New pragmas for toPreserve and fromPreserve
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parent
2dd63903f0
commit
220577c8a0
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@ -6,6 +6,14 @@ import std/[base64, endians, hashes, options, sets, sequtils, streams, tables, t
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from std/json import escapeJson, escapeJsonUnquoted
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from std/macros import hasCustomPragma, getCustomPragmaVal
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import ./preserves/private/dot
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from std/strutils import parseEnum
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when defined(tracePreserves):
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template trace(args: varargs[untyped]) =
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echo args
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else:
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template trace(args: varargs[untyped]) = discard
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type
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PreserveKind* = enum
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@ -52,7 +60,6 @@ type
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DictEntry[E] = tuple[key: Preserve[E], val: Preserve[E]]
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proc `==`*[A, B](x: Preserve[A]; y: Preserve[B]): bool =
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## Check `x` and `y` for equivalence.
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if x.kind == y.kind and x.embedded == y.embedded:
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@ -207,6 +214,15 @@ proc `[]`*(pr, key: Preserve): Preserve =
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else:
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raise newException(ValueError, "`[]` is not valid for " & $pr.kind)
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proc getOrDefault(pr: Preserve; key: Preserve): Preserve =
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## Retrieves the value of `pr[key]` if `pr` is a dictionary containing `key`
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## or returns the `#f` Preserves value.
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if pr.kind == pkDictionary:
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for (k, v) in pr.dict:
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if key == k:
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result = v
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break
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proc incl*(pr: var Preserve; key: Preserve) =
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## Include `key` in the Preserves set `pr`.
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for i in 0..pr.set.high:
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@ -239,7 +255,7 @@ proc `[]=`*(pr: var Preserve; key, val: Preserve) =
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return
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pr.dict.add((key, val, ))
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proc symbol*[E](s: string): Preserve[E] {.inline.} =
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proc toSymbol*(s: sink string; E = void): Preserve[E] {.inline.} =
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## Create a Preserves symbol value.
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Preserve[E](kind: pkSymbol, symbol: s)
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@ -270,6 +286,30 @@ proc embed*[E](e: E): Preserve[E] =
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## Create a Preserves value that embeds ``e``.
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Preserve[E](kind: pkEmbedded, embed: e)
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proc mapEmbeds*[A, B](pr: Preserve[A]; op: proc (v: A): B): Preserve[B] =
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## Convert `Preserve[A]` to `Preserve[B]` using an `A -> B` procedure.
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case pr.kind
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of pkBoolean, pkFloat, pkDouble, pkSignedInteger, pkBigInteger, pkString, pkByteString, pkSymbol:
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result = cast[Preserve[B]](pr)
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of pkRecord:
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result = Preserve[B](kind: pr.kind)
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result.record = map(pr.record) do (x: Preserve[A]) -> Preserve[B]:
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mapEmbeds(x, op)
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of pkSequence:
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result = Preserve[B](kind: pr.kind)
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result.sequence = map(pr.sequence) do (x: Preserve[A]) -> Preserve[B]:
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mapEmbeds(x, op)
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of pkSet:
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result = Preserve[B](kind: pr.kind)
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result.set = map(pr.set) do (x: Preserve[A]) -> Preserve[B]:
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mapEmbeds(x, op)
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of pkDictionary:
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result = Preserve[B](kind: pr.kind)
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result.dict = map(pr.dict) do (e: DictEntry[A]) -> DictEntry[B]:
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(mapEmbeds(e.key, op), mapEmbeds(e.val, op))
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of pkEmbedded:
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result = embed op(pr.embed)
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proc len*(pr: Preserve): int =
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## Return the shallow count of values in ``pr``, that is the number of
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## fields in a record, items in a sequence, items in a set, or key-value pairs
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@ -582,11 +622,37 @@ proc decodePreserves*(s: seq[byte]; E = void): Preserve[E] =
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## Decode a byte-string of binary-encoded Preserves.
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decodePreserves(cast[string](s), E)
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template record*(label: string) {.pragma.}
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## Serialize this object or tuple as a record. See ``toPreserve``.
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template preservesRecord*(label: string) {.pragma.}
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## Serialize this object or tuple as a record.
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## See ``toPreserve``.
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template preservesTuple*() {.pragma.}
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## Serialize this object or tuple as a tuple.
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## See ``toPreserve``.
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template preservesTupleTail*() {.pragma.}
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## Serialize this object field to the end of its containing tuple.
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## See ``toPreserve``.
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template preservesDictionary*() {.pragma.}
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## Serialize this object or tuple as a dictionary.
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## See ``toPreserve``.
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template preservesSymbol*() {.pragma.}
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## Serialize this string as a symbol.
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## See ``toPreserve``.
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template preservesOr*() {.pragma.}
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## Serialize this object as an ``or`` alternative.
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## See ``toPreserve``.
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template preservesLiteral*(value: typed) {.pragma.}
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## Serialize a Preserves literal within this object.
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## See ``toPreserve``.
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template unpreservable*() {.pragma.}
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## Pragma to forbid a type from being converted by ``toPreserve``.
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## See ``toPreserve``.
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proc toPreserve*[T](x: T; E = void): Preserve[E] =
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## Serializes ``x`` to Preserves. Can be customized by defining
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@ -594,8 +660,13 @@ proc toPreserve*[T](x: T; E = void): Preserve[E] =
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## Any ``toPreserveHook`` that does not compile will be discarded;
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## *Write tests for your hooks!*
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when (T is Preserve[E]): result = x
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elif T is E: result = embed(x)
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elif compiles(toPreserveHook(x, E)):
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result = toPreserveHook(x, E)
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elif T is distinct:
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result = toPreserve(x.distinctBase, E)
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elif T is enum:
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result = toSymbol($x, E)
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elif T is Bigint:
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result = Preserve[E](kind: pkBigInteger, bigint: x)
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elif T is seq[byte]:
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@ -605,33 +676,71 @@ proc toPreserve*[T](x: T; E = void): Preserve[E] =
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for v in x.items: result.sequence.add(toPreserve(v, E))
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elif T is bool:
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result = Preserve[E](kind: pkBoolean, bool: x)
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elif T is distinct:
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result = toPreserve(x.distinctBase, E)
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elif T is float:
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result = Preserve[E](kind: pkFloat, float: x)
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elif T is float64:
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result = Preserve[E](kind: pkDouble, double: x)
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elif T is object | tuple:
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when T.hasCustomPragma(unpreservable): {.fatal: "unpreservable type".}
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elif T.hasCustomPragma(record):
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result = Preserve[E](kind: pkRecord)
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for _, f in x.fieldPairs: result.record.add(toPreserve(f, E))
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result.record.add(symbol[E](T.getCustomPragmaVal(record)))
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else:
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result = Preserve[E](kind: pkDictionary)
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for k, v in x.fieldPairs:
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result[symbol[E](k)] = toPreserve(v, E)
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elif T is tuple:
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result = Preserve[E](kind: pkSequence,
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sequence: newSeqOfCap[Preserve[E]](tupleLen(T)))
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for xf in fields(x):
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result.sequence.add(toPreserve(xf, E))
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elif T is Ordinal:
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result = Preserve[E](kind: pkSignedInteger, int: x.ord.BiggestInt)
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elif T is ptr | ref:
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if system.`==`(x, nil): result = symbol[E]("null")
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if system.`==`(x, nil): result = toSymbol("null", E)
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else: result = toPreserve(x[], E)
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elif T is string:
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result = Preserve[E](kind: pkString, string: x)
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elif T is SomeInteger:
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result = Preserve[E](kind: pkSignedInteger, int: x.BiggestInt)
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else:
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raiseAssert("unpreservable type" & $T)
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elif T is object:
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trace T, " is object"
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template fieldToPreserve(key: string; val: typed): Preserve =
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when x.dot(key).hasCustomPragma(preservesSymbol):
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toSymbol(val, E)
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elif x.dot(key).hasCustomPragma(preservesLiteral):
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const lit = parsePreserves x.dot(key).getCustomPragmaVal(preservesLiteral)
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lit
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else:
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toPreserve(val, E)
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when T.hasCustomPragma(unpreservable): {.fatal: "unpreservable type".}
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elif T.hasCustomPragma(preservesOr):
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var hasKind, hasVariant: bool
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for k, v in x.fieldPairs:
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trace T, ": iterate to ", k
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if k == "orKind":
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assert(not hasKind)
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hasKind = true
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else:
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assert(hasKind and not hasVariant)
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result = fieldToPreserve(k, v)
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hasVariant = true
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if not hasVariant:
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trace T, ": no value found"
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elif T.hasCustomPragma(preservesRecord):
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result = Preserve[E](kind: pkRecord)
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for k, v in x.fieldPairs:
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result.record.add(fieldToPreserve(k, v))
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result.record.add(tosymbol(T.getCustomPragmaVal(preservesRecord), E))
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elif T.hasCustomPragma(preservesTuple):
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result = initSequence[E]()
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for label, field in x.fieldPairs:
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when x.dot(label).hasCustomPragma(preservesTupleTail):
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for y in field.items:
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result.sequence.add(toPreserve(y, E))
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# TODO: what if there are fields after the tail?
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else:
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result.sequence.add(fieldToPreserve(label, field))
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elif T.hasCustomPragma(preservesDictionary):
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trace T, ": convert to a dictionary"
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result = initDictionary[E]()
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for key, val in x.fieldPairs:
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result[toSymbol(key, E)] = fieldToPreserve(key, val)
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else: result = toPreserveHook(x, E)
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else: result = toPreserveHook(x, E)
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# the hook doesn't compile but produces a useful error
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trace T, " -> ", result
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proc toPreserveHook*[A](pr: Preserve[A]; E: typedesc): Preserve[E] =
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## Hook for converting ``Preserve`` values with different embedded types.
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@ -648,10 +757,21 @@ proc toPreserveHook*[T](set: HashSet[T]; E: typedesc): Preserve[E] =
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result = Preserve[E](kind: pkSet, set: newSeqOfCap[Preserve[E]](set.len))
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for e in set: result.incl toPreserve(e, E)
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#[
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when isMainModule:
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var h: HashSet[string]
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var pr = h.toPreserveHook(void)
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assert fromPreserveHook(h, pr)
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]#
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proc toPreserveHook*[A, B](table: Table[A, B]|TableRef[A, B], E: typedesc): Preserve[E] =
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## Hook for preserving ``Table``.
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result = initDictionary[E]()
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for k, v in table.pairs: result[toPreserve(k, E)] = toPreserve(v, E)
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for k, v in table.pairs:
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when A is string:
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result[toSymbol(k, E)] = toPreserve(v, E)
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else:
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result[toPreserve(k, E)] = toPreserve(v, E)
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proc fromPreserve*[T, E](v: var T; pr: Preserve[E]): bool =
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## Inplace version of `preserveTo`. Returns ``true`` on
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@ -668,14 +788,23 @@ proc fromPreserve*[T, E](v: var T; pr: Preserve[E]): bool =
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assert(fromPreserve(foo, parsePreserves("""<foo 1 2>""")))
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assert(foo.x == 1)
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assert(foo.y == 2)
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type Value = Preserve
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when T is Value:
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when T is Preserve[E]:
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v = pr
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result = true
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elif T is E:
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result = pr.embed
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if pr.kind == pkEmbedded:
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v = pr.embed
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result = true
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elif compiles(fromPreserveHook(v, pr)):
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result = fromPreserveHook(v, pr)
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elif T is distinct:
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result = fromPreserve(result.distinctBase, pr)
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elif T is enum:
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if pr.isSymbol:
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try:
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v = parseEnum[T](pr.symbol)
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result = true
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except ValueError: discard
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elif T is Bigint:
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case pr.kind
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of pkSignedInteger:
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@ -697,15 +826,19 @@ proc fromPreserve*[T, E](v: var T; pr: Preserve[E]): bool =
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if pr.kind == pkFloat:
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v = pr.float
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result = true
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elif T is seq:
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if T is seq[byte] and pr.kind == pkByteString:
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elif T is seq[byte]:
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if pr.kind == pkByteString:
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v = pr.bytes
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result = true
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elif pr.kind == pkSequence:
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elif T is seq:
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if pr.kind == pkSequence:
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v.setLen(pr.len)
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result = true
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for i, e in pr.sequence:
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result = result and fromPreserve(v[i], e)
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if not result:
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v.setLen 0
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break
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elif T is float64:
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case pr.kind
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of pkFloat:
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@ -714,51 +847,112 @@ proc fromPreserve*[T, E](v: var T; pr: Preserve[E]): bool =
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of pkDouble:
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v = pr.double
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result = true
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elif T is object | tuple:
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case pr.kind
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of pkRecord:
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when T.hasCustomPragma(record):
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if pr.record[pr.record.high].isSymbol T.getCustomPragmaVal(record):
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result = true
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var i = 0
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for fname, field in v.fieldPairs:
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if not result or (i == pr.record.high): break
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result = result and fromPreserve(field, pr.record[i])
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inc(i)
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result = result and (i == pr.record.high) # arity equivalence check=
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of pkDictionary:
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result = true
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var fieldCount = 0
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for key, val in v.fieldPairs:
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inc fieldCount
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for (pk, pv) in pr.dict.items:
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var sym = symbol[E](key)
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if sym == pk:
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result = result and fromPreserve(val, pv)
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break
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result = result and pr.dict.len == fieldCount
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else: discard
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elif T is Ordinal | SomeInteger:
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if pr.kind == pkSignedInteger:
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v = (T)pr.int
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result = true
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elif T is ref:
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if pr != symbol[E]("null"):
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new v
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result = fromPreserve(v[], pr)
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elif T is string:
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if pr.kind == pkString:
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case pr.kind
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of pkString:
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v = pr.string
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result = true
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elif T is distinct:
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result = fromPreserve(result.distinctBase, pr)
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of pkSymbol:
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v = pr.symbol
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result = true
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else: discard
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elif T is tuple:
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case pr.kind
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of pkRecord, pkSequence:
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if pr.len <= tupleLen(T):
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result = true
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var i: int
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for f in fields(v):
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if result and i < pr.len:
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result = result and fromPreserve(f, pr[i])
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inc i
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of pkDictionary:
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if tupleLen(T) == pr.len:
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result = true
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for key, val in fieldPairs(v):
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if result:
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result = result and fromPreserve(val, pr[toSymbol(key, E)])
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else: discard
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elif T is ref:
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if isNil(v): new(v)
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result = fromPreserve(v[], pr)
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elif T is object:
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template fieldFromPreserve(key: string; val: typed; pr: Preserve[E]): bool {.used.} =
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when v.dot(key).hasCustomPragma(preservesSymbol):
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if pr.isSymbol:
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fromPreserve(val, pr)
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else:
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false
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elif v.dot(key).hasCustomPragma(preservesLiteral):
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const lit = parsePreserves v.dot(key).getCustomPragmaVal(preservesLiteral)
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pr == lit
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else:
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fromPreserve(val, pr)
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when T.hasCustomPragma(preservesRecord):
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if pr.isRecord and pr.label.isSymbol(T.getCustomPragmaVal(preservesRecord)):
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result = true
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var i: int
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for key, val in fieldPairs(v):
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if result and i <= pr.len:
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result = result and fieldFromPreserve(key, val, pr.record[i])
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inc i
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result = result and (i == pr.len)
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elif T.hasCustomPragma(preservesTuple):
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if pr.isSequence:
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result = true
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var i: int
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for name, field in fieldPairs(v):
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when v.dot(name).hasCustomPragma(preservesTupleTail):
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setLen(v.dot(name), pr.len - i)
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var j: int
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while result and i < pr.len:
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result = result and fieldFromPreserve(name, v.dot(name)[j], pr.sequence[i])
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inc i
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inc j
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else:
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if result and i < pr.len:
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result = result and fromPreserve(field, pr.sequence[i])
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inc i
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result = result and (i == pr.len)
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elif T.hasCustomPragma(preservesDictionary):
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trace T, " is a preservesDictionary"
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if pr.isDictionary:
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result = true
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var i: int
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for key, _ in fieldPairs(v):
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let val = pr.getOrDefault(toSymbol(key, E))
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result = result and fieldFromPreserve(
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key, v.dot(key), val)
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if not result: break
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inc i
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result = result and (i == pr.len)
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elif T.hasCustomPragma(preservesOr):
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for kind in typeof(T.orKind):
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v = T(orKind: kind)
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var fieldWasFound = false
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for key, val in fieldPairs(v):
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when key != "orKind": # fieldPairs unwraps early
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result = fieldFromPreserve(key, v.dot(key), pr)
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fieldWasFound = true
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break
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if not fieldWasFound:
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# hopefully a `discard` of-branch, so discard `pr`
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result = true
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if result: break
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else: result = fromPreserveHook(v, pr)
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else: result = fromPreserveHook(v, pr)
|
||||
# the hook doesn't compile but produces a useful error
|
||||
if not result:
|
||||
trace T, " !- ", pr
|
||||
else:
|
||||
raiseAssert("no conversion of type Preserve to " & $T)
|
||||
if not result: reset v
|
||||
trace T, " <- ", pr
|
||||
|
||||
proc preserveTo*(pr: Preserve; T: typedesc): Option[T] =
|
||||
## Reverse of `toPreserve`.
|
||||
##
|
||||
# TODO: {.raises: [].}
|
||||
runnableExamples:
|
||||
import std/options, preserves, preserves/parse
|
||||
|
@ -788,11 +982,18 @@ proc fromPreserveHook*[A,B,E](t: var (Table[A,B]|TableRef[A,B]); pr: Preserve[E]
|
|||
result = true
|
||||
var a: A
|
||||
var b: B
|
||||
for (k, v) in pr.dict:
|
||||
for (k, v) in pr.dict.items:
|
||||
result = fromPreserve(a, k) and fromPreserve(b, v)
|
||||
if not result: break
|
||||
if not result:
|
||||
clear t
|
||||
break
|
||||
t[move a] = move b
|
||||
|
||||
when isMainModule:
|
||||
var t: Table[int, string]
|
||||
var pr = t.toPreserveHook(void)
|
||||
assert fromPreserveHook(t, pr)
|
||||
|
||||
proc concat[E](result: var string; pr: Preserve[E]) =
|
||||
if pr.embedded: result.add("#!")
|
||||
case pr.kind:
|
||||
|
@ -854,6 +1055,8 @@ proc concat[E](result: var string; pr: Preserve[E]) =
|
|||
result.concat(key)
|
||||
result.add(": ")
|
||||
result.concat(value)
|
||||
if i < pr.dict.high:
|
||||
result.add(',')
|
||||
inc i
|
||||
result.add('}')
|
||||
of pkEmbedded:
|
||||
|
@ -863,13 +1066,3 @@ proc concat[E](result: var string; pr: Preserve[E]) =
|
|||
|
||||
proc `$`*(pr: Preserve): string = concat(result, pr)
|
||||
## Generate the textual representation of ``pr``.
|
||||
|
||||
when isMainModule:
|
||||
block:
|
||||
var t: Table[int, string]
|
||||
var pr = t.toPreserveHook(void)
|
||||
assert fromPreserveHook(t, pr)
|
||||
block:
|
||||
var h: HashSet[string]
|
||||
var pr = h.toPreserveHook(void)
|
||||
assert fromPreserveHook(h, pr)
|
||||
|
|
|
@ -14,10 +14,10 @@ proc toPreserveHook*(js: JsonNode; E: typedesc): Preserve[E] =
|
|||
result = Preserve[E](kind: pkDouble, double: js.fnum)
|
||||
of JBool:
|
||||
result = case js.bval
|
||||
of false: symbol[E]"false"
|
||||
of true: symbol[E]"true"
|
||||
of false: toSymbol("false", E)
|
||||
of true: toSymbol("true", E)
|
||||
of JNull:
|
||||
result = symbol[E]"null"
|
||||
result = toSymbol("null", E)
|
||||
of JObject:
|
||||
result = Preserve[E](kind: pkDictionary)
|
||||
for key, val in js.fields.pairs:
|
||||
|
|
|
@ -0,0 +1,7 @@
|
|||
import std/macros
|
||||
|
||||
|
||||
macro dot*(obj: object, fld: string): untyped =
|
||||
## Turn ``obj.dot("fld")`` into ``obj.fld``.
|
||||
|
||||
newDotExpr(obj, newIdentNode(fld.strVal))
|
|
@ -6,26 +6,26 @@ import bigints, preserves
|
|||
|
||||
suite "conversions":
|
||||
test "dictionary":
|
||||
type Bar = object
|
||||
type Bar = tuple
|
||||
s: string
|
||||
type Foobar = tuple
|
||||
type Foobar {.preservesDictionary.} = object
|
||||
a, b: int
|
||||
c: Bar
|
||||
let
|
||||
c: Foobar = (a: 1, b: 2, c: Bar(s: "ku", ))
|
||||
c = Foobar(a: 1, b: 2, c: ("ku", ))
|
||||
b = toPreserve(c)
|
||||
a = preserveTo(b, Foobar)
|
||||
check(a.isSome and (get(a) == c))
|
||||
check(b.kind == pkDictionary)
|
||||
|
||||
test "records":
|
||||
type Bar {.record: "bar".} = object
|
||||
type Bar {.preservesRecord: "bar".} = object
|
||||
s: string
|
||||
type Foobar {.record: "foo".} = tuple
|
||||
type Foobar {.preservesRecord: "foo".} = object
|
||||
a, b: int
|
||||
c: Bar
|
||||
let
|
||||
tup: Foobar = (a: 1, b: 2, c: Bar(s: "ku", ))
|
||||
tup = Foobar(a: 1, b: 2, c: Bar(s: "ku", ))
|
||||
prs = toPreserve(tup)
|
||||
check(prs.kind == pkRecord)
|
||||
check($prs == """<foo 1 2 <bar "ku">>""")
|
||||
|
@ -35,7 +35,7 @@ suite "conversions":
|
|||
var a: Table[int, string]
|
||||
for i, s in ["a", "b", "c"]: a[i] = s
|
||||
let b = toPreserve(a)
|
||||
check($b == """{0: "a" 1: "b" 2: "c"}""")
|
||||
check($b == """{0: "a", 1: "b", 2: "c"}""")
|
||||
var c: Table[int, string]
|
||||
check(fromPreserve(c, b))
|
||||
check(a == c)
|
||||
|
|
Loading…
Reference in New Issue