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- ##[
- This module implements a hookable (de)serialization for arbitrary types using JSON.
- Design goal: avoid importing modules where a custom serialization is needed;
- see strtabs.fromJsonHook,toJsonHook for an example.
- ]##
- runnableExamples:
- import std/[strtabs,json]
- type Foo = ref object
- t: bool
- z1: int8
- let a = (1.5'f32, (b: "b2", a: "a2"), 'x', @[Foo(t: true, z1: -3), nil], [{"name": "John"}.newStringTable])
- let j = a.toJson
- assert j.jsonTo(typeof(a)).toJson == j
- assert $[NaN, Inf, -Inf, 0.0, -0.0, 1.0, 1e-2].toJson == """["nan","inf","-inf",0.0,-0.0,1.0,0.01]"""
- assert 0.0.toJson.kind == JFloat
- assert Inf.toJson.kind == JString
- import std/[json, strutils, tables, sets, strtabs, options, strformat]
- #[
- Future directions:
- add a way to customize serialization, for e.g.:
- * field renaming
- * allow serializing `enum` and `char` as `string` instead of `int`
- (enum is more compact/efficient, and robust to enum renamings, but string
- is more human readable)
- * handle cyclic references, using a cache of already visited addresses
- * implement support for serialization and de-serialization of nested variant
- objects.
- ]#
- import std/macros
- from std/enumutils import symbolName
- from std/typetraits import OrdinalEnum, tupleLen
- when defined(nimPreviewSlimSystem):
- import std/assertions
- proc isNamedTuple(T: typedesc): bool {.magic: "TypeTrait".}
- type
- Joptions* = object # xxx rename FromJsonOptions
- ## Options controlling the behavior of `fromJson`.
- allowExtraKeys*: bool
- ## If `true` Nim's object to which the JSON is parsed is not required to
- ## have a field for every JSON key.
- allowMissingKeys*: bool
- ## If `true` Nim's object to which JSON is parsed is allowed to have
- ## fields without corresponding JSON keys.
- # in future work: a key rename could be added
- EnumMode* = enum
- joptEnumOrd
- joptEnumSymbol
- joptEnumString
- JsonNodeMode* = enum ## controls `toJson` for JsonNode types
- joptJsonNodeAsRef ## returns the ref as is
- joptJsonNodeAsCopy ## returns a deep copy of the JsonNode
- joptJsonNodeAsObject ## treats JsonNode as a regular ref object
- ToJsonOptions* = object
- enumMode*: EnumMode
- jsonNodeMode*: JsonNodeMode
- # xxx charMode, etc
- proc initToJsonOptions*(): ToJsonOptions =
- ## initializes `ToJsonOptions` with sane options.
- ToJsonOptions(enumMode: joptEnumOrd, jsonNodeMode: joptJsonNodeAsRef)
- proc distinctBase(T: typedesc, recursive: static bool = true): typedesc {.magic: "TypeTrait".}
- template distinctBase[T](a: T, recursive: static bool = true): untyped = distinctBase(typeof(a), recursive)(a)
- macro getDiscriminants(a: typedesc): seq[string] =
- ## return the discriminant keys
- # candidate for std/typetraits
- var a = a.getTypeImpl
- doAssert a.kind == nnkBracketExpr
- let sym = a[1]
- let t = sym.getTypeImpl
- let t2 = t[2]
- case t2.kind
- of nnkEmpty: # allow empty objects
- result = quote do:
- seq[string].default
- of nnkRecList:
- result = newTree(nnkBracket)
- for ti in t2:
- if ti.kind == nnkRecCase:
- let key = ti[0][0]
- result.add newLit key.strVal
- if result.len > 0:
- result = quote do:
- @`result`
- else:
- result = quote do:
- seq[string].default
- else:
- raiseAssert "unexpected kind: " & $t2.kind
- macro initCaseObject(T: typedesc, fun: untyped): untyped =
- ## does the minimum to construct a valid case object, only initializing
- ## the discriminant fields; see also `getDiscriminants`
- # maybe candidate for std/typetraits
- var a = T.getTypeImpl
- doAssert a.kind == nnkBracketExpr
- let sym = a[1]
- let t = sym.getTypeImpl
- var t2: NimNode
- case t.kind
- of nnkObjectTy: t2 = t[2]
- of nnkRefTy: t2 = t[0].getTypeImpl[2]
- else: raiseAssert $t.kind # xxx `nnkPtrTy` could be handled too
- doAssert t2.kind == nnkRecList
- result = newTree(nnkObjConstr)
- result.add sym
- for ti in t2:
- if ti.kind == nnkRecCase:
- let key = ti[0][0]
- let typ = ti[0][1]
- let key2 = key.strVal
- let val = quote do:
- `fun`(`key2`, typedesc[`typ`])
- result.add newTree(nnkExprColonExpr, key, val)
- proc raiseJsonException(condStr: string, msg: string) {.noinline.} =
- # just pick 1 exception type for simplicity; other choices would be:
- # JsonError, JsonParser, JsonKindError
- raise newException(ValueError, condStr & " failed: " & msg)
- template checkJson(cond: untyped, msg = "") =
- if not cond:
- raiseJsonException(astToStr(cond), msg)
- proc hasField[T](obj: T, field: string): bool =
- for k, _ in fieldPairs(obj):
- if k == field:
- return true
- return false
- macro accessField(obj: typed, name: static string): untyped =
- newDotExpr(obj, ident(name))
- template fromJsonFields(newObj, oldObj, json, discKeys, opt) =
- type T = typeof(newObj)
- # we could customize whether to allow JNull
- checkJson json.kind == JObject, $json.kind
- var num, numMatched = 0
- for key, val in fieldPairs(newObj):
- num.inc
- when key notin discKeys:
- if json.hasKey key:
- numMatched.inc
- fromJson(val, json[key], opt)
- elif opt.allowMissingKeys:
- # if there are no discriminant keys the `oldObj` must always have the
- # same keys as the new one. Otherwise we must check, because they could
- # be set to different branches.
- when typeof(oldObj) isnot typeof(nil):
- if discKeys.len == 0 or hasField(oldObj, key):
- val = accessField(oldObj, key)
- else:
- checkJson false, "key '$1' for $2 not in $3" % [key, $T, json.pretty()]
- else:
- if json.hasKey key:
- numMatched.inc
- let ok =
- if opt.allowExtraKeys and opt.allowMissingKeys:
- true
- elif opt.allowExtraKeys:
- # This check is redundant because if here missing keys are not allowed,
- # and if `num != numMatched` it will fail in the loop above but it is left
- # for clarity.
- assert num == numMatched
- num == numMatched
- elif opt.allowMissingKeys:
- json.len == numMatched
- else:
- json.len == num and num == numMatched
- checkJson ok, "There were $1 keys (expecting $2) for $3 with $4" % [$json.len, $num, $T, json.pretty()]
- proc fromJson*[T](a: var T, b: JsonNode, opt = Joptions())
- proc discKeyMatch[T](obj: T, json: JsonNode, key: static string): bool =
- if not json.hasKey key:
- return true
- let field = accessField(obj, key)
- var jsonVal: typeof(field)
- fromJson(jsonVal, json[key])
- if jsonVal != field:
- return false
- return true
- macro discKeysMatchBodyGen(obj: typed, json: JsonNode,
- keys: static seq[string]): untyped =
- result = newStmtList()
- let r = ident("result")
- for key in keys:
- let keyLit = newLit key
- result.add quote do:
- `r` = `r` and discKeyMatch(`obj`, `json`, `keyLit`)
- proc discKeysMatch[T](obj: T, json: JsonNode, keys: static seq[string]): bool =
- result = true
- discKeysMatchBodyGen(obj, json, keys)
- proc fromJson*[T](a: var T, b: JsonNode, opt = Joptions()) =
- ## inplace version of `jsonTo`
- #[
- adding "json path" leading to `b` can be added in future work.
- ]#
- checkJson b != nil, $($T, b)
- when compiles(fromJsonHook(a, b, opt)): fromJsonHook(a, b, opt)
- elif compiles(fromJsonHook(a, b)): fromJsonHook(a, b)
- elif T is bool: a = to(b,T)
- elif T is enum:
- case b.kind
- of JInt: a = T(b.getBiggestInt())
- of JString: a = parseEnum[T](b.getStr())
- else: checkJson false, fmt"Expecting int/string for {$T} got {b.pretty()}"
- elif T is uint|uint64: a = T(to(b, uint64))
- elif T is Ordinal: a = cast[T](to(b, int))
- elif T is pointer: a = cast[pointer](to(b, int))
- elif T is distinct: a.distinctBase.fromJson(b)
- elif T is string|SomeNumber: a = to(b,T)
- elif T is cstring:
- case b.kind
- of JNull: a = nil
- of JString: a = b.str
- else: checkJson false, fmt"Expecting null/string for {$T} got {b.pretty()}"
- elif T is JsonNode: a = b
- elif T is ref | ptr:
- if b.kind == JNull: a = nil
- else:
- a = T()
- fromJson(a[], b, opt)
- elif T is array:
- checkJson a.len == b.len, fmt"Json array size doesn't match for {$T}"
- var i = 0
- for ai in mitems(a):
- fromJson(ai, b[i], opt)
- i.inc
- elif T is set:
- type E = typeof(for ai in a: ai)
- for val in b.getElems:
- incl a, jsonTo(val, E)
- elif T is seq:
- a.setLen b.len
- for i, val in b.getElems:
- fromJson(a[i], val, opt)
- elif T is object:
- template fun(key, typ): untyped {.used.} =
- if b.hasKey key:
- jsonTo(b[key], typ)
- elif hasField(a, key):
- accessField(a, key)
- else:
- default(typ)
- const keys = getDiscriminants(T)
- when keys.len == 0:
- fromJsonFields(a, nil, b, keys, opt)
- else:
- if discKeysMatch(a, b, keys):
- fromJsonFields(a, nil, b, keys, opt)
- else:
- var newObj = initCaseObject(T, fun)
- fromJsonFields(newObj, a, b, keys, opt)
- a = newObj
- elif T is tuple:
- when isNamedTuple(T):
- fromJsonFields(a, nil, b, seq[string].default, opt)
- else:
- checkJson b.kind == JArray, $(b.kind) # we could customize whether to allow JNull
- when compiles(tupleLen(T)):
- let tupleSize = tupleLen(T)
- else:
- # Tuple len isn't in csources_v1 so using tupleLen would fail.
- # Else branch basically never runs (tupleLen added in 1.1 and jsonutils in 1.4), but here for consistency
- var tupleSize = 0
- for val in fields(a):
- tupleSize.inc
- checkJson b.len == tupleSize, fmt"Json doesn't match expected length of {tupleSize}, got {b.pretty()}"
- var i = 0
- for val in fields(a):
- fromJson(val, b[i], opt)
- i.inc
- else:
- # checkJson not appropriate here
- static: raiseAssert "not yet implemented: " & $T
- proc jsonTo*(b: JsonNode, T: typedesc, opt = Joptions()): T =
- ## reverse of `toJson`
- fromJson(result, b, opt)
- proc toJson*[T](a: T, opt = initToJsonOptions()): JsonNode =
- ## serializes `a` to json; uses `toJsonHook(a: T)` if it's in scope to
- ## customize serialization, see strtabs.toJsonHook for an example.
- ##
- ## .. note:: With `-d:nimPreviewJsonutilsHoleyEnum`, `toJson` now can
- ## serialize/deserialize holey enums as regular enums (via `ord`) instead of as strings.
- ## It is expected that this behavior becomes the new default in upcoming versions.
- when compiles(toJsonHook(a, opt)): result = toJsonHook(a, opt)
- elif compiles(toJsonHook(a)): result = toJsonHook(a)
- elif T is object | tuple:
- when T is object or isNamedTuple(T):
- result = newJObject()
- for k, v in a.fieldPairs: result[k] = toJson(v, opt)
- else:
- result = newJArray()
- for v in a.fields: result.add toJson(v, opt)
- elif T is ref | ptr:
- template impl =
- if system.`==`(a, nil): result = newJNull()
- else: result = toJson(a[], opt)
- when T is JsonNode:
- case opt.jsonNodeMode
- of joptJsonNodeAsRef: result = a
- of joptJsonNodeAsCopy: result = copy(a)
- of joptJsonNodeAsObject: impl()
- else: impl()
- elif T is array | seq | set:
- result = newJArray()
- for ai in a: result.add toJson(ai, opt)
- elif T is pointer: result = toJson(cast[int](a), opt)
- # edge case: `a == nil` could've also led to `newJNull()`, but this results
- # in simpler code for `toJson` and `fromJson`.
- elif T is distinct: result = toJson(a.distinctBase, opt)
- elif T is bool: result = %(a)
- elif T is SomeInteger: result = %a
- elif T is enum:
- case opt.enumMode
- of joptEnumOrd:
- when T is Ordinal or defined(nimPreviewJsonutilsHoleyEnum): %(a.ord)
- else: toJson($a, opt)
- of joptEnumSymbol:
- when T is OrdinalEnum:
- toJson(symbolName(a), opt)
- else:
- toJson($a, opt)
- of joptEnumString: toJson($a, opt)
- elif T is Ordinal: result = %(a.ord)
- elif T is cstring: (if a == nil: result = newJNull() else: result = % $a)
- else: result = %a
- proc fromJsonHook*[K: string|cstring, V](t: var (Table[K, V] | OrderedTable[K, V]),
- jsonNode: JsonNode, opt = Joptions()) =
- ## Enables `fromJson` for `Table` and `OrderedTable` types.
- ##
- ## See also:
- ## * `toJsonHook proc<#toJsonHook>`_
- runnableExamples:
- import std/[tables, json]
- var foo: tuple[t: Table[string, int], ot: OrderedTable[string, int]]
- fromJson(foo, parseJson("""
- {"t":{"two":2,"one":1},"ot":{"one":1,"three":3}}"""))
- assert foo.t == [("one", 1), ("two", 2)].toTable
- assert foo.ot == [("one", 1), ("three", 3)].toOrderedTable
- assert jsonNode.kind == JObject,
- "The kind of the `jsonNode` must be `JObject`, but its actual " &
- "type is `" & $jsonNode.kind & "`."
- clear(t)
- for k, v in jsonNode:
- t[k] = jsonTo(v, V, opt)
- proc toJsonHook*[K: string|cstring, V](t: (Table[K, V] | OrderedTable[K, V]), opt = initToJsonOptions()): JsonNode =
- ## Enables `toJson` for `Table` and `OrderedTable` types.
- ##
- ## See also:
- ## * `fromJsonHook proc<#fromJsonHook,,JsonNode>`_
- runnableExamples:
- import std/[tables, json, sugar]
- let foo = (
- t: [("two", 2)].toTable,
- ot: [("one", 1), ("three", 3)].toOrderedTable)
- assert $toJson(foo) == """{"t":{"two":2},"ot":{"one":1,"three":3}}"""
- # if keys are not string|cstring, you can use this:
- let a = {10: "foo", 11: "bar"}.newOrderedTable
- let a2 = collect: (for k,v in a: (k,v))
- assert $toJson(a2) == """[[10,"foo"],[11,"bar"]]"""
- result = newJObject()
- for k, v in pairs(t):
- # not sure if $k has overhead for string
- result[(when K is string: k else: $k)] = toJson(v, opt)
- proc fromJsonHook*[A](s: var SomeSet[A], jsonNode: JsonNode, opt = Joptions()) =
- ## Enables `fromJson` for `HashSet` and `OrderedSet` types.
- ##
- ## See also:
- ## * `toJsonHook proc<#toJsonHook,SomeSet[A]>`_
- runnableExamples:
- import std/[sets, json]
- var foo: tuple[hs: HashSet[string], os: OrderedSet[string]]
- fromJson(foo, parseJson("""
- {"hs": ["hash", "set"], "os": ["ordered", "set"]}"""))
- assert foo.hs == ["hash", "set"].toHashSet
- assert foo.os == ["ordered", "set"].toOrderedSet
- assert jsonNode.kind == JArray,
- "The kind of the `jsonNode` must be `JArray`, but its actual " &
- "type is `" & $jsonNode.kind & "`."
- clear(s)
- for v in jsonNode:
- incl(s, jsonTo(v, A, opt))
- proc toJsonHook*[A](s: SomeSet[A], opt = initToJsonOptions()): JsonNode =
- ## Enables `toJson` for `HashSet` and `OrderedSet` types.
- ##
- ## See also:
- ## * `fromJsonHook proc<#fromJsonHook,SomeSet[A],JsonNode>`_
- runnableExamples:
- import std/[sets, json]
- let foo = (hs: ["hash"].toHashSet, os: ["ordered", "set"].toOrderedSet)
- assert $toJson(foo) == """{"hs":["hash"],"os":["ordered","set"]}"""
- result = newJArray()
- for k in s:
- add(result, toJson(k, opt))
- proc fromJsonHook*[T](self: var Option[T], jsonNode: JsonNode, opt = Joptions()) =
- ## Enables `fromJson` for `Option` types.
- ##
- ## See also:
- ## * `toJsonHook proc<#toJsonHook,Option[T]>`_
- runnableExamples:
- import std/[options, json]
- var opt: Option[string]
- fromJsonHook(opt, parseJson("\"test\""))
- assert get(opt) == "test"
- fromJson(opt, parseJson("null"))
- assert isNone(opt)
- if jsonNode.kind != JNull:
- self = some(jsonTo(jsonNode, T, opt))
- else:
- self = none[T]()
- proc toJsonHook*[T](self: Option[T], opt = initToJsonOptions()): JsonNode =
- ## Enables `toJson` for `Option` types.
- ##
- ## See also:
- ## * `fromJsonHook proc<#fromJsonHook,Option[T],JsonNode>`_
- runnableExamples:
- import std/[options, json]
- let optSome = some("test")
- assert $toJson(optSome) == "\"test\""
- let optNone = none[string]()
- assert $toJson(optNone) == "null"
- if isSome(self):
- toJson(get(self), opt)
- else:
- newJNull()
- proc fromJsonHook*(a: var StringTableRef, b: JsonNode) =
- ## Enables `fromJson` for `StringTableRef` type.
- ##
- ## See also:
- ## * `toJsonHook proc<#toJsonHook,StringTableRef>`_
- runnableExamples:
- import std/[strtabs, json]
- var t = newStringTable(modeCaseSensitive)
- let jsonStr = """{"mode": 0, "table": {"name": "John", "surname": "Doe"}}"""
- fromJsonHook(t, parseJson(jsonStr))
- assert t[] == newStringTable("name", "John", "surname", "Doe",
- modeCaseSensitive)[]
- var mode = jsonTo(b["mode"], StringTableMode)
- a = newStringTable(mode)
- let b2 = b["table"]
- for k,v in b2: a[k] = jsonTo(v, string)
- proc toJsonHook*(a: StringTableRef): JsonNode =
- ## Enables `toJson` for `StringTableRef` type.
- ##
- ## See also:
- ## * `fromJsonHook proc<#fromJsonHook,StringTableRef,JsonNode>`_
- runnableExamples:
- import std/[strtabs, json]
- let t = newStringTable("name", "John", "surname", "Doe", modeCaseSensitive)
- let jsonStr = """{"mode": "modeCaseSensitive",
- "table": {"name": "John", "surname": "Doe"}}"""
- assert toJson(t) == parseJson(jsonStr)
- result = newJObject()
- result["mode"] = toJson($a.mode)
- let t = newJObject()
- for k,v in a: t[k] = toJson(v)
- result["table"] = t
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