackground}}-}
\end{tabularx}
\par\addvspace{1.3em}

\begin{tabularx}{5.377cm}{p{0.62655 cm} x{1.50372 cm} p{0.62655 cm} x{1.42018 cm} }
\SetRowColor{DarkBackground}
\mymulticolumn{4}{x{5.377cm}}{\bf\textcolor{white}{Comparadores}}  \tn
% Row 0
\SetRowColor{LightBackground}
{\bf{==}} & Igual a & {\bf{!=}} & Distinto \tn 
% Row Count 1 (+ 1)
% Row 1
\SetRowColor{white}
{\bf{\textless{}}} & Menor & {\bf{\textgreater{}}} & Mayor \tn 
% Row Count 2 (+ 1)
% Row 2
\SetRowColor{LightBackground}
{\bf{\textless{}=}} & Menor igual & {\bf{\textgreater{}=}} & Mayor igual \tn 
% Row Count 3 (+ 1)
% Row 3
\SetRowColor{white}
{\bf{\&\&}} & AND (lógico) Y & {\bf{||}} & OR (lógico) O \tn 
% Row Count 5 (+ 2)
% Row 4
\SetRowColor{LightBackground}
{\bf{!}} & NOT &  &  \tn 
% Row Count 6 (+ 1)
\hhline{>{\arrayrulecolor{DarkBackground}}----}
\end{tabularx}
\par\addvspace{1.3em}

\begin{tabularx}{5.377cm}{x{1.69218 cm} x{3.28482 cm} }
\SetRowColor{DarkBackground}
\mymulticolumn{2}{x{5.377cm}}{\bf\textcolor{white}{I/O de datos}}  \tn
% Row 0
\SetRowColor{LightBackground}
{\bf{Escribir}} texto & {\bf{printf}}("texto"); \tn 
% Row Count 2 (+ 2)
% Row 1
\SetRowColor{white}
{\bf{Escribir}} int & {\bf{printf}}("texto \%i", variable\_int); \tn 
% Row Count 4 (+ 2)
% Row 2
\SetRowColor{LightBackground}
{\bf{Escribir}} float & {\bf{printf}}("texto \%f", variable\_float); \tn 
% Row Count 6 (+ 2)
% Row 3
\SetRowColor{white}
{\bf{Escribir}} double & {\bf{printf}}("texto \%d", variable\_double); \tn 
% Row Count 8 (+ 2)
% Row 4
\SetRowColor{LightBackground}
{\bf{Escribir}} caracter & {\bf{printf}}("texto \%c", variable\_char); \tn 
% Row Count 10 (+ 2)
% Row 5
\SetRowColor{white}
{\bf{Leer}} entero & {\bf{scanf}}("\%i", \seqsplit{\&variable\_almacen\_int);} \tn 
% Row Count 12 (+ 2)
% Row 6
\SetRowColor{LightBackground}
{\bf{Leer}} float & {\bf{scanf}}("\%f", \seqsplit{\&variable\_almacen\_float);} \tn 
% Row Count 14 (+ 2)
% Row 7
\SetRowColor{white}
{\bf{Leer}} double & {\bf{scanf}}("\%d", \seqsplit{\&variable\_almacen\_double);} \tn 
% Row Count 16 (+ 2)
% Row 8
\SetRowColor{LightBackground}
{\bf{Leer}} caracter & {\bf{scanf}}("\%c", \seqsplit{\&variable\_almacen\_char);} \tn 
% Row Count 18 (+ 2)
\hhline{>{\arrayrulecolor{DarkBackground}}--}
\end{tabularx}
\par\addvspace{1.3em}

\begin{tabularx}{5.377cm}{x{2.23965 cm} x{2.73735 cm} }
\SetRowColor{DarkBackground}
\mymulticolumn{2}{x{5.377cm}}{\bf\textcolor{white}{Aleatorios}}  \tn
% Row 0
\SetRowColor{LightBackground}
Num aleatorio & {\bf{rand}}(){\bf{\%}}numero\_limite \tn 
% Row Count 2 (+ 2)
% Row 1
\SetRowColor{white}
Num aleatorio {\bf{rango}} & ({\bf{rand}}(){\bf{\%}}(M-m+1)+m) \tn 
% Row Count 4 (+ 2)
% Row 2
\SetRowColor{LightBackground}
Modificar {\bf{seed}} & {\bf{srand}}(time(NUL)) \tn 
% Row Count 5 (+ 1)
\hhline{>{\arrayrulecolor{DarkBackground}}--}
\SetRowColor{LightBackground}
\mymulticolumn{2}{x{5.377cm}}{\{\{fa-exclamation\}\} En el primer caso el primer número es el 0 \newline \{\{fa-exclamation\}\} En el segundo caso el M es el num mayor y la m el menor del rango \newline \{\{fa-exclamation\}\} srand crea un nuevo seed para que el num sea realmente aleatorio, debemos llamarlo al menos UNA vez en el {\bf{MAIN}}}  \tn 
\hhline{>{\arrayrulecolor{DarkBackground}}--}
\end{tabularx}
\par\addvspace{1.3em}

\begin{tabularx}{5.377cm}{X}
\SetRowColor{DarkBackground}
\mymulticolumn{1}{x{5.377cm}}{\bf\textcolor{white}{while}}  \tn
\SetRowColor{LightBackground}
\mymulticolumn{1}{p{5.377cm}}{\vspace{1px}\centerline{\includegraphics[width=5.1cm]{/web/www.cheatography.com/public/uploads/poleg_1614358231_while.png}}} \tn 
\hhline{>{\arrayrulecolor{DarkBackground}}-}
\end{tabularx}
\par\addvspace{1.3em}

\begin{tabularx}{5.377cm}{X}
\SetRowColor{DarkBackground}
\mymulticolumn{1}{x{5.377cm}}{\bf\textcolor{white}{for}}  \tn
\SetRowColor{LightBackground}
\mymulticolumn{1}{p{5.377cm}}{\vspace{1px}\centerline{\includegraphics[width=5.1cm]{/web/www.cheatography.com/public/uploads/poleg_1614358364_for.png}}} \tn 
\hhline{>{\arrayrulecolor{DarkBackground}}-}
\end{tabularx}
\par\addvspace{1.3em}

\begin{tabularx}{5.377cm}{X}
\SetRowColor{DarkBackground}
\mymulticolumn{1}{x{5.377cm}}{\bf\textcolor{white}{if}}  \tn
\SetRowColor{LightBackground}
\mymulticolumn{1}{p{5.377cm}}{\vspace{1px}\centerline{\includegraphics[width=5.1cm]{/web/www.cheatography.com/public/uploads/poleg_1614357951_if.png}}} \tn 
\hhline{>{\arrayrulecolor{DarkBackground}}-}
\end{tabularx}
\par\addvspace{1.3em}

\begin{tabularx}{5.377cm}{X}
\SetRowColor{DarkBackground}
\mymulticolumn{1}{x{5.377cm}}{\bf\textcolor{white}{if -else}}  \tn
\SetRowColor{LightBackground}
\mymulticolumn{1}{p{5.377cm}}{\vspace{1px}\centerline{\includegraphics[width=5.1cm]{/web/www.cheatography.com/public/uploads/poleg_1614357990_if-else.png}}} \tn 
\hhline{>{\arrayrulecolor{DarkBackground}}-}
\end{tabularx}
\par\addvspace{1.3em}

\begin{tabularx}{5.377cm}{X}
\SetRowColor{DarkBackground}
\mymulticolumn{1}{x{5.377cm}}{\bf\textcolor{white}{return}}  \tn
\SetRowColor{LightBackground}
\mymulticolumn{1}{p{5.377cm}}{\vspace{1px}\centerline{\includegraphics[width=5.1cm]{/web/www.cheatography.com/public/uploads/poleg_1614358640_return.png}}} \tn 
\hhline{>{\arrayrulecolor{DarkBackground}}-}
\end{tabularx}
\par\addvspace{1.3em}

\begin{tabularx}{5.377cm}{X}
\SetRowColor{DarkBackground}
\mymulticolumn{1}{x{5.377cm}}{\bf\textcolor{white}{Vectores}}  \tn
\SetRowColor{white}
\mymulticolumn{1}{x{5.377cm}}{Se declaran con {\bf{tipo\_dato}} {\emph{nombre\_vector}}{[} {]}. Los vectores son arrays de dimensión 1, y el número que va a aparecer entre corchetes será la cantidad de elementos que va a tener {\bf{siempre}} del mismo tipo de dato de que hemos creado el vector \newline % Row Count 5 (+ 5)
Para obtener el valor de una posición {\bf{nombre\_vector}}{[}posicion{]}% Row Count 7 (+ 2)
} \tn 
\hhline{>{\arrayrulecolor{DarkBackground}}-}
\SetRowColor{LightBackground}
\mymulticolumn{1}{x{5.377cm}}{\{\{fa-exclamation\}\} También se puede inicializar desde la declaración  {\bf{tipo\_dato}} {\emph{nombre\_vector}}{[} {]} = \{elementos, por, comas\}}  \tn 
\hhline{>{\arrayrulecolor{DarkBackground}}-}
\end{tabularx}
\par\addvspace{1.3em}

\begin{tabularx}{5.377cm}{X}
\SetRowColor{DarkBackground}
\mymulticolumn{1}{x{5.377cm}}{\bf\textcolor{white}{Arrays}}  \tn
\SetRowColor{white}
\mymulticolumn{1}{x{5.377cm}}{Se declaran con {\bf{tipo\_dato}} {\emph{nombre\_arrays}}{[} {]}{[} {]}. Los arrays es un conjunto de vectores {\emph{(normalmente de dimensión 2 ej:5x5)}}, y el número que va a aparecer entre corchetes será la cantidad de elementos que va a tener {\bf{siempre}} del mismo tipo de dato de que hemos creado el vector. En este caso en cada corchete irá la cantidad de elementos de cada columnas, y el número de filas \newline % Row Count 8 (+ 8)
Para obtener el valor de una posición {\bf{nombre\_vector}}{[}posicion\_columna{]}{[}posicion\_fila{]}% Row Count 10 (+ 2)
} \tn 
\hhline{>{\arrayrulecolor{DarkBackground}}-}
\SetRowColor{LightBackground}
\mymulticolumn{1}{x{5.377cm}}{\{\{fa-exclamation\}\} También se puede inicializar desde la declaración  {\bf{tipo\_dato}} {\emph{nombre\_vector}}{[} {]} = \{\{elementos, por, comas\}, \{elementos, por, comas\}\}}  \tn 
\hhline{>{\arrayrulecolor{DarkBackground}}-}
\end{tabularx}
\par\addvspace{1.3em}

\begin{tabularx}{5.377cm}{X}
\SetRowColor{DarkBackground}
\mymulticolumn{1}{x{5.377cm}}{\bf\textcolor{white}{if-else if- else}}  \tn
\SetRowColor{LightBackground}
\mymulticolumn{1}{p{5.377cm}}{\vspace{1px}\centerline{\includegraphics[width=5.1cm]{/web/www.cheatography.com/public/uploads/poleg_1614358124_else-if-else.png}}} \tn 
\hhline{>{\arrayrulecolor{DarkBackground}}-}
\end{tabularx}
\par\addvspace{1.3em}

\begin{tabularx}{5.377cm}{X}
\SetRowColor{DarkBackground}
\mymulticolumn{1}{x{5.377cm}}{\bf\textcolor{white}{swich}}  \tn
\SetRowColor{LightBackground}
\mymulticolumn{1}{p{5.377cm}}{\vspace{1px}\centerline{\includegraphics[width=5.1cm]{/web/www.cheatography.com/public/uploads/poleg_1614358185_switch.png}}} \tn 
\hhline{>{\arrayrulecolor{DarkBackground}}-}
\end{tabularx}
\par\addvspace{1.3em}

\begin{tabularx}{5.377cm}{X}
\SetRowColor{DarkBackground}
\mymulticolumn{1}{x{5.377cm}}{\bf\textcolor{white}{do-while}}  \tn
\SetRowColor{LightBackground}
\mymulticolumn{1}{p{5.377cm}}{\vspace{1px}\centerline{\includegraphics[width=5.1cm]{/web/www.cheatography.com/public/uploads/poleg_1614358273_do-while.png}}} \tn 
\hhline{>{\arrayrulecolor{DarkBackground}}-}
\end{tabularx}
\par\addvspace{1.3em}

\begin{tabularx}{5.377cm}{X}
\SetRowColor{DarkBackground}
\mymulticolumn{1}{x{5.377cm}}{\bf\textcolor{white}{Elementos de control extra - break}}  \tn
\SetRowColor{LightBackground}
\mymulticolumn{1}{p{5.377cm}}{\vspace{1px}\centerline{\includegraphics[width=5.1cm]{/web/www.cheatography.com/public/uploads/poleg_1614358531_break.png}}} \tn 
\hhline{>{\arrayrulecolor{DarkBackground}}-}
\end{tabularx}
\par\addvspace{1.3em}

\begin{tabularx}{5.377cm}{X}
\SetRowColor{DarkBackground}
\mymulticolumn{1}{x{5.377cm}}{\bf\textcolor{white}{Elementos de control extra - continue}}  \tn
\SetRowColor{LightBackground}
\mymulticolumn{1}{p{5.377cm}}{\vspace{1px}\centerline{\includegraphics[width=5.1cm]{/web/www.cheatography.com/public/uploads/poleg_1614358590_continue.png}}} \tn 
\hhline{>{\arrayrulecolor{DarkBackground}}-}
\end{tabularx}
\par\addvspace{1.3em}

\begin{tabularx}{5.377cm}{X}
\SetRowColor{DarkBackground}
\mymulticolumn{1}{x{5.377cm}}{\bf\textcolor{white}{Recorrer arrays}}  \tn
\SetRowColor{LightBackground}
\mymulticolumn{1}{x{5.377cm}}{for(int i={\bf{punto\_inicio}}; i\textless{}={\bf{limite\_elementos}}; i++)\{ \newline      for(int j={\bf{punto\_inicio}}; j\textless{}={\bf{limite\_elementos}}; j++)\{ \newline           printf("\%i \textbackslash{}t", vector{[}i{]}{[}j{]}); \newline      \} \newline \}} \tn 
\hhline{>{\arrayrulecolor{DarkBackground}}-}
\SetRowColor{LightBackground}
\mymulticolumn{1}{x{5.377cm}}{\{\{fa-exclamation\}\} Con esto imprimimos cada posición del array, indicando donde empezamos y acabamos, y avanzando de 1 en 1 {\bf{debemos hacer un for para cada dimensión, i para las columnas y j para las filas}}. Para recorrerla de principio a fin de 1 en 1un vector de dim 9x9 {\bf{for(int i=0; i\textless{}=8; i++)}} y dentro de ese for {\bf{for(int j=0; j\textless{}=8; j++)}}}  \tn 
\hhline{>{\arrayrulecolor{DarkBackground}}-}
\end{tabularx}
\par\addvspace{1.3em}

\begin{tabularx}{5.377cm}{X}
\SetRowColor{DarkBackground}
\mymulticolumn{1}{x{5.377cm}}{\bf\textcolor{white}{Recorrer vectores}}  \tn
\SetRowColor{LightBackground}
\mymulticolumn{1}{x{5.377cm}}{for(int i={\bf{punto\_inicio}}; i\textless{}={\bf{limite\_elementos}}; i++)\{ \newline      printf("\%i \textbackslash{}t", vector{[}i{]}); \newline \}} \tn 
\hhline{>{\arrayrulecolor{DarkBackground}}-}
\SetRowColor{LightBackground}
\mymulticolumn{1}{x{5.377cm}}{\{\{fa-exclamation\}\} Con esto imprimimos cada posición del vector, indicando donde empezamos y acabamos, y avanzando de 1 en 1 . Para recorrerla de principio a fin de 1 en 1un vector de dim 9 {\bf{for(int i=0; i\textless{}=8; i++)}}}  \tn 
\hhline{>{\arrayrulecolor{DarkBackground}}-}
\end{tabularx}
\par\addvspace{1.3em}

\begin{tabularx}{5.377cm}{X}
\SetRowColor{DarkBackground}
\mymulticolumn{1}{x{5.377cm}}{\bf\textcolor{white}{Volver a pedir datos sin cerrar el programa}}  \tn
\SetRowColor{white}
\mymulticolumn{1}{x{5.377cm}}{Una de las opciones más claras a la hora de reiniciar la petición de entrada de datos al usuario sin cerrar el programa es usa un do-while.  \newline % Row Count 3 (+ 3)
En el {\bf{do}} metemos el programa general con la evaluación de la entrada así como con la 1a petición de datos; en el {\bf{while}}, ponemos como condición que no se cumpla ninguna de las válidas, y dentro de él otra vez a pedir datos% Row Count 8 (+ 5)
} \tn 
\hhline{>{\arrayrulecolor{DarkBackground}}-}
\end{tabularx}
\par\addvspace{1.3em}


% That's all folks
\end{multicols*}

\end{document}