Vault 7: Projects

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MPLAB
®
XC16 C Compiler Users Guide
DS50002071C-page 190 2012-2013 Microchip Technology Inc.
EXAMPLE 13-3: FUNCTION CALL MODEL, STACK BASED ARGUMENTS
typedef struct bar {
double d,e;
} bar;
void
params2(int i, bar b, int j) {
/*
** W0 i
** stack b
** W1 j
*/
}
Accessing arguments that have been placed onto the stack depends upon whether or
not a Frame Pointer has been created. Generally the compiler will produce a Frame
Pointer (unless told not to do so), and stack-based parameters will be accessed via the
Frame Pointer register (W14). In the preceding example, b will be accessed from
W14-22. The Frame Pointer offset of negative 22 has been calculated (refer to
Figure 10-4) by removing 2 bytes for the previous FP, 4 bytes for the return address,
followed by 16 bytes for b.
When no Frame Pointer is used, the assembly programmer must know how much stack
space has been used since entry to the procedure. If no further stack space is used,
the calculation is similar to Example 13-3. b would be accessed via W15-20; 4 bytes
for the return address and 16 bytes to access the start of b.
13.8.2 Return Value
Function return values are returned in W0 for 8- or 16-bit scalars, W1:W0 for 32-bit
scalars, and W3:W2:W1:W0 for 64-bit scalars. Aggregates are returned indirectly
through W0, which is set up by the function caller to contain the address of the
aggregate value.
13.8.3 Preserving Registers Across Function Calls
The compiler arranges for registers W8-W15 to be preserved across ordinary function
calls. Registers W0-W7 are available as scratch registers. For interrupt functions, the
compiler arranges for all necessary registers to be preserved, namely W0-W15 and
RCOUNT.

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