| Doing Windows |
The screen of monitors on computer systems are rectangles. The aspect ratio of a screen is its width divided by its height. This term can also be applied to rectangular windows that may appear on the monitor's screen, where it is defined as the width of the window divided by its height. For this problem we assume the dimensions of a monitor's screen and its windows are measured in integral numbers of pixels, the individual dots (arranged in a rectangular grid) that comprise and image.
Suppose your windowing software only allows windows to be resized in such
a way that their aspect ratios are unmodified. For example, a window with
a width
of 150 pixels and a height of 100 pixels (and an espect ratio of 150/100,
or 1.5)
can be resized so its width is 225 pixels and its height is 150 pixels
(the aspect ratio
remains unchanged, at 225/150, or 1.5), but a width of 224 and a height
of 150 is not
allowed, since that would change the aspect ratio. Each window can be
moved to an
arbitrary location on the screen, but the entire window must remain visible
on the screen.
Given the size of a screen and the initial sizes of four different windows
(as integer values for width and height), is it possible to resize (and
relocate) the
four windows so they completely cover the screen without overlapping each
other?
That's the question you are to answer in this problem.
For example, consider a square screen with four square windows.
The aspect ratio
for each of these is exactly 1. We are permitted to resize each of
the four windows
so they would completely fill the screen without overlapping.
This case is illustrated by the first data set in the Sample Input, below.
400 400 10 10 35 35 15 15 100 100 200 300 10 10 20 20 30 45 40 60 200 250 10 10 20 20 30 45 40 60 0 0
Set 1: Yes Set 2: No Set 3: Yes