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Levin Zimmermann
neoppod
Commits
b54dbb73
Commit
b54dbb73
authored
Jan 17, 2017
by
Kirill Smelkov
Browse files
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.
parent
d3f05e73
Changes
3
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Showing
3 changed files
with
37 additions
and
36 deletions
+37
-36
t/neo/proto.go
t/neo/proto.go
+1
-1
t/neo/proto_test.go
t/neo/proto_test.go
+1
-0
t/neo/protogen.go
t/neo/protogen.go
+35
-35
No files found.
t/neo/proto.go
View file @
b54dbb73
...
@@ -145,7 +145,7 @@ func byte2bool(b byte) bool {
...
@@ -145,7 +145,7 @@ func byte2bool(b byte) bool {
// NOTE py.None encodes as '\xff' * 8 (-> we use NaN for None)
// NOTE py.None encodes as '\xff' * 8 (-> we use NaN for None)
// NOTE '\xff' * 8 represents FP NaN but many other NaN bits representation exist
// NOTE '\xff' * 8 represents FP NaN but many other NaN bits representation exist
func
float64_NEOEncode
(
f
float64
,
b
[]
byte
)
{
func
float64_NEOEncode
(
b
[]
byte
,
f
float64
)
{
var
fu
uint64
var
fu
uint64
if
!
math
.
IsNaN
(
f
)
{
if
!
math
.
IsNaN
(
f
)
{
fu
=
math
.
Float64bits
(
f
)
fu
=
math
.
Float64bits
(
f
)
...
...
t/neo/proto_test.go
View file @
b54dbb73
...
@@ -89,6 +89,7 @@ func testPktMarshal(t *testing.T, pkt NEODecoder, encoded string) {
...
@@ -89,6 +89,7 @@ func testPktMarshal(t *testing.T, pkt NEODecoder, encoded string) {
// decode must overflow on cut data TODO reenable
// decode must overflow on cut data TODO reenable
/*
/*
for l := len(encoded)-1; l >= 0; l-- {
for l := len(encoded)-1; l >= 0; l-- {
// NOTE cap must not be > l
data = encoded[:l] // XXX also check on original byte [:l] ?
data = encoded[:l] // XXX also check on original byte [:l] ?
n, err = pkt2.NEODecode([]byte(data)) // XXX
n, err = pkt2.NEODecode([]byte(data)) // XXX
if !(n==0 && err==ErrDecodeOverflow) {
if !(n==0 && err==ErrDecodeOverflow) {
...
...
t/neo/protogen.go
View file @
b54dbb73
...
@@ -135,28 +135,27 @@ import (
...
@@ -135,28 +135,27 @@ import (
// info about wire decode/encode of a basic type
// info about wire decode/encode of a basic type
type
basic
XXX
struct
{
type
basic
Codec
struct
{
wireSize
int
wireSize
int
decode
string
decode
string
//
encode string
encode
string
}
}
var
basicDecode
=
map
[
types
.
BasicKind
]
basicXXX
{
var
basicTypes
=
map
[
types
.
BasicKind
]
basicCodec
{
// %v will be `data[n:n+wireSize]` XXX or `data[n:]` ?
// decode: %v will be `data[n:]` (and made sure data has more enough bytes to read)
types
.
Bool
:
{
1
,
"byte2bool((%v)[0])"
},
// encode: %v %v will be `data[n:]`, value
types
.
Int8
:
{
1
,
"int8((%v)[0])"
},
types
.
Bool
:
{
1
,
"byte2bool((%v)[0])"
,
"(%v)[0] = bool2byte(%v)"
},
types
.
Int16
:
{
2
,
"int16(binary.BigEndian.Uint16(%v))"
},
types
.
Int8
:
{
1
,
"int8((%v)[0])"
,
"(%v)[0] = uint8(%v)"
},
types
.
Int32
:
{
4
,
"int32(binary.BigEndian.Uint32(%v))"
},
types
.
Int16
:
{
2
,
"int16(binary.BigEndian.Uint16(%v))"
,
"binary.BigEndian.PutUint16(uint16(%v))"
},
types
.
Int64
:
{
8
,
"int64(binary.BigEndian.Uint64(%v))"
},
types
.
Int32
:
{
4
,
"int32(binary.BigEndian.Uint32(%v))"
,
"binary.BigEndian.PutUint32(uint32(%v))"
},
types
.
Int64
:
{
8
,
"int64(binary.BigEndian.Uint64(%v))"
,
"binary.BigEndian.PutUint64(uint64(%v))"
},
types
.
Uint8
:
{
1
,
"(%v)[0]"
},
types
.
Uint16
:
{
2
,
"binary.BigEndian.Uint16(%v)"
},
types
.
Uint8
:
{
1
,
"(%v)[0]"
,
"(%v)[0] = %v"
},
types
.
Uint32
:
{
4
,
"binary.BigEndian.Uint32(%v)"
},
types
.
Uint16
:
{
2
,
"binary.BigEndian.Uint16(%v)"
,
"binary.BigEndian.PutUint16(%v, %v)"
},
types
.
Uint64
:
{
8
,
"binary.BigEndian.Uint64(%v)"
},
types
.
Uint32
:
{
4
,
"binary.BigEndian.Uint32(%v)"
,
"binary.BigEndian.PutUint32(%v, %v)"
},
types
.
Uint64
:
{
8
,
"binary.BigEndian.Uint64(%v)"
,
"binary.BigEndian.PutUint64(%v, %v)"
},
types
.
Float64
:
{
8
,
"float64_NEODecode(%v)"
},
types
.
Float64
:
{
8
,
"float64_NEODecode(%v)"
,
"float64_NEOEncode(%v, %v)"
},
// XXX string ?
}
}
...
@@ -170,9 +169,9 @@ func (d *decoder) emit(format string, a ...interface{}) {
...
@@ -170,9 +169,9 @@ func (d *decoder) emit(format string, a ...interface{}) {
fmt
.
Fprintf
(
&
d
.
buf
,
format
+
"
\n
"
,
a
...
)
fmt
.
Fprintf
(
&
d
.
buf
,
format
+
"
\n
"
,
a
...
)
}
}
// emit
code for decode basic fixed types (not string),
but do not assign it
// emit
expression code to decode basic fixed types (not string);
but do not assign it
func
(
d
*
decoder
)
decodedBasic
(
obj
types
.
Object
,
typ
*
types
.
Basic
)
string
{
func
(
d
*
decoder
)
decodedBasic
(
obj
types
.
Object
,
typ
*
types
.
Basic
)
string
{
bdec
,
ok
:=
basic
Decode
[
typ
.
Kind
()]
bdec
,
ok
:=
basic
Types
[
typ
.
Kind
()]
if
!
ok
{
if
!
ok
{
log
.
Fatalf
(
"%v: %v: basic type %v not supported"
,
pos
(
obj
),
obj
.
Name
(),
typ
)
log
.
Fatalf
(
"%v: %v: basic type %v not supported"
,
pos
(
obj
),
obj
.
Name
(),
typ
)
}
}
...
@@ -183,7 +182,8 @@ func (d *decoder) decodedBasic (obj types.Object, typ *types.Basic) string {
...
@@ -183,7 +182,8 @@ func (d *decoder) decodedBasic (obj types.Object, typ *types.Basic) string {
}
}
// emit code for decode next string or []byte
// emit code for decode next string or []byte
func
(
d
*
decoder
)
emitstrbytes
(
assignto
string
)
{
// TODO []byte support
func
(
d
*
decoder
)
decodeStrBytes
(
assignto
string
)
{
// len u32
// len u32
// [len]byte
// [len]byte
d
.
emit
(
"{ l := %v"
,
d
.
decodedBasic
(
nil
,
types
.
Typ
[
types
.
Uint32
]))
d
.
emit
(
"{ l := %v"
,
d
.
decodedBasic
(
nil
,
types
.
Typ
[
types
.
Uint32
]))
...
@@ -197,7 +197,7 @@ func (d *decoder) emitstrbytes(assignto string) {
...
@@ -197,7 +197,7 @@ func (d *decoder) emitstrbytes(assignto string) {
}
}
// TODO optimize for []byte
// TODO optimize for []byte
func
(
d
*
decoder
)
emits
lice
(
assignto
string
,
obj
types
.
Object
,
typ
*
types
.
Slice
)
{
func
(
d
*
decoder
)
decodeS
lice
(
assignto
string
,
obj
types
.
Object
,
typ
*
types
.
Slice
)
{
// len u32
// len u32
// [len]item
// [len]item
d
.
emit
(
"{ l := %v"
,
d
.
decodedBasic
(
nil
,
types
.
Typ
[
types
.
Uint32
]))
d
.
emit
(
"{ l := %v"
,
d
.
decodedBasic
(
nil
,
types
.
Typ
[
types
.
Uint32
]))
...
@@ -211,7 +211,7 @@ func (d *decoder) emitslice(assignto string, obj types.Object, typ *types.Slice)
...
@@ -211,7 +211,7 @@ func (d *decoder) emitslice(assignto string, obj types.Object, typ *types.Slice)
d
.
emit
(
"for i := 0; uint32(i) < l; i++ {"
)
d
.
emit
(
"for i := 0; uint32(i) < l; i++ {"
)
d
.
emit
(
"a := &%s[i]"
,
assignto
)
d
.
emit
(
"a := &%s[i]"
,
assignto
)
// XXX try to avoid (*) in a
// XXX try to avoid (*) in a
d
.
emitobjtype
(
"(*a)"
,
obj
,
typ
.
Elem
())
// XXX also obj.Elem() ?
d
.
decodeObject
(
"(*a)"
,
obj
,
typ
.
Elem
())
// XXX also obj.Elem() ?
d
.
emit
(
"data = data[%v:]"
,
d
.
n
)
// FIXME wrt slice of slice ?
d
.
emit
(
"data = data[%v:]"
,
d
.
n
)
// FIXME wrt slice of slice ?
d
.
emit
(
"nread += %v"
,
d
.
n
)
d
.
emit
(
"nread += %v"
,
d
.
n
)
d
.
emit
(
"}"
)
d
.
emit
(
"}"
)
...
@@ -220,7 +220,7 @@ func (d *decoder) emitslice(assignto string, obj types.Object, typ *types.Slice)
...
@@ -220,7 +220,7 @@ func (d *decoder) emitslice(assignto string, obj types.Object, typ *types.Slice)
d
.
n
=
0
d
.
n
=
0
}
}
func
(
d
*
decoder
)
emitm
ap
(
assignto
string
,
obj
types
.
Object
,
typ
*
types
.
Map
)
{
func
(
d
*
decoder
)
decodeM
ap
(
assignto
string
,
obj
types
.
Object
,
typ
*
types
.
Map
)
{
// len u32
// len u32
// [len](key, value)
// [len](key, value)
d
.
emit
(
"{ l := %v"
,
d
.
decodedBasic
(
nil
,
types
.
Typ
[
types
.
Uint32
]))
d
.
emit
(
"{ l := %v"
,
d
.
decodedBasic
(
nil
,
types
.
Typ
[
types
.
Uint32
]))
...
@@ -233,18 +233,18 @@ func (d *decoder) emitmap(assignto string, obj types.Object, typ *types.Map) {
...
@@ -233,18 +233,18 @@ func (d *decoder) emitmap(assignto string, obj types.Object, typ *types.Map) {
//d.emit("if len(data) < l { return 0, ErrDecodeOverflow }")
//d.emit("if len(data) < l { return 0, ErrDecodeOverflow }")
d
.
emit
(
"m := %v"
,
assignto
)
d
.
emit
(
"m := %v"
,
assignto
)
d
.
emit
(
"for i := 0; uint32(i) < l; i++ {"
)
d
.
emit
(
"for i := 0; uint32(i) < l; i++ {"
)
d
.
emitobjtype
(
"key:"
,
obj
,
typ
.
Key
())
d
.
decodeObject
(
"key:"
,
obj
,
typ
.
Key
())
switch
typ
.
Elem
()
.
Underlying
()
.
(
type
)
{
switch
typ
.
Elem
()
.
Underlying
()
.
(
type
)
{
// basic types can be directly assigned to map entry
// basic types can be directly assigned to map entry
case
*
types
.
Basic
:
case
*
types
.
Basic
:
// XXX handle string
// XXX handle string
d
.
emitobjtype
(
"m[key]"
,
obj
,
typ
.
Elem
())
d
.
decodeObject
(
"m[key]"
,
obj
,
typ
.
Elem
())
// otherwise assign via temporary
// otherwise assign via temporary
default
:
default
:
d
.
emit
(
"var v %v"
,
typeName
(
typ
.
Elem
()))
d
.
emit
(
"var v %v"
,
typeName
(
typ
.
Elem
()))
d
.
emitobjtype
(
"v"
,
obj
,
typ
.
Elem
())
d
.
decodeObject
(
"v"
,
obj
,
typ
.
Elem
())
d
.
emit
(
"m[key] = v"
)
d
.
emit
(
"m[key] = v"
)
}
}
...
@@ -257,11 +257,11 @@ func (d *decoder) emitmap(assignto string, obj types.Object, typ *types.Map) {
...
@@ -257,11 +257,11 @@ func (d *decoder) emitmap(assignto string, obj types.Object, typ *types.Map) {
}
}
// top-level driver for emitting decode code for obj/type
// top-level driver for emitting decode code for obj/type
func
(
d
*
decoder
)
emitobjtype
(
assignto
string
,
obj
types
.
Object
,
typ
types
.
Type
)
{
func
(
d
*
decoder
)
decodeObject
(
assignto
string
,
obj
types
.
Object
,
typ
types
.
Type
)
{
switch
u
:=
typ
.
Underlying
()
.
(
type
)
{
switch
u
:=
typ
.
Underlying
()
.
(
type
)
{
case
*
types
.
Basic
:
case
*
types
.
Basic
:
if
u
.
Kind
()
==
types
.
String
{
if
u
.
Kind
()
==
types
.
String
{
d
.
emitstrb
ytes
(
assignto
)
d
.
decodeStrB
ytes
(
assignto
)
break
break
}
}
...
@@ -280,20 +280,20 @@ func (d *decoder) emitobjtype(assignto string, obj types.Object, typ types.Type)
...
@@ -280,20 +280,20 @@ func (d *decoder) emitobjtype(assignto string, obj types.Object, typ types.Type)
// TODO optimize for [...]byte
// TODO optimize for [...]byte
var
i
int64
// XXX because `u.Len() int64`
var
i
int64
// XXX because `u.Len() int64`
for
i
=
0
;
i
<
u
.
Len
();
i
++
{
for
i
=
0
;
i
<
u
.
Len
();
i
++
{
d
.
emitobjtype
(
fmt
.
Sprintf
(
"%v[%v]"
,
assignto
,
i
),
obj
,
u
.
Elem
())
d
.
decodeObject
(
fmt
.
Sprintf
(
"%v[%v]"
,
assignto
,
i
),
obj
,
u
.
Elem
())
}
}
case
*
types
.
Struct
:
case
*
types
.
Struct
:
for
i
:=
0
;
i
<
u
.
NumFields
();
i
++
{
for
i
:=
0
;
i
<
u
.
NumFields
();
i
++
{
v
:=
u
.
Field
(
i
)
v
:=
u
.
Field
(
i
)
d
.
emitobjtype
(
assignto
+
"."
+
v
.
Name
(),
v
,
v
.
Type
())
d
.
decodeObject
(
assignto
+
"."
+
v
.
Name
(),
v
,
v
.
Type
())
}
}
case
*
types
.
Slice
:
case
*
types
.
Slice
:
d
.
emits
lice
(
assignto
,
obj
,
u
)
d
.
decodeS
lice
(
assignto
,
obj
,
u
)
case
*
types
.
Map
:
case
*
types
.
Map
:
d
.
emitm
ap
(
assignto
,
obj
,
u
)
d
.
decodeM
ap
(
assignto
,
obj
,
u
)
...
@@ -318,7 +318,7 @@ func gendecode(typespec *ast.TypeSpec) string {
...
@@ -318,7 +318,7 @@ func gendecode(typespec *ast.TypeSpec) string {
typ
:=
info
.
Types
[
typespec
.
Type
]
.
Type
typ
:=
info
.
Types
[
typespec
.
Type
]
.
Type
obj
:=
info
.
Defs
[
typespec
.
Name
]
obj
:=
info
.
Defs
[
typespec
.
Name
]
d
.
emitobjtype
(
"p"
,
obj
,
typ
)
d
.
decodeObject
(
"p"
,
obj
,
typ
)
d
.
emit
(
"return int(nread) + %v, nil"
,
d
.
n
)
d
.
emit
(
"return int(nread) + %v, nil"
,
d
.
n
)
d
.
emit
(
"}"
)
d
.
emit
(
"}"
)
...
...
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