Alessandro's own answer is very informative, but I would like to add some information.
As stated by Alessandro, the
__ctype_b_loc(void) function returns an array where each element contains the features of one ASCII character. For instance by looking up in the table we can learn that the character 'A' is uppercase, hexadecimal, graphical, printing, alphanumeric.
To be precise, the
__ctype_b_loc() function returns a
const unsigned short int** which is a pointer to an array of 384
unsigned short int*.
The reason there ara 384 elements is so the table can be indexed by:
unsigned char value [0,255] (so 256 elements)
- EOF (-1)
signed char value [-128,-1) (so 127 elements)
This table is used by the functions :
However these functions are defined as macros, so you will never see them called in an assembly code. What you will see is a call to
__ctype_b_loc() to get the table, some code to retrieve the correct entry and the usage of a bit mask to see if the property we are checking is set. For instance if we want to see if a character is uppercase, we have to check if the bit 0 is set.
Here is the assembly code generated by calling
call sym.imp.__ctype_b_loc ; isupper('A');
mov rax, qword [rax] ; get the pointer to the array of 'unsigned short int*'
movsx rdx, byte 0x41 ; prepare to look up for character 'A'
add rdx, rdx ; each entry is 2 bytes, so we double the value of 'A'
add rax, rdx ; look up for 'A' in the table
movzx eax, word [rax] ; get the 'unsigned short int' containing the properties
movzx eax, ax
and eax, 0x100 ; 0x0100 in little-endian is 0x0001 in big-endian (check if bit 0 is set)