2021-06-11 12:00:18 +03:00
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// non-pub versions of array functions
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// that allocale new memory using `GC_MALLOC_ATOMIC()`
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// when `-gc boehm_*_opt` is used. These memory areas are not
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// scanned for pointers.
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module builtin
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fn __new_array_noscan(mylen int, cap int, elm_size int) array {
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cap_ := if cap < mylen { mylen } else { cap }
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arr := array{
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element_size: elm_size
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2022-05-04 18:42:06 +03:00
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data: vcalloc_noscan(u64(cap_) * u64(elm_size))
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2021-06-11 12:00:18 +03:00
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len: mylen
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cap: cap_
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}
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return arr
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}
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fn __new_array_with_default_noscan(mylen int, cap int, elm_size int, val voidptr) array {
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cap_ := if cap < mylen { mylen } else { cap }
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mut arr := array{
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element_size: elm_size
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2022-05-04 18:42:06 +03:00
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data: vcalloc_noscan(u64(cap_) * u64(elm_size))
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2021-06-11 12:00:18 +03:00
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len: mylen
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cap: cap_
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}
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if val != 0 {
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for i in 0 .. arr.len {
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unsafe { arr.set_unsafe(i, val) }
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}
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}
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return arr
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}
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fn __new_array_with_array_default_noscan(mylen int, cap int, elm_size int, val array) array {
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cap_ := if cap < mylen { mylen } else { cap }
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mut arr := array{
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element_size: elm_size
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2022-05-04 18:42:06 +03:00
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data: vcalloc_noscan(u64(cap_) * u64(elm_size))
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2021-06-11 12:00:18 +03:00
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len: mylen
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cap: cap_
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}
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for i in 0 .. arr.len {
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val_clone := val.clone()
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unsafe { arr.set_unsafe(i, &val_clone) }
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}
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return arr
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}
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// Private function, used by V (`nums := [1, 2, 3]`)
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fn new_array_from_c_array_noscan(len int, cap int, elm_size int, c_array voidptr) array {
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cap_ := if cap < len { len } else { cap }
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arr := array{
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element_size: elm_size
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2022-05-04 18:42:06 +03:00
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data: vcalloc_noscan(u64(cap_) * u64(elm_size))
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2021-06-11 12:00:18 +03:00
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len: len
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cap: cap_
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}
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// TODO Write all memory functions (like memcpy) in V
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2022-05-04 18:42:06 +03:00
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unsafe { vmemcpy(arr.data, c_array, u64(len) * u64(elm_size)) }
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2021-06-11 12:00:18 +03:00
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return arr
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}
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// Private function. Doubles array capacity if needed.
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fn (mut a array) ensure_cap_noscan(required int) {
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if required <= a.cap {
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return
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}
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2022-12-16 08:57:50 +03:00
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if a.flags.has(.nogrow) {
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panic('array.ensure_cap_noscan: array with the flag `.nogrow` cannot grow in size, array required new size: ${required}')
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}
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2021-06-11 12:00:18 +03:00
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mut cap := if a.cap > 0 { a.cap } else { 2 }
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for required > cap {
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cap *= 2
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}
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2022-05-04 18:42:06 +03:00
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new_size := u64(cap) * u64(a.element_size)
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2021-06-11 12:00:18 +03:00
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new_data := vcalloc_noscan(new_size)
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2022-07-21 21:01:30 +03:00
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if a.data != unsafe { nil } {
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2022-05-04 18:42:06 +03:00
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unsafe { vmemcpy(new_data, a.data, u64(a.len) * u64(a.element_size)) }
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2021-06-11 12:00:18 +03:00
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// TODO: the old data may be leaked when no GC is used (ref-counting?)
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}
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a.data = new_data
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a.offset = 0
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a.cap = cap
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}
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// repeat returns a new array with the given array elements repeated given times.
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// `cgen` will replace this with an apropriate call to `repeat_to_depth()`
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// version of `repeat()` that handles multi dimensional arrays
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// `unsafe` to call directly because `depth` is not checked
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[unsafe]
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fn (a array) repeat_to_depth_noscan(count int, depth int) array {
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if count < 0 {
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2022-11-15 16:53:13 +03:00
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panic('array.repeat: count is negative: ${count}')
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2021-06-11 12:00:18 +03:00
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}
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2022-05-04 18:42:06 +03:00
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mut size := u64(count) * u64(a.len) * u64(a.element_size)
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2021-06-11 12:00:18 +03:00
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if size == 0 {
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2022-05-04 18:42:06 +03:00
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size = u64(a.element_size)
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2021-06-11 12:00:18 +03:00
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}
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arr := array{
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element_size: a.element_size
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data: if depth > 0 { vcalloc(size) } else { vcalloc_noscan(size) }
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len: count * a.len
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cap: count * a.len
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}
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if a.len > 0 {
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2022-05-04 18:42:06 +03:00
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a_total_size := u64(a.len) * u64(a.element_size)
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arr_step_size := u64(a.len) * u64(arr.element_size)
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mut eptr := &u8(arr.data)
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unsafe {
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for _ in 0 .. count {
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if depth > 0 {
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ary_clone := a.clone_to_depth_noscan(depth)
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vmemcpy(eptr, &u8(ary_clone.data), a_total_size)
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} else {
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vmemcpy(eptr, &u8(a.data), a_total_size)
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}
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eptr += arr_step_size
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2021-06-11 12:00:18 +03:00
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}
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}
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}
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return arr
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}
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// insert inserts a value in the array at index `i`
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fn (mut a array) insert_noscan(i int, val voidptr) {
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2022-10-30 15:06:07 +03:00
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$if !no_bounds_checking {
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2021-06-11 12:00:18 +03:00
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if i < 0 || i > a.len {
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2022-11-15 16:53:13 +03:00
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panic('array.insert: index out of range (i == ${i}, a.len == ${a.len})')
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2021-06-11 12:00:18 +03:00
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}
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}
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a.ensure_cap_noscan(a.len + 1)
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unsafe {
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2022-05-04 18:42:06 +03:00
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vmemmove(a.get_unsafe(i + 1), a.get_unsafe(i), u64(a.len - i) * u64(a.element_size))
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2021-06-11 12:00:18 +03:00
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a.set_unsafe(i, val)
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}
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a.len++
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}
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// insert_many inserts many values into the array from index `i`.
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[unsafe]
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fn (mut a array) insert_many_noscan(i int, val voidptr, size int) {
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2022-10-30 15:06:07 +03:00
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$if !no_bounds_checking {
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2021-06-11 12:00:18 +03:00
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if i < 0 || i > a.len {
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2022-11-15 16:53:13 +03:00
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panic('array.insert_many: index out of range (i == ${i}, a.len == ${a.len})')
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2021-06-11 12:00:18 +03:00
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}
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}
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a.ensure_cap_noscan(a.len + size)
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elem_size := a.element_size
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unsafe {
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iptr := a.get_unsafe(i)
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2022-05-04 18:42:06 +03:00
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vmemmove(a.get_unsafe(i + size), iptr, u64(a.len - i) * u64(elem_size))
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vmemcpy(iptr, val, u64(size) * u64(elem_size))
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2021-06-11 12:00:18 +03:00
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}
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a.len += size
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}
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// prepend prepends one value to the array.
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fn (mut a array) prepend_noscan(val voidptr) {
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a.insert_noscan(0, val)
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}
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// prepend_many prepends another array to this array.
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[unsafe]
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fn (mut a array) prepend_many_noscan(val voidptr, size int) {
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unsafe { a.insert_many_noscan(0, val, size) }
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}
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// pop returns the last element of the array, and removes it.
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fn (mut a array) pop_noscan() voidptr {
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// in a sense, this is the opposite of `a << x`
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2022-10-30 15:06:07 +03:00
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$if !no_bounds_checking {
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2021-06-11 12:00:18 +03:00
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if a.len == 0 {
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panic('array.pop: array is empty')
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}
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}
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new_len := a.len - 1
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2022-05-04 18:42:06 +03:00
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last_elem := unsafe { &u8(a.data) + u64(new_len) * u64(a.element_size) }
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2021-06-11 12:00:18 +03:00
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a.len = new_len
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2022-03-06 20:01:22 +03:00
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// Note: a.cap is not changed here *on purpose*, so that
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2021-06-11 12:00:18 +03:00
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// further << ops on that array will be more efficient.
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return unsafe { memdup_noscan(last_elem, a.element_size) }
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}
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// `clone_static_to_depth_noscan()` returns an independent copy of a given array.
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// Unlike `clone_to_depth_noscan()` it has a value receiver and is used internally
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// for slice-clone expressions like `a[2..4].clone()` and in -autofree generated code.
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fn (a array) clone_static_to_depth_noscan(depth int) array {
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return unsafe { a.clone_to_depth_noscan(depth) }
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}
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// recursively clone given array - `unsafe` when called directly because depth is not checked
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[unsafe]
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fn (a &array) clone_to_depth_noscan(depth int) array {
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2022-05-04 18:42:06 +03:00
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mut size := u64(a.cap) * u64(a.element_size)
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2021-06-11 12:00:18 +03:00
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if size == 0 {
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size++
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}
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mut arr := array{
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element_size: a.element_size
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data: if depth == 0 { vcalloc_noscan(size) } else { vcalloc(size) }
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len: a.len
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cap: a.cap
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}
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// Recursively clone-generated elements if array element is array type
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if depth > 0 {
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for i in 0 .. a.len {
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ar := array{}
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2021-08-12 21:46:38 +03:00
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unsafe { vmemcpy(&ar, a.get_unsafe(i), int(sizeof(array))) }
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2021-06-11 12:00:18 +03:00
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ar_clone := unsafe { ar.clone_to_depth_noscan(depth - 1) }
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unsafe { arr.set_unsafe(i, &ar_clone) }
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}
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return arr
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} else {
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2022-05-07 10:35:56 +03:00
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if a.data != 0 {
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2022-05-04 18:42:06 +03:00
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unsafe { vmemcpy(&u8(arr.data), a.data, u64(a.cap) * u64(a.element_size)) }
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2021-06-11 12:00:18 +03:00
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}
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return arr
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}
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}
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fn (mut a array) push_noscan(val voidptr) {
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a.ensure_cap_noscan(a.len + 1)
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2022-05-04 18:42:06 +03:00
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unsafe { vmemcpy(&u8(a.data) + u64(a.element_size) * u64(a.len), val, a.element_size) }
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2021-06-11 12:00:18 +03:00
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a.len++
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}
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// push_many implements the functionality for pushing another array.
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// `val` is array.data and user facing usage is `a << [1,2,3]`
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[unsafe]
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fn (mut a3 array) push_many_noscan(val voidptr, size int) {
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2022-09-15 14:59:37 +03:00
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if size <= 0 || val == unsafe { nil } {
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2022-06-17 09:44:13 +03:00
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return
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}
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2022-05-07 10:35:56 +03:00
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if a3.data == val && a3.data != 0 {
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2021-06-11 12:00:18 +03:00
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// handle `arr << arr`
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copy := a3.clone()
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a3.ensure_cap_noscan(a3.len + size)
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unsafe {
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2022-05-04 18:42:06 +03:00
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vmemcpy(a3.get_unsafe(a3.len), copy.data, u64(a3.element_size) * u64(size))
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2021-06-11 12:00:18 +03:00
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}
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} else {
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a3.ensure_cap_noscan(a3.len + size)
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2022-05-07 10:35:56 +03:00
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if a3.data != 0 && val != 0 {
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2022-05-04 18:42:06 +03:00
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unsafe { vmemcpy(a3.get_unsafe(a3.len), val, u64(a3.element_size) * u64(size)) }
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2021-06-11 12:00:18 +03:00
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}
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}
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a3.len += size
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}
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// reverse returns a new array with the elements of the original array in reverse order.
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fn (a array) reverse_noscan() array {
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if a.len < 2 {
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return a
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}
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mut arr := array{
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element_size: a.element_size
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2022-05-04 18:42:06 +03:00
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data: vcalloc_noscan(u64(a.cap) * u64(a.element_size))
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2021-06-11 12:00:18 +03:00
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len: a.len
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cap: a.cap
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}
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for i in 0 .. a.len {
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unsafe { arr.set_unsafe(i, a.get_unsafe(a.len - 1 - i)) }
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}
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return arr
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}
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// grow_cap grows the array's capacity by `amount` elements.
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fn (mut a array) grow_cap_noscan(amount int) {
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a.ensure_cap_noscan(a.cap + amount)
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}
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// grow_len ensures that an array has a.len + amount of length
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[unsafe]
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fn (mut a array) grow_len_noscan(amount int) {
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a.ensure_cap_noscan(a.len + amount)
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a.len += amount
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}
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