ai-content-maker/.venv/Lib/site-packages/numba/cpython/heapq.py

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2024-05-03 04:18:51 +03:00
# A port of https://github.com/python/cpython/blob/e42b7051/Lib/heapq.py
import heapq as hq
from numba.core import types
from numba.core.errors import TypingError
from numba.core.extending import overload, register_jitable
@register_jitable
def _siftdown(heap, startpos, pos):
newitem = heap[pos]
while pos > startpos:
parentpos = (pos - 1) >> 1
parent = heap[parentpos]
if newitem < parent:
heap[pos] = parent
pos = parentpos
continue
break
heap[pos] = newitem
@register_jitable
def _siftup(heap, pos):
endpos = len(heap)
startpos = pos
newitem = heap[pos]
childpos = 2 * pos + 1
while childpos < endpos:
rightpos = childpos + 1
if rightpos < endpos and not heap[childpos] < heap[rightpos]:
childpos = rightpos
heap[pos] = heap[childpos]
pos = childpos
childpos = 2 * pos + 1
heap[pos] = newitem
_siftdown(heap, startpos, pos)
@register_jitable
def _siftdown_max(heap, startpos, pos):
newitem = heap[pos]
while pos > startpos:
parentpos = (pos - 1) >> 1
parent = heap[parentpos]
if parent < newitem:
heap[pos] = parent
pos = parentpos
continue
break
heap[pos] = newitem
@register_jitable
def _siftup_max(heap, pos):
endpos = len(heap)
startpos = pos
newitem = heap[pos]
childpos = 2 * pos + 1
while childpos < endpos:
rightpos = childpos + 1
if rightpos < endpos and not heap[rightpos] < heap[childpos]:
childpos = rightpos
heap[pos] = heap[childpos]
pos = childpos
childpos = 2 * pos + 1
heap[pos] = newitem
_siftdown_max(heap, startpos, pos)
@register_jitable
def reversed_range(x):
# analogous to reversed(range(x))
return range(x - 1, -1, -1)
@register_jitable
def _heapify_max(x):
n = len(x)
for i in reversed_range(n // 2):
_siftup_max(x, i)
@register_jitable
def _heapreplace_max(heap, item):
returnitem = heap[0]
heap[0] = item
_siftup_max(heap, 0)
return returnitem
def assert_heap_type(heap):
if not isinstance(heap, (types.List, types.ListType)):
raise TypingError('heap argument must be a list')
dt = heap.dtype
if isinstance(dt, types.Complex):
msg = ("'<' not supported between instances "
"of 'complex' and 'complex'")
raise TypingError(msg)
def assert_item_type_consistent_with_heap_type(heap, item):
if not heap.dtype == item:
raise TypingError('heap type must be the same as item type')
@overload(hq.heapify)
def hq_heapify(x):
assert_heap_type(x)
def hq_heapify_impl(x):
n = len(x)
for i in reversed_range(n // 2):
_siftup(x, i)
return hq_heapify_impl
@overload(hq.heappop)
def hq_heappop(heap):
assert_heap_type(heap)
def hq_heappop_impl(heap):
lastelt = heap.pop()
if heap:
returnitem = heap[0]
heap[0] = lastelt
_siftup(heap, 0)
return returnitem
return lastelt
return hq_heappop_impl
@overload(hq.heappush)
def heappush(heap, item):
assert_heap_type(heap)
assert_item_type_consistent_with_heap_type(heap, item)
def hq_heappush_impl(heap, item):
heap.append(item)
_siftdown(heap, 0, len(heap) - 1)
return hq_heappush_impl
@overload(hq.heapreplace)
def heapreplace(heap, item):
assert_heap_type(heap)
assert_item_type_consistent_with_heap_type(heap, item)
def hq_heapreplace(heap, item):
returnitem = heap[0]
heap[0] = item
_siftup(heap, 0)
return returnitem
return hq_heapreplace
@overload(hq.heappushpop)
def heappushpop(heap, item):
assert_heap_type(heap)
assert_item_type_consistent_with_heap_type(heap, item)
def hq_heappushpop_impl(heap, item):
if heap and heap[0] < item:
item, heap[0] = heap[0], item
_siftup(heap, 0)
return item
return hq_heappushpop_impl
def check_input_types(n, iterable):
if not isinstance(n, (types.Integer, types.Boolean)):
raise TypingError("First argument 'n' must be an integer")
# heapq also accepts 1.0 (but not 0.0, 2.0, 3.0...) but
# this isn't replicated
if not isinstance(iterable, (types.Sequence, types.Array, types.ListType)):
raise TypingError("Second argument 'iterable' must be iterable")
@overload(hq.nsmallest)
def nsmallest(n, iterable):
check_input_types(n, iterable)
def hq_nsmallest_impl(n, iterable):
if n == 0:
return [iterable[0] for _ in range(0)]
elif n == 1:
out = min(iterable)
return [out]
size = len(iterable)
if n >= size:
return sorted(iterable)[:n]
it = iter(iterable)
result = [(elem, i) for i, elem in zip(range(n), it)]
_heapify_max(result)
top = result[0][0]
order = n
for elem in it:
if elem < top:
_heapreplace_max(result, (elem, order))
top, _order = result[0]
order += 1
result.sort()
return [elem for (elem, order) in result]
return hq_nsmallest_impl
@overload(hq.nlargest)
def nlargest(n, iterable):
check_input_types(n, iterable)
def hq_nlargest_impl(n, iterable):
if n == 0:
return [iterable[0] for _ in range(0)]
elif n == 1:
out = max(iterable)
return [out]
size = len(iterable)
if n >= size:
return sorted(iterable)[::-1][:n]
it = iter(iterable)
result = [(elem, i) for i, elem in zip(range(0, -n, -1), it)]
hq.heapify(result)
top = result[0][0]
order = -n
for elem in it:
if top < elem:
hq.heapreplace(result, (elem, order))
top, _order = result[0]
order -= 1
result.sort(reverse=True)
return [elem for (elem, order) in result]
return hq_nlargest_impl