NimYAML/test/tserialization.nim

684 lines
20 KiB
Nim

# NimYAML - YAML implementation in Nim
# (c) Copyright 2015 Felix Krause
#
# See the file "copying.txt", included in this
# distribution, for details about the copyright.
import "../yaml"
import unittest, strutils, tables, times, math
type
MyTuple = tuple
str: string
i: int32
b: bool
TrafficLight = enum
tlGreen, tlYellow, tlRed
Person = object
firstnamechar: char
surname: string
age: int32
Node = object
value: string
next: ref Node
BetterInt = distinct int
AnimalKind = enum
akCat, akDog
Animal = object
name: string
case kind: AnimalKind
of akCat:
purringIntensity: int
of akDog: barkometer: int
DumbEnum = enum
deA, deB, deC, deD
NonVariantWithTransient = object
a, b, c, d: string
VariantWithTransient = object
gStorable, gTemporary: string
case kind: DumbEnum
of deA, deB:
cStorable, cTemporary: string
of deC:
alwaysThere: int
of deD:
neverThere: int
WithDefault = object
a, b, c, d: string
WithIgnoredField = object
x, y: int
markAsTransient(NonVariantWithTransient, a)
markAsTransient(NonVariantWithTransient, c)
markAsTransient(VariantWithTransient, gTemporary)
markAsTransient(VariantWithTransient, cTemporary)
markAsTransient(VariantWithTransient, neverThere)
setDefaultValue(WithDefault, b, "b")
setDefaultValue(WithDefault, d, "d")
ignoreInputKey(WithIgnoredField, "z")
proc `$`(v: BetterInt): string {.borrow.}
proc `==`(left, right: BetterInt): bool {.borrow.}
setTagUri(TrafficLight, "!tl")
setTagUri(Node, "!example.net:Node")
setTagUri(BetterInt, "!test:BetterInt")
const yamlDirs = "%YAML 1.2\n%TAG !n! tag:nimyaml.org,2016:\n--- "
proc representObject*(value: BetterInt, ts: TagStyle = tsNone,
c: SerializationContext, tag: TagId) {.raises: [].} =
var
val = $value
i = val.len - 3
while i > 0:
val.insert("_", i)
i -= 3
c.put(scalarEvent(val, tag, yAnchorNone))
proc constructObject*(s: var YamlStream, c: ConstructionContext,
result: var BetterInt)
{.raises: [YamlConstructionError, YamlStreamError].} =
constructScalarItem(s, item, BetterInt):
result = BetterInt(parseBiggestInt(item.scalarContent) + 1)
template assertStringEqual(expected, actual: string) =
for i in countup(0, min(expected.len, actual.len) - 1):
if expected[i] != actual[i]:
echo "string mismatch at character #", i, "(expected:\'",
expected[i], "\', was \'", actual[i], "\'):"
echo "expected:\n", expected, "\nactual:\n", actual
assert(false)
template expectConstructionError(li, co: int, message: string, body: typed) =
try:
body
echo "Expected YamlConstructionError, but none was raised!"
fail()
except YamlConstructionError:
let e = (ref YamlConstructionError)(getCurrentException())
doAssert li == e.line, "Expected error line " & $li & ", was " & $e.line
doAssert co == e.column, "Expected error column " & $co & ", was " & $e.column
doAssert message == e.msg, "Expected error message \n" & escape(message) &
", got \n" & escape(e.msg)
proc newNode(v: string): ref Node =
new(result)
result.value = v
result.next = nil
let blockOnly = defineOptions(style=psBlockOnly)
suite "Serialization":
test "Load integer without fixed length":
var input = "-4247"
var result: int
load(input, result)
assert result == -4247, "result is " & $result
input = $(int64(int32.high) + 1'i64)
var gotException = false
try: load(input, result)
except: gotException = true
assert gotException, "Expected exception, got none."
test "Dump integer without fixed length":
var input = -4247
var output = dump(input, tsNone, asTidy, blockOnly)
assertStringEqual yamlDirs & "\n\"-4247\"", output
when sizeof(int) == sizeof(int64):
input = int(int32.high) + 1
var gotException = false
try: output = dump(input, tsNone, asTidy, blockOnly)
except: gotException = true
assert gotException, "Expected exception, got none."
test "Load Hex byte (0xFF)":
let input = "0xFF"
var result: byte
load(input, result)
assert(result == 255)
test "Load Hex byte (0xC)":
let input = "0xC"
var result: byte
load(input, result)
assert(result == 12)
test "Load Octal byte (0o14)":
let input = "0o14"
var result: byte
load(input, result)
assert(result == 12)
test "Load byte (14)":
let input = "14"
var result: byte
load(input, result)
assert(result == 14)
test "Load Hex int (0xFF)":
let input = "0xFF"
var result: int
load(input, result)
assert(result == 255)
test "Load Hex int (0xC)":
let input = "0xC"
var result: int
load(input, result)
assert(result == 12)
test "Load Octal int (0o14)":
let input = "0o14"
var result: int
load(input, result)
assert(result == 12)
test "Load int (14)":
let input = "14"
var result: int
load(input, result)
assert(result == 14)
test "Load floats":
let input = "[6.8523015e+5, 685.230_15e+03, 685_230.15, -.inf, .NaN]"
var result: seq[float]
load(input, result)
for i in 0..2:
assert result[i] == 6.8523015e+5
assert result[3] == NegInf
assert classify(result[4]) == fcNan
#test "Load nil string":
# let input = "!<tag:nimyaml.org,2016:nil:string> \"\""
# var result: string
# load(input, result)
# assert result.len == 0
#
#test "Dump nil string":
# let input: string = ""
# var output = dump(input, tsNone, asTidy, blockOnly)
# assertStringEqual yamlDirs & "\n!n!nil:string \"\"", output
test "Load timestamps":
let input = "[2001-12-15T02:59:43.1Z, 2001-12-14t21:59:43.10-05:00, 2001-12-14 21:59:43.10-5]"
var result: seq[Time]
load(input, result)
assert result.len() == 3
# currently, there is no good way of checking the result content, because
# the parsed Time may have any timezone offset.
test "Load string sequence":
let input = " - a\n - b"
var result: seq[string]
load(input, result)
assert result.len == 2
assert result[0] == "a"
assert result[1] == "b"
test "Dump string sequence":
var input = @["a", "b"]
var output = dump(input, tsNone, asTidy, blockOnly)
assertStringEqual yamlDirs & "\n- a\n- b", output
#test "Load nil seq":
# let input = "!<tag:nimyaml.org,2016:nil:seq> \"\""
# var result: seq[int]
# load(input, result)
# assert result.len == 0
#
#test "Dump nil seq":
# let input: seq[int] = @[]
# var output = dump(input, tsNone, asTidy, blockOnly)
# assertStringEqual yamlDirs & "\n!n!nil:seq \"\"", output
test "Load char set":
let input = "- a\n- b"
var result: set[char]
load(input, result)
assert result.card == 2
assert 'a' in result
assert 'b' in result
test "Dump char set":
var input = {'a', 'b'}
var output = dump(input, tsNone, asTidy, blockOnly)
assertStringEqual yamlDirs & "\n- a\n- b", output
test "Load array":
let input = "- 23\n- 42\n- 47"
var result: array[0..2, int32]
load(input, result)
assert result[0] == 23
assert result[1] == 42
assert result[2] == 47
test "Dump array":
let input = [23'i32, 42'i32, 47'i32]
var output = dump(input, tsNone, asTidy, blockOnly)
assertStringEqual yamlDirs & "\n- 23\n- 42\n- 47", output
test "Load Table[int, string]":
let input = "23: dreiundzwanzig\n42: zweiundvierzig"
var result: Table[int32, string]
load(input, result)
assert result.len == 2
assert result[23] == "dreiundzwanzig"
assert result[42] == "zweiundvierzig"
test "Dump Table[int, string]":
var input = initTable[int32, string]()
input[23] = "dreiundzwanzig"
input[42] = "zweiundvierzig"
var output = dump(input, tsNone, asTidy, blockOnly)
assertStringEqual(yamlDirs & "\n23: dreiundzwanzig\n42: zweiundvierzig",
output)
test "Load OrderedTable[tuple[int32, int32], string]":
let input = "- {a: 23, b: 42}: drzw\n- {a: 13, b: 47}: drsi"
var result: OrderedTable[tuple[a, b: int32], string]
load(input, result)
var i = 0
for key, value in result.pairs:
case i
of 0:
assert key == (a: 23'i32, b: 42'i32)
assert value == "drzw"
of 1:
assert key == (a: 13'i32, b: 47'i32)
assert value == "drsi"
else: assert false
i.inc()
test "Dump OrderedTable[tuple[int32, int32], string]":
var input = initOrderedTable[tuple[a, b: int32], string]()
input.add((a: 23'i32, b: 42'i32), "dreiundzwanzigzweiundvierzig")
input.add((a: 13'i32, b: 47'i32), "dreizehnsiebenundvierzig")
var output = dump(input, tsRootOnly, asTidy, blockOnly)
assertStringEqual(yamlDirs &
"""!n!tables:OrderedTable(tag:nimyaml.org;2016:tuple(tag:nimyaml.org;2016:system:int32;tag:nimyaml.org;2016:system:int32);tag:yaml.org;2002:str)
-
?
a: 23
b: 42
: dreiundzwanzigzweiundvierzig
-
?
a: 13
b: 47
: dreizehnsiebenundvierzig""", output)
test "Load Sequences in Sequence":
let input = " - [1, 2, 3]\n - [4, 5]\n - [6]"
var result: seq[seq[int32]]
load(input, result)
assert result.len == 3
assert result[0] == @[1.int32, 2.int32, 3.int32]
assert result[1] == @[4.int32, 5.int32]
assert result[2] == @[6.int32]
test "Dump Sequences in Sequence":
let input = @[@[1.int32, 2.int32, 3.int32], @[4.int32, 5.int32], @[6.int32]]
var output = dump(input, tsNone)
assertStringEqual yamlDirs & "\n- [1, 2, 3]\n- [4, 5]\n- [6]", output
test "Load Enum":
let input =
"!<tag:nimyaml.org,2016:system:seq(tl)>\n- !tl tlRed\n- tlGreen\n- tlYellow"
var result: seq[TrafficLight]
load(input, result)
assert result.len == 3
assert result[0] == tlRed
assert result[1] == tlGreen
assert result[2] == tlYellow
test "Dump Enum":
let input = @[tlRed, tlGreen, tlYellow]
var output = dump(input, tsNone, asTidy, blockOnly)
assertStringEqual yamlDirs & "\n- tlRed\n- tlGreen\n- tlYellow", output
test "Load Tuple":
let input = "str: value\ni: 42\nb: true"
var result: MyTuple
load(input, result)
assert result.str == "value"
assert result.i == 42
assert result.b == true
test "Dump Tuple":
let input = (str: "value", i: 42.int32, b: true)
var output = dump(input, tsNone)
assertStringEqual yamlDirs & "\nstr: value\ni: 42\nb: y", output
test "Load Tuple - unknown field":
let input = "str: value\nfoo: bar\ni: 42\nb: true"
var result: MyTuple
expectConstructionError(2, 1, "While constructing MyTuple: Unknown field: \"foo\""):
load(input, result)
test "Load Tuple - missing field":
let input = "str: value\nb: true"
var result: MyTuple
expectConstructionError(2, 8, "While constructing MyTuple: Missing field: \"i\""):
load(input, result)
test "Load Tuple - duplicate field":
let input = "str: value\ni: 42\nb: true\nb: true"
var result: MyTuple
expectConstructionError(4, 1, "While constructing MyTuple: Duplicate field: \"b\""):
load(input, result)
test "Load Multiple Documents":
let input = "1\n---\n2"
var result: seq[int]
loadMultiDoc(input, result)
assert(result.len == 2)
assert result[0] == 1
assert result[1] == 2
test "Load Multiple Documents (Single Doc)":
let input = "1"
var result: seq[int]
loadMultiDoc(input, result)
assert(result.len == 1)
assert result[0] == 1
test "Load custom object":
let input = "firstnamechar: P\nsurname: Pan\nage: 12"
var result: Person
load(input, result)
assert result.firstnamechar == 'P'
assert result.surname == "Pan"
assert result.age == 12
test "Dump custom object":
let input = Person(firstnamechar: 'P', surname: "Pan", age: 12)
var output = dump(input, tsNone, asTidy, blockOnly)
assertStringEqual(yamlDirs &
"\nfirstnamechar: P\nsurname: Pan\nage: 12", output)
test "Load custom object - unknown field":
let input = " firstnamechar: P\n surname: Pan\n age: 12\n occupation: free"
var result: Person
expectConstructionError(4, 3, "While constructing Person: Unknown field: \"occupation\""):
load(input, result)
test "Load custom object - missing field":
let input = "surname: Pan\nage: 12\n "
var result: Person
expectConstructionError(3, 3, "While constructing Person: Missing field: \"firstnamechar\""):
load(input, result)
test "Load custom object - duplicate field":
let input = "firstnamechar: P\nsurname: Pan\nage: 12\nsurname: Pan"
var result: Person
expectConstructionError(4, 1, "While constructing Person: Duplicate field: \"surname\""):
load(input, result)
test "Load sequence with explicit tags":
let input = yamlDirs & "!n!system:seq(" &
"tag:yaml.org;2002:str)\n- !!str one\n- !!str two"
var result: seq[string]
load(input, result)
assert result[0] == "one"
assert result[1] == "two"
test "Dump sequence with explicit tags":
let input = @["one", "two"]
var output = dump(input, tsAll, asTidy, blockOnly)
assertStringEqual(yamlDirs & "!n!system:seq(" &
"tag:yaml.org;2002:str) \n- !!str one\n- !!str two", output)
test "Load custom object with explicit root tag":
let input =
"--- !<tag:nimyaml.org,2016:custom:Person>\nfirstnamechar: P\nsurname: Pan\nage: 12"
var result: Person
load(input, result)
assert result.firstnamechar == 'P'
assert result.surname == "Pan"
assert result.age == 12
test "Dump custom object with explicit root tag":
let input = Person(firstnamechar: 'P', surname: "Pan", age: 12)
var output = dump(input, tsRootOnly, asTidy, blockOnly)
assertStringEqual(yamlDirs &
"!n!custom:Person \nfirstnamechar: P\nsurname: Pan\nage: 12", output)
test "Load custom variant object":
let input =
"---\n- - name: Bastet\n - kind: akCat\n - purringIntensity: 7\n" &
"- - name: Anubis\n - kind: akDog\n - barkometer: 13"
var result: seq[Animal]
load(input, result)
assert result.len == 2
assert result[0].name == "Bastet"
assert result[0].kind == akCat
assert result[0].purringIntensity == 7
assert result[1].name == "Anubis"
assert result[1].kind == akDog
assert result[1].barkometer == 13
test "Dump custom variant object":
let input = @[Animal(name: "Bastet", kind: akCat, purringIntensity: 7),
Animal(name: "Anubis", kind: akDog, barkometer: 13)]
var output = dump(input, tsNone, asTidy, blockOnly)
assertStringEqual yamlDirs & """
-
-
name: Bastet
-
kind: akCat
-
purringIntensity: 7
-
-
name: Anubis
-
kind: akDog
-
barkometer: 13""", output
test "Load custom variant object - missing field":
let input = "[{name: Bastet}, {kind: akCat}]"
var result: Animal
expectConstructionError(1, 32, "While constructing Animal: Missing field: \"purringIntensity\""):
load(input, result)
test "Load non-variant object with transient fields":
let input = "{b: b, d: d}"
var result: NonVariantWithTransient
load(input, result)
assert result.a.len == 0
assert result.b == "b"
assert result.c.len == 0
assert result.d == "d"
test "Load non-variant object with transient fields - unknown field":
let input = "{b: b, c: c, d: d}"
var result: NonVariantWithTransient
expectConstructionError(1, 9, "While constructing NonVariantWithTransient: Field \"c\" is transient and may not occur in input"):
load(input, result)
test "Dump non-variant object with transient fields":
let input = NonVariantWithTransient(a: "a", b: "b", c: "c", d: "d")
let output = dump(input, tsNone, asTidy, blockOnly)
assertStringEqual yamlDirs & "\nb: b\nd: d", output
test "Load variant object with transient fields":
let input = "[[gStorable: gs, kind: deB, cStorable: cs], [gStorable: a, kind: deD]]"
var result: seq[VariantWithTransient]
load(input, result)
assert result.len == 2
assert result[0].kind == deB
assert result[0].gStorable == "gs"
assert result[0].cStorable == "cs"
assert result[1].kind == deD
assert result[1].gStorable == "a"
test "Load variant object with transient fields":
let input = "[gStorable: gc, kind: deD, neverThere: foo]"
var result: VariantWithTransient
expectConstructionError(1, 38, "While constructing VariantWithTransient: Field \"neverThere\" is transient and may not occur in input"):
load(input, result)
test "Dump variant object with transient fields":
let input = @[VariantWithTransient(kind: deB, gStorable: "gs",
gTemporary: "gt", cStorable: "cs", cTemporary: "ct"),
VariantWithTransient(kind: deD, gStorable: "a", gTemporary: "b",
neverThere: 42)]
let output = dump(input, tsNone, asTidy, blockOnly)
assertStringEqual yamlDirs & """
-
-
gStorable: gs
-
kind: deB
-
cStorable: cs
-
-
gStorable: a
-
kind: deD""", output
test "Load object with ignored key":
let input = "[{x: 1, y: 2}, {x: 3, z: 4, y: 5}, {z: [1, 2, 3], x: 4, y: 5}]"
var result: seq[WithIgnoredField]
load(input, result)
assert result.len == 3
assert result[0].x == 1
assert result[0].y == 2
assert result[1].x == 3
assert result[1].y == 5
assert result[2].x == 4
assert result[2].y == 5
test "Load object with ignored key - unknown field":
let input = "{x: 1, y: 2, zz: 3}"
var result: WithIgnoredField
expectConstructionError(1, 16, "While constructing WithIgnoredField: Unknown field: \"zz\""):
load(input, result)
when not defined(JS):
test "Dump cyclic data structure":
var
a = newNode("a")
b = newNode("b")
c = newNode("c")
a.next = b
b.next = c
c.next = a
var output = dump(a, tsRootOnly, asTidy, blockOnly)
assertStringEqual yamlDirs & """!example.net:Node &a
value: a
next:
value: b
next:
value: c
next: *a""", output
test "Load cyclic data structure":
let input = yamlDirs & """!n!system:seq(example.net:Node)
- &a
value: a
next: &b
value: b
next: &c
value: c
next: *a
- *b
- *c
"""
var result: seq[ref Node]
try: load(input, result)
except YamlConstructionError:
let ex = (ref YamlConstructionError)(getCurrentException())
echo "line ", ex.line, ", column ", ex.column, ": ", ex.msg
echo ex.lineContent
raise ex
assert(result.len == 3)
assert(result[0].value == "a")
assert(result[1].value == "b")
assert(result[2].value == "c")
assert(result[0].next == result[1])
assert(result[1].next == result[2])
assert(result[2].next == result[0])
test "Load object with default values":
let input = "a: abc\nc: dce"
var result: WithDefault
load(input, result)
assert result.a == "abc"
assert result.b == "b"
assert result.c == "dce"
assert result.d == "d"
test "Load object with partly default values":
let input = "a: abc\nb: bcd\nc: cde"
var result: WithDefault
load(input, result)
assert result.a == "abc"
assert result.b == "bcd"
assert result.c == "cde"
assert result.d == "d"
#when not defined(JS):
# test "Load nil values":
# let input = "- ~\n- !!str ~"
# var result: seq[ref string]
# try: load(input, result)
# except YamlConstructionError:
# let ex = (ref YamlConstructionError)(getCurrentException())
# echo "line ", ex.line, ", column ", ex.column, ": ", ex.msg
# echo ex.lineContent
# raise ex
#
# assert(result.len == 2)
# assert(result[0] == nil)
# assert(result[1][] == "~")
#
# test "Dump nil values":
# var input = newSeq[ref string]()
# input.add(nil)
# input.add(new string)
# input[1][] = "~"
# var output = dump(input, tsRootOnly, asTidy, blockOnly)
# assertStringEqual(yamlDirs &
# "!n!system:seq(tag:yaml.org;2002:str) \n- !!null ~\n- !!str ~",
# output)
test "Custom constructObject":
let input = "- 1\n- !test:BetterInt 2"
var result: seq[BetterInt]
load(input, result)
assert(result.len == 2)
assert(result[0] == 2.BetterInt)
assert(result[1] == 3.BetterInt)
test "Custom representObject":
let input = @[1.BetterInt, 9998887.BetterInt, 98312.BetterInt]
var output = dump(input, tsAll, asTidy, blockOnly)
assertStringEqual yamlDirs & """!n!system:seq(test:BetterInt)
- !test:BetterInt 1
- !test:BetterInt 9_998_887
- !test:BetterInt 98_312""", output