@@ -278,10 +278,10 @@ Furthermore, we derive some forms that directly involve view shifts and Hoare tr

...

@@ -278,10 +278,10 @@ Furthermore, we derive some forms that directly involve view shifts and Hoare tr

\subsection{Global functor and ghost ownership}

\subsection{Global functor and ghost ownership}

Hereinafter we assume the global CMRA functor (served up as a parameter to Iris) is obtained from a family of functors $(F_i)_{i \in I}$ for some finite $I$ by picking

Hereinafter we assume the global CMRA functor (served up as a parameter to Iris) is obtained from a family of functors $(\iFunc_i)_{i \in I}$ for some finite $I$ by picking

We don't care so much about what concretely $\textlog{GhName}$ is, as long as it is countable and infinite.

We don't care so much about what concretely $\textlog{GhName}$ is, as long as it is countable and infinite.

With $M_i \eqdefF_i(\iProp)$, we write $\ownGhost{\gname}{\melt : M_i}$ (or just $\ownGhost{\gname}{\melt}$ if $M_i$ is clear from the context) for $\ownGGhost{[i \mapsto[\gname\mapsto\melt]]}$.

With $M_i \eqdef\iFunc_i(\iProp)$, we write $\ownGhost{\gname}{\melt : M_i}$ (or just $\ownGhost{\gname}{\melt}$ if $M_i$ is clear from the context) for $\ownGGhost{[i \mapsto[\gname\mapsto\melt]]}$.

In other words, $\ownGhost{\gname}{\melt : M_i}$ asserts that in the current state of monoid $M_i$, the ``ghost location'' $\gname$ is allocated and we own piece $\melt$.

In other words, $\ownGhost{\gname}{\melt : M_i}$ asserts that in the current state of monoid $M_i$, the ``ghost location'' $\gname$ is allocated and we own piece $\melt$.

From~\ruleref{pvs-update}, \ruleref{vs-update} and the frame-preserving updates in~\Sref{sec:prodm} and~\Sref{sec:fpfnm}, we have the following derived rules.

From~\ruleref{pvs-update}, \ruleref{vs-update} and the frame-preserving updates in~\Sref{sec:prodm} and~\Sref{sec:fpfnm}, we have the following derived rules.