import std/json except `%`, `%*` import std/macros import std/options import std/strutils import std/strformat import std/tables import std/typetraits import pkg/chronicles from pkg/libp2p import Cid, init import pkg/contractabi import pkg/stew/byteutils import pkg/stint import pkg/questionable/results import ../errors export json except `%`, `%*` logScope: topics = "json serialization" type SerializationError = object of CodexError UnexpectedKindError = object of SerializationError template serialize* {.pragma.} proc newUnexpectedKindError( expectedType: type, expectedKinds: string, json: JsonNode ): ref UnexpectedKindError = let kind = if json.isNil: "nil" else: $json.kind newException(UnexpectedKindError, &"deserialization to {$expectedType} failed: expected {expectedKinds} " & &"but got {kind}") proc newUnexpectedKindError( expectedType: type, expectedKinds: set[JsonNodeKind], json: JsonNode ): ref UnexpectedKindError = newUnexpectedKindError(expectedType, $expectedKinds, json) proc newUnexpectedKindError( expectedType: type, expectedKind: JsonNodeKind, json: JsonNode ): ref UnexpectedKindError = newUnexpectedKindError(expectedType, {expectedKind}, json) template expectJsonKind( expectedType: type, expectedKinds: set[JsonNodeKind], json: JsonNode ) = if json.isNil or json.kind notin expectedKinds: return failure(newUnexpectedKindError(expectedType, expectedKinds, json)) template expectJsonKind( expectedType: type, expectedKind: JsonNodeKind, json: JsonNode ) = expectJsonKind(expectedType, {expectedKind}, json) proc fromJson*( _: type string, json: JsonNode ): ?!string = if json.isNil: let err = newException(ValueError, "'json' expected, but was nil") return failure(err) elif json.kind == JNull: return success("null") elif json.isNil or json.kind != JString: return failure(newUnexpectedKindError(string, JString, json)) catch json.getStr proc fromJson*( _: type bool, json: JsonNode ): ?!bool = expectJsonKind(bool, JBool, json) catch json.getBool proc fromJson*( _: type int, json: JsonNode ): ?!int = expectJsonKind(int, JInt, json) catch json.getInt proc fromJson*[T: SomeInteger]( _: type T, json: JsonNode ): ?!T = when T is uint|uint64 or (not defined(js) and int.sizeof == 4): expectJsonKind(T, {JInt, JString}, json) case json.kind of JString: let x = parseBiggestUInt(json.str) return success cast[T](x) else: return success T(json.num) else: expectJsonKind(T, {JInt}, json) return success cast[T](json.num) proc fromJson*[T: SomeFloat]( _: type T, json: JsonNode ): ?!T = expectJsonKind(T, {JInt, JFloat, JString}, json) if json.kind == JString: case json.str of "nan": let b = NaN return success T(b) # dst = NaN # would fail some tests because range conversions would cause CT error # in some cases; but this is not a hot-spot inside this branch and backend can optimize this. of "inf": let b = Inf return success T(b) of "-inf": let b = -Inf return success T(b) else: let err = newUnexpectedKindError(T, "'nan|inf|-inf'", json) return failure(err) else: if json.kind == JFloat: return success T(json.fnum) else: return success T(json.num) proc fromJson*( _: type seq[byte], json: JsonNode ): ?!seq[byte] = expectJsonKind(seq[byte], JString, json) hexToSeqByte(json.getStr).catch proc fromJson*[N: static[int], T: array[N, byte]]( _: type T, json: JsonNode ): ?!T = expectJsonKind(T, JString, json) T.fromHex(json.getStr).catch proc fromJson*[T: distinct]( _: type T, json: JsonNode ): ?!T = success T(? T.distinctBase.fromJson(json)) proc fromJson*[N: static[int], T: StUint[N]]( _: type T, json: JsonNode ): ?!T = expectJsonKind(T, JString, json) catch parse(json.getStr, T) proc fromJson*[T]( _: type Option[T], json: JsonNode ): ?! Option[T] = if json.isNil or json.kind == JNull: return success(none T) without val =? T.fromJson(json), error: return failure(error) success(val.some) proc fromJson*( _: type Cid, json: JsonNode ): ?!Cid = expectJsonKind(Cid, JString, json) Cid.init($json).mapFailure proc fromJson*[T]( _: type seq[T], json: JsonNode ): ?! seq[T] = expectJsonKind(seq[T], JArray, json) var arr: seq[T] = @[] for elem in json.elems: arr.add(? T.fromJson(elem)) success arr proc fromJson*[T: object]( _: type T, json: JsonNode ): ?!T = expectJsonKind(T, JObject, json) var res = T.default # Leave this in, it's good for debugging: # trace "deserializing object", to = $T, json for name, value in fieldPairs(res): if json{name} != nil: without parsed =? type(value).fromJson(json{name}), e: error "error deserializing field", field = $T & "." & name, json = json{name}, error = e.msg return failure(e) value = parsed success(res) proc fromJson*[T: ref object]( _: type T, json: JsonNode ): ?!T = expectJsonKind(T, JObject, json) var res = T.new() # Leave this in, it's good for debugging: # trace "deserializing object", to = $T, json for name, value in fieldPairs(res[]): if json{name} != nil: without parsed =? type(value).fromJson(json{name}), e: error "error deserializing field", field = $T & "." & name, json = json{name}, error = e.msg return failure(e) value = parsed success(res) proc fromJson*[T: object]( _: type T, bytes: seq[byte] ): ?!T = let json = ?catch parseJson(string.fromBytes(bytes)) T.fromJson(json) func `%`*(s: string): JsonNode = newJString(s) func `%`*(n: uint): JsonNode = if n > cast[uint](int.high): newJString($n) else: newJInt(BiggestInt(n)) func `%`*(n: int): JsonNode = newJInt(n) func `%`*(n: BiggestUInt): JsonNode = if n > cast[BiggestUInt](BiggestInt.high): newJString($n) else: newJInt(BiggestInt(n)) func `%`*(n: BiggestInt): JsonNode = newJInt(n) func `%`*(n: float): JsonNode = if n != n: newJString("nan") elif n == Inf: newJString("inf") elif n == -Inf: newJString("-inf") else: newJFloat(n) func `%`*(b: bool): JsonNode = newJBool(b) func `%`*(keyVals: openArray[tuple[key: string, val: JsonNode]]): JsonNode = if keyVals.len == 0: return newJArray() let jObj = newJObject() for key, val in items(keyVals): jObj.fields[key] = val jObj template `%`*(j: JsonNode): JsonNode = j func `%`*[T](table: Table[string, T]|OrderedTable[string, T]): JsonNode = let jObj = newJObject() for k, v in table: jObj[k] = ? %v jObj func `%`*[T](opt: Option[T]): JsonNode = if opt.isSome: %(opt.get) else: newJNull() func `%`*[T: object](obj: T): JsonNode = let jsonObj = newJObject() for name, value in obj.fieldPairs: when value.hasCustomPragma(serialize): jsonObj[name] = %value jsonObj func `%`*[T: ref object](obj: T): JsonNode = let jsonObj = newJObject() for name, value in obj[].fieldPairs: when value.hasCustomPragma(serialize): jsonObj[name] = %(value) jsonObj proc `%`*(o: enum): JsonNode = % $o func `%`*(stint: StInt|StUint): JsonNode = %stint.toString func `%`*(cstr: cstring): JsonNode = % $cstr func `%`*(arr: openArray[byte]): JsonNode = % arr.to0xHex func `%`*[T](elements: openArray[T]): JsonNode = let jObj = newJArray() for elem in elements: jObj.add(%elem) jObj func `%`*[T: distinct](id: T): JsonNode = type baseType = T.distinctBase % baseType(id) proc toJsnImpl(x: NimNode): NimNode = case x.kind of nnkBracket: # array if x.len == 0: return newCall(bindSym"newJArray") result = newNimNode(nnkBracket) for i in 0 ..< x.len: result.add(toJsnImpl(x[i])) result = newCall(bindSym("%", brOpen), result) of nnkTableConstr: # object if x.len == 0: return newCall(bindSym"newJObject") result = newNimNode(nnkTableConstr) for i in 0 ..< x.len: x[i].expectKind nnkExprColonExpr result.add newTree(nnkExprColonExpr, x[i][0], toJsnImpl(x[i][1])) result = newCall(bindSym("%", brOpen), result) of nnkCurly: # empty object x.expectLen(0) result = newCall(bindSym"newJObject") of nnkNilLit: result = newCall(bindSym"newJNull") of nnkPar: if x.len == 1: result = toJsnImpl(x[0]) else: result = newCall(bindSym("%", brOpen), x) else: result = newCall(bindSym("%", brOpen), x) macro `%*`*(x: untyped): JsonNode = ## Convert an expression to a JsonNode directly, without having to specify ## `%` for every element. result = toJsnImpl(x)