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Levin Zimmermann
neoppod
Commits
8d794c02
Commit
8d794c02
authored
Jan 24, 2017
by
Kirill Smelkov
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parent
7429c8ba
Changes
2
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2 changed files
with
112 additions
and
70 deletions
+112
-70
t/neo/marshal.go
t/neo/marshal.go
+12
-6
t/neo/protogen.go
t/neo/protogen.go
+100
-64
No files found.
t/neo/marshal.go
View file @
8d794c02
...
...
@@ -404,9 +404,10 @@ func (p *AcceptIdentification) NEOEncodedLen() int {
size
+=
30
for
i
:=
0
;
i
<
len
(
p
.
KnownMasterList
);
i
++
{
a
:=
&
p
.
KnownMasterList
[
i
]
size
+=
10
+
len
((
*
a
)
.
Address
.
Host
)
}
return
0
+
len
(
p
.
Primary
.
Host
)
+
size
return
3
0
+
len
(
p
.
Primary
.
Host
)
+
size
}
func
(
p
*
AcceptIdentification
)
NEOEncode
(
data
[]
byte
)
{
...
...
@@ -726,9 +727,10 @@ func (p *AnswerPartitionTable) NEOEncodedLen() int {
size
+=
12
for
i
:=
0
;
i
<
len
(
p
.
RowList
);
i
++
{
a
:=
&
p
.
RowList
[
i
]
size
+=
8
+
len
((
*
a
)
.
CellList
)
*
8
}
return
0
+
size
return
12
+
size
}
func
(
p
*
AnswerPartitionTable
)
NEOEncode
(
data
[]
byte
)
{
...
...
@@ -816,9 +818,10 @@ func (p *NotifyPartitionTable) NEOEncodedLen() int {
size
+=
12
for
i
:=
0
;
i
<
len
(
p
.
RowList
);
i
++
{
a
:=
&
p
.
RowList
[
i
]
size
+=
8
+
len
((
*
a
)
.
CellList
)
*
8
}
return
0
+
size
return
12
+
size
}
func
(
p
*
NotifyPartitionTable
)
NEOEncode
(
data
[]
byte
)
{
...
...
@@ -2600,9 +2603,10 @@ func (p *AnswerPartitionList) NEOEncodedLen() int {
size
+=
12
for
i
:=
0
;
i
<
len
(
p
.
RowList
);
i
++
{
a
:=
&
p
.
RowList
[
i
]
size
+=
8
+
len
((
*
a
)
.
CellList
)
*
8
}
return
0
+
size
return
12
+
size
}
func
(
p
*
AnswerPartitionList
)
NEOEncode
(
data
[]
byte
)
{
...
...
@@ -2713,9 +2717,10 @@ func (p *AnswerNodeList) NEOEncodedLen() int {
size
+=
4
for
i
:=
0
;
i
<
len
(
p
.
NodeList
);
i
++
{
a
:=
&
p
.
NodeList
[
i
]
size
+=
26
+
len
((
*
a
)
.
Address
.
Host
)
}
return
0
+
size
return
4
+
size
}
func
(
p
*
AnswerNodeList
)
NEOEncode
(
data
[]
byte
)
{
...
...
@@ -2925,9 +2930,10 @@ func (p *NotifyNodeInformation) NEOEncodedLen() int {
size
+=
4
for
i
:=
0
;
i
<
len
(
p
.
NodeList
);
i
++
{
a
:=
&
p
.
NodeList
[
i
]
size
+=
26
+
len
((
*
a
)
.
Address
.
Host
)
}
return
0
+
size
return
4
+
size
}
func
(
p
*
NotifyNodeInformation
)
NEOEncode
(
data
[]
byte
)
{
...
...
t/neo/protogen.go
View file @
8d794c02
...
...
@@ -210,8 +210,8 @@ func (b *Buffer) emit(format string, a ...interface{}) {
// interface of codegenerator for coder/decoder
type
CodecCodeGen
interface
{
genPrologue
(
recvName
,
typeName
string
)
genEpilogue
(
)
// tell codegen it should generate code for top-level function
setFunc
(
recvName
,
typeName
string
)
// emit code to process basic fixed types (not string)
// userType is type actually used in source (for which typ is underlying), or nil
...
...
@@ -223,44 +223,68 @@ type CodecCodeGen interface {
// XXX particular case of slice
genStrBytes
(
path
string
)
// get generated code.
// for top-level functions this is whole function including return and closing }
// for not function this is generated code needed for resultExpr()
generatedCode
()
string
// get result expression
// this is result of computations for not top-level code XXX
resultExpr
()
string
}
// sizer/encode/decode codegen
type
coderForFunc
struct
{
recvName
string
// receiver/type for top-level func
typeName
string
// or empty
}
func
(
c
*
coderForFunc
)
setFunc
(
recvName
,
typeName
string
)
{
c
.
recvName
=
recvName
c
.
typeName
=
typeName
}
type
sizer
struct
{
Buffer
// XXX
n
int
symLenv
[]
string
// symbolic lengths to add to size
Buffer
// buffer for code
n
int
// fixed part of size
symLenv
[]
string
// symbolic part of size
varN
int
// suffix to add to variables (size0, size1, ...) - for nested computations
varSizeUsed
bool
// whether var size was used
recvName
string
// receiver/type for top-level func
typeName
string
// or empty
coderForFunc
}
// get variable name for varname
func
(
s
*
sizer
)
var_
(
varname
string
)
string
{
return
fmt
.
Sprintf
(
"%s%d"
,
varname
,
s
.
varN
)
}
// create new sizer for subsize calculation (e.g. for loop)
func
(
s
*
sizer
)
subSizer
()
*
sizer
{
return
&
sizer
{
varN
:
s
.
varN
+
1
}
}
type
encoder
struct
{
Buffer
// XXX
n
int
coderForFunc
}
type
decoder
struct
{
Buffer
// buffer for generated code
n
int
// current decode position in data
coderForFunc
}
var
_
CodecCodeGen
=
(
*
sizer
)(
nil
)
var
_
CodecCodeGen
=
(
*
encoder
)(
nil
)
var
_
CodecCodeGen
=
(
*
decoder
)(
nil
)
func
(
s
*
sizer
)
generatedCode
()
string
{
prologue
:=
Buffer
{}
if
s
.
recvName
!=
""
{
prologue
.
emit
(
"func (%s *%s) NEOEncodedLen() int {"
,
s
.
recvName
,
s
.
typeName
)
}
if
s
.
varSizeUsed
{
prologue
.
emit
(
"var size int"
)
}
epilogue
:=
Buffer
{}
func
(
s
*
sizer
)
resultExpr
()
string
{
size
:=
fmt
.
Sprintf
(
"%v"
,
s
.
n
)
if
len
(
s
.
symLenv
)
>
0
{
size
+=
" + "
+
strings
.
Join
(
s
.
symLenv
,
" + "
)
...
...
@@ -268,61 +292,74 @@ func (s *sizer) generatedCode() string {
if
s
.
varSizeUsed
{
size
+=
" + size"
}
epilogue
.
emit
(
"return %v"
,
size
)
epilogue
.
emit
(
"}
\n
"
)
return
prologue
.
String
()
+
s
.
String
()
+
epilogue
.
String
()
// XXX -> d.buf.String() ?
return
size
}
func
(
e
*
encoder
)
generatedCode
()
string
{
return
e
.
String
()
// XXX -> d.buf.String() ?
}
func
(
s
*
sizer
)
generatedCode
()
string
{
code
:=
Buffer
{}
// prologue
if
s
.
recvName
!=
""
{
code
.
emit
(
"func (%s *%s) NEOEncodedLen() int {"
,
s
.
recvName
,
s
.
typeName
)
}
if
s
.
varSizeUsed
{
code
.
emit
(
"var size int"
)
}
func
(
d
*
decoder
)
generatedCode
()
string
{
return
d
.
String
()
// XXX -> d.buf.String() ?
}
code
.
Write
(
s
.
Bytes
())
// XXX -> s.buf.Bytes() ?
func
(
s
*
sizer
)
genPrologue
(
recvName
,
typeName
string
)
{
s
.
recvName
=
recvName
s
.
typeName
=
typeName
//s.emit("func (%s *%s) NEOEncodedLen() int {", recvName, typeName
)
}
// epilogue
if
s
.
recvName
!=
""
{
code
.
emit
(
"return %v"
,
s
.
resultExpr
())
code
.
emit
(
"}
\n
"
)
}
func
(
e
*
encoder
)
genPrologue
(
recvName
,
typeName
string
)
{
e
.
emit
(
"func (%s *%s) NEOEncode(data []byte) {"
,
recvName
,
typeName
)
return
code
.
String
()
}
func
(
d
*
decoder
)
genPrologue
(
recvName
,
typeName
string
)
{
d
.
emit
(
"func (%s *%s) NEODecode(data []byte) (int, error) {"
,
recvName
,
typeName
)
d
.
emit
(
"var nread uint32"
)
func
(
e
*
encoder
)
resultExpr
()
string
{
panic
(
"should not be called (?)"
)
}
func
(
s
*
sizer
)
genEpilogue
()
{
/*
size := fmt.Sprintf("%v", s.n)
if len(s.symLenv) > 0 {
size += " + " + strings.Join(s.symLenv, " + ")
}
if s.varSizeUsed {
size += " + size"
func
(
e
*
encoder
)
generatedCode
()
string
{
code
:=
Buffer
{}
// prologue
if
e
.
recvName
!=
""
{
code
.
emit
(
"func (%s *%s) NEOEncode(data []byte) {"
,
e
.
recvName
,
e
.
typeName
)
}
s.emit("return %v", size)
s.emit("}\n")
*/
code
.
Write
(
e
.
Bytes
())
// XXX -> e.buf.Bytes() ?
// epilogue
code
.
emit
(
"}
\n
"
)
return
code
.
String
()
}
func
(
e
*
encoder
)
genEpilogue
()
{
e
.
emit
(
"}
\n
"
)
func
(
d
*
decoder
)
resultExpr
()
string
{
panic
(
"should not be called (?)
"
)
}
func
(
d
*
decoder
)
genEpilogue
()
{
d
.
emit
(
"return int(nread) + %v, nil"
,
d
.
n
)
d
.
emit
(
"
\n
overflow:"
)
d
.
emit
(
"return 0, ErrDecodeOverflow"
)
d
.
emit
(
"goto overflow"
)
// TODO check if overflow used at all and remove
d
.
emit
(
"}
\n
"
)
func
(
d
*
decoder
)
generatedCode
()
string
{
code
:=
Buffer
{}
// prologue
if
d
.
recvName
!=
""
{
code
.
emit
(
"func (%s *%s) NEODecode(data []byte) (int, error) {"
,
d
.
recvName
,
d
.
typeName
)
}
code
.
emit
(
"var nread uint32"
)
code
.
Write
(
d
.
Bytes
())
// XXX -> d.buf.Bytes() ?
// epilogue
code
.
emit
(
"return int(nread) + %v, nil"
,
d
.
n
)
code
.
emit
(
"
\n
overflow:"
)
code
.
emit
(
"return 0, ErrDecodeOverflow"
)
code
.
emit
(
"goto overflow"
)
// TODO check if overflow used at all and remove
code
.
emit
(
"}
\n
"
)
return
code
.
String
()
}
func
(
s
*
sizer
)
genBasic
(
path
string
,
typ
*
types
.
Basic
,
userType
types
.
Type
)
{
basic
:=
basicTypes
[
typ
.
Kind
()]
s
.
n
+=
basic
.
wireSize
...
...
@@ -365,7 +402,6 @@ func (d *decoder) genBasic(assignto string, typ *types.Basic, userType types.Typ
func
(
s
*
sizer
)
genStrBytes
(
path
string
)
{
s
.
n
+=
4
s
.
symLenv
=
append
(
s
.
symLenv
,
fmt
.
Sprintf
(
"len(%s)"
,
path
))
//s.n = 0
}
func
(
e
*
encoder
)
genStrBytes
(
path
string
)
{
...
...
@@ -407,16 +443,15 @@ func (s *sizer) genSlice(path string, typ *types.Slice, obj types.Object) {
s
.
varSizeUsed
=
true
s
.
n
+=
4
s
.
emit
(
"size += %v"
,
s
.
n
)
s
.
n
=
0
s
.
emit
(
"for i := 0; i < len(%v); i++ {"
,
path
)
s
.
emit
(
"a := &%s[i]"
,
path
)
//codegenType("(*a)", typ.Elem(), obj, s)
sloop
:=
&
sizer
{}
sloop
:=
s
.
subSizer
()
codegenType
(
"(*a)"
,
typ
.
Elem
(),
obj
,
sloop
)
// FIXME vvv if symLenv is ø; -> turn into "result" function
s
.
emit
(
"size += %v + %v"
,
sloop
.
n
,
strings
.
Join
(
sloop
.
symLenv
,
" + "
))
s
.
emit
(
sloop
.
generatedCode
())
s
.
emit
(
"size += %v"
,
sloop
.
resultExpr
())
s
.
emit
(
"}"
)
s
.
n
=
0
}
func
(
e
*
encoder
)
genSlice
(
path
string
,
typ
*
types
.
Slice
,
obj
types
.
Object
)
{
...
...
@@ -470,8 +505,10 @@ func (s *sizer) genMap(path string, typ *types.Map, obj types.Object) {
return
}
panic
(
"UNTESTED"
)
s
.
varSizeUsed
=
true
s
.
emit
(
"size += %v + 4"
,
s
.
n
)
s
.
n
+=
4
s
.
emit
(
"size += %v"
,
s
.
n
)
s
.
n
=
0
s
.
emit
(
"for key := range %s {"
,
path
)
codegenType
(
"key"
,
typ
.
Key
(),
obj
,
s
)
...
...
@@ -591,7 +628,7 @@ func codegenType(path string, typ types.Type, obj types.Object, codegen CodecCod
// generate encoder/decode funcs for a type declaration typespec
func
generateCodecCode
(
typespec
*
ast
.
TypeSpec
,
codec
CodecCodeGen
)
string
{
codec
.
genPrologue
(
"p"
,
typespec
.
Name
.
Name
)
codec
.
setFunc
(
"p"
,
typespec
.
Name
.
Name
)
// type & object which refers to this type
typ
:=
info
.
Types
[
typespec
.
Type
]
.
Type
...
...
@@ -599,6 +636,5 @@ func generateCodecCode(typespec *ast.TypeSpec, codec CodecCodeGen) string {
codegenType
(
"p"
,
typ
,
obj
,
codec
)
codec
.
genEpilogue
()
return
codec
.
generatedCode
()
}
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