random helpers (#64)
* random helpers * arrayops as a home for small array/openArray utilities * assign2 - a replacement for genericAssign and assignment operators in general which in nim are very slow * use assign2 in a few places to speed things up * fixes * fixes
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@ -21,6 +21,8 @@ broken out into separate repositories.
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Libraries are documented either in-module or on a separate README in their
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respective folders
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- `arrayops` - small helpers and operations on `array`/`openArray`
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- `assign2` - fast assignments (unlike the `=` operator in nim which is very slow)
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- `bitops2` - an updated version of `bitops.nim`, filling in gaps in original code
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- `byteutils` - utilities that make working with the Nim `byte` type convenient
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- `endians2` - utilities for converting to and from little / big endian integers
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@ -28,6 +30,8 @@ respective folders
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- `ptrops` - pointer arithmetic utilities
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- `result` - friendly, exception-free value-or-error returns, similar to `Option[T]`, from [nim-result](https://github.com/arnetheduck/nim-result/)
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- `shims` - backports of nim `devel` code to the stable version that Status is using
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- `sequtils2` - extensions to the `sequtils` module for working conveniently with `seq`
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- `varints` - helpers for working with variable length integers
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## Layout
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@ -0,0 +1,80 @@
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# Copyright (c) 2020 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 http://opensource.org/licenses/MIT).
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# * Apache v2 license (license terms in the root directory or at http://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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{.push raises: [Defect].}
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## Operations on array and openArray
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import
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./assign2
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export assign2
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template eachElement(x, res, op: untyped) =
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for i in 0..<res.len:
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res[i] = op(x[i])
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template eachElement(x, y, res, op: untyped) =
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for i in 0..<res.len:
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res[i] = op(x[i], y[i])
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func `and`*[N: static int; T](x, y: array[N, T]): array[N, T] =
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eachElement(x, y, result, `and`)
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func `or`*[N: static int; T](x, y: array[N, T]): array[N, T] =
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eachElement(x, y, result, `or`)
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func `xor`*[N: static int; T](x, y: array[N, T]): array[N, T] =
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eachElement(x, y, result, `xor`)
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func `not`*[N: static int; T](x: array[N, T]): array[N, T] =
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eachElement(x, result, `not`)
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func mand*[N: static int; T](x: var array[N, T], y: array[N, T]) =
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eachElement(x, y, x, `and`)
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func mor*[N: static int; T](x: var array[N, T], y: array[N, T]) =
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eachElement(x, y, x, `or`)
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func mxor*[N: static int; T](x: var array[N, T], y: array[N, T]) =
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eachElement(x, y, x, `xor`)
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func mnot*[N: static int; T](x: var array[N, T], y: array[N, T]) =
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eachElement(x, x, `not`)
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func copyFrom*[T](
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v: var openArray[T], src: openArray[T]): Natural {.raises: [Defect].} =
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## Copy `src` contents into `v` - this is a permissive assignment where `src`
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## may contain both fewer and more elements than `v`. Returns the number of
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## elements copied which may be less than N when `src` is shorter than v
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let elems = min(v.len, src.len)
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assign(v.toOpenArray(0, elems - 1), src.toOpenArray(0, elems - 1))
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elems
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func initArrayWith*[N: static[int], T](value: T): array[N, T] {.noInit, inline.}=
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result.fill(value)
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func `&`*[N1, N2: static[int], T](
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a: array[N1, T],
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b: array[N2, T]
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): array[N1 + N2, T] {.inline, noInit.}=
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## Array concatenation
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assign(result.toOpenArray(0, N1 - 1), a)
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assign(result.toOpenArray(N1, result.high), b)
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template `^^`(s, i: untyped): untyped =
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(when i is BackwardsIndex: s.len - int(i) else: int(i))
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func `[]=`*[T, U, V](r: var openArray[T], s: HSlice[U, V], v: openArray[T]) =
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## openArray slice assignment:
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## v[0..<2] = [0, 1]
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let a = r ^^ s.a
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let b = r ^^ s.b
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let L = b - a + 1
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if L == v.len:
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assign(r.toOpenArray(a, a + L - 1), v)
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else:
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raiseAssert "different lengths for slice assignment: " & $L & " vs " & $v
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@ -0,0 +1,58 @@
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import
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std/typetraits,
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./shims/macros
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{.push raises: [Defect].}
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func assignImpl[T](tgt: var openArray[T], src: openArray[T]) =
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mixin assign
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when supportsCopyMem(T):
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if tgt.len > 0:
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copyMem(addr tgt[0], unsafeAddr src[0], sizeof(tgt[0]) * tgt.len)
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else:
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for i in 0..<tgt.len:
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assign(tgt[i], src[i])
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func assign*[T](tgt: var openArray[T], src: openArray[T]) =
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mixin assign
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if tgt.len != src.len:
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raiseAssert "Target and source lengths don't match: " &
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$tgt.len & " vs " & $src.len
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assignImpl(tgt, src)
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func assign*[T](tgt: var seq[T], src: openArray[T]) =
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mixin assign
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tgt.setLen(src.len)
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assignImpl(tgt.toOpenArray(0, tgt.high), src)
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macro unsupported(T: typed): untyped =
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error "Assignment of the type " & humaneTypeName(T) & " is not supported"
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func assign*[T](tgt: var T, src: T) =
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# The default `genericAssignAux` that gets generated for assignments in nim
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# is ridiculously slow. When syncing, the application was spending 50%+ CPU
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# time in it - `assign`, in the same test, doesn't even show in the perf trace
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mixin assign
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when supportsCopyMem(T):
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when sizeof(src) <= sizeof(int):
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tgt = src
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else:
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copyMem(addr tgt, unsafeAddr src, sizeof(tgt))
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elif T is object|tuple:
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for t, s in fields(tgt, src):
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when supportsCopyMem(type s) and sizeof(s) <= sizeof(int) * 2:
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t = s # Shortcut
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else:
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assign(t, s)
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elif T is seq:
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assign(tgt, src.toOpenArray(0, src.high))
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elif T is ref:
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tgt = src
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elif compiles(distinctBase(tgt)):
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assign(distinctBase tgt, distinctBase src)
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else:
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unsupported T
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@ -9,35 +9,15 @@
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########################################################################################################
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#################################### Array utilities ###############################################
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import algorithm
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import
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std/[algorithm, typetraits],
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./assign2, ./arrayops
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# backwards compat
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export arrayops.`&`, arrayops.initArrayWith, arrayops.`[]=`
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{.push raises: [Defect].}
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func initArrayWith*[N: static[int], T](value: T): array[N, T] {.noInit, inline.}=
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result.fill(value)
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func `&`*[N1, N2: static[int], T](
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a: array[N1, T],
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b: array[N2, T]
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): array[N1 + N2, T] {.inline, noInit.}=
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## Array concatenation
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result[0 ..< N1] = a
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result[N1 ..< result.len] = b
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template `^^`(s, i: untyped): untyped =
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(when i is BackwardsIndex: s.len - int(i) else: int(i))
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func `[]=`*[T, U, V](r: var openArray[T], s: HSlice[U, V], v: openArray[T]) =
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## openArray slice assignment:
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## v[0..<2] = [0, 1]
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let a = r ^^ s.a
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let b = r ^^ s.b
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let L = b - a + 1
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if L == v.len:
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for i in 0..<L: r[i + a] = v[i]
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else:
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raise newException(RangeError, "different lengths for slice assignment")
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########################################################################################################
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##################################### Hex utilities ################################################
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import
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std/typetraits,
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./assign2
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func write*[T](s: var seq[T], v: openArray[T]) =
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# The Nim standard library is inefficient when copying simple types
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# into a seq: it will first zero-init the new memory then copy the items
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# one by one, when a copyMem would be sufficient - semantically, this
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# function performs the same thing as `add`, but similar to faststreams, from
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# where the `write` name comes from, it is much faster. Unfortunately, there's
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# no easy way to avoid the zero-init, but a smart compiler might be able
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# to elide it.
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when nimvm:
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s.add(v)
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else:
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if v.len > 0:
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let start = s.len
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s.setLen(start + v.len)
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when supportsCopyMem(T): # shortcut
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copyMem(addr s[start], unsafeAddr v[0], v.len * sizeof(T))
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else:
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assign(s.toOpenArray(start, s.high), v)
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@ -9,18 +9,21 @@
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import
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ranges/all,
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test_assign2,
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test_arrayops,
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test_base32,
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test_base58,
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test_base64,
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test_bitops2,
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test_bitseqs,
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test_byteutils,
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test_ctops,
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test_endians2,
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test_io2,
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test_macros,
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test_objects,
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test_ptrops,
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test_sequtils2,
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test_results,
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test_varints,
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test_ctops,
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test_io2,
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test_winacl
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@ -0,0 +1,26 @@
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# stew
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# Copyright 2018-2019 Status Research & Development GmbH
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# Licensed under either of
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#
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# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or http://www.apache.org/licenses/LICENSE-2.0)
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# * MIT license ([LICENSE-MIT](LICENSE-MIT) or http://opensource.org/licenses/MIT)
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#
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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/unittest,
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../stew/arrayops
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suite "arrayops":
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test "basic":
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let
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a = [byte 0, 1]
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b = [byte 4, 5]
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check:
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(a and b) == [a[0] and b[0], a[1] and b[1]]
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(a or b) == [a[0] or b[0], a[1] or b[1]]
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(a xor b) == [a[0] xor b[0], a[1] xor b[1]]
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(not a) == [not a[0], not a[1]]
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import
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std/unittest,
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../stew/assign2
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suite "assign2":
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test "basic":
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type X = distinct int
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var
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a = 5
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b = [2, 3]
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c = @[5, 6]
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assign(c, b)
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check: c == b
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assign(b, [4, 5])
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check: b == [4, 5]
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assign(a, 6)
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check: a == 6
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assign(c.toOpenArray(0, 1), [2, 2])
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check: c == [2, 2]
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var
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dis = X(53)
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assign(dis, X(55))
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check: int(dis) == 55
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@ -5,8 +5,9 @@
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# * Apache v2 license (license terms in the root directory or at http://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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import unittest,
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../stew/byteutils
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import
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std/unittest,
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../stew/byteutils
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proc compilationTest {.exportc: "compilationTest".} =
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var bytes = @[1.byte, 2, 3, 4]
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# byteutils
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# Copyright (c) 2018 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 http://opensource.org/licenses/MIT).
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# * Apache v2 license (license terms in the root directory or at http://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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import
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std/unittest,
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../stew/sequtils2
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suite "sequtils2":
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test "write":
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block:
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var a: seq[int]
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a.write([0, 1, 2, 3])
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check:
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a == @[0, 1, 2, 3]
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a.write([])
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a.write([4])
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check:
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a == @[0, 1, 2, 3, 4]
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block:
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var a: seq[byte]
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a.write([byte 0, 1, 2, 3])
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check:
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a == [byte 0, 1, 2, 3]
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a.write([])
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a.write([byte 4])
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check:
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a == [byte 0, 1, 2, 3, 4]
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