2021-09-08 14:16:35 +03:00
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module big
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import math.bits
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// suppose operand_a bigger than operand_b and both not null.
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// Both quotient and remaider are allocated but of length 0
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2021-09-16 19:31:07 +03:00
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fn binary_divide_array_by_array(operand_a []u32, operand_b []u32, mut quotient []u32, mut remainder []u32) {
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2021-09-08 14:16:35 +03:00
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for index in 0 .. operand_a.len {
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remainder << operand_a[index]
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}
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len_diff := operand_a.len - operand_b.len
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assert len_diff >= 0
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// we must do in place shift and operations.
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mut divisor := []u32{cap: operand_b.len}
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for _ in 0 .. len_diff {
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divisor << u32(0)
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}
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for index in 0 .. operand_b.len {
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divisor << operand_b[index]
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}
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for _ in 0 .. len_diff + 1 {
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quotient << u32(0)
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}
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lead_zer_remainder := u32(bits.leading_zeros_32(remainder.last()))
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lead_zer_divisor := u32(bits.leading_zeros_32(divisor.last()))
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bit_offset := (u32(32) * u32(len_diff)) + (lead_zer_divisor - lead_zer_remainder)
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// align
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if lead_zer_remainder < lead_zer_divisor {
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lshift_in_place(mut divisor, lead_zer_divisor - lead_zer_remainder)
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} else if lead_zer_remainder > lead_zer_divisor {
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lshift_in_place(mut remainder, lead_zer_remainder - lead_zer_divisor)
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}
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assert left_align_p(divisor[divisor.len - 1], remainder[remainder.len - 1])
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for bit_idx := int(bit_offset); bit_idx >= 0; bit_idx-- {
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if greater_equal_from_end(remainder, divisor) {
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bit_set(mut quotient, bit_idx)
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2021-09-16 19:31:07 +03:00
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subtract_align_last_byte_in_place(mut remainder, divisor)
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2021-09-08 14:16:35 +03:00
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}
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rshift_in_place(mut divisor, 1)
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}
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2021-09-16 19:31:07 +03:00
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// adjust
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2021-09-08 14:16:35 +03:00
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if lead_zer_remainder > lead_zer_divisor {
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// rshift_in_place(mut quotient, lead_zer_remainder - lead_zer_divisor)
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rshift_in_place(mut remainder, lead_zer_remainder - lead_zer_divisor)
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}
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for remainder.len > 0 && remainder.last() == 0 {
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remainder.delete_last()
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}
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for quotient.len > 0 && quotient.last() == 0 {
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quotient.delete_last()
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}
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}
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// help routines for cleaner code but inline for performance
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// quicker than BitField.set_bit
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[inline]
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fn bit_set(mut a []u32, n int) {
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byte_offset := n >> 5
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2021-09-08 14:16:35 +03:00
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mask := u32(1) << u32(n % 32)
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assert a.len >= byte_offset
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a[byte_offset] |= mask
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}
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// a.len is greater or equal to b.len
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// returns true if a >= b (completed with zeroes)
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[inline]
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fn greater_equal_from_end(a []u32, b []u32) bool {
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assert a.len >= b.len
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offset := a.len - b.len
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for index := a.len - 1; index >= offset; index-- {
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if a[index] > b[index - offset] {
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return true
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} else if a[index] < b[index - offset] {
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return false
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}
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}
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return true
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}
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2021-09-16 19:31:07 +03:00
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// a := a - b supposed a >= b
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// attention the b operand is align with the a operand before the subtraction
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[inline]
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fn subtract_align_last_byte_in_place(mut a []u32, b []u32) {
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mut carry := u32(0)
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mut new_carry := u32(0)
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offset := a.len - b.len
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for index := a.len - b.len; index < a.len; index++ {
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if a[index] < (b[index - offset] + carry) {
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new_carry = 1
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} else {
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new_carry = 0
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}
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a[index] -= (b[index - offset] + carry)
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carry = new_carry
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}
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assert carry == 0
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}
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2021-09-08 14:16:35 +03:00
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// logical left shift
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// there is no overflow. We know that the last bits are zero
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// and that n <= 32
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[inline]
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fn lshift_in_place(mut a []u32, n u32) {
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mut carry := u32(0)
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mut prec_carry := u32(0)
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mask := ((u32(1) << n) - 1) << (32 - n)
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for index in 0 .. a.len {
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prec_carry = carry >> (32 - n)
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carry = a[index] & mask
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a[index] <<= n
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a[index] |= prec_carry
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}
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}
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// logical right shift without control because these digits have already been
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// shift left before
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[inline]
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fn rshift_in_place(mut a []u32, n u32) {
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mut carry := u32(0)
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mut prec_carry := u32(0)
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mask := u32((1 << n) - 1)
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for index := a.len - 1; index >= 0; index-- {
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carry = a[index] & mask
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a[index] >>= n
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a[index] |= prec_carry << (32 - n)
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prec_carry = carry
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}
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}
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// for assert
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[inline]
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fn left_align_p(a u32, b u32) bool {
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return bits.leading_zeros_32(a) == bits.leading_zeros_32(b)
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}
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