asdf 0.1.0-alpha0
A Simple Document Format: JSON serialization library
To use this package, run the following command in your project's root directory:
Manual usage
Put the following dependency into your project's dependences section:
A Simple Document Format
ASDF is a cache oriented string based JSON representation. Besides, it is a convenient Json Library for D that gets out of your way. ASDF is specially geared towards transforming high volumes of JSON dataframes, either to new JSON Objects or to custom data types.
❗️: Currently all ASDF Method names and all UDAs are in DRAFT state, we might want want make them simpler. Please submit an Issue if you have input.
❗️: ASDF is currently only very loosely validating jsons and with certain functions even silently and on purpose ignoring failing Objects (see below).
Why ASDF?
- ASDF is fast. It can be really helpful if you have gigabytes of JSON line separated values.
- ASDF is simple. It uses D's modelling power to make you write less boilerplate code.
- ASDF is tested and used in production for real World JSON generated by millions of web clients (we call it the great fuzzer).
Simple Example
- define your struct
- call
serializeToJson
( orserializeToJsonPretty
for pretty printing! ) - profit!
import asdf;
struct Simple
{
string name;
ulong level;
}
void main()
{
auto o = Simple("asdf", 42);
string data = `{"name":"asdf","level":42}`;
assert(o.serializeToJson() == data);
assert(data.deserialize!Simple == o);
}
Documentation
See ASDF API and Specification.
I/O Speed
- Reading JSON line separated values and parsing them to ASDF - 300+ MB per second (SSD).
- Writing ASDF range to JSON line separated values - 300+ MB per second (SSD).
Fast setup with the dub package manager
Dub is the D's package manager. You can create a new project with:
dub init <project-name>
Now you need to edit the dub.json
add asdf
as dependency and set its targetType to executable
.
{
...
"dependencies": {
"asdf": "~><current-version>"
},
"targetType": "executable",
"dflags-ldc": ["-mcpu=native"]
}
Now you can create a main file in the source
and run your code with
dub
Flags --build=release
and --compiler=ldmd2
can be added for a performance boost:
dub --build=release --compiler=ldmd2
ldmd2
is a shell on top of LDC (LLVM D Compiler).
"dflags-ldc": ["-mcpu=native"]
allows LDC to optimize Mir for your CPU.
Instead of using -mcpu=native
, you may specify additional instruction set for a target with -mattr
.
For example, -mattr=+sse4.2
. ASDF has specialized code for
SSE4.2.
Compatibility
- LDC (LLVM D Compiler) >=
1.1.0-beta2
(recommended compiler). - DMD (reference D compiler) >=
2.072.1
.
Main transformation functions
uda | function |
---|---|
@serializationKeys("bar_common", "bar") | tries to read the data from either property. saves it to the first one |
@serializationKeysIn("a", "b") | tries to read the data from a , then b . last one occuring in the json wins |
@serializationKeyOut("a") | writes it to a |
@serializationMultiKeysIn(["a", "b", "c"]) | tries to get the data from a sub object. this has not optimal performance yet if you are using more than 1 serializationMultiKeysIn in an object |
@serializationIgnore | ignore this property completely |
@serializationIgnoreIn | don't read this property |
@serializationIgnoreOut | don't write this property |
@serializationScoped | Dangerous! non allocating strings. this means data can vanish if the underlying buffer is removed. |
@serializedAs!string | call to!string |
@serializationTransformIn!fin | call function fin to transform the data |
@serializationTransformOut!fout | run function fout on serialization, different notation |
@serializationFlexible | be flexible on the datatype on reading, e.g. read long's that are wrapped as strings |
please also look into the Docs or Unittest for concrete examples!
ASDF Example (incomplete)
import std.algorithm;
import std.stdio;
import asdf;
void main()
{
auto target = Asdf("red");
File("input.jsonl")
// Use at least 4096 bytes for real wolrd apps
.byChunk(4096)
// 32 is minimal value for internal buffer. Buffer can be realocated to get more memory.
.parseJsonByLine(4096)
.filter!(object => object
// opIndex accepts array of keys: {"key0": {"key1": { ... {"keyN-1": <value>}... }}}
["colors"]
// iterates over an array
.byElement
// Comparison with ASDF is little bit faster
// then compression with a string.
.canFind(target))
//.canFind("tadmp5800"))
// Formatting uses internal buffer to reduce system delegate and system function calls
.each!writeln;
}
Input
Single object per line: 4th and 5th lines are broken.
null
{"colors": ["red"]}
{"a":"b", "colors": [4, "red", "string"]}
{"colors":["red"],
"comment" : "this is broken (multiline) object"}
{"colors": "green"}
{"colors": "red"]}}
[]
Output
{"colors":["red"]}
{"a":"b","colors":[4,"red","string"]}
JSON and ASDF Serialization Examples
Simple struct or object
struct S
{
string a;
long b;
private int c; // private feilds are ignored
package int d; // package feilds are ignored
// all other fields in JSON are ignored
}
Selection
struct S
{
// ignored
@serializationIgnore int temp;
// can be formatted to json
@serializationIgnoreIn int a;
//can be parsed from json
@serializationIgnoreOut int b;
}
Key overriding
struct S
{
// key is overrided to "aaa"
@serializationKeys("aaa") int a;
// overloads multiple keys for parsing
@serializationKeysIn("b", "_b")
// overloads key for generation
@serializationKeyOut("_b_")
int b;
}
User-Defined Serialization
struct DateTimeProxy
{
DateTime datetime;
alias datetime this;
static DateTimeProxy deserialize(Asdf data)
{
string val;
deserializeScopedString(data, val);
return DateTimeProxy(DateTime.fromISOString(val));
}
void serialize(S)(ref S serializer)
{
serializer.putValue(datetime.toISOString);
}
}
//serialize a Doubly Linked list into an Array
struct SomeDoublyLinkedList
{
@serializationIgnore DList!(SomeArr[]) myDll;
alias myDll this;
//no template but a function this time!
void serialize(ref AsdfSerializer serializer)
{
auto state = serializer.arrayBegin();
foreach (ref elem; myDll)
{
serializer.elemBegin;
serializer.serializeValue(elem);
}
serializer.arrayEnd(state);
}
}
Serialization Proxy
struct S
{
@serializedAs!DateTimeProxy DateTime time;
}
Finalizer
If you need to do additional calculations or etl transformations that happen to depend on the deserialized data use the finalizeDeserialization
method.
struct S
{
string a;
int b;
@serializationIgnoreIn double sum;
void finalizeDeserialization(Asdf data)
{
auto r = data["c", "d"];
auto a = r["e"].get(0.0);
auto b = r["g"].get(0.0);
sum = a + b;
}
}
assert(`{"a":"bar","b":3,"c":{"d":{"e":6,"g":7}}}`.deserialize!S == S("bar", 3, 13));
serializationFlexible
static struct S
{
@serializationFlexible uint a;
}
assert(`{"a":"100"}`.deserialize!S.a == 100);
assert(`{"a":true}`.deserialize!S.a == 1);
assert(`{"a":null}`.deserialize!S.a == 0);
- Registered by Ilia Ki
- 0.1.0-alpha0 released 8 years ago
- libmir/asdf
- BSL-1.0
- Tamedia Digital, 2016
- Authors:
- Dependencies:
- none
- Versions:
-
0.7.17 2023-Feb-07 0.7.16 2023-Feb-01 0.7.15 2022-Jun-02 0.7.14 2022-Mar-24 0.7.13 2021-Nov-09 - Download Stats:
-
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- Score:
- 4.0
- Short URL:
- asdf.dub.pm