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Tristan B. Velloza Kildaire 2023-01-09 12:03:16 +02:00
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.gitignore vendored
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.dub
docs.json
__dummy.html
docs/
/jstruct
jstruct.so
jstruct.dylib
jstruct.dll
jstruct.a
jstruct.lib
jstruct-test-*
*.exe
*.pdb
*.o
*.obj
*.lst
libjstruct.a

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LICENSE
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GNU LESSER GENERAL PUBLIC LICENSE
Version 3, 29 June 2007
Copyright (C) 2007 Free Software Foundation, Inc. <https://fsf.org/>
Everyone is permitted to copy and distribute verbatim copies
of this license document, but changing it is not allowed.
This version of the GNU Lesser General Public License incorporates
the terms and conditions of version 3 of the GNU General Public
License, supplemented by the additional permissions listed below.
0. Additional Definitions.
As used herein, "this License" refers to version 3 of the GNU Lesser
General Public License, and the "GNU GPL" refers to version 3 of the GNU
General Public License.
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other than an Application or a Combined Work as defined below.
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![](branding/logo.png)
jstruct
=======
#### _Struct JSON serializer/deserializer_
----
## Usage
### Serialization
Below we define a struct called `Person`:
```d
struct Person
{
public string firstname, lastname;
public int age;
public string[] list;
public JSONValue extraJSON;
}
```
Let's create a instance and set some values before we continue:
```d
Person p1;
p1.firstname = "Tristan";
p1.lastname = "Kildaire";
p1.age = 23;
p1.list = ["1", "2", "3"];
p1.extraJSON = parseJSON(`{"item":1, "items":[1,2,3]}`);
```
Now, we make a call to `serializeRecord` as follows:
```d
JSONValue serialized = serializeRecord(p1);
```
This returns the following JSON:
```json
{
"age": 23,
"extraJSON": {
"item": 1,
"items": [
1,
2,
3
]
},
"firstname": "Tristan",
"lastname": "Kildaire",
"list": "[\"1\", \"2\", \"3\"]"
}
```
### Deserialization
Deserialization works by having your predefined struct type and then looking up those field names in the provided JSON. Therefore for this we will be using the following struct type:
```d
struct Person
{
public string firstname, lastname;
public int age;
public bool isMale;
public JSONValue obj;
}
```
Now, let's say we were given the following JSON:
```json
{
"firstname" : "Tristan",
"lastname": "Kildaire",
"age": 23,
"obj" : {"bruh":1},
"isMale": true,
}
```
We can then deserialize the JSON to our type `Person`, with the `fromJSON` method:
```d
// Define our JSON
JSONValue json = parseJSON(`{
"firstname" : "Tristan",
"lastname": "Kildaire",
"age": 23,
"obj" : {"bruh":1},
"isMale": true,
"list": [1,2,3]
}
`);
// Deserialize
Person person = fromJSON!(Person)(json);
```
And we can confirm this with:
```d
writeln(person):
```
Which will output:
```
Person("Tristan", "Kildaire", 23, true, {"bruh":1})
```
## Installing
In order to use jstruct in your project simply run:
```bash
dub add jstruct
```
And then in your D program import as follows:
```d
import jstruct;
```
## Help wanted
There are some outstanding issues I want to be able to fix/have implemented, namely:
- [ ] Support for array serialization/deserialization - see issue #1
- [ ] Support for custom types serialization/deserialization (think `enums` for example) - see issue #2

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Deserialization
===============
Deserialization works by having your predefined struct type and then looking up those field names in the provided JSON. Therefore for this we will be using the following struct type:
```d
struct Person
{
public string firstname, lastname;
public int age;
public bool isMale;
public JSONValue obj;
}
```
Now, let's say we were given the following JSON:
```json
{
"firstname" : "Tristan",
"lastname": "Kildaire",
"age": 23,
"obj" : {"bruh":1},
"isMale": true,
}
```
We can then deserialize the JSON to our type `Person`, with the `fromJSON` method:
```d
// Define our JSON
JSONValue json = parseJSON(`{
"firstname" : "Tristan",
"lastname": "Kildaire",
"age": 23,
"obj" : {"bruh":1},
"isMale": true,
"list": [1,2,3]
}
`);
// Deserialize
Person person = fromJSON!(Person)(json);
```
And we can confirm this with:
```d
writeln(person):
```
Which will output:
```
Person("Tristan", "Kildaire", 23, true, {"bruh":1})
```

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jstruct
=======
#### _Struct JSON serializer/deserializer_
----
## API
For full API documentation see [DUB API Spec](https://jstruct.dpldocs.info/index.html).
## Installing
In order to use jstruct in your project simply run:
```bash
dub add jstruct
```
And then in your D program import as follows:
```d
import jstruct;
```
## Help wanted
There are some outstanding issues I want to be able to fix/have implemented, namely:
- [ ] Support for array serialization/deserialization - see issue #1
- [ ] Support for custom types serialization/deserialization (think `enums` for example) - see issue #2

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Serialization
=============
Below we define a struct called `Person`:
```d
struct Person
{
public string firstname, lastname;
public int age;
public string[] list;
public JSONValue extraJSON;
}
```
Let's create a instance and set some values before we continue:
```d
Person p1;
p1.firstname = "Tristan";
p1.lastname = "Kildaire";
p1.age = 23;
p1.list = ["1", "2", "3"];
p1.extraJSON = parseJSON(`{"item":1, "items":[1,2,3]}`);
```
Now, we make a call to `serializeRecord` as follows:
```d
JSONValue serialized = serializeRecord(p1);
```
This returns the following JSON:
```json
{
"age": 23,
"extraJSON": {
"item": 1,
"items": [
1,
2,
3
]
},
"firstname": "Tristan",
"lastname": "Kildaire",
"list": "[\"1\", \"2\", \"3\"]"
}
```

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{
"authors": [
"Tristan B. Velloza Kildaire"
],
"copyright": "Copyright © 2023, Tristan B. Velloza Kildaire",
"description": "Struct JSON serializer/deserializer",
"license": "LGPL v3.0",
"name": "jstruct",
"targetType": "library"
}

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site_name: jstruct
theme: alabaster
extra:
logo: logo.png

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source/jstruct/deserializer.d
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module jstruct.deserializer;
import std.json;
import jstruct.exceptions : SerializationError;
import std.traits : FieldTypeTuple, FieldNameTuple;
/**
* Deserializes the provided JSON into a struct of type RecordType
*
* Params:
* jsonIn = the JSON to deserialize
* Throws:
* RemoteFieldMissing = if the field names in the provided RecordType
* cannot be found within the prpvided JSONValue `jsonIn`.
* Returns: an instance of RecordType
*/
public RecordType fromJSON(RecordType)(JSONValue jsonIn)
{
RecordType record;
// Alias as to only expand later when used in compile-time
alias structTypes = FieldTypeTuple!(RecordType);
alias structNames = FieldNameTuple!(RecordType);
alias structValues = record.tupleof;
static foreach(cnt; 0..structTypes.length)
{
debug(dbg)
{
pragma(msg, structTypes[cnt]);
pragma(msg, structNames[cnt]);
// pragma(msg, structValues[cnt]);
}
debug(dbg)
{
pragma(msg, "Bruh type");
pragma(msg, structTypes[cnt]);
// pragma(msg, __traits(identifier, mixin(structTypes[cnt])));
}
try
{
static if(__traits(isSame, mixin(structTypes[cnt]), byte))
{
mixin("record."~structNames[cnt]) = cast(byte)jsonIn[structNames[cnt]].integer();
}
else static if(__traits(isSame, mixin(structTypes[cnt]), ubyte))
{
mixin("record."~structNames[cnt]) = cast(ubyte)jsonIn[structNames[cnt]].uinteger();
}
else static if(__traits(isSame, mixin(structTypes[cnt]), short))
{
mixin("record."~structNames[cnt]) = cast(short)jsonIn[structNames[cnt]].integer();
}
else static if(__traits(isSame, mixin(structTypes[cnt]), ushort))
{
mixin("record."~structNames[cnt]) = cast(ushort)jsonIn[structNames[cnt]].uinteger();
}
else static if(__traits(isSame, mixin(structTypes[cnt]), int))
{
mixin("record."~structNames[cnt]) = cast(int)jsonIn[structNames[cnt]].integer();
}
else static if(__traits(isSame, mixin(structTypes[cnt]), uint))
{
mixin("record."~structNames[cnt]) = cast(uint)jsonIn[structNames[cnt]].uinteger();
}
else static if(__traits(isSame, mixin(structTypes[cnt]), ulong))
{
mixin("record."~structNames[cnt]) = cast(ulong)jsonIn[structNames[cnt]].uinteger();
}
else static if(__traits(isSame, mixin(structTypes[cnt]), long))
{
mixin("record."~structNames[cnt]) = cast(long)jsonIn[structNames[cnt]].integer();
}
else static if(__traits(isSame, mixin(structTypes[cnt]), string))
{
mixin("record."~structNames[cnt]) = jsonIn[structNames[cnt]].str();
debug(dbg)
{
pragma(msg,"record."~structNames[cnt]);
}
}
else static if(__traits(isSame, mixin(structTypes[cnt]), JSONValue))
{
mixin("record."~structNames[cnt]) = jsonIn[structNames[cnt]];
debug(dbg)
{
pragma(msg,"record."~structNames[cnt]);
}
}
else static if(__traits(isSame, mixin(structTypes[cnt]), bool))
{
mixin("record."~structNames[cnt]) = jsonIn[structNames[cnt]].boolean();
debug(dbg)
{
pragma(msg,"record."~structNames[cnt]);
}
}
//FIXME: Not sure how to get array support going, very new to meta programming
else static if(__traits(isSame, mixin(structTypes[cnt]), mixin(structTypes[cnt])[]))
{
mixin("record."~structNames[cnt]) = jsonIn[structNames[cnt]].boolean();
debug(dbg)
{
pragma(msg,"record."~structNames[cnt]);
}
}
else
{
// throw new
//TODO: Throw error
debug(dbg)
{
pragma(msg, "Unknown type for de-serialization");
}
}
}
catch(JSONException e)
{
throw new SerializationError();
}
}
return record;
}
unittest
{
import std.string : cmp;
import std.stdio : writeln;
struct Person
{
public string firstname, lastname;
public int age;
public bool isMale;
public JSONValue obj;
public int[] list;
}
JSONValue json = parseJSON(`{
"firstname" : "Tristan",
"lastname": "Kildaire",
"age": 23,
"obj" : {"bruh":1},
"isMale": true,
"list": [1,2,3]
}
`);
Person person = fromJSON!(Person)(json);
debug(dbg)
{
writeln(person);
}
assert(cmp(person.firstname, "Tristan") == 0);
assert(cmp(person.lastname, "Kildaire") == 0);
assert(person.age == 23);
assert(person.isMale == true);
assert(person.obj["bruh"].integer() == 1);
//TODO: list test case
}
unittest
{
import std.string : cmp;
import std.stdio : writeln;
struct Person
{
public string firstname, lastname;
public int age;
public bool isMale;
public JSONValue obj;
public int[] list;
}
JSONValue json = parseJSON(`{
"firstname" : "Tristan",
"lastname": "Kildaire",
"age": 23,
"obj" : {"bruh":1},
"list": [1,2,3]
}
`);
try
{
Person person = fromJSON!(Person)(json);
assert(false);
}
catch(SerializationError)
{
assert(true);
}
}

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source/jstruct/exceptions.d
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module jstruct.exceptions;
public abstract class JStructException : Exception
{
this(string msg)
{
super("JStructException: "~msg);
}
}
public final class SerializationError : JStructException
{
this()
{
super("Errro serializing");
}
}

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source/jstruct/package.d
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module jstruct;
public import jstruct.serializer;
public import jstruct.deserializer;
public import jstruct.exceptions;

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source/jstruct/serializer.d
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module jstruct.serializer;
import std.json;
import std.conv : to;
import std.traits : FieldTypeTuple, FieldNameTuple;
public JSONValue serializeRecord(RecordType)(RecordType record)
{
// Final JSON to submit
JSONValue builtJSON;
// Alias as to only expand later when used in compile-time
alias structTypes = FieldTypeTuple!(RecordType);
alias structNames = FieldNameTuple!(RecordType);
alias structValues = record.tupleof;
static foreach(cnt; 0..structTypes.length)
{
debug(dbg)
{
pragma(msg, structTypes[cnt]);
pragma(msg, structNames[cnt]);
// pragma(msg, structValues[cnt]);
}
static if(__traits(isSame, mixin(structTypes[cnt]), int))
{
builtJSON[structNames[cnt]] = structValues[cnt];
}
else static if(__traits(isSame, mixin(structTypes[cnt]), uint))
{
builtJSON[structNames[cnt]] = structValues[cnt];
}
else static if(__traits(isSame, mixin(structTypes[cnt]), ulong))
{
builtJSON[structNames[cnt]] = structValues[cnt];
}
else static if(__traits(isSame, mixin(structTypes[cnt]), long))
{
builtJSON[structNames[cnt]] = structValues[cnt];
}
else static if(__traits(isSame, mixin(structTypes[cnt]), string))
{
builtJSON[structNames[cnt]] = structValues[cnt];
}
else static if(__traits(isSame, mixin(structTypes[cnt]), JSONValue))
{
builtJSON[structNames[cnt]] = structValues[cnt];
}
else static if(__traits(isSame, mixin(structTypes[cnt]), bool))
{
builtJSON[structNames[cnt]] = structValues[cnt];
}
else
{
debug(dbg)
{
pragma(msg, "Yaa");
}
builtJSON[structNames[cnt]] = to!(string)(structValues[cnt]);
}
}
return builtJSON;
}
// Test serialization of a struct to JSON
private enum EnumType
{
DOG,
CAT
}
unittest
{
import std.algorithm.searching : canFind;
import std.string : cmp;
import std.stdio : writeln;
struct Person
{
public string firstname, lastname;
public int age;
public string[] list;
public JSONValue extraJSON;
public EnumType eType;
}
Person p1;
p1.firstname = "Tristan";
p1.lastname = "Kildaire";
p1.age = 23;
p1.list = ["1", "2", "3"];
p1.extraJSON = parseJSON(`{"item":1, "items":[1,2,3]}`);
p1.eType = EnumType.CAT;
JSONValue serialized = serializeRecord(p1);
string[] keys = serialized.object().keys();
assert(canFind(keys, "firstname") && cmp(serialized["firstname"].str(), "Tristan") == 0);
assert(canFind(keys, "lastname") && cmp(serialized["lastname"].str(), "Kildaire") == 0);
assert(canFind(keys, "age") && serialized["age"].integer() == 23);
debug(dbg)
{
writeln(serialized.toPrettyString());
}
}