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clarification
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busssard
busssard
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I think its in the order of

32 cells to hallways. Considering that the outside of the hotel is considered a hallway... Every cell on the edge can have a door, so people can get in privately I think this solves Dr.Bees problem better than the problem statement from the architect, as Dr.Bees did not want any hallways and is asking the number of hallways to be minimized. the architect is so in his human bubble, he did not consider not every room, needs to border to a hallway.;)

I think this solves Dr.Bees problem better than the problem statement from the architect, as Dr.Bees did not want any hallways and is asking the number of hallways to be minimized. The architect is so much in his human bubble, he did not consider not every room needs to border to a hallway.

hotel

I think its in the order of

32 cells to hallways. Considering that the outside of the hotel is considered a hallway. Every cell on the edge can have a door, so people can get in privately I think this solves Dr.Bees problem better than the problem statement from the architect, as Dr.Bees did not want any hallways and is asking the number of hallways to be minimized. the architect is so in his human bubble, he did not consider not every room, needs to border to a hallway.

hotel

I think its in the order of

32 cells to hallways. Considering that the outside of the hotel is considered a hallway... Every cell on the edge can have a door, so people can get in privately ;)

I think this solves Dr.Bees problem better than the problem statement from the architect, as Dr.Bees did not want any hallways and is asking the number of hallways to be minimized. The architect is so much in his human bubble, he did not consider not every room needs to border to a hallway.

hotel

Fixed spoiler
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edit approved Oct 26, 2022 at 10:39
ACB
edit approved Oct 26, 2022 at 10:39
ACB
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I think its in the order of

! 32 cells to hallways. Considering that the outside of the hotel is considered a hallway. Every cell on the edge can have a door, so people can get in privately... ;) I think this solves dr. bees problem better than the problem statement from the architect, as dr. Bee did not want any hallways and is asking the number of hallways to be minimized. the architect is so in his human bubble, he did not consider not every room, needs to border to a hallway.

32 cells to hallways. Considering that the outside of the hotel is considered a hallway. Every cell on the edge can have a door, so people can get in privately I think this solves Dr.Bees problem better than the problem statement from the architect, as Dr.Bees did not want any hallways and is asking the number of hallways to be minimized. the architect is so in his human bubble, he did not consider not every room, needs to border to a hallway.

hotel

I think its in the order of

! 32 cells to hallways. Considering that the outside of the hotel is considered a hallway. Every cell on the edge can have a door, so people can get in privately... ;) I think this solves dr. bees problem better than the problem statement from the architect, as dr. Bee did not want any hallways and is asking the number of hallways to be minimized. the architect is so in his human bubble, he did not consider not every room, needs to border to a hallway.

hotel

I think its in the order of

32 cells to hallways. Considering that the outside of the hotel is considered a hallway. Every cell on the edge can have a door, so people can get in privately I think this solves Dr.Bees problem better than the problem statement from the architect, as Dr.Bees did not want any hallways and is asking the number of hallways to be minimized. the architect is so in his human bubble, he did not consider not every room, needs to border to a hallway.

hotel

added 2 characters in body
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busssard
busssard
  • 59
  • 5

I think its in the order of

! I think its in the order of 32 cells to hallways. Considering that the outside of the hotel is considered a hallway. Every cell on the edge can have a door, so people can get in privately... ;) I think this solves dr. bees problem better than the problem statement from the architect, as dr. Bee did not want any hallways and is asking the number of hallways to be minimized. the architect is so in his human bubble, he did not consider not every room, needs to border to a hallway.

hotel

! I think its in the order of 32 cells to hallways. Considering that the outside of the hotel is considered a hallway. Every cell on the edge can have a door, so people can get in privately... ;) I think this solves dr. bees problem better than the problem statement from the architect, as dr. Bee did not want any hallways and is asking the number of hallways to be minimized. the architect is so in his human bubble, he did not consider not every room, needs to border to a hallway.

hotel

I think its in the order of

! 32 cells to hallways. Considering that the outside of the hotel is considered a hallway. Every cell on the edge can have a door, so people can get in privately... ;) I think this solves dr. bees problem better than the problem statement from the architect, as dr. Bee did not want any hallways and is asking the number of hallways to be minimized. the architect is so in his human bubble, he did not consider not every room, needs to border to a hallway.

hotel

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busssard
busssard
  • 59
  • 5