314 lines
7.7 KiB
Nim
314 lines
7.7 KiB
Nim
# beacon_chain
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# Copyright (c) 2018-2021 Status Research & Development GmbH
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# Licensed and distributed under either of
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# * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT).
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# * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0).
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# at your option. This file may not be copied, modified, or distributed except according to those terms.
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{.used.}
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import
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std/[options],
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unittest2,
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nimcrypto/hash,
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json_serialization,
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../beacon_chain/spec/datatypes/base,
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../beacon_chain/ssz,
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../beacon_chain/ssz/[navigator, dynamic_navigator]
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type
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SomeEnum = enum
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A, B, C
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Simple = object
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flag: bool
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# ignored {.dontSerialize.}: string
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data: array[256, bool]
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data2: HashArray[256, bool]
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NonFixed = object
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data: HashList[uint64, 1024]
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template reject(stmt) =
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doAssert(not compiles(stmt))
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static:
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doAssert isFixedSize(bool) == true
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doAssert fixedPortionSize(array[10, bool]) == 10
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doAssert fixedPortionSize(array[SomeEnum, uint64]) == 24
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doAssert fixedPortionSize(array[3..5, List[byte, 256]]) == 12
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doAssert isFixedSize(array[20, bool]) == true
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doAssert isFixedSize(Simple) == true
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doAssert isFixedSize(List[bool, 128]) == false
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doAssert isFixedSize(NonFixed) == false
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reject fixedPortionSize(int)
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type
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ObjWithFields = object
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f0: uint8
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f1: uint32
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f2: array[20, byte]
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f3: MDigest[256]
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f4: seq[byte]
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f5: ValidatorIndex
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static:
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doAssert fixedPortionSize(ObjWithFields) ==
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1 + 4 + sizeof(array[20, byte]) + (256 div 8) + 4 + 8
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type
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Foo = object
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bar: Bar
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BarList = List[uint64, 128]
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Bar = object
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b: BarList
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baz: Baz
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Baz = object
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i: uint64
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proc toDigest[N: static int](x: array[N, byte]): Eth2Digest =
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result.data[0 .. N-1] = x
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suite "SSZ navigator":
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test "simple object fields":
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var foo = Foo(bar: Bar(b: BarList @[1'u64, 2, 3], baz: Baz(i: 10'u64)))
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let encoded = SSZ.encode(foo)
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check SSZ.decode(encoded, Foo) == foo
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let mountedFoo = sszMount(encoded, Foo)
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check mountedFoo.bar.b[] == BarList @[1'u64, 2, 3]
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let mountedBar = mountedFoo.bar
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check mountedBar.baz.i == 10'u64
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test "lists with max size":
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let a = [byte 0x01, 0x02, 0x03].toDigest
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let b = [byte 0x04, 0x05, 0x06].toDigest
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let c = [byte 0x07, 0x08, 0x09].toDigest
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var xx: List[uint64, 16]
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check:
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not xx.setLen(17)
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xx.setLen(16)
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var leaves = HashList[Eth2Digest, 1'i64 shl 3]()
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check:
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leaves.add a
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leaves.add b
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leaves.add c
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let root = hash_tree_root(leaves)
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check $root == "5248085b588fab1dd1e03f3cd62201602b12e6560665935964f46e805977e8c5"
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while leaves.len < 1 shl 3:
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check:
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leaves.add c
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hash_tree_root(leaves) == hash_tree_root(leaves.data)
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leaves = default(type leaves)
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while leaves.len < (1 shl 3) - 1:
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check:
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leaves.add c
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leaves.add c
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hash_tree_root(leaves) == hash_tree_root(leaves.data)
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leaves = default(type leaves)
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while leaves.len < (1 shl 3) - 2:
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check:
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leaves.add c
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leaves.add c
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leaves.add c
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hash_tree_root(leaves) == hash_tree_root(leaves.data)
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for i in 0 ..< leaves.data.len - 2:
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leaves[i] = a
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leaves[i + 1] = b
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leaves[i + 2] = c
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check hash_tree_root(leaves) == hash_tree_root(leaves.data)
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var leaves2 = HashList[Eth2Digest, 1'i64 shl 48]() # Large number!
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check:
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leaves2.add a
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leaves2.add b
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leaves2.add c
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hash_tree_root(leaves2) == hash_tree_root(leaves2.data)
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var leaves3 = HashList[Eth2Digest, 7]() # Non-power-of-2
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check:
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hash_tree_root(leaves3) == hash_tree_root(leaves3.data)
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leaves3.add a
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leaves3.add b
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leaves3.add c
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hash_tree_root(leaves3) == hash_tree_root(leaves3.data)
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test "basictype":
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var leaves = HashList[uint64, 1'i64 shl 3]()
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while leaves.len < leaves.maxLen:
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check:
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leaves.add leaves.lenu64
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hash_tree_root(leaves) == hash_tree_root(leaves.data)
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suite "SSZ dynamic navigator":
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test "navigating fields":
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var fooOrig = Foo(bar: Bar(b: BarList @[1'u64, 2, 3], baz: Baz(i: 10'u64)))
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let fooEncoded = SSZ.encode(fooOrig)
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var navFoo = DynamicSszNavigator.init(fooEncoded, Foo)
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var navBar = navFoo.navigate("bar")
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check navBar.toJson(pretty = false) == """{"b":[1,2,3],"baz":{"i":10}}"""
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var navB = navBar.navigate("b")
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check navB.toJson(pretty = false) == "[1,2,3]"
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var navBaz = navBar.navigate("baz")
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var navI = navBaz.navigate("i")
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check navI.toJson == "10"
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expect KeyError:
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discard navBar.navigate("biz")
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type
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Obj = object
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arr: array[8, Eth2Digest]
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li: List[Eth2Digest, 8]
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HashObj = object
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arr: HashArray[8, Eth2Digest]
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li: HashList[Eth2Digest, 8]
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suite "hash":
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test "HashArray":
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var
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o = Obj()
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ho = HashObj()
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template both(body) =
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block:
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template it: auto {.inject.} = o
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body
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block:
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template it: auto {.inject.} = ho
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body
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let htro = hash_tree_root(o)
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let htrho = hash_tree_root(ho)
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check:
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o.arr == ho.arr.data
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o.li == ho.li.data
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htro == htrho
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both: it.arr[0].data[0] = byte 1
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both: check: it.li.add Eth2Digest()
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var y: HashArray[32, uint64]
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check: hash_tree_root(y) == hash_tree_root(y.data)
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for i in 0..<y.len:
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y[i] = 42'u64
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check: hash_tree_root(y) == hash_tree_root(y.data)
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test "HashList fixed":
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type MyList = HashList[uint64, 1024]
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var
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small, large: MyList
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let
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emptyBytes = SSZ.encode(small)
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emptyRoot = hash_tree_root(small)
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check: small.add(10'u64)
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for i in 0..<100:
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check: large.add(uint64(i))
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let
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sroot = hash_tree_root(small)
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lroot = hash_tree_root(large)
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check:
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sroot == hash_tree_root(small.data)
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lroot == hash_tree_root(large.data)
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var
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sbytes = SSZ.encode(small)
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lbytes = SSZ.encode(large)
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sloaded = SSZ.decode(sbytes, MyList)
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lloaded = SSZ.decode(lbytes, MyList)
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check:
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sroot == hash_tree_root(sloaded)
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lroot == hash_tree_root(lloaded)
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# Here we smoke test that the cache is reset correctly even when reading
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# into an existing instance - the instances are size-swapped so the reader
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# will have some more work to do
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readSszValue(sbytes, lloaded)
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readSszValue(lbytes, sloaded)
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check:
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lroot == hash_tree_root(sloaded)
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sroot == hash_tree_root(lloaded)
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readSszValue(emptyBytes, sloaded)
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check:
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emptyRoot == hash_tree_root(sloaded)
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test "HashList variable":
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type MyList = HashList[NonFixed, 1024]
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var
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small, large: MyList
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let
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emptyBytes = SSZ.encode(small)
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emptyRoot = hash_tree_root(small)
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check: small.add(NonFixed())
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for i in 0..<100:
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check: large.add(NonFixed())
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let
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sroot = hash_tree_root(small)
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lroot = hash_tree_root(large)
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check:
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sroot == hash_tree_root(small.data)
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lroot == hash_tree_root(large.data)
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var
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sbytes = SSZ.encode(small)
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lbytes = SSZ.encode(large)
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sloaded = SSZ.decode(sbytes, MyList)
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lloaded = SSZ.decode(lbytes, MyList)
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check:
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sroot == hash_tree_root(sloaded)
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lroot == hash_tree_root(lloaded)
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# Here we smoke test that the cache is reset correctly even when reading
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# into an existing instance - the instances are size-swapped so the reader
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# will have some more work to do
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readSszValue(sbytes, lloaded)
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readSszValue(lbytes, sloaded)
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check:
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lroot == hash_tree_root(sloaded)
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sroot == hash_tree_root(lloaded)
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readSszValue(emptyBytes, sloaded)
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check:
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emptyRoot == hash_tree_root(sloaded)
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