Hard to Believe, but True!
The fight goes on, whether to store numbers starting with their most significant digit or their least significant digit. Sometimes this is also called the "Endian War". The battleground dates far back into the early days of computer science. Joe Stoy, in his (by the way excellent) book "Denotational Semantics", tells following story:
"The decision which way round the digits run is, of course, mathematically trivial. Indeed, one early British computer had numbers running from right to left (because the spot on an oscilloscope tube runs from left to right, but in serial logic the least significant digits are dealt with first). Turing used to mystify audiences at public lectures when, quite by accident, he would slip into this mode even for decimal arithmetic, and write things like 73+42=16. The next version of the machine was made more conventional simply by crossing the x-deflection wires: this, however, worried the engineers, whose waveforms were all backwards. That problem was in turn solved by providing a little window so that the engineers (who tended to be behind the computer anyway) could view the oscilloscope screen from the back.You will play the role of the audience and judge on the truth value of Turing\'s equations.
[C. Strachey - private communication.]"
For each test case generate a line containing the word "True" or the word "False", if the equation is true or false, respectively, in Turing\'s interpretation, i.e. the numbers being read backwards.
73+42=16 5+8=13 10+20=30 0001000+000200=00030 1234+5=1239 1+0=0 7000+8000=51 0+0=0
True False True True False False True True