cp-library
This documentation is automatically generated by online-judge-tools/verification-helper
test/atcoder/abc/abc249_f_max_k_heap.test.py
- View this file on GitHub
- Last update: 2025-03-30 20:17:47+09:00
- Problem: https://atcoder.jp/contests/abc249/tasks/abc249_f
Depends on
- cp_library/alg/iter/rev_enumerate_fn.py
- cp_library/ds/heap/heap_proto.py
- cp_library/ds/heap/k_heap_mixin.py
- cp_library/ds/heap/max_k_heap_cls.py
- cp_library/ds/heap/min_heap_cls.py
- cp_library/io/fast_io_cls.py
- cp_library/io/parser_cls.py
- cp_library/io/read_fn.py
- cp_library/io/write_fn.py
Code
# verification-helper: PROBLEM https://atcoder.jp/contests/abc249/tasks/abc249_f
def main():
N, K = read(tuple[int, ...])
ops = read(list[tuple[int, ...], N])
diff = []
x = 0
for t, y in ops:
match t:
case 1:
diff.append(y - x)
x = y
case 2:
diff.append(y)
x += y
S = BadOps(K, x)
if K:
for i,(t,y) in rev_enumerate(ops):
match t:
case 1:
S.K -= 1
S.added(-diff[i])
if S.K == 0: break
case 2:
if y < 0:
S.push(-y)
write(S.ans)
from cp_library.io.read_fn import read
from cp_library.io.write_fn import write
from cp_library.alg.iter.rev_enumerate_fn import rev_enumerate
from cp_library.ds.heap.max_k_heap_cls import MaxKHeap
class BadOps(MaxKHeap[int]):
def __init__(self, K: int, x: int):
super().__init__(K)
self.x = x
self.ans = x
def added(self, y):
self.x += y
self.ans = max(self.ans, self.x)
def removed(self, y):
self.x -= y
self.ans = max(self.ans, self.x)
if __name__ == "__main__":
main()# verification-helper: PROBLEM https://atcoder.jp/contests/abc249/tasks/abc249_f
def main():
N, K = read(tuple[int, ...])
ops = read(list[tuple[int, ...], N])
diff = []
x = 0
for t, y in ops:
match t:
case 1:
diff.append(y - x)
x = y
case 2:
diff.append(y)
x += y
S = BadOps(K, x)
if K:
for i,(t,y) in rev_enumerate(ops):
match t:
case 1:
S.K -= 1
S.added(-diff[i])
if S.K == 0: break
case 2:
if y < 0:
S.push(-y)
write(S.ans)
'''
╺━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━╸
https://kobejean.github.io/cp-library
'''
from typing import Iterable, Type, Union, overload
import typing
from collections import deque
from numbers import Number
from types import GenericAlias
from typing import Callable, Collection, Iterator, Union
import os
import sys
from io import BytesIO, IOBase
class FastIO(IOBase):
BUFSIZE = 8192
newlines = 0
def __init__(self, file):
self._fd = file.fileno()
self.buffer = BytesIO()
self.writable = "x" in file.mode or "r" not in file.mode
self.write = self.buffer.write if self.writable else None
def read(self):
BUFSIZE = self.BUFSIZE
while True:
b = os.read(self._fd, max(os.fstat(self._fd).st_size, BUFSIZE))
if not b:
break
ptr = self.buffer.tell()
self.buffer.seek(0, 2), self.buffer.write(b), self.buffer.seek(ptr)
self.newlines = 0
return self.buffer.read()
def readline(self):
BUFSIZE = self.BUFSIZE
while self.newlines == 0:
b = os.read(self._fd, max(os.fstat(self._fd).st_size, BUFSIZE))
self.newlines = b.count(b"\n") + (not b)
ptr = self.buffer.tell()
self.buffer.seek(0, 2), self.buffer.write(b), self.buffer.seek(ptr)
self.newlines -= 1
return self.buffer.readline()
def flush(self):
if self.writable:
os.write(self._fd, self.buffer.getvalue())
self.buffer.truncate(0), self.buffer.seek(0)
class IOWrapper(IOBase):
stdin: 'IOWrapper' = None
stdout: 'IOWrapper' = None
def __init__(self, file):
self.buffer = FastIO(file)
self.flush = self.buffer.flush
self.writable = self.buffer.writable
def write(self, s):
return self.buffer.write(s.encode("ascii"))
def read(self):
return self.buffer.read().decode("ascii")
def readline(self):
return self.buffer.readline().decode("ascii")
sys.stdin = IOWrapper.stdin = IOWrapper(sys.stdin)
sys.stdout = IOWrapper.stdout = IOWrapper(sys.stdout)
from typing import TypeVar
_T = TypeVar('T')
class TokenStream(Iterator):
stream = IOWrapper.stdin
def __init__(self):
self.queue = deque()
def __next__(self):
if not self.queue: self.queue.extend(self._line())
return self.queue.popleft()
def wait(self):
if not self.queue: self.queue.extend(self._line())
while self.queue: yield
def _line(self):
return TokenStream.stream.readline().split()
def line(self):
if self.queue:
A = list(self.queue)
self.queue.clear()
return A
return self._line()
TokenStream.default = TokenStream()
class CharStream(TokenStream):
def _line(self):
return TokenStream.stream.readline().rstrip()
CharStream.default = CharStream()
ParseFn = Callable[[TokenStream],_T]
class Parser:
def __init__(self, spec: Union[type[_T],_T]):
self.parse = Parser.compile(spec)
def __call__(self, ts: TokenStream) -> _T:
return self.parse(ts)
@staticmethod
def compile_type(cls: type[_T], args = ()) -> _T:
if issubclass(cls, Parsable):
return cls.compile(*args)
elif issubclass(cls, (Number, str)):
def parse(ts: TokenStream): return cls(next(ts))
return parse
elif issubclass(cls, tuple):
return Parser.compile_tuple(cls, args)
elif issubclass(cls, Collection):
return Parser.compile_collection(cls, args)
elif callable(cls):
def parse(ts: TokenStream):
return cls(next(ts))
return parse
else:
raise NotImplementedError()
@staticmethod
def compile(spec: Union[type[_T],_T]=int) -> ParseFn[_T]:
if isinstance(spec, (type, GenericAlias)):
cls = typing.get_origin(spec) or spec
args = typing.get_args(spec) or tuple()
return Parser.compile_type(cls, args)
elif isinstance(offset := spec, Number):
cls = type(spec)
def parse(ts: TokenStream): return cls(next(ts)) + offset
return parse
elif isinstance(args := spec, tuple):
return Parser.compile_tuple(type(spec), args)
elif isinstance(args := spec, Collection):
return Parser.compile_collection(type(spec), args)
elif isinstance(fn := spec, Callable):
def parse(ts: TokenStream): return fn(next(ts))
return parse
else:
raise NotImplementedError()
@staticmethod
def compile_line(cls: _T, spec=int) -> ParseFn[_T]:
if spec is int:
fn = Parser.compile(spec)
def parse(ts: TokenStream): return cls([int(token) for token in ts.line()])
return parse
else:
fn = Parser.compile(spec)
def parse(ts: TokenStream): return cls([fn(ts) for _ in ts.wait()])
return parse
@staticmethod
def compile_repeat(cls: _T, spec, N) -> ParseFn[_T]:
fn = Parser.compile(spec)
def parse(ts: TokenStream): return cls([fn(ts) for _ in range(N)])
return parse
@staticmethod
def compile_children(cls: _T, specs) -> ParseFn[_T]:
fns = tuple((Parser.compile(spec) for spec in specs))
def parse(ts: TokenStream): return cls([fn(ts) for fn in fns])
return parse
@staticmethod
def compile_tuple(cls: type[_T], specs) -> ParseFn[_T]:
if isinstance(specs, (tuple,list)) and len(specs) == 2 and specs[1] is ...:
return Parser.compile_line(cls, specs[0])
else:
return Parser.compile_children(cls, specs)
@staticmethod
def compile_collection(cls, specs):
if not specs or len(specs) == 1 or isinstance(specs, set):
return Parser.compile_line(cls, *specs)
elif (isinstance(specs, (tuple,list)) and len(specs) == 2 and isinstance(specs[1], int)):
return Parser.compile_repeat(cls, specs[0], specs[1])
else:
raise NotImplementedError()
class Parsable:
@classmethod
def compile(cls):
def parser(ts: TokenStream): return cls(next(ts))
return parser
@overload
def read() -> Iterable[int]: ...
@overload
def read(spec: int) -> list[int]: ...
@overload
def read(spec: Union[Type[_T],_T], char=False) -> _T: ...
def read(spec: Union[Type[_T],_T] = None, char=False):
if not char and spec is None: return map(int, TokenStream.default.line())
parser: _T = Parser.compile(spec)
return parser(CharStream.default if char else TokenStream.default)
def write(*args, **kwargs):
'''Prints the values to a stream, or to stdout_fast by default.'''
sep, file = kwargs.pop("sep", " "), kwargs.pop("file", IOWrapper.stdout)
at_start = True
for x in args:
if not at_start:
file.write(sep)
file.write(str(x))
at_start = False
file.write(kwargs.pop("end", "\n"))
if kwargs.pop("flush", False):
file.flush()
from typing import Reversible
def rev_enumerate(A: Reversible, start: int = 0):
start += (N := len(A))
for i in range(N-1,-1,-1):
yield (start:=start-1), A[i]
from collections import UserList
from heapq import heapify, heappop, heappush, heappushpop, heapreplace
from typing import Generic
class HeapProtocol(Generic[_T]):
def pop(self) -> _T: ...
def push(self, item: _T): ...
def pushpop(self, item: _T) -> _T: ...
def replace(self, item: _T) -> _T: ...
class MinHeap(HeapProtocol[_T], UserList[_T]):
def __init__(self, iterable: Iterable = None):
super().__init__(iterable)
heapify(self.data)
def pop(self): return heappop(self.data)
def push(self, item: _T): heappush(self.data, item)
def pushpop(self, item: _T): return heappushpop(self.data, item)
def replace(self, item: _T): return heapreplace(self.data, item)
class KHeapMixin(HeapProtocol[_T], Parsable):
'''KHeapMixin[K: int, T: type, N: Union[int,None]]'''
def __init__(heap, K: int):
heap.K = K
def added(heap, item: _T): ...
def removed(heap, item: _T): ...
def pop(heap):
item = super().pop()
heap.removed(item)
return item
def push(heap, item: _T):
if len(heap) < heap._K:
heap.added(item)
super().push(item)
elif heap._K:
assert len(heap) == heap._K, f'{len(heap)=} {heap._K}'
heap.pushpop(item)
def pushpop(heap, item: _T):
if item != (remove := super().pushpop(item)):
heap.removed(remove)
heap.added(item)
return remove
else:
return item
def replace(heap, item: _T):
remove = super().replace(item)
heap.removed(remove)
heap.added(item)
return remove
@property
def K(heap):
return heap._K
@K.setter
def K(heap, K):
heap._K = K
if K is not None:
while len(heap) > K:
heap.pop()
@classmethod
def compile(cls, K: int, T: type, N: Union[int,None] = None):
elm = Parser.compile(T)
if N is None:
def parse(ts: TokenStream):
return cls(K, (elm(ts) for _ in ts.wait()))
else:
def parse(ts: TokenStream):
return cls(K, (elm(ts) for _ in range(N)))
return parse
class MaxKHeap(KHeapMixin[_T], MinHeap[_T]):
'''MaxKHeap[K: int, T: type, N: Union[int,None]]'''
def __init__(self, K: int, iterable: Iterable[_T] = None):
MinHeap.__init__(self, iterable)
KHeapMixin.__init__(self, K)
class BadOps(MaxKHeap[int]):
def __init__(self, K: int, x: int):
super().__init__(K)
self.x = x
self.ans = x
def added(self, y):
self.x += y
self.ans = max(self.ans, self.x)
def removed(self, y):
self.x -= y
self.ans = max(self.ans, self.x)
if __name__ == "__main__":
main()