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- #
- #
- # Nim's Runtime Library
- # (c) Copyright 2012 Andreas Rumpf
- #
- # See the file "copying.txt", included in this
- # distribution, for details about the copyright.
- #
- ## This module contains helpers that deal with different byte orders
- ## (`endian`:idx:).
- ##
- ## Endianness is the order of bytes of a value in memory. Big-endian means that
- ## the most significant byte is stored at the smallest memory address,
- ## while little endian means that the least-significant byte is stored
- ## at the smallest address. See also https://en.wikipedia.org/wiki/Endianness.
- ##
- ## Unstable API.
- when defined(gcc) or defined(llvm_gcc) or defined(clang):
- const useBuiltinSwap = true
- proc builtin_bswap16(a: uint16): uint16 {.
- importc: "__builtin_bswap16", nodecl, noSideEffect.}
- proc builtin_bswap32(a: uint32): uint32 {.
- importc: "__builtin_bswap32", nodecl, noSideEffect.}
- proc builtin_bswap64(a: uint64): uint64 {.
- importc: "__builtin_bswap64", nodecl, noSideEffect.}
- elif defined(icc):
- const useBuiltinSwap = true
- proc builtin_bswap16(a: uint16): uint16 {.
- importc: "_bswap16", nodecl, noSideEffect.}
- proc builtin_bswap32(a: uint32): uint32 {.
- importc: "_bswap", nodecl, noSideEffect.}
- proc builtin_bswap64(a: uint64): uint64 {.
- importc: "_bswap64", nodecl, noSideEffect.}
- elif defined(vcc):
- const useBuiltinSwap = true
- proc builtin_bswap16(a: uint16): uint16 {.
- importc: "_byteswap_ushort", nodecl, header: "<intrin.h>", noSideEffect.}
- proc builtin_bswap32(a: uint32): uint32 {.
- importc: "_byteswap_ulong", nodecl, header: "<intrin.h>", noSideEffect.}
- proc builtin_bswap64(a: uint64): uint64 {.
- importc: "_byteswap_uint64", nodecl, header: "<intrin.h>", noSideEffect.}
- else:
- const useBuiltinSwap = false
- when useBuiltinSwap:
- template swapOpImpl(T: typedesc, op: untyped) =
- ## We have to use `copyMem` here instead of a simple dereference because they
- ## may point to a unaligned address. A sufficiently smart compiler _should_
- ## be able to elide them when they're not necessary.
- var tmp: T
- copyMem(addr tmp, inp, sizeof(T))
- tmp = op(tmp)
- copyMem(outp, addr tmp, sizeof(T))
- proc swapEndian64*(outp, inp: pointer) {.inline, noSideEffect.} =
- ## Copies `inp` to `outp`, reversing the byte order.
- ## Both buffers are supposed to contain at least 8 bytes.
- runnableExamples:
- var a = [1'u8, 2, 3, 4, 5, 6, 7, 8]
- var b: array[8, uint8]
- swapEndian64(addr b, addr a)
- assert b == [8'u8, 7, 6, 5, 4, 3, 2, 1]
- swapOpImpl(uint64, builtin_bswap64)
- proc swapEndian32*(outp, inp: pointer) {.inline, noSideEffect.} =
- ## Copies `inp` to `outp`, reversing the byte order.
- ## Both buffers are supposed to contain at least 4 bytes.
- runnableExamples:
- var a = [1'u8, 2, 3, 4]
- var b: array[4, uint8]
- swapEndian32(addr b, addr a)
- assert b == [4'u8, 3, 2, 1]
- swapOpImpl(uint32, builtin_bswap32)
- proc swapEndian16*(outp, inp: pointer) {.inline, noSideEffect.} =
- ## Copies `inp` to `outp`, reversing the byte order.
- ## Both buffers are supposed to contain at least 2 bytes.
- runnableExamples:
- var a = [1'u8, 2]
- var b: array[2, uint8]
- swapEndian16(addr b, addr a)
- assert b == [2'u8, 1]
- swapOpImpl(uint16, builtin_bswap16)
- else:
- proc swapEndian64*(outp, inp: pointer) =
- var i = cast[cstring](inp)
- var o = cast[cstring](outp)
- o[0] = i[7]
- o[1] = i[6]
- o[2] = i[5]
- o[3] = i[4]
- o[4] = i[3]
- o[5] = i[2]
- o[6] = i[1]
- o[7] = i[0]
- proc swapEndian32*(outp, inp: pointer) =
- var i = cast[cstring](inp)
- var o = cast[cstring](outp)
- o[0] = i[3]
- o[1] = i[2]
- o[2] = i[1]
- o[3] = i[0]
- proc swapEndian16*(outp, inp: pointer) =
- var i = cast[cstring](inp)
- var o = cast[cstring](outp)
- o[0] = i[1]
- o[1] = i[0]
- when system.cpuEndian == bigEndian:
- proc littleEndian64*(outp, inp: pointer) {.inline.} = swapEndian64(outp, inp)
- proc littleEndian32*(outp, inp: pointer) {.inline.} = swapEndian32(outp, inp)
- proc littleEndian16*(outp, inp: pointer) {.inline.} = swapEndian16(outp, inp)
- proc bigEndian64*(outp, inp: pointer) {.inline.} = copyMem(outp, inp, 8)
- proc bigEndian32*(outp, inp: pointer) {.inline.} = copyMem(outp, inp, 4)
- proc bigEndian16*(outp, inp: pointer) {.inline.} = copyMem(outp, inp, 2)
- else:
- proc littleEndian64*(outp, inp: pointer) {.inline.} = copyMem(outp, inp, 8)
- ## Copies `inp` to `outp`, storing it in 64-bit little-endian order.
- ## Both buffers are supposed to contain at least 8 bytes.
- proc littleEndian32*(outp, inp: pointer) {.inline.} = copyMem(outp, inp, 4)
- ## Copies `inp` to `outp`, storing it in 32-bit little-endian order.
- ## Both buffers are supposed to contain at least 4 bytes.
- proc littleEndian16*(outp, inp: pointer){.inline.} = copyMem(outp, inp, 2)
- ## Copies `inp` to `outp`, storing it in 16-bit little-endian order.
- ## Both buffers are supposed to contain at least 2 bytes.
- proc bigEndian64*(outp, inp: pointer) {.inline.} = swapEndian64(outp, inp)
- ## Copies `inp` to `outp`, storing it in 64-bit big-endian order.
- ## Both buffers are supposed to contain at least 8 bytes.
- proc bigEndian32*(outp, inp: pointer) {.inline.} = swapEndian32(outp, inp)
- ## Copies `inp` to `outp`, storing it in 32-bit big-endian order.
- ## Both buffers are supposed to contain at least 4 bytes.
- proc bigEndian16*(outp, inp: pointer) {.inline.} = swapEndian16(outp, inp)
- ## Copies `inp` to `outp`, storing it in 16-bit big-endian order.
- ## Both buffers are supposed to contain at least 2 bytes.
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