Add overloads for literals only (#50)

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Mamy Ratsimbazafy 2018-05-31 14:31:27 +02:00 committed by GitHub
parent 8e25b30209
commit 7707a4b40f
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2 changed files with 89 additions and 2 deletions

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#
# at your option. This file may not be copied, modified, or distributed except according to those terms.
import stint/[uint_public, int_public, io, modular_arithmetic]
export uint_public, int_public, io, modular_arithmetic
import stint/[uint_public, int_public, io, modular_arithmetic, literals_stint]
export uint_public, int_public, io, modular_arithmetic, literals_stint
type
Int128* = Stint[128]

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stint/literals_stint.nim Normal file
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# Stint
# Copyright 2018 Status Research & Development GmbH
# Licensed under either of
#
# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or http://www.apache.org/licenses/LICENSE-2.0)
# * MIT license ([LICENSE-MIT](LICENSE-MIT) or http://opensource.org/licenses/MIT)
#
# at your option. This file may not be copied, modified, or distributed except according to those terms.
## This file provides syntactic sugar to work with literals
import ./int_public, ./uint_public, macros
type Signedness = enum
BothSigned, IntOnly, UintOnly
macro make_mixed_types_ops(op: untyped, ResultTy: untyped, sign: static[Signedness], switchInputs: static[bool]): untyped =
# ResultTy must be "InputType" or a real type like bool
let isInputType = eqIdent(ResultTy, "InputType")
result = newStmtList()
# Workaround for int{lit} in quote do block
let intLit = nnkCurlyExpr.newTree(
newIdentNode("int"),
newIdentNode("lit")
)
if sign != IntOnly:
let ResultTy = if not isInputType: ResultTy
else: nnkBracketExpr.newTree(
newIdentNode("StUint"),
newIdentNode("bits")
)
result.add quote do:
proc `op`*[bits: static[int]](a: Stuint[bits], b: `intLit`): `ResultTy` {.inline.}=
`op`(a, b.stuint(bits))
if switchInputs:
result.add quote do:
proc `op`*[bits: static[int]](a: `intLit`, b: Stuint[bits]): `ResultTy` {.inline.}=
`op`(a.stuint(bits), b)
if sign != UintOnly:
let ResultTy = if not isInputType: ResultTy
else: nnkBracketExpr.newTree(
newIdentNode("StInt"),
newIdentNode("bits")
)
result.add quote do:
proc `op`*[bits: static[int]](a: Stint[bits], b: `intLit`): `ResultTy` {.inline.}=
`op`(a, b.stuint(bits))
if switchInputs:
result.add quote do:
proc `op`*[bits: static[int]](a: `intLit`, b: Stint[bits]): `ResultTy` {.inline.}=
`op`(a.stuint(bits), b)
make_mixed_types_ops(`+`, InputType, BothSigned, switchInputs = true)
make_mixed_types_ops(`+=`, InputType, BothSigned, switchInputs = false)
make_mixed_types_ops(`-`, InputType, BothSigned, switchInputs = true)
make_mixed_types_ops(`-=`, InputType, BothSigned, switchInputs = false)
make_mixed_types_ops(`*`, InputType, BothSigned, switchInputs = true)
make_mixed_types_ops(`div`, InputType, BothSigned, switchInputs = false)
make_mixed_types_ops(`mod`, InputType, BothSigned, switchInputs = false)
make_mixed_types_ops(divmod, InputType, BothSigned, switchInputs = false)
make_mixed_types_ops(`<`, bool, BothSigned, switchInputs = true)
make_mixed_types_ops(`<=`, bool, BothSigned, switchInputs = true)
make_mixed_types_ops(`==`, bool, BothSigned, switchInputs = true)
make_mixed_types_ops(`or`, InputType, BothSigned, switchInputs = true)
make_mixed_types_ops(`and`, InputType, BothSigned, switchInputs = true)
make_mixed_types_ops(`xor`, InputType, BothSigned, switchInputs = true)
# Specialization / fast path for comparison to zero
# Note system.nim has templates to transform > and >= into <= and <
template mtoIsZero*{a == 0}(a: StUint or Stint): bool = a.isZero
template mtoIsZero*{0 == a}(a: StUint or Stint): bool = a.isZero
template mtoIsNeg*{a < 0}(a: Stint): bool = a.isNegative
template mtoIsNegOrZero*{a <= 0}(a: Stint): bool = a.isZero or a.isNegative
template mtoIsPos*{0 < a}(a: Stint): bool = not(a.isZero or a.isNegative)
template mtoIsPosOrZero*{0 <= a}(a: Stint): bool = not a.isNegative