7.4.14 Specifying Configuration Bits

The #pragma config directive can be used to program the Configuration bits for a device. The pragma has the form:

#pragma config setting = state|value

where setting is a configuration setting descriptor (for example, WDT), state is a descriptive value (for example, ON) and value is a numerical value.

Use the native keywords discussed in the Differences section to look up information on the semantics of this directive.

Example

The following shows Configuration bits being specified using this pragma.

#pragma config WDT=ON, WDTPS = 0x1A

Differences

When targeting PIC MCUs, MPLAB XC8 has provided a legacy __CONFIG() macro, but more recently has accepted #pragma config. When targeting AVR devices, it has used a predefined FUSES structure to allow the configuration bits to be specified.

The MPLAB XC16 and XC-DSC compilers have used a number of macros to specify the configuration settings.

The MPLAB XC32 compiler has supported the use of #pragma config.

Migration to the CCI

When building for PIC MCUs with MPLAB XC8, change any occurrence of the __CONFIG() macro, for example,

__CONFIG(WDTEN & XT & DPROT)

to the #pragma config directive, for example:

#pragma config WDTE=ON, FOSC=XT, CPD=ON

When building for AVR MCUs with MPLAB XC8, change any occurrence of the FUSES structure, for example:
#include <avr/io.h>
FUSES = {
    .high = (FUSE_SPIEN)
};
to:
#pragma config SPIEN=SET

For the MPLAB XC16 and XC-DSC compilers, change any occurrence of the _FOSC() or _FBORPOR() macros attribute, for example, from:

_FOSC(CSW_FSCM_ON & EC_PLL16);

to:

#pragma config FCKSMEM = CSW_ON_FSCM_ON, FPR = ECIO_PLL16

No migration is required for 32-bit code.

Caveats

None.