C was not really "designed" as a language; instead, features were added as needs arose, with an effort not to break earlier code. Such an evolutionary approach was a good thing in the days when C was being developed, since it meant that for the most part developers could reap the benefits of the earlier improvements in the language before everything the language might need to do was worked out. Unfortunately, the way in which array- and pointer handling have evolved has led to a variety of rules which are, in retrospect, unfortunate.
In the C language of today, there is a fairly substantial type system, and variables have clearly defined types, but things were not always thus. A declaration
char arr; would allocate 8 bytes in the present scope, and make
arr point to the first of them. The compiler wouldn't know that
arr represented an array--it would represent a char pointer just like any other
char*. From what I understand, if one had declared
char arr1, arr2;, the statement
arr1 = arr2; would have been perfectly legal, being somewhat equivalent conceptually to
char *st1 = "foo, *st2 = "bar"; st1 = st2;, but would have almost always represented a bug.
The rule that arrays decompose into pointers stemmed from a time when arrays and pointers really were the same thing. Since then, arrays have come to be recognized as a distinct type, but the language needed to remain essentially compatible with the days when they weren't. When the rules were being formulated, the question of how two-dimensional arrays should be handled wasn't an issue because there was no such thing. One could do something like
char foo; char *bar; int i; for (i=0; i<4; i++) bar[i] = foo + (i*5); and then use
bar[x][y] in the same way as one would now use a two-dimensional array, but a compiler wouldn't view things that way--it just saw
bar as a pointer to a pointer. If one wanted to make foo point somewhere completely different from foo, one could perfectly legally do so.
When two two-dimensional arrays were added to C, it was not necessary to maintain compatibility with earlier code that declared two-dimensional arrays, because there wasn't any. While it would have been possible to specify that
char bar; would generate code equivalent to what was shown using the
foo, in which case a
char would have been usable as a
char**, it was thought that just as assigning array variables would have been a mistake 99% of the time, so too would have been re-assignment of array rows, had that been legal. Thus, arrays in C are recognized as distinct types, with their own rules which are a bit odd, but which are what they are.