NimYAML/yaml/serialization.nim

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# NimYAML - YAML implementation in Nim
# (c) Copyright 2016 Felix Krause
#
# See the file "copying.txt", included in this
# distribution, for details about the copyright.
## =========================
## Module yaml.serialization
## =========================
##
## This is the most high-level API of NimYAML. It enables you to parse YAML
## character streams directly into native YAML types and vice versa. It builds
## on top of the low-level parser and presenter APIs.
##
## It is possible to define custom construction and serialization procs for any
## type. Please consult the serialization guide on the NimYAML website for more
## information.
import tables, typetraits, strutils, macros, streams, times, parseutils
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import parser, taglib, presenter, stream, private/internal, hints
export stream
# *something* in here needs externally visible `==`(x,y: AnchorId),
# but I cannot figure out what. binding it would be the better option.
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type
SerializationContext* = ref object
## Context information for the process of serializing YAML from Nim values.
refs*: Table[pointer, AnchorId]
style: AnchorStyle
nextAnchorId*: AnchorId
put*: proc(e: YamlStreamEvent) {.raises: [], closure.}
ConstructionContext* = ref object
## Context information for the process of constructing Nim values from YAML.
refs*: Table[AnchorId, pointer]
YamlConstructionError* = object of YamlLoadingError
## Exception that may be raised when constructing data objects from a
## `YamlStream <#YamlStream>`_. The fields ``line``, ``column`` and
## ``lineContent`` are only available if the costructing proc also does
## parsing, because otherwise this information is not available to the
## costruction proc.
# forward declares
proc constructChild*[T](s: var YamlStream, c: ConstructionContext,
result: var T)
{.raises: [YamlConstructionError, YamlStreamError].}
## Constructs an arbitrary Nim value from a part of a YAML stream.
## The stream will advance until after the finishing token that was used
## for constructing the value. The ``ConstructionContext`` is needed for
## potential child objects which may be refs.
proc constructChild*(s: var YamlStream, c: ConstructionContext,
result: var string)
{.raises: [YamlConstructionError, YamlStreamError].}
## Constructs a Nim value that is a string from a part of a YAML stream.
## This specialization takes care of possible nil strings.
proc constructChild*[T](s: var YamlStream, c: ConstructionContext,
result: var seq[T])
{.raises: [YamlConstructionError, YamlStreamError].}
## Constructs a Nim value that is a string from a part of a YAML stream.
## This specialization takes care of possible nil seqs.
proc constructChild*[O](s: var YamlStream, c: ConstructionContext,
result: var ref O)
{.raises: [YamlStreamError].}
## Constructs an arbitrary Nim value from a part of a YAML stream.
## The stream will advance until after the finishing token that was used
## for constructing the value. The object may be constructed from an alias
## node which will be resolved using the ``ConstructionContext``.
proc representChild*[O](value: ref O, ts: TagStyle, c: SerializationContext)
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{.raises: [].}
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## Represents an arbitrary Nim reference value as YAML object. The object
## may be represented as alias node if it is already present in the
## ``SerializationContext``.
proc representChild*(value: string, ts: TagStyle, c: SerializationContext)
{.inline, raises: [].}
## Represents a Nim string. Supports nil strings.
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proc representChild*[O](value: O, ts: TagStyle, c: SerializationContext)
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## Represents an arbitrary Nim object as YAML object.
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proc newConstructionContext*(): ConstructionContext =
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new(result)
result.refs = initTable[AnchorId, pointer]()
proc newSerializationContext*(s: AnchorStyle,
putImpl: proc(e: YamlStreamEvent) {.raises: [], closure.}):
SerializationContext =
SerializationContext(refs: initTable[pointer, AnchorId](), style: s,
nextAnchorId: 0.AnchorId, put: putImpl)
template presentTag*(t: typedesc, ts: TagStyle): TagId =
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## Get the TagId that represents the given type in the given style
if ts == tsNone: yTagQuestionMark else: yamlTag(t)
proc lazyLoadTag(uri: string): TagId {.inline, raises: [].} =
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try: result = serializationTagLibrary.tags[uri]
except KeyError: result = serializationTagLibrary.registerUri(uri)
proc safeTagUri(id: TagId): string {.raises: [].} =
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try:
var
uri = serializationTagLibrary.uri(id)
i = 0
# '!' is not allowed inside a tag handle
if uri.len > 0 and uri[0] == '!': uri = uri[1..^1]
# ',' is not allowed after a tag handle in the suffix because it's a flow
# indicator
for c in uri.mitems():
if c == ',': c = ';'
inc(i)
return uri
except KeyError: internalError("Unexpected KeyError for TagId " & $id)
proc constructionError(s: YamlStream, msg: string): ref YamlConstructionError =
result = newException(YamlConstructionError, msg)
if not s.getLastTokenContext(result.line, result.column, result.lineContent):
(result.line, result.column) = (-1, -1)
result.lineContent = ""
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template constructScalarItem*(s: var YamlStream, i: untyped,
t: typedesc, content: untyped) =
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## Helper template for implementing ``constructObject`` for types that
## are constructed from a scalar. ``i`` is the identifier that holds
## the scalar as ``YamlStreamEvent`` in the content. Exceptions raised in
## the content will be automatically catched and wrapped in
## ``YamlConstructionError``, which will then be raised.
bind constructionError
let i = s.next()
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if i.kind != yamlScalar:
raise constructionError(s, "Expected scalar")
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try: content
except YamlConstructionError: raise
except Exception:
var e = constructionError(s,
"Cannot construct to " & name(t) & ": " & item.scalarContent &
"; error: " & getCurrentExceptionMsg())
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e.parent = getCurrentException()
raise e
proc yamlTag*(T: typedesc[string]): TagId {.inline, noSideEffect, raises: [].} =
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yTagString
proc constructObject*(s: var YamlStream, c: ConstructionContext,
result: var string)
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{.raises: [YamlConstructionError, YamlStreamError].} =
## costructs a string from a YAML scalar
constructScalarItem(s, item, string):
result = item.scalarContent
proc representObject*(value: string, ts: TagStyle,
c: SerializationContext, tag: TagId) {.raises: [].} =
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## represents a string as YAML scalar
c.put(scalarEvent(value, tag, yAnchorNone))
proc parseHex[T: int8|int16|int32|int64|uint8|uint16|uint32|uint64](
s: YamlStream, val: string): T =
result = 0
for i in 2..<val.len:
case val[i]
of '_': discard
of '0'..'9': result = result shl 4 or T(ord(val[i]) - ord('0'))
of 'a'..'f': result = result shl 4 or T(ord(val[i]) - ord('a') + 10)
of 'A'..'F': result = result shl 4 or T(ord(val[i]) - ord('A') + 10)
else:
raise s.constructionError("Invalid character in hex: " &
escape("" & val[i]))
proc parseOctal[T: int8|int16|int32|int64|uint8|uint16|uint32|uint64](
s: YamlStream, val: string): T =
for i in 2..<val.len:
case val[i]
of '_': discard
of '0'..'7': result = result shl 3 + T((ord(val[i]) - ord('0')))
else:
raise s.constructionError("Invalid character in hex: " &
escape("" & val[i]))
proc constructObject*[T: int8|int16|int32|int64](
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s: var YamlStream, c: ConstructionContext, result: var T)
{.raises: [YamlConstructionError, YamlStreamError].} =
## constructs an integer value from a YAML scalar
constructScalarItem(s, item, T):
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if item.scalarContent[0] == '0' and item.scalarContent[1] in {'x', 'X' }:
result = parseHex[T](s, item.scalarContent)
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elif item.scalarContent[0] == '0' and item.scalarContent[1] in {'o', 'O'}:
result = parseOctal[T](s, item.scalarContent)
else:
result = T(parseBiggestInt(item.scalarContent))
proc constructObject*(s: var YamlStream, c: ConstructionContext,
result: var int)
{.raises: [YamlConstructionError, YamlStreamError], inline.} =
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## constructs an integer of architecture-defined length by loading it into
## int32 and then converting it.
var i32Result: int32
constructObject(s, c, i32Result)
result = int(i32Result)
proc representObject*[T: int8|int16|int32|int64](value: T, ts: TagStyle,
c: SerializationContext, tag: TagId) {.raises: [].} =
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## represents an integer value as YAML scalar
c.put(scalarEvent($value, tag, yAnchorNone))
proc representObject*(value: int, tagStyle: TagStyle,
c: SerializationContext, tag: TagId)
{.raises: [YamlStreamError], inline.}=
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## represent an integer of architecture-defined length by casting it to int32.
## on 64-bit systems, this may cause a RangeError.
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# currently, sizeof(int) is at least sizeof(int32).
try: c.put(scalarEvent($int32(value), tag, yAnchorNone))
except RangeError:
var e = newException(YamlStreamError, getCurrentExceptionMsg())
e.parent = getCurrentException()
raise e
when defined(JS):
type DefiniteUIntTypes = uint8 | uint16 | uint32
else:
type DefiniteUIntTypes = uint8 | uint16 | uint32 | uint64
proc constructObject*[T: DefiniteUIntTypes](
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s: var YamlStream, c: ConstructionContext, result: var T)
{.raises: [YamlConstructionError, YamlStreamError].} =
## construct an unsigned integer value from a YAML scalar
constructScalarItem(s, item, T):
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if item.scalarContent[0] == '0' and item.scalarContent[1] in {'x', 'X'}:
result = parseHex[T](s, item.scalarContent)
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elif item.scalarContent[0] == '0' and item.scalarContent[1] in {'o', 'O'}:
result = parseOctal[T](s, item.scalarContent)
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else: result = T(parseBiggestUInt(item.scalarContent))
proc constructObject*(s: var YamlStream, c: ConstructionContext,
result: var uint)
{.raises: [YamlConstructionError, YamlStreamError], inline.} =
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## represent an unsigned integer of architecture-defined length by loading it
## into uint32 and then converting it.
var u32Result: uint32
constructObject(s, c, u32Result)
result= uint(u32Result)
when defined(JS):
# TODO: this is a dirty hack and may lead to overflows!
proc `$`(x: uint8|uint16|uint32|uint64|uint): string =
result = $BiggestInt(x)
proc representObject*[T: uint8|uint16|uint32|uint64](value: T, ts: TagStyle,
c: SerializationContext, tag: TagId) {.raises: [].} =
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## represents an unsigned integer value as YAML scalar
c.put(scalarEvent($value, tag, yAnchorNone))
proc representObject*(value: uint, ts: TagStyle, c: SerializationContext,
tag: TagId) {.raises: [YamlStreamError], inline.} =
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## represent an unsigned integer of architecture-defined length by casting it
## to int32. on 64-bit systems, this may cause a RangeError.
try: c.put(scalarEvent($uint32(value), tag, yAnchorNone))
except RangeError:
var e = newException(YamlStreamError, getCurrentExceptionMsg())
e.parent = getCurrentException()
raise e
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proc constructObject*[T: float|float32|float64](
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s: var YamlStream, c: ConstructionContext, result: var T)
{.raises: [YamlConstructionError, YamlStreamError].} =
## construct a float value from a YAML scalar
constructScalarItem(s, item, T):
let hint = guessType(item.scalarContent)
case hint
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of yTypeFloat:
discard parseBiggestFloat(item.scalarContent, result)
of yTypeInteger:
discard parseBiggestFloat(item.scalarContent, result)
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of yTypeFloatInf:
if item.scalarContent[0] == '-': result = NegInf
else: result = Inf
of yTypeFloatNaN: result = NaN
else:
raise s.constructionError("Cannot construct to float: " &
escape(item.scalarContent))
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proc representObject*[T: float|float32|float64](value: T, ts: TagStyle,
c: SerializationContext, tag: TagId) {.raises: [].} =
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## represents a float value as YAML scalar
case value
of Inf: c.put(scalarEvent(".inf", tag))
of NegInf: c.put(scalarEvent("-.inf", tag))
of NaN: c.put(scalarEvent(".nan", tag))
else: c.put(scalarEvent($value, tag))
proc yamlTag*(T: typedesc[bool]): TagId {.inline, raises: [].} = yTagBoolean
proc constructObject*(s: var YamlStream, c: ConstructionContext,
result: var bool)
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{.raises: [YamlConstructionError, YamlStreamError].} =
## constructs a bool value from a YAML scalar
constructScalarItem(s, item, bool):
case guessType(item.scalarContent)
of yTypeBoolTrue: result = true
of yTypeBoolFalse: result = false
else:
raise s.constructionError("Cannot construct to bool: " &
escape(item.scalarContent))
proc representObject*(value: bool, ts: TagStyle, c: SerializationContext,
tag: TagId) {.raises: [].} =
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## represents a bool value as a YAML scalar
c.put(scalarEvent(if value: "y" else: "n", tag, yAnchorNone))
proc constructObject*(s: var YamlStream, c: ConstructionContext,
result: var char)
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{.raises: [YamlConstructionError, YamlStreamError].} =
## constructs a char value from a YAML scalar
constructScalarItem(s, item, char):
if item.scalarContent.len != 1:
raise s.constructionError("Cannot construct to char (length != 1): " &
escape(item.scalarContent))
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else: result = item.scalarContent[0]
proc representObject*(value: char, ts: TagStyle, c: SerializationContext,
tag: TagId) {.raises: [].} =
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## represents a char value as YAML scalar
c.put(scalarEvent("" & value, tag, yAnchorNone))
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proc yamlTag*(T: typedesc[Time]): TagId {.inline, raises: [].} = yTagTimestamp
proc constructObject*(s: var YamlStream, c: ConstructionContext,
result: var Time)
{.raises: [YamlConstructionError, YamlStreamError].} =
constructScalarItem(s, item, Time):
if guessType(item.scalarContent) == yTypeTimestamp:
var
tmp = newStringOfCap(60)
pos = 8
c: char
while pos < item.scalarContent.len():
c = item.scalarContent[pos]
if c in {' ', '\t', 'T', 't'}: break
inc(pos)
if pos == item.scalarContent.len():
tmp.add(item.scalarContent)
tmp.add("T00:00:00+00:00")
else:
tmp.add(item.scalarContent[0 .. pos - 1])
if c in {' ', '\t'}:
while true:
inc(pos)
c = item.scalarContent[pos]
if c notin {' ', '\t'}: break
else: inc(pos)
tmp.add("T")
let timeStart = pos
inc(pos, 7)
var fractionStart = -1
while pos < item.scalarContent.len():
c = item.scalarContent[pos]
if c in {'+', '-', 'Z', ' ', '\t'}: break
elif c == '.': fractionStart = pos
inc(pos)
if fractionStart == -1:
tmp.add(item.scalarContent[timeStart .. pos - 1])
else:
tmp.add(item.scalarContent[timeStart .. fractionStart - 1])
if c in {'Z', ' ', '\t'}: tmp.add("+00:00")
else:
tmp.add(c)
inc(pos)
let tzStart = pos
inc(pos)
if pos < item.scalarContent.len() and item.scalarContent[pos] != ':':
inc(pos)
if pos - tzStart == 1: tmp.add('0')
tmp.add(item.scalarContent[tzStart .. pos - 1])
if pos == item.scalarContent.len(): tmp.add(":00")
elif pos + 2 == item.scalarContent.len():
tmp.add(":0")
tmp.add(item.scalarContent[pos + 1])
else:
tmp.add(item.scalarContent[pos .. pos + 2])
let info = tmp.parse("yyyy-M-d'T'H-mm-sszzz")
result = info.toTime()
else:
raise s.constructionError("Not a parsable timestamp: " &
escape(item.scalarContent))
proc representObject*(value: Time, ts: TagStyle, c: SerializationContext,
tag: TagId) {.raises: [ValueError].} =
let tmp = value.getGMTime()
c.put(scalarEvent(tmp.format("yyyy-MM-dd'T'HH:mm:ss'Z'")))
proc yamlTag*[I](T: typedesc[seq[I]]): TagId {.inline, raises: [].} =
let uri = nimTag("system:seq(" & safeTagUri(yamlTag(I)) & ')')
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result = lazyLoadTag(uri)
proc yamlTag*[I](T: typedesc[set[I]]): TagId {.inline, raises: [].} =
let uri = nimTag("system:set(" & safeTagUri(yamlTag(I)) & ')')
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result = lazyLoadTag(uri)
proc constructObject*[T](s: var YamlStream, c: ConstructionContext,
result: var seq[T])
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{.raises: [YamlConstructionError, YamlStreamError].} =
## constructs a Nim seq from a YAML sequence
let event = s.next()
if event.kind != yamlStartSeq:
raise s.constructionError("Expected sequence start")
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result = newSeq[T]()
while s.peek().kind != yamlEndSeq:
var item: T
constructChild(s, c, item)
result.add(item)
discard s.next()
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proc constructObject*[T](s: var YamlStream, c: ConstructionContext,
result: var set[T])
{.raises: [YamlConstructionError, YamlStreamError].} =
## constructs a Nim seq from a YAML sequence
let event = s.next()
if event.kind != yamlStartSeq:
raise s.constructionError("Expected sequence start")
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result = {}
while s.peek().kind != yamlEndSeq:
var item: T
constructChild(s, c, item)
result.incl(item)
discard s.next()
proc representObject*[T](value: seq[T]|set[T], ts: TagStyle,
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c: SerializationContext, tag: TagId) =
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## represents a Nim seq as YAML sequence
let childTagStyle = if ts == tsRootOnly: tsNone else: ts
c.put(startSeqEvent(tag))
for item in value:
representChild(item, childTagStyle, c)
c.put(endSeqEvent())
proc yamlTag*[I, V](T: typedesc[array[I, V]]): TagId {.inline, raises: [].} =
const rangeName = name(I)
let uri = nimTag("system:array(" & rangeName[6..rangeName.high()] & ';' &
safeTagUri(yamlTag(V)) & ')')
result = lazyLoadTag(uri)
proc constructObject*[I, T](s: var YamlStream, c: ConstructionContext,
result: var array[I, T])
{.raises: [YamlConstructionError, YamlStreamError].} =
## constructs a Nim array from a YAML sequence
var event = s.next()
if event.kind != yamlStartSeq:
raise s.constructionError("Expected sequence start")
for index in low(I)..high(I):
event = s.peek()
if event.kind == yamlEndSeq:
raise s.constructionError("Too few array values")
constructChild(s, c, result[index])
event = s.next()
if event.kind != yamlEndSeq:
raise s.constructionError("Too many array values")
proc representObject*[I, T](value: array[I, T], ts: TagStyle,
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c: SerializationContext, tag: TagId) =
## represents a Nim array as YAML sequence
let childTagStyle = if ts == tsRootOnly: tsNone else: ts
c.put(startSeqEvent(tag))
for item in value:
representChild(item, childTagStyle, c)
c.put(endSeqEvent())
proc yamlTag*[K, V](T: typedesc[Table[K, V]]): TagId {.inline, raises: [].} =
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try:
let uri = nimTag("tables:Table(" & safeTagUri(yamlTag(K)) & ';' &
safeTagUri(yamlTag(V)) & ")")
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result = lazyLoadTag(uri)
except KeyError:
# cannot happen (theoretically, you know)
internalError("Unexpected KeyError")
proc constructObject*[K, V](s: var YamlStream, c: ConstructionContext,
result: var Table[K, V])
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{.raises: [YamlConstructionError, YamlStreamError].} =
## constructs a Nim Table from a YAML mapping
let event = s.next()
if event.kind != yamlStartMap:
raise s.constructionError("Expected map start, got " & $event.kind)
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result = initTable[K, V]()
while s.peek.kind != yamlEndMap:
var
key: K
value: V
constructChild(s, c, key)
constructChild(s, c, value)
if result.contains(key):
raise s.constructionError("Duplicate table key!")
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result[key] = value
discard s.next()
proc representObject*[K, V](value: Table[K, V], ts: TagStyle,
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c: SerializationContext, tag: TagId) =
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## represents a Nim Table as YAML mapping
let childTagStyle = if ts == tsRootOnly: tsNone else: ts
c.put(startMapEvent(tag))
for key, value in value.pairs:
representChild(key, childTagStyle, c)
representChild(value, childTagStyle, c)
c.put(endMapEvent())
proc yamlTag*[K, V](T: typedesc[OrderedTable[K, V]]): TagId
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{.inline, raises: [].} =
try:
let uri = nimTag("tables:OrderedTable(" & safeTagUri(yamlTag(K)) & ';' &
safeTagUri(yamlTag(V)) & ")")
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result = lazyLoadTag(uri)
except KeyError:
# cannot happen (theoretically, you know)
internalError("Unexpected KeyError")
proc constructObject*[K, V](s: var YamlStream, c: ConstructionContext,
result: var OrderedTable[K, V])
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{.raises: [YamlConstructionError, YamlStreamError].} =
## constructs a Nim OrderedTable from a YAML mapping
var event = s.next()
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if event.kind != yamlStartSeq:
raise s.constructionError("Expected seq start, got " & $event.kind)
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result = initOrderedTable[K, V]()
while s.peek.kind != yamlEndSeq:
var
key: K
value: V
event = s.next()
if event.kind != yamlStartMap:
raise s.constructionError("Expected map start, got " & $event.kind)
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constructChild(s, c, key)
constructChild(s, c, value)
event = s.next()
if event.kind != yamlEndMap:
raise s.constructionError("Expected map end, got " & $event.kind)
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if result.contains(key):
raise s.constructionError("Duplicate table key!")
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result.add(key, value)
discard s.next()
proc representObject*[K, V](value: OrderedTable[K, V], ts: TagStyle,
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c: SerializationContext, tag: TagId) =
let childTagStyle = if ts == tsRootOnly: tsNone else: ts
c.put(startSeqEvent(tag))
for key, value in value.pairs:
c.put(startMapEvent())
representChild(key, childTagStyle, c)
representChild(value, childTagStyle, c)
c.put(endMapEvent())
c.put(endSeqEvent())
proc yamlTag*(T: typedesc[object|enum]):
TagId {.inline, raises: [].} =
var uri = nimTag("custom:" & (typetraits.name(type(T))))
try: serializationTagLibrary.tags[uri]
except KeyError: serializationTagLibrary.registerUri(uri)
proc yamlTag*(T: typedesc[tuple]):
TagId {.inline, raises: [].} =
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var
i: T
uri = nimTag("tuple(")
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first = true
for name, value in fieldPairs(i):
if first: first = false
else: uri.add(",")
uri.add(safeTagUri(yamlTag(type(value))))
uri.add(")")
try: serializationTagLibrary.tags[uri]
except KeyError: serializationTagLibrary.registerUri(uri)
iterator recListItems(n: NimNode): NimNode =
if n.kind == nnkRecList:
for item in n.children: yield item
else: yield n
proc recListLen(n: NimNode): int {.compileTime.} =
if n.kind == nnkRecList: result = n.len
else: result = 1
proc recListNode(n: NimNode): NimNode {.compileTime.} =
if n.kind == nnkRecList: result = n[0]
else: result = n
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proc fieldCount(t: typedesc): int {.compileTime.} =
result = 0
let tDesc = getType(getType(t)[1])
if tDesc.kind == nnkBracketExpr:
# tuple
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result = tDesc.len - 1
else:
# object
for child in tDesc[2].children:
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inc(result)
if child.kind == nnkRecCase:
for bIndex in 1..<len(child):
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var recListIndex = 0
case child[bIndex].kind
of nnkOfBranch: recListIndex = child[bIndex].len - 1
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of nnkElse: discard
else: internalError("Unexpected child kind: " & $child[bIndex].kind)
if child[bIndex].len > recListIndex:
inc(result, child[bIndex][recListIndex].recListLen)
macro matchMatrix(t: typedesc): untyped =
result = newNimNode(nnkBracket)
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let numFields = fieldCount(t)
for i in 0..<numFields:
result.add(newLit(false))
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proc checkDuplicate(s: NimNode, tName: string, name: string, i: int,
matched: NimNode): NimNode {.compileTime.} =
result = newIfStmt((newNimNode(nnkBracketExpr).add(matched, newLit(i)),
newNimNode(nnkRaiseStmt).add(newCall(bindSym("constructionError"), s,
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newLit("While constructing " & tName & ": Duplicate field: " &
escape(name))))))
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let
implicitVariantObjectMarker {.compileTime.} =
newIdentNode(":implicitVariantObject")
transientBitvectorProc {.compileTime.} =
newIdentNode(":transientObject")
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defaultBitvectorProc {.compileTime.} =
newIdentNode(":defaultBitvector")
defaultValueGetter {.compileTime.} =
newIdentNode(":defaultValueGetter")
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ignoredKeyListProc {.compileTime.} =
newIdentNode(":ignoredKeyList")
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var
transientVectors {.compileTime.} = newSeq[set[int16]]()
defaultVectors {.compileTime.} = newSeq[set[int16]]()
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ignoredKeyLists {.compileTime.} = newSeq[seq[string]]()
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proc addDefaultOr(tName: string, i: int, o: NimNode,
field, elseBranch, defaultValues: NimNode): NimNode {.compileTime.} =
let
dbp = defaultBitvectorProc
t = newIdentNode(tName)
result = quote do:
when compiles(`dbp`(`t`)):
when `i` in defaultVectors[`dbp`(`t`)]:
`o`.`field` = `defaultValues`.`field`
else: `elseBranch`
else: `elseBranch`
proc checkMissing(s: NimNode, t: typedesc, tName: string, field: NimNode,
i: int, matched, o, defaultValues: NimNode):
NimNode {.compileTime.} =
result = newIfStmt((newCall("not", newNimNode(nnkBracketExpr).add(matched,
newLit(i))), addDefaultOr(tName, i, o, field,
newNimNode(nnkRaiseStmt).add(newCall(
bindSym("constructionError"), s, newLit("While constructing " &
tName & ": Missing field: " & escape($field)))), defaultValues)))
proc markAsFound(i: int, matched: NimNode): NimNode {.compileTime.} =
newAssignment(newNimNode(nnkBracketExpr).add(matched, newLit(i)),
newLit(true))
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proc ifNotTransient(tSym: NimNode, fieldIndex: int, content: openarray[NimNode],
elseError: bool = false, s: NimNode = nil, tName, fName: string = nil):
NimNode {.compileTime.} =
var stmts = newStmtList(content)
result = quote do:
when `tSym` == -1 or `fieldIndex` notin transientVectors[`tSym`]:
`stmts`
if elseError:
result[0].add(newNimNode(nnkElse).add(quote do:
raise constructionError(`s`, "While constructing " & `tName` &
": Field \"" & `fName` & "\" is transient and may not occur in input")
))
macro ensureAllFieldsPresent(s: YamlStream, t: typedesc, tIndex: int, o: typed,
matched: typed): typed =
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let
dbp = defaultBitvectorProc
defaultValues = genSym(nskConst, "defaultValues")
result = quote do:
when compiles(`dbp`(`t`)):
const `defaultValues` = `defaultValueGetter`(`t`)
let
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tDecl = getType(t)
tName = $tDecl[1]
tDesc = getType(tDecl[1])
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var field = 0
for child in tDesc[2].children:
if child.kind == nnkRecCase:
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result.add(checkMissing(s, t, tName, child[0], field, matched, o,
defaultValues))
for bIndex in 1 .. len(child) - 1:
let discChecks = newStmtList()
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var
curValues = newNimNode(nnkCurly)
recListIndex = 0
case child[bIndex].kind
of nnkOfBranch:
while recListIndex < child[bIndex].len - 1:
expectKind(child[bIndex][recListIndex], nnkIntLit)
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curValues.add(child[bIndex][recListIndex])
inc(recListIndex)
of nnkElse: discard
else: internalError("Unexpected child kind: " & $child[bIndex].kind)
for item in child[bIndex][recListIndex].recListItems:
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inc(field)
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discChecks.add(checkMissing(s, t, tName, item, field, matched, o,
defaultValues))
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result.add(ifNotTransient(tIndex, field,
[newIfStmt((infix(newDotExpr(o, newIdentNode($child[0])),
"in", curValues), discChecks))]))
else:
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result.add(ifNotTransient(tIndex, field,
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[checkMissing(s, t, tName, child, field, matched, o, defaultValues)]))
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inc(field)
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macro fetchTransientIndex(t: typedesc, tIndex: untyped): typed =
quote do:
when compiles(`transientBitvectorProc`(`t`)):
const `tIndex` = `transientBitvectorProc`(`t`)
else:
const `tIndex` = -1
macro constructFieldValue(t: typedesc, tIndex: int, stream: untyped,
context: untyped, name: untyped, o: untyped,
matched: untyped): typed =
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let
tDecl = getType(t)
tName = $tDecl[1]
tDesc = getType(tDecl[1])
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result = newStmtList()
var caseStmt = newNimNode(nnkCaseStmt).add(name)
var fieldIndex = 0
for child in tDesc[2].children:
if child.kind == nnkRecCase:
let
discriminant = newDotExpr(o, newIdentNode($child[0]))
discType = newCall("type", discriminant)
var disOb = newNimNode(nnkOfBranch).add(newStrLitNode($child[0]))
disOb.add(newStmtList(
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checkDuplicate(stream, tName, $child[0], fieldIndex, matched),
newNimNode(nnkVarSection).add(
newNimNode(nnkIdentDefs).add(
newIdentNode("value"), discType, newEmptyNode())),
newCall("constructChild", stream, context, newIdentNode("value")),
newAssignment(discriminant, newIdentNode("value")),
markAsFound(fieldIndex, matched)))
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caseStmt.add(disOb)
var alreadyUsedSet = newNimNode(nnkCurly)
for bIndex in 1 .. len(child) - 1:
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var recListIndex = 0
var discTest: NimNode
case child[bIndex].kind
of nnkOfBranch:
discTest = newNimNode(nnkCurly)
while recListIndex < child[bIndex].len - 1:
yAssert child[bIndex][recListIndex].kind == nnkIntLit
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discTest.add(child[bIndex][recListIndex])
alreadyUsedSet.add(child[bIndex][recListIndex])
inc(recListIndex)
discTest = infix(discriminant, "in", discTest)
of nnkElse:
discTest = infix(discriminant, "notin", alreadyUsedSet)
else:
internalError("Unexpected child kind: " & $child[bIndex].kind)
for item in child[bIndex][recListIndex].recListItems:
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inc(fieldIndex)
yAssert item.kind == nnkSym
var ob = newNimNode(nnkOfBranch).add(newStrLitNode($item))
let field = newDotExpr(o, newIdentNode($item))
var ifStmt = newIfStmt((cond: discTest, body: newStmtList(
newCall("constructChild", stream, context, field))))
ifStmt.add(newNimNode(nnkElse).add(newNimNode(nnkRaiseStmt).add(
newCall(bindSym("constructionError"), stream,
infix(newStrLitNode("Field " & $item & " not allowed for " &
$child[0] & " == "), "&", prefix(discriminant, "$"))))))
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ob.add(ifNotTransient(tIndex, fieldIndex,
[checkDuplicate(stream, tName, $item, fieldIndex, matched),
ifStmt, markAsFound(fieldIndex, matched)], true, stream, tName,
$item))
caseStmt.add(ob)
else:
yAssert child.kind == nnkSym
var ob = newNimNode(nnkOfBranch).add(newStrLitNode($child))
let field = newDotExpr(o, newIdentNode($child))
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ob.add(ifNotTransient(tIndex, fieldIndex,
[checkDuplicate(stream, tName, $child, fieldIndex, matched),
newCall("constructChild", stream, context, field),
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markAsFound(fieldIndex, matched)], true, stream, tName, $child))
caseStmt.add(ob)
inc(fieldIndex)
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caseStmt.add(newNimNode(nnkElse).add(newNimNode(nnkRaiseStmt).add(
newCall(bindSym("constructionError"), stream,
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infix(newLit("While constructing " & tName & ": Unknown field: "), "&",
newCall(bindSym("escape"), name))))))
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result.add(caseStmt)
proc isVariantObject(t: typedesc): bool {.compileTime.} =
var tDesc = getType(t)
if tDesc.kind == nnkBracketExpr: tDesc = getType(tDesc[1])
if tDesc.kind != nnkObjectTy:
return false
for child in tDesc[2].children:
if child.kind == nnkRecCase: return true
return false
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macro injectIgnoredKeyList(t: typedesc, ident: untyped): typed =
result = quote do:
when compiles(`ignoredKeyListProc`(`t`)):
const `ident` = ignoredKeyLists[`ignoredKeyListproc`(`t`)]
else:
const `ident` = newSeq[string]()
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proc constructObject*[O: object|tuple](
s: var YamlStream, c: ConstructionContext, result: var O)
{.raises: [YamlConstructionError, YamlStreamError].} =
## constructs a Nim object or tuple from a YAML mapping
var matched = matchMatrix(O)
var e = s.next()
const
startKind = when isVariantObject(O): yamlStartSeq else: yamlStartMap
endKind = when isVariantObject(O): yamlEndSeq else: yamlEndMap
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fetchTransientIndex(O, tIndex)
if e.kind != startKind:
raise s.constructionError("While constructing " &
typetraits.name(O) & ": Expected " & $startKind & ", got " & $e.kind)
when isVariantObject(O): reset(result) # make discriminants writeable
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injectIgnoredKeyList(O, ignoredKeyList)
while s.peek.kind != endKind:
e = s.next()
when isVariantObject(O):
if e.kind != yamlStartMap:
raise s.constructionError("Expected single-pair map, got " & $e.kind)
e = s.next()
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if e.kind != yamlScalar:
raise s.constructionError("Expected field name, got " & $e.kind)
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let name = e.scalarContent
when result is tuple:
var i = 0
var found = false
for fname, value in fieldPairs(result):
if fname == name:
if matched[i]:
raise s.constructionError("While constructing " &
typetraits.name(O) & ": Duplicate field: " & escape(name))
constructChild(s, c, value)
matched[i] = true
found = true
break
inc(i)
if not found:
raise s.constructionError("While constructing " &
typetraits.name(O) & ": Unknown field: " & escape(name))
else:
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if name notin ignoredKeyList:
constructFieldValue(O, tIndex, s, c, name, result, matched)
else:
e = s.next()
var depth = int(e.kind in {yamlStartMap, yamlStartSeq})
while depth > 0:
case s.next().kind
of yamlStartMap, yamlStartSeq: inc(depth)
of yamlEndMap, yamlEndSeq: dec(depth)
of yamlScalar: discard
else: internalError("Unexpected event kind.")
when isVariantObject(O):
e = s.next()
if e.kind != yamlEndMap:
raise s.constructionError("Expected end of single-pair map, got " &
$e.kind)
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discard s.next()
when result is tuple:
var i = 0
for fname, value in fieldPairs(result):
if not matched[i]:
raise s.constructionError("While constructing " &
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typetraits.name(O) & ": Missing field: " & escape(fname))
inc(i)
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else: ensureAllFieldsPresent(s, O, tIndex, result, matched)
macro genRepresentObject(t: typedesc, value, childTagStyle: typed): typed =
result = newStmtList()
let tSym = genSym(nskConst, ":tSym")
result.add(quote do:
when compiles(`transientBitvectorProc`(`t`)):
const `tSym` = `transientBitvectorProc`(`t`)
else:
const `tSym` = -1
)
let
tDecl = getType(t)
tDesc = getType(tDecl[1])
isVO = isVariantObject(t)
var fieldIndex = 0'i16
for child in tDesc[2].children:
if child.kind == nnkRecCase:
let
fieldName = $child[0]
fieldAccessor = newDotExpr(value, newIdentNode(fieldName))
result.add(quote do:
c.put(startMapEvent(yTagQuestionMark, yAnchorNone))
c.put(scalarEvent(`fieldName`, if `childTagStyle` == tsNone:
yTagQuestionMark else: yTagNimField, yAnchorNone))
representChild(`fieldAccessor`, `childTagStyle`, c)
c.put(endMapEvent())
)
let enumName = $getTypeInst(child[0])
var caseStmt = newNimNode(nnkCaseStmt).add(fieldAccessor)
for bIndex in 1 .. len(child) - 1:
var curBranch: NimNode
var recListIndex = 0
case child[bIndex].kind
of nnkOfBranch:
curBranch = newNimNode(nnkOfBranch)
while recListIndex < child[bIndex].len - 1:
expectKind(child[bIndex][recListIndex], nnkIntLit)
curBranch.add(newCall(enumName, newLit(child[bIndex][recListIndex].intVal)))
inc(recListIndex)
of nnkElse:
curBranch = newNimNode(nnkElse)
else:
internalError("Unexpected child kind: " & $child[bIndex].kind)
var curStmtList = newStmtList()
if child[bIndex][recListIndex].recListLen > 0:
for item in child[bIndex][recListIndex].recListItems():
inc(fieldIndex)
let
name = $item
itemAccessor = newDotExpr(value, newIdentNode(name))
curStmtList.add(quote do:
when `tSym` == -1 or `fieldIndex` notin transientVectors[`tSym`]:
c.put(startMapEvent(yTagQuestionMark, yAnchorNone))
c.put(scalarEvent(`name`, if `childTagStyle` == tsNone:
yTagQuestionMark else: yTagNimField, yAnchorNone))
representChild(`itemAccessor`, `childTagStyle`, c)
c.put(endMapEvent())
)
else:
curStmtList.add(newNimNode(nnkDiscardStmt).add(newEmptyNode()))
curBranch.add(curStmtList)
caseStmt.add(curBranch)
result.add(caseStmt)
else:
let
name = $child
childAccessor = newDotExpr(value, newIdentNode(name))
result.add(quote do:
when `tSym` == -1 or `fieldIndex` notin transientVectors[`tSym`]:
when `isVO`: c.put(startMapEvent(yTagQuestionMark, yAnchorNone))
c.put(scalarEvent(`name`, if `childTagStyle` == tsNone:
yTagQuestionMark else: yTagNimField, yAnchorNone))
representChild(`childAccessor`, `childTagStyle`, c)
when `isVO`: c.put(endMapEvent())
)
inc(fieldIndex)
proc representObject*[O: object](value: O, ts: TagStyle,
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c: SerializationContext, tag: TagId) =
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## represents a Nim object or tuple as YAML mapping
let childTagStyle = if ts == tsRootOnly: tsNone else: ts
when isVariantObject(O): c.put(startSeqEvent(tag, yAnchorNone))
else: c.put(startMapEvent(tag, yAnchorNone))
genRepresentObject(O, value, childTagStyle)
when isVariantObject(O): c.put(endSeqEvent())
else: c.put(endMapEvent())
proc representObject*[O: tuple](value: O, ts: TagStyle,
c: SerializationContext, tag: TagId) =
let childTagStyle = if ts == tsRootOnly: tsNone else: ts
var fieldIndex = 0'i16
c.put(startMapEvent(tag, yAnchorNone))
for name, fvalue in fieldPairs(value):
c.put(scalarEvent(name, if childTagStyle == tsNone:
yTagQuestionMark else: yTagNimField, yAnchorNone))
representChild(fvalue, childTagStyle, c)
inc(fieldIndex)
c.put(endMapEvent())
proc constructObject*[O: enum](s: var YamlStream, c: ConstructionContext,
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result: var O)
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{.raises: [YamlConstructionError, YamlStreamError].} =
## constructs a Nim enum from a YAML scalar
let e = s.next()
if e.kind != yamlScalar:
raise s.constructionError("Expected scalar, got " & $e.kind)
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try: result = parseEnum[O](e.scalarContent)
except ValueError:
var ex = s.constructionError("Cannot parse '" &
escape(e.scalarContent) & "' as " & type(O).name)
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ex.parent = getCurrentException()
raise ex
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proc representObject*[O: enum](value: O, ts: TagStyle,
c: SerializationContext, tag: TagId) {.raises: [].} =
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## represents a Nim enum as YAML scalar
c.put(scalarEvent($value, tag, yAnchorNone))
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proc yamlTag*[O](T: typedesc[ref O]): TagId {.inline, raises: [].} = yamlTag(O)
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macro constructImplicitVariantObject(s, c, r, possibleTagIds: untyped,
t: typedesc): typed =
let tDesc = getType(getType(t)[1])
yAssert tDesc.kind == nnkObjectTy
let recCase = tDesc[2][0]
yAssert recCase.kind == nnkRecCase
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let discriminant = newDotExpr(r, newIdentNode($recCase[0]))
var ifStmt = newNimNode(nnkIfStmt)
for i in 1 .. recCase.len - 1:
yAssert recCase[i].kind == nnkOfBranch
var branch = newNimNode(nnkElifBranch)
var branchContent = newStmtList(newAssignment(discriminant, recCase[i][0]))
case recCase[i][1].recListLen
of 0:
branch.add(infix(newIdentNode("yTagNull"), "in", possibleTagIds))
branchContent.add(newNimNode(nnkDiscardStmt).add(newCall("next", s)))
of 1:
let field = newDotExpr(r, newIdentNode($recCase[i][1].recListNode))
branch.add(infix(
newCall("yamlTag", newCall("type", field)), "in", possibleTagIds))
branchContent.add(newCall("constructChild", s, c, field))
else: internalError("Too many children: " & $recCase[i][1].recListlen)
branch.add(branchContent)
ifStmt.add(branch)
let raiseStmt = newNimNode(nnkRaiseStmt).add(
newCall(bindSym("constructionError"), s,
infix(newStrLitNode("This value type does not map to any field in " &
typetraits.name(t) & ": "), "&",
newCall("uri", newIdentNode("serializationTagLibrary"),
newNimNode(nnkBracketExpr).add(possibleTagIds, newIntLitNode(0)))
)
))
ifStmt.add(newNimNode(nnkElse).add(newNimNode(nnkTryStmt).add(
newStmtList(raiseStmt), newNimNode(nnkExceptBranch).add(
newIdentNode("KeyError"),
newNimNode(nnkDiscardStmt).add(newEmptyNode())
))))
result = newStmtList(newCall("reset", r), ifStmt)
macro isImplicitVariantObject(o: typed): untyped =
result = newCall("compiles", newCall(implicitVariantObjectMarker, o))
proc constructChild*[T](s: var YamlStream, c: ConstructionContext,
result: var T) =
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let item = s.peek()
when isImplicitVariantObject(result):
var possibleTagIds = newSeq[TagId]()
case item.kind
of yamlScalar:
case item.scalarTag
of yTagQuestionMark:
case guessType(item.scalarContent)
of yTypeInteger:
possibleTagIds.add([yamlTag(int), yamlTag(int8), yamlTag(int16),
yamlTag(int32), yamlTag(int64)])
if item.scalarContent[0] != '-':
possibleTagIds.add([yamlTag(uint), yamlTag(uint8), yamlTag(uint16),
yamlTag(uint32), yamlTag(uint64)])
of yTypeFloat, yTypeFloatInf, yTypeFloatNaN:
possibleTagIds.add([yamlTag(float), yamlTag(float32),
yamlTag(float64)])
of yTypeBoolTrue, yTypeBoolFalse:
possibleTagIds.add(yamlTag(bool))
of yTypeNull:
raise s.constructionError("not implemented!")
of yTypeUnknown:
possibleTagIds.add(yamlTag(string))
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of yTypeTimestamp:
possibleTagIds.add(yamlTag(Time))
of yTagExclamationMark:
possibleTagIds.add(yamlTag(string))
else:
possibleTagIds.add(item.scalarTag)
of yamlStartMap:
if item.mapTag in [yTagQuestionMark, yTagExclamationMark]:
raise s.constructionError(
"Complex value of implicit variant object type must have a tag.")
possibleTagIds.add(item.mapTag)
of yamlStartSeq:
if item.seqTag in [yTagQuestionMark, yTagExclamationMark]:
raise s.constructionError(
"Complex value of implicit variant object type must have a tag.")
possibleTagIds.add(item.seqTag)
else: internalError("Unexpected item kind: " & $item.kind)
constructImplicitVariantObject(s, c, result, possibleTagIds, T)
else:
case item.kind
of yamlScalar:
if item.scalarTag notin [yTagQuestionMark, yTagExclamationMark,
yamlTag(T)]:
raise s.constructionError("Wrong tag for " & typetraits.name(T))
elif item.scalarAnchor != yAnchorNone:
raise s.constructionError("Anchor on non-ref type")
of yamlStartMap:
if item.mapTag notin [yTagQuestionMark, yamlTag(T)]:
raise s.constructionError("Wrong tag for " & typetraits.name(T))
elif item.mapAnchor != yAnchorNone:
raise s.constructionError("Anchor on non-ref type")
of yamlStartSeq:
if item.seqTag notin [yTagQuestionMark, yamlTag(T)]:
raise s.constructionError("Wrong tag for " & typetraits.name(T))
elif item.seqAnchor != yAnchorNone:
raise s.constructionError("Anchor on non-ref type")
else: internalError("Unexpected item kind: " & $item.kind)
constructObject(s, c, result)
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proc constructChild*(s: var YamlStream, c: ConstructionContext,
result: var string) =
let item = s.peek()
if item.kind == yamlScalar:
if item.scalarTag == yTagNimNilString:
discard s.next()
result = nil
return
elif item.scalarTag notin
[yTagQuestionMark, yTagExclamationMark, yamlTag(string)]:
raise s.constructionError("Wrong tag for string")
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elif item.scalarAnchor != yAnchorNone:
raise s.constructionError("Anchor on non-ref type")
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constructObject(s, c, result)
proc constructChild*[T](s: var YamlStream, c: ConstructionContext,
result: var seq[T]) =
let item = s.peek()
if item.kind == yamlScalar:
if item.scalarTag == yTagNimNilSeq:
discard s.next()
result = nil
return
elif item.kind == yamlStartSeq:
if item.seqTag notin [yTagQuestionMark, yamlTag(seq[T])]:
raise s.constructionError("Wrong tag for " & typetraits.name(seq[T]))
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elif item.seqAnchor != yAnchorNone:
raise s.constructionError("Anchor on non-ref type")
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constructObject(s, c, result)
when defined(JS):
# in JS, Time is a ref type. Therefore, we need this specialization so that
# it is not handled by the general ref-type handler.
proc constructChild*(s: var YamlStream, c: ConstructionContext,
result: var Time) =
let e = s.peek()
if e.kind == yamlScalar:
if e.scalarTag notin [yTagQuestionMark, yTagTimestamp]:
raise s.constructionError("Wrong tag for Time")
elif guessType(e.scalarContent) != yTypeTimestamp:
raise s.constructionError("Invalid timestamp")
elif e.scalarAnchor != yAnchorNone:
raise s.constructionError("Anchor on non-ref type")
constructObject(s, c, result)
else:
raise s.constructionError("Unexpected structure, expected timestamp")
proc constructChild*[O](s: var YamlStream, c: ConstructionContext,
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result: var ref O) =
var e = s.peek()
if e.kind == yamlScalar:
if e.scalarTag == yTagNull or (e.scalarTag == yTagQuestionMark and
guessType(e.scalarContent) == yTypeNull):
result = nil
discard s.next()
return
elif e.kind == yamlAlias:
result = cast[ref O](c.refs.getOrDefault(e.aliasTarget))
discard s.next()
return
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new(result)
template removeAnchor(anchor: var AnchorId) {.dirty.} =
if anchor != yAnchorNone:
yAssert(not c.refs.hasKey(anchor))
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c.refs[anchor] = cast[pointer](result)
anchor = yAnchorNone
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case e.kind
of yamlScalar: removeAnchor(e.scalarAnchor)
of yamlStartMap: removeAnchor(e.mapAnchor)
of yamlStartSeq: removeAnchor(e.seqAnchor)
else: internalError("Unexpected event kind: " & $e.kind)
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s.peek = e
try: constructChild(s, c, result[])
except YamlConstructionError, YamlStreamError: raise
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except Exception:
var e = newException(YamlStreamError, getCurrentExceptionMsg())
e.parent = getCurrentException()
raise e
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proc representChild*(value: string, ts: TagStyle, c: SerializationContext) =
if isNil(value): c.put(scalarEvent("", yTagNimNilString))
else: representObject(value, ts, c, presentTag(string, ts))
proc representChild*[T](value: seq[T], ts: TagStyle, c: SerializationContext) =
if isNil(value): c.put(scalarEvent("", yTagNimNilSeq))
else: representObject(value, ts, c, presentTag(seq[T], ts))
proc representChild*[O](value: ref O, ts: TagStyle, c: SerializationContext) =
if isNil(value): c.put(scalarEvent("~", yTagNull))
elif c.style == asNone: representChild(value[], ts, c)
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else:
let p = cast[pointer](value)
if c.refs.hasKey(p):
if c.refs.getOrDefault(p) == yAnchorNone:
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c.refs[p] = c.nextAnchorId
c.nextAnchorId = AnchorId(int(c.nextAnchorId) + 1)
c.put(aliasEvent(c.refs.getOrDefault(p)))
return
if c.style == asAlways:
c.refs[p] = c.nextAnchorId
c.nextAnchorId = AnchorId(int(c.nextAnchorId) + 1)
else: c.refs[p] = yAnchorNone
let
a = if c.style == asAlways: c.refs.getOrDefault(p) else: cast[AnchorId](p)
childTagStyle = if ts == tsAll: tsAll else: tsRootOnly
let origPut = c.put
c.put = proc(e: YamlStreamEvent) =
var ex = e
case ex.kind
of yamlStartMap:
ex.mapAnchor = a
if ts == tsNone: ex.mapTag = yTagQuestionMark
of yamlStartSeq:
ex.seqAnchor = a
if ts == tsNone: ex.seqTag = yTagQuestionMark
of yamlScalar:
ex.scalarAnchor = a
if ts == tsNone and guessType(ex.scalarContent) != yTypeNull:
ex.scalarTag = yTagQuestionMark
else: discard
c.put = origPut
c.put(ex)
representChild(value[], childTagStyle, c)
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proc representChild*[O](value: O, ts: TagStyle,
c: SerializationContext) =
when isImplicitVariantObject(value):
# todo: this would probably be nicer if constructed with a macro
var count = 0
for name, field in fieldPairs(value):
if count > 0:
representChild(field, if ts == tsAll: tsAll else: tsRootOnly, c)
inc(count)
if count == 1: c.put(scalarEvent("~", yTagNull))
else:
representObject(value, ts, c,
if ts == tsNone: yTagQuestionMark else: yamlTag(O))
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proc construct*[T](s: var YamlStream, target: var T)
{.raises: [YamlStreamError].} =
## Constructs a Nim value from a YAML stream.
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var context = newConstructionContext()
try:
var e = s.next()
yAssert(e.kind == yamlStartDoc)
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constructChild(s, context, target)
e = s.next()
yAssert(e.kind == yamlEndDoc)
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except YamlConstructionError:
raise (ref YamlConstructionError)(getCurrentException())
except YamlStreamError:
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let cur = getCurrentException()
var e = newException(YamlStreamError, cur.msg)
e.parent = cur.parent
raise e
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except Exception:
# may occur while calling s()
var ex = newException(YamlStreamError, "")
ex.parent = getCurrentException()
raise ex
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proc load*[K](input: Stream | string, target: var K)
{.raises: [YamlConstructionError, IOError, YamlParserError].} =
## Loads a Nim value from a YAML character stream.
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var
parser = newYamlParser(serializationTagLibrary)
events = parser.parse(input)
try: construct(events, target)
except YamlStreamError:
let e = (ref YamlStreamError)(getCurrentException())
if e.parent of IOError: raise (ref IOError)(e.parent)
elif e.parent of YamlParserError: raise (ref YamlParserError)(e.parent)
else: internalError("Unexpected exception: " & $e.parent.name)
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proc loadMultiDoc*[K](input: Stream | string, target: var seq[K]) =
if target.isNil:
target = newSeq[K]()
var
parser = newYamlParser(serializationTagLibrary)
events = parser.parse(input)
try:
while not events.finished():
var item: K
construct(events, item)
target.add(item)
except YamlConstructionError:
var e = (ref YamlConstructionError)(getCurrentException())
discard events.getLastTokenContext(e.line, e.column, e.lineContent)
raise e
except YamlStreamError:
let e = (ref YamlStreamError)(getCurrentException())
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if e.parent of IOError: raise (ref IOError)(e.parent)
elif e.parent of YamlParserError: raise (ref YamlParserError)(e.parent)
else: internalError("Unexpected exception: " & $e.parent.name)
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proc setAnchor(a: var AnchorId, q: var Table[pointer, AnchorId])
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{.inline.} =
if a != yAnchorNone: a = q.getOrDefault(cast[pointer](a))
proc represent*[T](value: T, ts: TagStyle = tsRootOnly,
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a: AnchorStyle = asTidy): YamlStream =
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## Represents a Nim value as ``YamlStream``
var bys = newBufferYamlStream()
var context = newSerializationContext(a, proc(e: YamlStreamEvent) =
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bys.put(e)
)
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bys.put(startDocEvent())
representChild(value, ts, context)
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bys.put(endDocEvent())
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if a == asTidy:
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for item in bys.mitems():
case item.kind
of yamlStartMap: item.mapAnchor.setAnchor(context.refs)
of yamlStartSeq: item.seqAnchor.setAnchor(context.refs)
of yamlScalar: item.scalarAnchor.setAnchor(context.refs)
else: discard
result = bys
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proc dump*[K](value: K, target: Stream, tagStyle: TagStyle = tsRootOnly,
anchorStyle: AnchorStyle = asTidy,
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options: PresentationOptions = defaultPresentationOptions)
{.raises: [YamlPresenterJsonError, YamlPresenterOutputError,
YamlStreamError].} =
## Dump a Nim value as YAML character stream.
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var events = represent(value,
if options.style == psCanonical: tsAll else: tagStyle,
if options.style == psJson: asNone else: anchorStyle)
try: present(events, target, serializationTagLibrary, options)
except YamlStreamError:
internalError("Unexpected exception: " & $getCurrentException().name)
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proc dump*[K](value: K, tagStyle: TagStyle = tsRootOnly,
anchorStyle: AnchorStyle = asTidy,
options: PresentationOptions = defaultPresentationOptions):
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string =
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## Dump a Nim value as YAML into a string
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var events = represent(value,
if options.style == psCanonical: tsAll else: tagStyle,
if options.style == psJson: asNone else: anchorStyle)
try: result = present(events, serializationTagLibrary, options)
except YamlStreamError:
internalError("Unexpected exception: " & $getCurrentException().name)
proc canBeImplicit(t: typedesc): bool {.compileTime.} =
let tDesc = getType(t)
if tDesc.kind != nnkObjectTy: return false
if tDesc[2].len != 1: return false
if tDesc[2][0].kind != nnkRecCase: return false
var foundEmptyBranch = false
for i in 1.. tDesc[2][0].len - 1:
case tDesc[2][0][i][1].recListlen # branch contents
of 0:
if foundEmptyBranch: return false
else: foundEmptyBranch = true
of 1: discard
else: return false
return true
macro setImplicitVariantObjectMarker(t: typedesc): untyped =
result = quote do:
when compiles(`transientBitvectorProc`(`t`)):
{.fatal: "Cannot mark object with transient fields as implicit".}
proc `implicitVariantObjectMarker`*(unused: `t`) = discard
template markAsImplicit*(t: typedesc): typed =
## Mark a variant object type as implicit. This requires the type to consist
## of nothing but a case expression and each branch of the case expression
## containing exactly one field - with the exception that one branch may
## contain zero fields.
when canBeImplicit(t):
# this will be checked by means of compiles(implicitVariantObject(...))
setImplicitVariantObjectMarker(t)
else:
{. fatal: "This type cannot be marked as implicit" .}
macro getFieldIndex(t: typedesc, field: untyped): untyped =
let
tDecl = getType(t)
tName = $tDecl[1]
tDesc = getType(tDecl[1])
fieldName = $field
var
fieldIndex = 0
found = false
block outer:
for child in tDesc[2].children:
if child.kind == nnkRecCase:
for bIndex in 1 .. len(child) - 1:
var bChildIndex = 0
case child[bIndex].kind
of nnkOfBranch:
while child[bIndex][bChildIndex].kind == nnkIntLit: inc(bChildIndex)
of nnkElse: discard
else:
internalError("Unexpected child kind: " &
$child[bIndex][bChildIndex].kind)
for item in child[bIndex][bChildIndex].recListItems:
inc(fieldIndex)
yAssert item.kind == nnkSym
if $item == fieldName:
found = true
break outer
else:
yAssert child.kind == nnkSym
if $child == fieldName:
found = true
break
inc(fieldIndex)
if not found:
let msg = "Type " & tName & " has no field " & fieldName & '!'
result = quote do: {.fatal: `msg`.}
else:
result = newNimNode(nnkInt16Lit)
result.intVal = fieldIndex
macro markAsTransient*(t: typedesc, field: untyped): typed =
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## Mark an object field as *transient*, meaning that this object field will
## not be serialized when an object instance is dumped as YAML, and also that
## the field is not expected to be given in YAML input that is loaded to an
## object instance.
##
## Example usage:
##
## .. code-block::
## type MyObject = object
## a, b: string
## c: int
## markAsTransient(MyObject, a)
## markAsTransient(MyObject, c)
##
## This does not work if the object has been marked as implicit.
let nextBitvectorIndex = transientVectors.len
result = quote do:
when compiles(`implicitVariantObjectMarker`(`t`)):
{.fatal: "Cannot mark fields of implicit variant objects as transient." .}
when not compiles(`transientBitvectorProc`(`t`)):
proc `transientBitvectorProc`*(myType: typedesc[`t`]): int
{.compileTime.} =
`nextBitvectorIndex`
static: transientVectors.add({})
static:
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transientVectors[`transientBitvectorProc`(`t`)].incl(
getFieldIndex(`t`, `field`))
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macro setDefaultValue*(t: typedesc, field: untyped, value: typed): typed =
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## Set the default value of an object field. Fields with default values may
## be absent in YAML input when loading an instance of the object. If the
## field is absent in the YAML input, the default value is assigned to the
## field.
##
## Example usage:
##
## .. code-block::
## type MyObject = object
## a, b: string
## c: tuple[x, y: int]
## setDefaultValue(MyObject, a, "foo")
## setDefaultValue(MyObject, c, (1, 2))
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let
dSym = genSym(nskVar, ":default")
nextBitvectorIndex = defaultVectors.len
result = quote do:
when compiles(`transientBitvectorProc`(`t`)):
{.fatal: "Cannot set default value of transient field".}
elif compiles(`implicitVariantObjectMarker`(`t`)):
{.fatal: "Cannot set default value of implicit variant objects.".}
when not compiles(`defaultValueGetter`(`t`)):
var `dSym` {.compileTime.}: `t`
template `defaultValueGetter`(t: typedesc[`t`]): auto =
`dSym`
proc `defaultBitvectorProc`*(myType: typedesc[`t`]): int
{.compileTime.} = `nextBitvectorIndex`
static: defaultVectors.add({})
static:
`defaultValueGetter`(`t`).`field` = `value`
defaultVectors[`defaultBitvectorProc`(`t`)].incl(getFieldIndex(`t`, `field`))
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macro ignoreInputKey*(t: typedesc, name: string{lit}): typed =
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## Tell NimYAML that when loading an object of type ``t``, any mapping key
## named ``name`` shall be ignored. This makes it possible to only load
## relevant parts of a YAML input and ignoring other portions of the input.
##
## Example usage:
##
## .. code-block::
## type MyObject = object
## a, b: string
## ignoreInputKey(MyObject, "c")
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let nextIgnoredKeyList = ignoredKeyLists.len
result = quote do:
when not compiles(`ignoredKeyListProc`(`t`)):
proc `ignoredKeyListProc`*(t: typedesc[`t`]): int {.compileTime.} =
`nextIgnoredKeyList`
static: ignoredKeyLists.add(@[])
when `name` in ignoredKeyLists[`ignoredKeyListProc`(`t`)]:
{.fatal: "Input key " & `name` & " is already ignored!".}
static:
ignoredKeyLists[`ignoredKeyListProc`(`t`)].add(`name`)