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cpdt
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852aca50
Commit
852aca50
authored
Sep 01, 2008
by
Adam Chlipala
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Target language and translation
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530a9493
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StackMachine.v
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book/src/StackMachine.v
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852aca50
...
@@ -92,6 +92,8 @@ Fixpoint expDenote (e : exp) : nat :=
...
@@ -92,6 +92,8 @@ Fixpoint expDenote (e : exp) : nat :=
(
**
**
Target
language
*
)
(
**
**
Target
language
*
)
(
**
We
will
compile
our
source
programs
onto
a
simple
stack
machine
,
whose
syntax
is
:
*
)
Inductive
instr
:
Set
:=
Inductive
instr
:
Set
:=
|
IConst
:
nat
->
instr
|
IConst
:
nat
->
instr
|
IBinop
:
binop
->
instr
.
|
IBinop
:
binop
->
instr
.
...
@@ -99,6 +101,10 @@ Inductive instr : Set :=
...
@@ -99,6 +101,10 @@ Inductive instr : Set :=
Definition
prog
:=
list
instr
.
Definition
prog
:=
list
instr
.
Definition
stack
:=
list
nat
.
Definition
stack
:=
list
nat
.
(
**
An
instruction
either
pushes
a
constant
onto
the
stack
or
pops
two
arguments
,
applies
a
binary
operator
to
them
,
and
pushes
the
result
onto
the
stack
.
A
program
is
a
list
of
instructions
,
and
a
stack
is
a
list
of
natural
numbers
.
We
can
give
instructions
meanings
as
functions
from
stacks
to
optional
stacks
,
where
running
an
instruction
results
in
[
None
]
in
case
of
a
stack
underflow
and
results
in
[
Some
s
'
]
when
the
result
of
execution
is
the
new
stack
[
s
'
]
.
[
::
]
is
the
"list cons"
operator
from
the
Coq
standard
library
.
*
)
Definition
instrDenote
(
i
:
instr
)
(
s
:
stack
)
:
option
stack
:=
Definition
instrDenote
(
i
:
instr
)
(
s
:
stack
)
:
option
stack
:=
match
i
with
match
i
with
|
IConst
n
=>
Some
(
n
::
s
)
|
IConst
n
=>
Some
(
n
::
s
)
...
@@ -109,6 +115,8 @@ Definition instrDenote (i : instr) (s : stack) : option stack :=
...
@@ -109,6 +115,8 @@ Definition instrDenote (i : instr) (s : stack) : option stack :=
end
end
end
.
end
.
(
**
With
[
instrDenote
]
defined
,
it
is
easy
to
define
a
function
[
progDenote
]
,
which
iterates
application
of
[
instrDenote
]
through
a
whole
program
.
*
)
Fixpoint
progDenote
(
p
:
prog
)
(
s
:
stack
)
{
struct
p
}
:
option
stack
:=
Fixpoint
progDenote
(
p
:
prog
)
(
s
:
stack
)
{
struct
p
}
:
option
stack
:=
match
p
with
match
p
with
|
nil
=>
Some
s
|
nil
=>
Some
s
...
@@ -119,9 +127,13 @@ Fixpoint progDenote (p : prog) (s : stack) {struct p} : option stack :=
...
@@ -119,9 +127,13 @@ Fixpoint progDenote (p : prog) (s : stack) {struct p} : option stack :=
end
end
end
.
end
.
(
**
There
is
one
interesting
difference
compared
to
our
previous
example
of
a
[
Fixpoint
]
.
This
recursive
function
takes
two
arguments
,
[
p
]
and
[
s
]
.
It
is
critical
for
the
soundness
of
Coq
that
every
program
terminate
,
so
a
shallow
syntactic
termination
check
is
imposed
on
every
recursive
function
definition
.
One
of
the
function
parameters
must
be
designated
to
decrease
monotonically
across
recursive
calls
.
That
is
,
every
recursive
call
must
use
a
version
of
that
argument
that
has
been
pulled
out
of
the
current
argument
by
some
number
of
[
match
]
expressions
.
[
expDenote
]
has
only
one
argument
,
so
we
did
not
need
to
specify
which
of
its
arguments
decreases
.
For
[
progDenote
]
,
we
resolve
the
ambiguity
by
writing
[
{
struct
p
}
]
to
indicate
that
argument
[
p
]
decreases
structurally
.
*
)
(
**
**
Translation
*
)
(
**
**
Translation
*
)
(
**
Our
compiler
itself
is
now
unsurprising
.
[
++
]
is
the
list
concatenation
operator
from
the
Coq
standard
library
.
*
)
Fixpoint
compile
(
e
:
exp
)
:
prog
:=
Fixpoint
compile
(
e
:
exp
)
:
prog
:=
match
e
with
match
e
with
|
Const
n
=>
IConst
n
::
nil
|
Const
n
=>
IConst
n
::
nil
...
...
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