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| author | Juan Marin Noguera <juan@mnpi.eu> | 2022-12-04 22:49:17 +0100 |
|---|---|---|
| committer | Juan Marin Noguera <juan@mnpi.eu> | 2022-12-04 22:49:17 +0100 |
| commit | c34b47089a133e58032fe4ea52f61efacaf5f548 (patch) | |
| tree | 4242772e26a9e7b6f7e02b1d1e00dfbe68981345 /aed1/n2.lyx | |
| parent | 214b20d1614b09cd5c18e111df0f0d392af2e721 (diff) | |
Oops
Diffstat (limited to 'aed1/n2.lyx')
| -rw-r--r-- | aed1/n2.lyx | 24 |
1 files changed, 12 insertions, 12 deletions
diff --git a/aed1/n2.lyx b/aed1/n2.lyx index 22a657a..67574f2 100644 --- a/aed1/n2.lyx +++ b/aed1/n2.lyx @@ -147,7 +147,7 @@ T \end_inset con -\begin_inset Formula $n:=|T|$ +\begin_inset Formula $n\coloneqq |T|$ \end_inset , mientras que la inserción y eliminación y comprobación de pertenencia @@ -551,7 +551,7 @@ Métodos para enteros: División \series default : -\begin_inset Formula $h(k):=k\mod M$ +\begin_inset Formula $h(k)\coloneqq k\mod M$ \end_inset , siendo @@ -567,7 +567,7 @@ División Multiplicación \series default : -\begin_inset Formula $h(k):=\lfloor Ck\rfloor\mod M,C\in\mathbb{R}$ +\begin_inset Formula $h(k)\coloneqq \lfloor Ck\rfloor\mod M,C\in\mathbb{R}$ \end_inset . @@ -576,7 +576,7 @@ Multiplicación \end_inset Variante: -\begin_inset Formula $h(k):=\lfloor\text{d}(\frac{Ak}{W})M\rfloor,\text{mcd}(A,K)=1$ +\begin_inset Formula $h(k)\coloneqq \lfloor\text{d}(\frac{Ak}{W})M\rfloor,\text{mcd}(A,K)=1$ \end_inset , donde @@ -596,7 +596,7 @@ Variante: Centro del cuadrado \series default : -\begin_inset Formula $h(k):=\lfloor\frac{k^{2}}{C}\rfloor\mod M$ +\begin_inset Formula $h(k)\coloneqq \lfloor\frac{k^{2}}{C}\rfloor\mod M$ \end_inset . @@ -612,7 +612,7 @@ Para secuencias: Suma \series default : -\begin_inset Formula $h(k):=\sum_{i}x_{i}\mod M$ +\begin_inset Formula $h(k)\coloneqq \sum_{i}x_{i}\mod M$ \end_inset . @@ -625,7 +625,7 @@ Suma Suma posicional \series default : -\begin_inset Formula $h(k):=\sum_{i}k^{i}x_{i}\mod M$ +\begin_inset Formula $h(k)\coloneqq \sum_{i}k^{i}x_{i}\mod M$ \end_inset , siendo @@ -645,7 +645,7 @@ Plegado folding \emph default ): -\begin_inset Formula $h(k):=\sum_{i=0}^{\lfloor n/p\rfloor}\prod_{j=1}^{p}x_{ip+j}\mod M$ +\begin_inset Formula $h(k)\coloneqq \sum_{i=0}^{\lfloor n/p\rfloor}\prod_{j=1}^{p}x_{ip+j}\mod M$ \end_inset , tomando @@ -661,7 +661,7 @@ folding Extracción \series default : -\begin_inset Formula $h(k):=x_{n_{1}}\cdots x_{n_{k}}\mod M$ +\begin_inset Formula $h(k)\coloneqq x_{n_{1}}\cdots x_{n_{k}}\mod M$ \end_inset . @@ -712,7 +712,7 @@ Funciones de redispersión: Lineal \series default : -\begin_inset Formula $h_{i}(k):=h(k)+i\mod M$ +\begin_inset Formula $h_{i}(k)\coloneqq h(k)+i\mod M$ \end_inset . @@ -730,7 +730,7 @@ agrupamiento Con saltos \series default : -\begin_inset Formula $h_{i}(k):=h(k)+Ci\mod M$ +\begin_inset Formula $h_{i}(k)\coloneqq h(k)+Ci\mod M$ \end_inset . @@ -743,7 +743,7 @@ Con saltos Cuadrática \series default : -\begin_inset Formula $h_{i}(k):=h(k)+D(i)\mod M$ +\begin_inset Formula $h_{i}(k)\coloneqq h(k)+D(i)\mod M$ \end_inset con |