StarRailCopilot/module/map/map_grids.py

200 lines
4.8 KiB
Python
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2020-03-28 17:22:46 +00:00
import operator
import numpy as np
class SelectedGrids:
def __init__(self, grids):
self.grids = grids
def __iter__(self):
return iter(self.grids)
def __getitem__(self, item):
if isinstance(item, int):
return self.grids[item]
else:
return SelectedGrids(self.grids[item])
def __contains__(self, item):
return item in self.grids
def __str__(self):
# return str([str(grid) for grid in self])
return '[' + ', ' .join([str(grid) for grid in self]) + ']'
def __len__(self):
return len(self.grids)
def __bool__(self):
return self.count > 0
# def __getattr__(self, item):
# return [grid.__getattribute__(item) for grid in self.grids]
@property
def location(self):
"""
Returns:
list[tuple]:
"""
return [grid.location for grid in self.grids]
@property
def cost(self):
"""
Returns:
list[int]:
"""
return [grid.cost for grid in self.grids]
@property
def weight(self):
"""
Returns:
list[int]:
"""
return [grid.weight for grid in self.grids]
@property
def count(self):
"""
Returns:
int:
"""
return len(self.grids)
def select(self, **kwargs):
"""
Args:
**kwargs: Attributes of Grid.
Returns:
SelectedGrids:
"""
result = []
for grid in self:
flag = True
for k, v in kwargs.items():
grid_v = grid.__getattribute__(k)
if type(grid_v) != type(v) or grid_v != v:
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flag = False
if flag:
result.append(grid)
return SelectedGrids(result)
def add(self, grids):
"""
Args:
grids(SelectedGrids):
Returns:
SelectedGrids:
"""
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return SelectedGrids(list(set(self.grids + grids.grids)))
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def delete(self, grids):
"""
Args:
grids(SelectedGrids):
Returns:
SelectedGrids:
"""
g = [grid for grid in self.grids if grid not in grids]
return SelectedGrids(g)
def sort(self, cost=True, weight=True):
"""
Args:
cost (bool):
weight (bool):
Returns:
"""
attr = []
if weight:
attr.append('weight')
if cost:
attr.append('cost')
if len(attr):
grids = sorted(self.grids, key=operator.attrgetter(*attr))
return SelectedGrids(grids)
else:
return self
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def sort_by_camera_distance(self, camera):
"""
Args:
camera (tuple):
Returns:
SelectedGrids:
"""
location = np.array(self.location)
diff = np.sum(np.abs(np.array(location) - camera), axis=1)
# grids = [x for _, x in sorted(zip(diff, self.grids))]
grids = tuple(np.array(self.grids)[np.argsort(diff)])
return SelectedGrids(grids)
class RoadGrids:
def __init__(self, grids):
"""
Args:
grids (list):
"""
self.grids = []
for grid in grids:
if isinstance(grid, list):
self.grids.append(SelectedGrids(grids=grid))
else:
self.grids.append(SelectedGrids(grids=[grid]))
def __str__(self):
return str(' - '.join([str(grid) for grid in self.grids]))
def roadblocks(self):
"""
Returns:
SelectedGrids:
"""
grids = []
for block in self.grids:
if block.count == block.select(is_enemy=True).count:
grids += block.grids
return SelectedGrids(grids)
def potential_roadblocks(self):
"""
Returns:
SelectedGrids:
"""
grids = []
for block in self.grids:
if np.any([grid.is_fleet for grid in block]):
continue
if np.any([grid.is_cleared for grid in block]):
continue
if block.count - block.select(is_enemy=True).count == 1:
grids += block.select(is_enemy=True).grids
return SelectedGrids(grids)
def first_roadblock(self):
"""
Returns:
SelectedGrids:
"""
grids = []
for block in self.grids:
if np.any([grid.is_fleet for grid in block]):
continue
if np.any([grid.is_cleared for grid in block]):
continue
if block.select(is_enemy=True).count == 1:
grids += block.select(is_enemy=True).grids
return SelectedGrids(grids)