// Copyright (c) 2019-2023 Alexander Medvednikov. All rights reserved. // Use of this source code is governed by an MIT license // that can be found in the LICENSE file. module binary // little_endian_u16 creates a u16 from the first two bytes in the array b in little endian order. [direct_array_access; inline] pub fn little_endian_u16(b []u8) u16 { _ = b[1] // bounds check return u16(b[0]) | (u16(b[1]) << u16(8)) } // little_endian_u16_at creates a u16 from two bytes in the array b at the specified offset in little endian order. [direct_array_access; inline] pub fn little_endian_u16_at(b []u8, o int) u16 { _ = b[o] // bounds check _ = b[o + 1] // bounds check return u16(b[o]) | (u16(b[o + 1]) << u16(8)) } // little_endian_u16_end creates a u16 from the last two bytes of the array b in little endian order. [direct_array_access; inline] pub fn little_endian_u16_end(b []u8) u16 { return little_endian_u16_at(b, b.len - 2) } // little_endian_put_u16 writes a u16 to the first two bytes in the array b in little endian order. [direct_array_access; inline] pub fn little_endian_put_u16(mut b []u8, v u16) { _ = b[1] // bounds check b[0] = u8(v) b[1] = u8(v >> u16(8)) } // little_endian_put_u16_at writes a u16 to the two bytes in the array b at the specified offset in little endian order. [direct_array_access; inline] pub fn little_endian_put_u16_at(mut b []u8, v u16, o int) { _ = b[o] // bounds check _ = b[o + 1] // bounds check b[o] = u8(v) b[o + 1] = u8(v >> u16(8)) } // little_endian_put_u16_end writes a u16 to the last two bytes of the array b in little endian order. [direct_array_access; inline] pub fn little_endian_put_u16_end(mut b []u8, v u16) { little_endian_put_u16_at(mut b, v, b.len - 2) } // little_endian_u32 creates a u32 from the first four bytes in the array b in little endian order. [direct_array_access; inline] pub fn little_endian_u32(b []u8) u32 { _ = b[3] // bounds check return u32(b[0]) | (u32(b[1]) << u32(8)) | (u32(b[2]) << u32(16)) | (u32(b[3]) << u32(24)) } // little_endian_u32_at creates a u32 from four bytes in the array b at the specified offset in little endian order. [direct_array_access; inline] pub fn little_endian_u32_at(b []u8, o int) u32 { _ = b[o] // bounds check _ = b[o + 3] // bounds check return u32(b[o]) | (u32(b[o + 1]) << u32(8)) | (u32(b[o + 2]) << u32(16)) | (u32(b[o + 3]) << u32(24)) } // little_endian_u32_end creates a u32 from the last four bytes in the array b in little endian order. [direct_array_access; inline] pub fn little_endian_u32_end(b []u8) u32 { return little_endian_u32_at(b, b.len - 4) } // little_endian_put_u32 writes a u32 to the first four bytes in the array b in little endian order. [direct_array_access; inline] pub fn little_endian_put_u32(mut b []u8, v u32) { _ = b[3] // bounds check b[0] = u8(v) b[1] = u8(v >> u32(8)) b[2] = u8(v >> u32(16)) b[3] = u8(v >> u32(24)) } // little_endian_put_u32_at writes a u32 to the two bytes in the array b at the specified offset in little endian order. [direct_array_access; inline] pub fn little_endian_put_u32_at(mut b []u8, v u32, o int) { _ = b[o] // bounds check _ = b[o + 3] // bounds check b[o] = u8(v) b[o + 1] = u8(v >> u32(8)) b[o + 2] = u8(v >> u32(16)) b[o + 3] = u8(v >> u32(24)) } // little_endian_put_u32_end writes a u32 to the last two bytes in the array b in little endian order. [direct_array_access; inline] pub fn little_endian_put_u32_end(mut b []u8, v u32) { little_endian_put_u32_at(mut b, v, b.len - 4) } // little_endian_u64 creates a u64 from the first eight bytes in the array b in little endian order. [direct_array_access; inline] pub fn little_endian_u64(b []u8) u64 { _ = b[7] // bounds check return u64(b[0]) | (u64(b[1]) << u64(8)) | (u64(b[2]) << u64(16)) | (u64(b[3]) << u64(24)) | (u64(b[4]) << u64(32)) | (u64(b[5]) << u64(40)) | (u64(b[6]) << u64(48)) | (u64(b[7]) << u64(56)) } // little_endian_u64_at creates a u64 from eight bytes in the array b at the specified offset in little endian order. [direct_array_access; inline] pub fn little_endian_u64_at(b []u8, o int) u64 { _ = b[o] // bounds check _ = b[o + 7] // bounds check return u64(b[o]) | (u64(b[o + 1]) << u64(8)) | (u64(b[o + 2]) << u64(16)) | (u64(b[o + 3]) << u64(24)) | (u64(b[ o + 4]) << u64(32)) | (u64(b[o + 5]) << u64(40)) | (u64(b[o + 6]) << u64(48)) | (u64(b[o + 7]) << u64(56)) } // little_endian_u64_end creates a u64 from the last eight bytes in the array b in little endian order. [direct_array_access; inline] pub fn little_endian_u64_end(b []u8) u64 { return little_endian_u64_at(b, b.len - 8) } // little_endian_put_u64 writes a u64 to the first eight bytes in the array b in little endian order. [direct_array_access; inline] pub fn little_endian_put_u64(mut b []u8, v u64) { _ = b[7] // bounds check b[0] = u8(v) b[1] = u8(v >> u64(8)) b[2] = u8(v >> u64(16)) b[3] = u8(v >> u64(24)) b[4] = u8(v >> u64(32)) b[5] = u8(v >> u64(40)) b[6] = u8(v >> u64(48)) b[7] = u8(v >> u64(56)) } // little_endian_put_u64_at writes a u64 to the eight bytes in the array b at the specified offset in little endian order. [direct_array_access; inline] pub fn little_endian_put_u64_at(mut b []u8, v u64, o int) { _ = b[o] // bounds check _ = b[o + 7] // bounds check b[o] = u8(v) b[o + 1] = u8(v >> u64(8)) b[o + 2] = u8(v >> u64(16)) b[o + 3] = u8(v >> u64(24)) b[o + 4] = u8(v >> u64(32)) b[o + 5] = u8(v >> u64(40)) b[o + 6] = u8(v >> u64(48)) b[o + 7] = u8(v >> u64(56)) } // little_endian_put_u64_end writes a u64 to the last eight bytes in the array b at in little endian order. [direct_array_access; inline] pub fn little_endian_put_u64_end(mut b []u8, v u64) { little_endian_put_u64_at(mut b, v, b.len - 8) }