Add semantics without expr up to I
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Makefile
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Makefile
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all: semantics.pdf
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%.pdf: %.tex
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latexmk -pdf $<
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upload: semantics.pdf
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scp semantics.pdf www.tobast:/srv/httpd/tobast.fr/public_html/m2/
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semantics.tex
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semantics.tex
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\title{DWARF Semantics}
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\author{Théophile Bastian}
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\date{\today}
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\documentclass[11pt]{article}
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\usepackage[left=2cm,right=2cm,top=2cm,bottom=2cm]{geometry}
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\usepackage{amsmath}
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\usepackage{amssymb}
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\usepackage{stmaryrd}
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\usepackage{mathtools}
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\usepackage[utf8]{inputenc}
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\newcommand{\dwcfa}[1]{\texttt{DW\_CFA\_#1}}
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\newcommand{\reg}[1]{\%#1}
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\newcommand{\DWARF}{\operatorname{DWARF}}
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\newcommand{\FDE}{\operatorname{FDE}}
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\newcommand{\dwrow}{\operatorname{Row}}
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\newcommand{\spexpr}{\mathbb{E}}
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\newcommand{\regs}{\mathbb{R}}
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\newcommand{\values}{\mathbb{V}}
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\newcommand{\valaddr}[1]{\operatorname{Addr}\left(#1\right)}
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\newcommand{\valval}[1]{\operatorname{Val}\left(#1\right)}
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\newcommand{\intermedlang}{\mathcal{I}}
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\newcommand{\semI}[2]{{\left\llbracket{} #1 \right\rrbracket}^\intermedlang_{#2}}
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\newcommand{\rowstack}{\mathbb{S}}
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\newcommand{\insarrow}[1]{\xleftarrow{\text{#1}}}
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\newcommand{\extrarrow}[1]{\xrightarrow{\text{#1}}}
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\newcommand{\contsem}[1]{\semI{d}{s}\left(#1\right)}
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\begin{document}
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\maketitle
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\section{DWARF CFI instructions}
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These instructions are up to variants (most instructions exist in multiple
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formats to handle various operands formatting, to optimize space).
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\begin{itemize}
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\item{} \dwcfa{set\_loc(loc)}~:
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new DWARF row at address $loc$
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\item{} \dwcfa{advance\_loc(delta)}~:
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new DWARF row at address $prev\_loc + delta$
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\item{} \dwcfa{def\_cfa(reg, offset)}~:
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sets CFA at $(\reg{reg} + offset)$
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\item{} \dwcfa{def\_cfa\_register(reg)}~:
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sets CFA at $(\reg{reg} + prev\_offset)$
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\item{} \dwcfa{def\_cfa\_offset(offset)}~:
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sets CFA at $(\reg{prev\_reg} + offset)$
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\item{} \dwcfa{def\_cfa\_expression(expr)}~:
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defines CFA as the result of $expr$
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\item{} \dwcfa{undefined(reg)}~:
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sets \reg{reg} undefined in the current (last) row
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\item{} \dwcfa{same\_value(reg)}~:
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sets \reg{reg} in the current (last) row as it was in the previous row
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\item{} \dwcfa{offset(reg, offset)}~:
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\reg{reg} is stored in memory at the address $CFA + offset$ in the
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current (last) row
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\item{} \dwcfa{val\_offset(reg, offset)}~:
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\reg{reg} is the value $CFA + offset$ in the current (last) row
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\item{} \dwcfa{register(reg, model)}~:
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\reg{reg} has in the current (last) row the value that had
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$\reg{model}$ in the previous row
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\item{} \dwcfa{expression(reg, expr)}~:
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\reg{reg} is stored in memory at the address defined by $expr$
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\item{} \dwcfa{val\_expression(reg, expr)}~:
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\reg{reg} has the value of $expr$
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\item{} \dwcfa{restore(reg)}~:
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\reg{reg} has the same value as in this FDE's preamble (CIE) in the
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current (last) row. This is \emph{not implemented in this semantics}
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for simplicity and brevity (we would have to introduce CIE (preamble)
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and FDE (body) independently).
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\item{} \dwcfa{remember\_state()}~:
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push the state of all the registers of the current (last) row in an
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implicit stack
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\item{} \dwcfa{restore\_state()}~:
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pop an entry of the implicit stack, and set all registers in the
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current (last) row accordingly.
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\item{} \dwcfa{nop()}~:
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do nothing (padding)
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\end{itemize}
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\pagebreak
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\section{Intermediary language $\intermedlang$}
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\begin{align*}
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\FDE &:= {\left(\mathbb{Z} \times \dwrow \right)}^{\ast}
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& \text{FDE (set of rows)} \\
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\dwrow &:= \values ^ \regs
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& \text{A DWARF row} \\
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\spexpr &:= \regs \times \mathbb{Z}
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& \text{A ``simple'' expression $\reg{reg} + offset$} \\
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\regs &:= \left\{0, 1, \ldots, \operatorname{NB\_REGS - 1} \right\}
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& \text{Machine registers} \\
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\values &:= \{\bot\} \cup \valaddr{\spexpr} \cup \valval{\spexpr}
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& \text{Values: undefined, at address $x$, value $x$} \\
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\end{align*}
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\section{From DWARF to $\intermedlang$}
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We define $\semI{\bullet}{s} : \DWARF \times \FDE \to \FDE$, for $s$ a stack of
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$\dwrow$, that is,
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\begin{align*}
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s \in \rowstack &:= \dwrow^\ast
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\end{align*}
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Implicitly, $\semI{\bullet}{} := \semI{\bullet}{\varepsilon}$
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For convenience, we define $\insarrow{reg}$, the operator changing the value of
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a register for a given value in the last row, as
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\[
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\left(f \in \FDE\right) \insarrow{$r \in \regs$} (v \in values)
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\quad := \quad
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\left( f\left[0 \ldots |f| - 2\right] \right) \cdot \left\{
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\begin{array}{r l}
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r' \neq r &\mapsto \left(f[-1]\right)(r') \\
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r &\mapsto v \\
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\end{array} \right.
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\]
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The same way, we define $\extrarrow{reg}$ that \emph{extracts} the rule
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currently applied for $\reg{reg}$, eg. $F \extrarrow{CFA} \valval{\reg{reg} +
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\text{off}}$. If the rule currently applied in such a case is \emph{not} of the
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form $\reg{reg} + \text{off}$, then the program is considered erroneous.
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More generally, we define ${\extrarrow{reg}}^{-k}$ as the same operation, but
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extracting in the $k$-older row, ie. ${\extrarrow{reg}}^{0}$ is the same as
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$\extrarrow{reg}$, and $F {\extrarrow{reg}}^{-1} \bullet$ is the same as
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$F\left[0 \ldots |F|-2\right] \extrarrow{reg} \bullet$.
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\begin{align*}
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\semI{\varepsilon}{s}(F) &:= F \\
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\semI{\dwcfa{set\_loc(loc)} \cdot d}{s}(F) &:=
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\contsem{F \cdot \left(loc, F[-1].row \right)} \\
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\semI{\dwcfa{adv\_loc(delta)} \cdot d}{s}(F) &:=
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\contsem{F \cdot \left(F[-1].addr + delta, F[-1].row \right)} \\
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\semI{\dwcfa{def\_cfa(reg, offset)} \cdot d}{s}(F) &:=
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\contsem{F \insarrow{CFA} \valval{\reg{reg} + offset}} \\
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\semI{\dwcfa{def\_cfa\_register(reg)} \cdot d}{s}(F) &:=
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\text{let F }\extrarrow{CFA} \valval{\reg{oldreg} + \text{oldoffset}}
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\text{ in} \\
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&\quad \contsem{F \insarrow{CFA} \valval{\reg{reg} + oldoffset}} \\
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\semI{\dwcfa{def\_cfa\_offset(offset)} \cdot d}{s}(F) &:=
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\text{let F }\extrarrow{CFA} \valval{\reg{oldreg} + \text{oldoffset}}
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\text{ in} \\
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&\quad \contsem{F \insarrow{CFA} \valval{\reg{oldreg} + offset}} \\
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\semI{\dwcfa{def\_cfa\_expression(expr)} \cdot d}{s}(F) &:=
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\text{TO BE DEFINED} &\textbf{CHECK ME?}\\
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\semI{\dwcfa{undefined(reg)} \cdot d}{s}(F) &:=
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\contsem{F \insarrow{reg} \bot} \\
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\semI{\dwcfa{same\_value(reg)} \cdot d}{s}(F) &:=
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\valval{\reg{reg}} &\textbf{CHECK ME}\\
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\semI{\dwcfa{offset(reg, offset)} \cdot d}{s}(F) &:=
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\contsem{F \insarrow{reg} \valaddr{\reg{CFA} + \text{offset}}} \\
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\semI{\dwcfa{val\_offset(reg, offset)} \cdot d}{s}(F) &:=
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\contsem{F \insarrow{reg} \valval{\reg{CFA} + \text{offset}}} \\
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\semI{\dwcfa{register(reg, model)} \cdot d}{s}(F) &:=
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\text{let } F {\extrarrow{model}}^{-1} r \text{ in }
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\contsem{F \insarrow{reg} r} \\
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\semI{\dwcfa{expression(reg, expr)} \cdot d}{s}(F) &:=
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\text{TO BE DEFINED} &\textbf{CHECK ME?}\\
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\semI{\dwcfa{val\_expression(reg, expr)} \cdot d}{s}(F) &:=
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\text{TO BE DEFINED} &\textbf{CHECK ME?}\\
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% \semI{\dwcfa{restore(reg)} \cdot d}{s}(F) &:= \\ %% NOT IMPLEMENTED
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\semI{\dwcfa{remember\_state()} \cdot d}{s}(F) &:=
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\semI{d}{s \cdot F[-1].row}\left(F\right) \\
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\semI{\dwcfa{restore\_state()} \cdot d}{s \cdot t}(F) &:=
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\semI{d}{s}\left(F\left[0 \ldots |F|-2\right] \cdot
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\left(F[-1].addr, t\right) \right) \\
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\semI{\dwcfa{nop()} \cdot d}{s}(F) &:= \contsem{F}\\
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\end{align*}
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(The stack is used for \texttt{remember\_state}, \texttt{restore\_state},
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\texttt{restore})
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\section{From $\intermedlang$ to C}
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(Quite straightforward?)
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\end{document}
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