version 1.1.1.1, 2001/10/02 11:16:58 |
version 1.2, 2002/09/11 07:26:43 |
Line 245 so an error message is issued. |
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Line 245 so an error message is issued. |
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\fun{void}{affrr}{GEN x, GEN z} assigns the real \kbd{x} into the real~\kbd{z}. |
\fun{void}{affrr}{GEN x, GEN z} assigns the real \kbd{x} into the real~\kbd{z}. |
\smallskip |
\smallskip |
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\fun{GEN}{stoi}{long s} creates the PARI integer corresponding to the |
\fun{GEN}{itor}{GEN x, long prec} assigns the \typ{INT} \kbd{x} into a |
long~\kbd{s}. |
\typ{REAL} of length \kbd{prec} and return the latter. |
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\fun{long}{itos}{GEN x} converts the PARI integer \kbd{x} to a C long (if |
\fun{long}{itos}{GEN x} converts the PARI integer \kbd{x} to a C long (if |
possible, otherwise an error message is issued). |
possible, otherwise an error message is issued). |
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\fun{GEN}{stoi}{long s} creates the PARI integer corresponding to the |
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long~\kbd{s}. |
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\fun{GEN}{stor}{long s, long prec} assigns the long \kbd{s} into a |
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\typ{REAL} of length \kbd{prec} and return the latter. |
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\smallskip |
\smallskip |
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\fun{GEN}{mptrunc[z]}{GEN x[, GEN z]} truncates the integer or real~\kbd{x} |
\fun{GEN}{mptrunc[z]}{GEN x[, GEN z]} truncates the integer or real~\kbd{x} |
Line 497 integer~\kbd{x}, assigns the quotient to the integer~\ |
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Line 504 integer~\kbd{x}, assigns the quotient to the integer~\ |
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\fun{void}{mulsii}{long s, GEN x, GEN z} assigns the product of the long |
\fun{void}{mulsii}{long s, GEN x, GEN z} assigns the product of the long |
\kbd{s} and the integer \kbd{x} into the integer~\kbd{z} (essentially |
\kbd{s} and the integer \kbd{x} into the integer~\kbd{z} (essentially |
dentical to \kbd{mulsiz} except that \kbd{z} is specifically an integer). |
identical to \kbd{mulsiz} except that \kbd{z} is specifically an integer). |
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\section{Level 2 kernel (operations on general PARI objects)} |
\section{Level 2 kernel (operations on general PARI objects)} |
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Line 874 into~\kbd{x} for the variable number~\kbd{v}. |
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Line 881 into~\kbd{x} for the variable number~\kbd{v}. |
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0~otherwise. |
0~otherwise. |
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\fun{GEN}{gbezout}{GEN x,GEN y, GEN *u,GEN *v} creates the GCD of \kbd{x} |
\fun{GEN}{gbezout}{GEN x,GEN y, GEN *u,GEN *v} creates the GCD of \kbd{x} |
and~\kbd{y}, and puts (the adresses of) objects $u$ and~$v$ such that |
and~\kbd{y}, and puts (the addresses of) objects $u$ and~$v$ such that |
$u\kbd{x}+v\kbd{y}=\gcd(\kbd{x},\kbd{y})$ into \kbd{*u} and~\kbd{*v}. |
$u\kbd{x}+v\kbd{y}=\gcd(\kbd{x},\kbd{y})$ into \kbd{*u} and~\kbd{*v}. |
\vfill\eject |
\vfill\eject |