bf: add reverse(), resize(), pos() and rotate()

pull/1226/head
Vitalie Ciubotaru 2019-07-16 02:07:07 +09:00 committed by Alexander Medvednikov
parent f5c8ee4742
commit c0911ea74b
2 changed files with 180 additions and 0 deletions

View File

@ -294,6 +294,26 @@ pub fn hamming (input1 BitField, input2 BitField) int {
return input_xored.popcount()
}
pub fn (haystack BitField) pos(needle BitField) int {
heystack_size := haystack.size
needle_size := needle.size
diff := heystack_size - needle_size
// needle longer than haystack; return error code -2
if diff < 0 {
return -2
}
for i := 0; i <= diff; i++ {
needle_candidate := haystack.slice(i, needle_size + i)
if cmp(needle_candidate, needle) {
// needle matches a sub-array of haystack; return starting position of the sub-array
return i
}
}
// nothing matched; return -1
return -1
}
pub fn (input BitField) slice(_start int, _end int) BitField {
// boundary checks
mut start := _start
@ -360,3 +380,62 @@ pub fn (input BitField) slice(_start int, _end int) BitField {
}
return output
}
pub fn (instance mut BitField) reverse() BitField {
size := instance.size
bitnslots := bitnslots(size)
mut output := new(size)
for i:= 0; i < (bitnslots - 1); i++ {
for j := 0; j < SLOT_SIZE; j++ {
if u32(instance.field[i] >> u32(j)) & u32(1) == u32(1) {
bitset(output, size - i * SLOT_SIZE - j - 1)
}
}
}
bits_in_last_input_slot := (size - 1) % SLOT_SIZE + 1
for j := 0; j < bits_in_last_input_slot; j++ {
if u32(instance.field[bitnslots - 1] >> u32(j)) & u32(1) == u32(1) {
bitset(output, bits_in_last_input_slot - j - 1)
}
}
return output
}
pub fn (instance mut BitField) resize(size int) {
bitnslots := bitnslots(size)
old_size := instance.size
old_bitnslots := bitnslots(old_size)
mut field := [u32(0); bitnslots]
for i := 0; i < old_bitnslots && i < bitnslots; i++ {
field[i] = instance.field[i]
}
instance.field = field
instance.size = size
if size < old_size && size % SLOT_SIZE != 0 {
cleartail(instance)
}
}
pub fn (instance BitField) rotate(offset int) BitField {
/**
* This function "cuts" the bitfield into two and swaps them.
* If the offset is positive, the cutting point is counted from the
* beginning of the bit array, otherwise from the end.
**/
size := instance.size
// removing extra rotations
mut offset_internal := offset % size
if (offset_internal == 0) {
// nothing to shift
return instance
}
if offset_internal < 0 {
offset_internal = offset_internal + size
}
first_chunk := instance.slice(0, offset_internal)
second_chunk := instance.slice(offset_internal, size)
output := join(second_chunk, first_chunk)
return output
}

View File

@ -202,3 +202,104 @@ fn test_bf_clearall() {
}
assert result == 1
}
fn test_bf_reverse() {
rand.seed(time.now().uni)
len := 80
mut input := bf.new(len)
for i := 0; i < len; i++ {
if rand.next(2) == 1 {
input.setbit(i)
}
}
check := bf.clone(input)
output := input.reverse()
mut result := 1
for i := 0; i < len; i++ {
if output.getbit(i) != check.getbit(len - i - 1) {
result = 0
}
}
assert result == 1
}
fn test_bf_resize() {
rand.seed(time.now().uni)
len := 80
mut input := bf.new(len)
for i := 0; i < 100; i++ {
input.resize(rand.next(input.getsize()) + 1)
input.setbit(input.getsize() - 1)
}
assert input.getbit(input.getsize() - 1) == 1
}
fn test_bf_pos() {
/**
* set haystack size to 80
* test different sizes of needle, from 1 to 80
* test different positions of needle, from 0 to where it fits
* all haystacks here contain exactly one instanse of needle,
* so search should return non-negative-values
**/
rand.seed(time.now().uni)
len := 80
mut result := 1
for i := 1; i < len; i++ { // needle size
for j := 0; j < len - i; j++ { // needle position in the haystack
// create the needle
mut needle := bf.new(i)
// fill the needle with random values
for k := 0; k < i; k++ {
if rand.next(2) == 1 {
needle.setbit(k)
}
}
// make sure the needle contains at least one set bit, selected randomly
r := rand.next(i)
needle.setbit(r)
// create the haystack, make sure it contains the needle
mut haystack := bf.clone(needle)
// if there is space between the start of the haystack and the sought needle, fill it with zeroes
if j > 0 {
start := bf.new(j)
tmp := bf.join(start, haystack)
haystack = tmp
}
// if there is space between the sought needle and the end of haystack, fill it with zeroes
if j + i < len {
end := bf.new(len - j - i)
tmp2 := bf.join(haystack, end)
haystack = tmp2
}
// now let's test
// the result should be equal to j
if haystack.pos(needle) != j {
result = 0
}
}
}
assert result == 1
}
fn test_bf_rotate() {
mut result := 1
len := 80
for i := 1; i < 80 && result == 1; i++ {
mut chunk1 := bf.new(i)
chunk2 := bf.new(len - i)
chunk1.setall()
input := bf.join(chunk1, chunk2)
output := input.rotate(i)
if output.getbit(len - i - 1) != 0 || output.getbit(len - i) != 1 {
result = 0
}
}
assert result == 1
}