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; End Address for the macro
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The use of the EndAddress is to ensure that there is no opportunity for the situation where the page boundary occurs within the macro to cause a problem. The midrange device s bc macro is similar except that the PCLATH bits are changed and then reset. It is surprising that these macros, which simulate instructions in the PIC18, actually have a greater address range capability in low-end and mid-range devices. The simulated macros can jump anywhere in program memory, whereas the actual PIC18 instructions can only jump 128 to +127 addresses from the next instruction. Along with the PIC18 bc instruction, the bnc, bnz, bra, and bz instructions all can be implemented in low-end and mid-range PIC microcontrollers. The bov, bnov, bn, and bnn instructions cannot be simulated using a macro because the OV and N ags are not implemented in low-end and mid-range PIC microcontrollers.
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Porting variable access code, despite the different le register bank organization, is not an issue in really for the PIC18. For analogous translation of le register access application code, the BSR register can be updated with new addresses, but when I move applications between architectures, I simply keep my variables starting at address 0x020 and access them directly rather than keeping track of things with BSR. The PIC18 hardware I/O register organization is quite a bit different from how the hardware I/O registers are implemented in low-end and mid-range devices. When porting applications, changes will have to be made to the source code based on the destination device. This is actually the most signi cant amount of code development that you will have to do for porting applications. The 8-bit hardware multiplier is an obvious omission when going from PIC18 devices to low-end and mid-range PIC microcontrollers. This hardware multiplier capability will have to be simulated in software using the code presented elsewhere in this book. There are a number of enhanced instructions available to PIC18 microcontrollers that can cause some problems when porting devices. If you are expecting to port applications between low-end and mid-range PIC microcontrollers, I would suggest that working with the low-end PIC microcontroller s arithmetic instructions (addwf and subwf) be the limit of the instructions used. The other instructions, while they will really enhance your application code, will be very dif cult to simulate in lower-end PIC microcontroller architectures. Limiting the use of some of the most useful features in the PIC18 really begs the question of whether or not porting the application to a lower-end device is appropriate. The PIC18 has many new instructions and capabilities that are not available in low-end and mid-range devices, and over time, I expect to see a great number of new PIC18 part numbers that can replace mid-range PIC microcontroller functions. When this becomes the case, the reason for considering porting applications becomes much less important. For this reason, I consider this section to be more of a guide for porting snippets of code between PIC microcontroller architectures rather than full applications. Porting full applications will require a fair amount of work and will take quite a bit of time for you to make sure that all the necessary changes between the architectures are done correctly and that the application will work with all the differences between the source and destination PIC microcontrollers properly compensated for.
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As you start developing you own PIC microcontroller applications, you are going to discover that the device you choose does not have enough program memory, le registers, or I/O pins for your needs. One solution may be to try another device or part number that has more of these resources or built-in hardware. The problem with this solution is that it usually costs more, and some of the basic problems with the application are not addressed. Instead of jumping to a new chip, there are some strategies that you can work
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