assert() -> doAssert()
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d002fbb155
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stint/io.nim
26
stint/io.nim
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@ -17,7 +17,7 @@ template static_check_size(T: typedesc[SomeInteger], bits: static[int]) =
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# To avoid a costly runtime check, we refuse storing into StUint types smaller
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# than the input type.
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static: assert sizeof(T) * 8 <= bits, "Input type (" & $T &
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static: doAssert sizeof(T) * 8 <= bits, "Input type (" & $T &
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") cannot be stored in a multi-precision " &
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$bits & "-bit integer." &
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"\nUse a smaller input type instead. This is a compile-time check" &
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@ -32,7 +32,7 @@ func assignLo(result: var (UintImpl | IntImpl), n: SomeInteger) {.inline.} =
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func stuint*[T: SomeInteger](n: T, bits: static[int]): StUint[bits] {.inline.}=
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## Converts an integer to an arbitrary precision integer.
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assert n >= 0.T
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doAssert n >= 0.T
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when result.data is UintImpl:
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static_check_size(T, bits)
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assignLo(result.data, n)
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@ -87,16 +87,16 @@ func skipPrefixes(current_idx: var int, str: string, radix: range[2..16]) {.inli
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if str.len < 2:
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return
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assert current_idx == 0, "skipPrefixes only works for prefixes (position 0 and 1 of the string)"
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doAssert current_idx == 0, "skipPrefixes only works for prefixes (position 0 and 1 of the string)"
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if str[0] == '0':
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if str[1] in {'x', 'X'}:
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assert radix == 16, "Parsing mismatch, 0x prefix is only valid for a hexadecimal number (base 16)"
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doAssert radix == 16, "Parsing mismatch, 0x prefix is only valid for a hexadecimal number (base 16)"
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current_idx = 2
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elif str[1] in {'o', 'O'}:
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assert radix == 8, "Parsing mismatch, 0o prefix is only valid for an octal number (base 8)"
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doAssert radix == 8, "Parsing mismatch, 0o prefix is only valid for an octal number (base 8)"
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current_idx = 2
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elif str[1] in {'b', 'B'}:
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assert radix == 2, "Parsing mismatch, 0b prefix is only valid for a binary number (base 2)"
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doAssert radix == 2, "Parsing mismatch, 0b prefix is only valid for a binary number (base 2)"
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current_idx = 2
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func nextNonBlank(current_idx: var int, s: string) {.inline.} =
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@ -116,7 +116,7 @@ func readDecChar(c: range['0'..'9']): int {.inline.}=
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func parse*[bits: static[int]](input: string, T: typedesc[Stuint[bits]], radix: static[uint8] = 10): T =
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## Parse a string and store the result in a Stint[bits] or Stuint[bits].
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static: assert (radix >= 2) and radix <= 16, "Only base from 2..16 are supported"
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static: doAssert (radix >= 2) and radix <= 16, "Only base from 2..16 are supported"
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# TODO: use static[range[2 .. 16]], not supported at the moment (2018-04-26)
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# TODO: we can special case hex result/input as an array of bytes
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@ -137,7 +137,7 @@ func parse*[bits: static[int]](input: string, T: typedesc[Stuint[bits]], radix:
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func parse*[bits: static[int]](input: string, T: typedesc[Stint[bits]], radix: static[int8] = 10): T =
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## Parse a string and store the result in a Stint[bits] or Stuint[bits].
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static: assert (radix >= 2) and radix <= 16, "Only base from 2..16 are supported"
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static: doAssert (radix >= 2) and radix <= 16, "Only base from 2..16 are supported"
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# TODO: use static[range[2 .. 16]], not supported at the moment (2018-04-26)
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# TODO: we can special case hex result/input as an array of bytes
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@ -152,7 +152,7 @@ func parse*[bits: static[int]](input: string, T: typedesc[Stint[bits]], radix: s
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no_overflow: Stuint[bits]
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if input[curr] == '-':
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assert radix == 10, "Negative numbers are only supported with base 10 input."
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doAssert radix == 10, "Negative numbers are only supported with base 10 input."
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isNeg = true
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inc curr
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else:
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@ -186,7 +186,7 @@ func toString*[bits: static[int]](num: StUint[bits], radix: static[uint8] = 10):
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## - they are prefixed with "-" for base 10.
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## - if not base 10, they are returned raw in two-complement form.
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static: assert (radix >= 2) and radix <= 16, "Only base from 2..16 are supported"
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static: doAssert (radix >= 2) and radix <= 16, "Only base from 2..16 are supported"
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# TODO: use static[range[2 .. 16]], not supported at the moment (2018-04-26)
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const hexChars = "0123456789abcdef"
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@ -209,7 +209,7 @@ func toString*[bits: static[int]](num: Stint[bits], radix: static[int8] = 10): s
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## - they are prefixed with "-" for base 10.
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## - if not base 10, they are returned raw in two-complement form.
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static: assert (radix >= 2) and radix <= 16, "Only base from 2..16 are supported"
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static: doAssert (radix >= 2) and radix <= 16, "Only base from 2..16 are supported"
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# TODO: use static[range[2 .. 16]], not supported at the moment (2018-04-26)
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const hexChars = "0123456789abcdef"
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@ -287,9 +287,9 @@ proc initFromBytesBE*[bits: static[int]](val: var Stuint[bits], ba: openarray[by
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const N = bits div 8
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when not allowPadding:
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assert(ba.len == N)
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doAssert(ba.len == N)
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else:
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assert ba.len <= N
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doAssert ba.len <= N
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{.pragma: restrict, codegenDecl: "$# __restrict $#".}
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let r_ptr {.restrict.} = cast[ptr array[N, byte]](val.addr)
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@ -13,8 +13,8 @@ func addmod_internal(a, b, m: Stuint): Stuint {.inline.}=
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## Modular addition
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## ⚠⚠ Assume a < m and b < m
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assert a < m
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assert b < m
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doAssert a < m
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doAssert b < m
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# We don't do a_m + b_m directly to avoid overflows
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let b_from_m = m - b
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@ -27,8 +27,8 @@ func submod_internal(a, b, m: Stuint): Stuint {.inline.}=
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## Modular substraction
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## ⚠⚠ Assume a < m and b < m
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assert a < m
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assert b < m
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doAssert a < m
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doAssert b < m
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# We don't do a_m - b_m directly to avoid underflows
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if a >= b:
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@ -40,7 +40,7 @@ func doublemod_internal(a, m: Stuint): Stuint {.inline.}=
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## Double a modulo m. Assume a < m
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## Internal proc - used in mulmod
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assert a < m
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doAssert a < m
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result = a
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if a >= m - a:
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@ -51,8 +51,8 @@ func mulmod_internal(a, b, m: Stuint): Stuint {.inline.}=
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## Does (a * b) mod m. Assume a < m and b < m
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## Internal proc - used in powmod
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assert a < m
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assert b < m
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doAssert a < m
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doAssert b < m
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var (a, b) = (a, b)
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@ -69,7 +69,7 @@ func powmod_internal(a, b, m: Stuint): Stuint {.inline.}=
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## Compute ``(a ^ b) mod m``, assume a < m
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## Internal proc
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assert a < m
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doAssert a < m
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var (a, b) = (a, b)
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result = one(type a)
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@ -122,7 +122,7 @@ proc div3n2n[T: SomeUnsignedInt](
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func div2n1n(q, r: var UintImpl, ah, al, b: UintImpl) =
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# assert countLeadingZeroBits(b) == 0, "Divisor was not normalized"
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# doAssert countLeadingZeroBits(b) == 0, "Divisor was not normalized"
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var s: UintImpl
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div3n2n(q.hi, s, ah.hi, ah.lo, al.hi, b)
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@ -130,7 +130,7 @@ func div2n1n(q, r: var UintImpl, ah, al, b: UintImpl) =
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func div2n1n[T: SomeunsignedInt](q, r: var T, n_hi, n_lo, d: T) =
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# assert countLeadingZeroBits(d) == 0, "Divisor was not normalized"
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# doAssert countLeadingZeroBits(d) == 0, "Divisor was not normalized"
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const
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size = bitsof(q)
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@ -170,7 +170,7 @@ func div2n1n[T: SomeunsignedInt](q, r: var T, n_hi, n_lo, d: T) =
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func divmodBZ[T](x, y: UintImpl[T], q, r: var UintImpl[T])=
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assert y.isZero.not() # This should be checked on release mode in the divmod caller proc
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doAssert y.isZero.not() # This should be checked on release mode in the divmod caller proc
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if y.hi.isZero:
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# Shortcut if divisor is smaller than half the size of the type
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@ -207,7 +207,7 @@ func divmodBS(x, y: UintImpl, q, r: var UintImpl) =
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## Division for multi-precision unsigned uint
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## Implementation through binary shift division
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assert y.isZero.not() # This should be checked on release mode in the divmod caller proc
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doAssert y.isZero.not() # This should be checked on release mode in the divmod caller proc
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type SubTy = type x.lo
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@ -200,7 +200,7 @@ suite "Testing conversion functions: Hex, Bytes, Endianness using secp256k1 curv
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# sig = ecc.sign(msghash)
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# print(" sig='{}',".format(encode_hex(sig)))
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# print(" raw_sig='{}')".format(crypto._decode_sig(sig)))
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# assert crypto.ecdsa_recover(msghash, sig) == pubkey
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# doAssert crypto.ecdsa_recover(msghash, sig) == pubkey
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# """
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type
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@ -14,7 +14,7 @@ suite "Testing unsigned int bitwise operations":
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let b = a * a
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let z = 10000'u16
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assert cast[uint16](b) == z, "Test cannot proceed, something is wrong with the multiplication implementation"
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doAssert cast[uint16](b) == z, "Test cannot proceed, something is wrong with the multiplication implementation"
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let u = 10000.stuint(64)
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