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cpdt
Commits
16c7250a
Commit
16c7250a
authored
Dec 16, 2009
by
Adam Chlipala
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Easy direction of Intensional
parent
bc911257
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-8
Extensional.v
src/Extensional.v
+7
-7
Intensional.v
src/Intensional.v
+192
-1
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src/Extensional.v
View file @
16c7250a
...
@@ -85,14 +85,14 @@ Module Source.
...
@@ -85,14 +85,14 @@ Module Source.
Bind
Scope
source_scope
with
exp
.
Bind
Scope
source_scope
with
exp
.
Definition
zero
:
Exp
Nat
:=
fun
_
=>
^
0.
Example
zero
:
Exp
Nat
:=
fun
_
=>
^
0.
Definition
one
:
Exp
Nat
:=
fun
_
=>
^
1.
Example
one
:
Exp
Nat
:=
fun
_
=>
^
1.
Definition
zpo
:
Exp
Nat
:=
fun
_
=>
zero
_
+^
one
_.
Example
zpo
:
Exp
Nat
:=
fun
_
=>
zero
_
+^
one
_.
Definition
ident
:
Exp
(
Nat
-->
Nat
)
:=
fun
_
=>
\
x
,
#
x
.
Example
ident
:
Exp
(
Nat
-->
Nat
)
:=
fun
_
=>
\
x
,
#
x
.
Definition
app_ident
:
Exp
Nat
:=
fun
_
=>
ident
_
@
zpo
_.
Example
app_ident
:
Exp
Nat
:=
fun
_
=>
ident
_
@
zpo
_.
Definition
app
:
Exp
((
Nat
-->
Nat
)
-->
Nat
-->
Nat
)
:=
fun
_
=>
Example
app
:
Exp
((
Nat
-->
Nat
)
-->
Nat
-->
Nat
)
:=
fun
_
=>
\
f
,
\
x
,
#
f
@
#
x
.
\
f
,
\
x
,
#
f
@
#
x
.
Definition
app_ident
'
:
Exp
Nat
:=
fun
_
=>
app
_
@
ident
_
@
zpo
_.
Example
app_ident
'
:
Exp
Nat
:=
fun
_
=>
app
_
@
ident
_
@
zpo
_.
Fixpoint
typeDenote
(
t
:
type
)
:
Set
:=
Fixpoint
typeDenote
(
t
:
type
)
:
Set
:=
match
t
with
match
t
with
...
...
src/Intensional.v
View file @
16c7250a
...
@@ -7,7 +7,198 @@
...
@@ -7,7 +7,198 @@
*
http
:
//creativecommons.org/licenses/by-nc-nd/3.0/
*
http
:
//creativecommons.org/licenses/by-nc-nd/3.0/
*
)
*
)
(
*
begin
hide
*
)
Require
Import
List
.
Require
Import
Axioms
DepList
Tactics
.
Set
Implicit
Arguments
.
(
*
end
hide
*
)
(
**
%
\
chapter
{
Intensional
Transformations
}%
*
)
(
**
%
\
chapter
{
Intensional
Transformations
}%
*
)
(
**
TODO
:
This
chapter
!
(
Old
version
was
too
complicated
)
*
)
(
*
begin
hide
*
)
Inductive
type
:
Type
:=
|
Nat
:
type
|
Arrow
:
type
->
type
->
type
.
Infix
"-->"
:=
Arrow
(
right
associativity
,
at
level
60
)
.
Fixpoint
typeDenote
(
t
:
type
)
:
Set
:=
match
t
with
|
Nat
=>
nat
|
t1
-->
t2
=>
typeDenote
t1
->
typeDenote
t2
end
.
Module
Phoas
.
Section
vars
.
Variable
var
:
type
->
Type
.
Inductive
exp
:
type
->
Type
:=
|
Var
:
forall
t
,
var
t
->
exp
t
|
Const
:
nat
->
exp
Nat
|
Plus
:
exp
Nat
->
exp
Nat
->
exp
Nat
|
App
:
forall
t1
t2
,
exp
(
t1
-->
t2
)
->
exp
t1
->
exp
t2
|
Abs
:
forall
t1
t2
,
(
var
t1
->
exp
t2
)
->
exp
(
t1
-->
t2
)
.
End
vars
.
Definition
Exp
t
:=
forall
var
,
exp
var
t
.
Implicit
Arguments
Var
[
var
t
]
.
Implicit
Arguments
Const
[
var
]
.
Implicit
Arguments
Plus
[
var
]
.
Implicit
Arguments
App
[
var
t1
t2
]
.
Implicit
Arguments
Abs
[
var
t1
t2
]
.
Notation
"# v"
:=
(
Var
v
)
(
at
level
70
)
.
Notation
"^ n"
:=
(
Const
n
)
(
at
level
70
)
.
Infix
"+^"
:=
Plus
(
left
associativity
,
at
level
79
)
.
Infix
"@"
:=
App
(
left
associativity
,
at
level
77
)
.
Notation
"\ x , e"
:=
(
Abs
(
fun
x
=>
e
))
(
at
level
78
)
.
Notation
"\ ! , e"
:=
(
Abs
(
fun
_
=>
e
))
(
at
level
78
)
.
Fixpoint
expDenote
t
(
e
:
exp
typeDenote
t
)
:
typeDenote
t
:=
match
e
with
|
Var
_
v
=>
v
|
Const
n
=>
n
|
Plus
e1
e2
=>
expDenote
e1
+
expDenote
e2
|
App
_
_
e1
e2
=>
(
expDenote
e1
)
(
expDenote
e2
)
|
Abs
_
_
e
'
=>
fun
x
=>
expDenote
(
e
'
x
)
end
.
Definition
ExpDenote
t
(
e
:
Exp
t
)
:=
expDenote
(
e
_
)
.
Section
exp_equiv
.
Variables
var1
var2
:
type
->
Type
.
Inductive
exp_equiv
:
list
{
t
:
type
&
var1
t
*
var2
t
}%
type
->
forall
t
,
exp
var1
t
->
exp
var2
t
->
Prop
:=
|
EqVar
:
forall
G
t
(
v1
:
var1
t
)
v2
,
In
(
existT
_
t
(
v1
,
v2
))
G
->
exp_equiv
G
(#
v1
)
(#
v2
)
|
EqConst
:
forall
G
n
,
exp_equiv
G
(
^
n
)
(
^
n
)
|
EqPlus
:
forall
G
x1
y1
x2
y2
,
exp_equiv
G
x1
x2
->
exp_equiv
G
y1
y2
->
exp_equiv
G
(
x1
+^
y1
)
(
x2
+^
y2
)
|
EqApp
:
forall
G
t1
t2
(
f1
:
exp
_
(
t1
-->
t2
))
(
x1
:
exp
_
t1
)
f2
x2
,
exp_equiv
G
f1
f2
->
exp_equiv
G
x1
x2
->
exp_equiv
G
(
f1
@
x1
)
(
f2
@
x2
)
|
EqAbs
:
forall
G
t1
t2
(
f1
:
var1
t1
->
exp
var1
t2
)
f2
,
(
forall
v1
v2
,
exp_equiv
(
existT
_
t1
(
v1
,
v2
)
::
G
)
(
f1
v1
)
(
f2
v2
))
->
exp_equiv
G
(
Abs
f1
)
(
Abs
f2
)
.
End
exp_equiv
.
End
Phoas
.
(
*
end
hide
*
)
Module
DeBruijn
.
Inductive
exp
:
list
type
->
type
->
Type
:=
|
Var
:
forall
G
t
,
member
t
G
->
exp
G
t
|
Const
:
forall
G
,
nat
->
exp
G
Nat
|
Plus
:
forall
G
,
exp
G
Nat
->
exp
G
Nat
->
exp
G
Nat
|
App
:
forall
G
t1
t2
,
exp
G
(
t1
-->
t2
)
->
exp
G
t1
->
exp
G
t2
|
Abs
:
forall
G
t1
t2
,
exp
(
t1
::
G
)
t2
->
exp
G
(
t1
-->
t2
)
.
Implicit
Arguments
Const
[
G
]
.
Fixpoint
expDenote
G
t
(
e
:
exp
G
t
)
:
hlist
typeDenote
G
->
typeDenote
t
:=
match
e
with
|
Var
_
_
v
=>
fun
s
=>
hget
s
v
|
Const
_
n
=>
fun
_
=>
n
|
Plus
_
e1
e2
=>
fun
s
=>
expDenote
e1
s
+
expDenote
e2
s
|
App
_
_
_
e1
e2
=>
fun
s
=>
(
expDenote
e1
s
)
(
expDenote
e2
s
)
|
Abs
_
_
_
e
'
=>
fun
s
x
=>
expDenote
e
'
(
x
:::
s
)
end
.
End
DeBruijn
.
Import
Phoas
DeBruijn
.
(
**
*
From
De
Bruijn
to
PHOAS
*
)
Section
phoasify
.
Variable
var
:
type
->
Type
.
Fixpoint
phoasify
G
t
(
e
:
DeBruijn
.
exp
G
t
)
:
hlist
var
G
->
Phoas
.
exp
var
t
:=
match
e
with
|
Var
_
_
v
=>
fun
s
=>
#(
hget
s
v
)
|
Const
_
n
=>
fun
_
=>
^
n
|
Plus
_
e1
e2
=>
fun
s
=>
phoasify
e1
s
+^
phoasify
e2
s
|
App
_
_
_
e1
e2
=>
fun
s
=>
phoasify
e1
s
@
phoasify
e2
s
|
Abs
_
_
_
e
'
=>
fun
s
=>
\
x
,
phoasify
e
'
(
x
:::
s
)
end
.
End
phoasify
.
Definition
Phoasify
t
(
e
:
DeBruijn
.
exp
nil
t
)
:
Phoas
.
Exp
t
:=
fun
_
=>
phoasify
e
HNil
.
Theorem
phoasify_sound
:
forall
G
t
(
e
:
DeBruijn
.
exp
G
t
)
s
,
Phoas
.
expDenote
(
phoasify
e
s
)
=
DeBruijn
.
expDenote
e
s
.
induction
e
;
crush
;
ext_eq
;
crush
.
Qed
.
Section
vars
.
Variables
var1
var2
:
type
->
Type
.
Fixpoint
zip
G
(
s1
:
hlist
var1
G
)
:
hlist
var2
G
->
list
{
t
:
type
&
var1
t
*
var2
t
}%
type
:=
match
s1
with
|
HNil
=>
fun
_
=>
nil
|
HCons
_
_
v1
s1
'
=>
fun
s2
=>
existT
_
_
(
v1
,
hhd
s2
)
::
zip
s1
'
(
htl
s2
)
end
.
Lemma
In_zip
:
forall
t
G
(
s1
:
hlist
_
G
)
s2
(
m
:
member
t
G
)
,
In
(
existT
_
t
(
hget
s1
m
,
hget
s2
m
))
(
zip
s1
s2
)
.
induction
s1
;
intro
s2
;
dep_destruct
s2
;
intro
m
;
dep_destruct
m
;
crush
.
Qed
.
Lemma
unsimpl_zip
:
forall
t
(
v1
:
var1
t
)
(
v2
:
var2
t
)
G
(
s1
:
hlist
_
G
)
s2
t
'
(
e1
:
Phoas
.
exp
_
t
'
)
e2
,
exp_equiv
(
zip
(
v1
:::
s1
)
(
v2
:::
s2
))
e1
e2
->
exp_equiv
(
existT
_
_
(
v1
,
v2
)
::
zip
s1
s2
)
e1
e2
.
trivial
.
Qed
.
Hint
Resolve
In_zip
unsimpl_zip
.
Theorem
phoasify_wf
:
forall
G
t
(
e
:
DeBruijn
.
exp
G
t
)
s1
s2
,
exp_equiv
(
zip
s1
s2
)
(
phoasify
e
s1
)
(
phoasify
e
s2
)
.
Hint
Constructors
exp_equiv
.
induction
e
;
crush
.
Qed
.
End
vars
.
(
**
*
From
PHOAS
to
De
Bruijn
*
)
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