math.bits: fix warnings regarding unnecessary casts

pull/3546/head
toman222 2020-01-22 22:06:40 +01:00 committed by Alexander Medvednikov
parent a6e1a74f1d
commit 5c6032d272
1 changed files with 22 additions and 22 deletions

View File

@ -9,7 +9,7 @@ const (
de_bruijn32tab = [byte(0), 1, 28, 2, 29, 14, 24, 3, 30, 22, 20, 15, 25, 17, 4, 8, de_bruijn32tab = [byte(0), 1, 28, 2, 29, 14, 24, 3, 30, 22, 20, 15, 25, 17, 4, 8,
31, 27, 13, 23, 21, 19, 16, 7, 26, 12, 18, 6, 11, 5, 10, 9, 31, 27, 13, 23, 21, 19, 16, 7, 26, 12, 18, 6, 11, 5, 10, 9,
] ]
de_bruijn64 = u64(0x03f79d71b4ca8b09) de_bruijn64 = (0x03f79d71b4ca8b09)
de_bruijn64tab = [byte(0), 1, 56, 2, 57, 49, 28, 3, 61, 58, 42, 50, 38, 29, 17, 4, de_bruijn64tab = [byte(0), 1, 56, 2, 57, 49, 28, 3, 61, 58, 42, 50, 38, 29, 17, 4,
62, 47, 59, 36, 45, 43, 51, 22, 53, 39, 33, 30, 24, 18, 12, 5, 62, 47, 59, 36, 45, 43, 51, 22, 53, 39, 33, 30, 24, 18, 12, 5,
63, 55, 48, 27, 60, 41, 37, 16, 46, 35, 44, 21, 52, 32, 23, 11, 63, 55, 48, 27, 60, 41, 37, 16, 46, 35, 44, 21, 52, 32, 23, 11,
@ -126,9 +126,9 @@ pub fn ones_count64(x u64) int {
// more, but it saves at best one instruction, so we leave // more, but it saves at best one instruction, so we leave
// it alone for clarity. // it alone for clarity.
m := u64(1<<64) - 1 m := u64(1<<64) - 1
mut y := u64(x>>u64(1) & (m0 & m)) + u64(x & (m0 & m)) mut y := (x>>u64(1) & (m0 & m)) + (x & (m0 & m))
y = u64(y>>u64(2) & (m1 & m)) + u64(y & (m1 & m)) y = (y>>u64(2) & (m1 & m)) + (y & (m1 & m))
y = u64(u64(y>>4) + y) & (m2 & m) y = ((y>>4) + y) & (m2 & m)
y += y>>8 y += y>>8
y += y>>16 y += y>>16
y += y>>32 y += y>>32
@ -143,8 +143,8 @@ pub fn ones_count64(x u64) int {
[inline] [inline]
pub fn rotate_left_8(x byte, k int) byte { pub fn rotate_left_8(x byte, k int) byte {
n := byte(8) n := byte(8)
s := byte(k) & byte(n - byte(1)) s := byte(k) & (n - byte(1))
return byte((x<<s) | (x>>(n - s))) return ((x<<s) | (x>>(n - s)))
} }
// rotate_left_16 returns the value of x rotated left by (k mod 16) bits. // rotate_left_16 returns the value of x rotated left by (k mod 16) bits.
@ -155,7 +155,7 @@ pub fn rotate_left_8(x byte, k int) byte {
pub fn rotate_left_16(x u16, k int) u16 { pub fn rotate_left_16(x u16, k int) u16 {
n := u16(16) n := u16(16)
s := u16(k) & (n - u16(1)) s := u16(k) & (n - u16(1))
return u16((x<<s) | (x>>(n - s))) return ((x<<s) | (x>>(n - s)))
} }
// rotate_left_32 returns the value of x rotated left by (k mod 32) bits. // rotate_left_32 returns the value of x rotated left by (k mod 32) bits.
@ -166,7 +166,7 @@ pub fn rotate_left_16(x u16, k int) u16 {
pub fn rotate_left_32(x u32, k int) u32 { pub fn rotate_left_32(x u32, k int) u32 {
n := u32(32) n := u32(32)
s := u32(k) & (n - u32(1)) s := u32(k) & (n - u32(1))
return u32(u32(x<<s) | u32(x>>(n - s))) return ((x<<s) | (x>>(n - s)))
} }
// rotate_left_64 returns the value of x rotated left by (k mod 64) bits. // rotate_left_64 returns the value of x rotated left by (k mod 64) bits.
@ -177,7 +177,7 @@ pub fn rotate_left_32(x u32, k int) u32 {
pub fn rotate_left_64(x u64, k int) u64 { pub fn rotate_left_64(x u64, k int) u64 {
n := u64(64) n := u64(64)
s := u64(k) & (n - u64(1)) s := u64(k) & (n - u64(1))
return u64(u64(x<<s) | u64(x>>(n - s))) return ((x<<s) | (x>>(n - s)))
} }
// --- Reverse --- // --- Reverse ---
@ -190,16 +190,16 @@ pub fn reverse8(x byte) byte {
// reverse16 returns the value of x with its bits in reversed order. // reverse16 returns the value of x with its bits in reversed order.
[inline] [inline]
pub fn reverse16(x u16) u16 { pub fn reverse16(x u16) u16 {
return u16(rev8_tab[x>>8]) | u16(u16(rev8_tab[x & u16(0xff)])<<8) return u16(rev8_tab[x>>8]) | (u16(rev8_tab[x & u16(0xff)])<<8)
} }
// reverse32 returns the value of x with its bits in reversed order. // reverse32 returns the value of x with its bits in reversed order.
[inline] [inline]
pub fn reverse32(x u32) u32 { pub fn reverse32(x u32) u32 {
m := u64(1<<32) - 1 m := u64(1<<32) - 1
mut y := u32(x>>u32(1) & u32(m0 & m) | u32(u32(x & u32(m0 & m))<<1)) mut y := (x>>u32(1) & (m0 & m) | ((x & (m0 & m))<<1))
y = u32(y>>u32(2) & u32(m1 & m) | u32(u32(y & u32(m1 & m))<<u32(2))) y = (y>>u32(2) & (m1 & m) | ((y & (m1 & m))<<u32(2)))
y = u32(y>>u32(4) & u32(m2 & m) | u32(u32(y & u32(m2 & m))<<u32(4))) y = (y>>u32(4) & (m2 & m) | ((y & (m2 & m))<<u32(4)))
return reverse_bytes32(y) return reverse_bytes32(y)
} }
@ -207,9 +207,9 @@ pub fn reverse32(x u32) u32 {
[inline] [inline]
pub fn reverse64(x u64) u64 { pub fn reverse64(x u64) u64 {
m := u64(1<<64) - 1 m := u64(1<<64) - 1
mut y := u64(x>>u64(1) & (m0 & m) | u64(u64(x & (m0 & m))<<1)) mut y := (x>>u64(1) & (m0 & m) | ((x & (m0 & m))<<1))
y = u64(y>>u64(2) & (m1 & m) | u64(u64(y & (m1 & m))<<2)) y = (y>>u64(2) & (m1 & m) | ((y & (m1 & m))<<2))
y = u64(y>>u64(4) & (m2 & m) | u64(u64(y & (m2 & m))<<4)) y = (y>>u64(4) & (m2 & m) | ((y & (m2 & m))<<4))
return reverse_bytes64(y) return reverse_bytes64(y)
} }
@ -219,7 +219,7 @@ pub fn reverse64(x u64) u64 {
// This function's execution time does not depend on the inputs. // This function's execution time does not depend on the inputs.
[inline] [inline]
pub fn reverse_bytes16(x u16) u16 { pub fn reverse_bytes16(x u16) u16 {
return u16(x>>8) | u16(x<<8) return (x>>8) | (x<<8)
} }
// reverse_bytes32 returns the value of x with its bytes in reversed order. // reverse_bytes32 returns the value of x with its bytes in reversed order.
@ -228,8 +228,8 @@ pub fn reverse_bytes16(x u16) u16 {
[inline] [inline]
pub fn reverse_bytes32(x u32) u32 { pub fn reverse_bytes32(x u32) u32 {
m := u64(1<<32) - 1 m := u64(1<<32) - 1
y := u32(x>>u32(8) & u32(m3 & m) | u32(u32(x & u32(m3 & m))<<u32(8))) y := (x>>u32(8) & (m3 & m) | ((x & (m3 & m))<<u32(8)))
return u32(y>>16) | u32(y<<16) return (y>>16) | (y<<16)
} }
// reverse_bytes64 returns the value of x with its bytes in reversed order. // reverse_bytes64 returns the value of x with its bytes in reversed order.
@ -238,9 +238,9 @@ pub fn reverse_bytes32(x u32) u32 {
[inline] [inline]
pub fn reverse_bytes64(x u64) u64 { pub fn reverse_bytes64(x u64) u64 {
m := u64(1<<64) - 1 m := u64(1<<64) - 1
mut y := u64(x>>u64(8) & (m3 & m) | u64(u64(x & (m3 & m))<<u64(8))) mut y := (x>>u64(8) & (m3 & m) | ((x & (m3 & m))<<u64(8)))
y = u64(y>>u64(16) & (m4 & m) | u64(u64(y & (m4 & m))<<u64(16))) y = (y>>u64(16) & (m4 & m) | ((y & (m4 & m))<<u64(16)))
return u64(y>>32) | u64(y<<32) return (y>>32) | (y<<32)
} }
// --- Len --- // --- Len ---