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PIC - PIC Is a Compiler for 8-bit PIC micro controllers

A native compiler for 8-bit PIC micro controllers written in Common Lisp. The host language is a pretty small subset of ML-like language and the target language is 8-bit PIC micro controller assembly. Common Lisp is the compiler language.

Usage

Following is an example of LED blinking with PIC12F683 micro controller. init function is one of the compiler's special functions, where the micro controller's SFR(Special Function Registers) are initialized. Following main function is also the compiler's special function and program's main routine is executed here.

mdelay1 function and mdelay macro are for delaying. Note that since 8-bit PIC handles only 8-bit unsigned integers, nested loops are needed for delaying more than 255 msec (950 msec here). progn and loop are predefined macros for the compiler.

(defpic init ()
  (progn
    (setreg :gpio #x0)                  ; clera GP0-5
    (setreg :cmcon0 #x07)               ; disable comparator
    (setbank1)                          ; switch to bank 1
    (setreg :trisio #x08)               ; only GP3 is outputinputmode
    (setreg :ansel #x00)                ; disable analog IO
    (setreg :ioc #x00)                  ; disable interruption
    (setbank0)                          ; switch to bank 0
    (setreg :intcon #x00)))             ; disable interruption

(defpic main ()
  (progn
    (setreg :gpio #x20)                 ; set GP5 to high
    (mdelay 50)                         ; delay for 50 msec
    (setreg :gpio #x00)                 ; set GP5 to low
    (mdelay 950)                        ; delay for 950 msec
    (main)))                            ; repeat

(defpic mdelay1 ()
  (loop #xf8                            ; 0xF8 is a magic number to delay
    0))                                 ;  for 1 msec

(defpicmacro mdelay (n)
  (unless (<= 0 n 65535)
    (error "The value ~S is invalid." n))
  (multiple-value-bind (q r) (truncate n 256)
    (if (= q 0)
        `(loop ,r (mdelay1))
        `(loop ,q (loop ,r (mdelay1))))))

Then pic-compile function compiles and outputs the complete assembly for the PIC functions to standard output. The output assembly is expected to be assembled with Microchip's MPASM assembler.

PIC> (pic-compile)
    INCLUDE"p12f683.inc"
    list p=12f683

    __CONFIG _CP_OFF & _CPD_OFF & _WDT_OFF & _BOD_ON & _IESO_OFF& _PWRTE_ON & _INTOSCIO & _MCLRE_OFF

    CBLOCK  020h
    L0,L1,L2,L3,L4,L5,L6,L7 ; local registers
    I0,I1,I2,I3,I4,I5,I6,I7 ; input registers
    NULL                    ; null registers
    SP,STMP,STK             ; stack registers
    ENDC

    ORG 0
    GOTO    MAIN
    ...
    END
; No value

Installation

Since PIC is not available on Quicklisp distribution yet, please use its local-projects feature.

$ ~/quicklisp/local-projects
$ git clone git://github.com/takagi/pic.git

Then (ql:quickload :pic) from REPL to load it. I will request PIC to Quicklisp soon.

API

[Macro] defpic

DEFPIC name arguments expression

Defines a PIC function. At least, main special function must be defined. pic-disassemble shows the compiled assembly of a PIC function.

[Macro] defpicmacro

DEFPICMACRO name arguments form

Defines a PIC macro. pic-macroexpand returns an expansion for a PIC macro form.

[Function] pic-compile

PIC-COMPILE

Compiles and outputs the complete assembly for PIC functions defined with defpic macro to *standard-output*. The output assembly is expected to be assembled with Microchip's MPASM assembler.

[Function] pic-disassemble

PIC-DISASSEMBLE name

Shows the compiled assembly of a function specified with name.

[Function] pic-macroexpand, pic-macroexpand1

PIC-MACROEXPAND form => expansion, expanded-p

PIC-MACROEXPAND1 form => expansion, expanded-p

Returns a macro expansion of form. If form is a macro form, then pic-macroexpand1 expands the macro form call once. pic-macroexpand repeatedly expands form until it is no longer a macro form. If form is a macro form, then the expansion is a macro expansion and expanded-p is t. Otherwise, the expansion is the given form and expanded-p is nil.

[Function] pic-clear

PIC-CLEAR

Clears all defined PIC functions. PIC macros are not cleared, which individually do not affect compiled assembly.

Language

Data

The compiler has only unsigned 8-bit integer as its data structure.

Syntax

The compiler has the following syntax.

  • literal
  • arithmetic operations
  • conditional branches
  • variable bindings
  • variable reference
  • local function definitions
  • function applications
  • loop
  • writing to registers

Literal

42

Literal for 8-bit unsigned integers is only allowed for now.

Arithmetic operations

(- 2 1)

Subtraction for two 8-bit unsigned integers is only allowed for now.

Conditional branches

(if (= x 0)
  42
  0)

Equality testing for 8-bit unsigned integers is only allowed for now.

Variable bindings and its reference

(let ((x 42))
  (let ((y 1))
    (- x y)))

Binds an expression to a variable and reference it. Only one variable is bound for each let form for now.

Local function definitions

(let ((foo (x) (+ x 42)))
  (foo 100))

Locally defines a function. It can be called recursively. Making closures and having free variables are not allowed for now.

Function applications

(foo 42)

Calls a function which is defined with defpic macro or a local function definition. Tail calls are compiled into GOTO instruction, not CALL instruction.

Loop

(loop 42 (do-something))

Releatedly executes the body part for the specified times.

Writing to registers

(setreg :gpio #x20)

Writes a value into the micro controller's SFR (Special Function Registers). This is an only syntax that causes side effects.

Macro

The compiler has the macro feature as well as Common Lisp does. Its macros are defined with defpicmacro Common Lisp macro. The following PIC macros are predefined.

[PIC-Macro] progn

PROGN expression*

Sequentially evaluates the given expressions. Actually they are expanded into a series of let bindings, where temporal assignments should be removed properly in optimization.

(progn
  (setreg :gpio #x00)
  (setreg :gpio #x01)
  (setreg :gpio #x02)
  (setreg :gpio #x04))

==>

(let ((tmp (setreg :gpio #x00)))
  (let ((tmp (setreg :gpio #x01)))
    (let ((tmp (setreg :gpio #x02)))
      (setreg :gpio #x03))))

[PIC-Macro] nop

NOP

Consumes a instruction cycle.

(nop) ==> (setreg :null #x00)

[PIC-Macro] setbank0

SETBANK0

Sets the current bank to bank 0.

(setbank0) ==> (setreg :status #x00)

[PIC-Macro] setbank1

SETBANK1

Sets the current bank to bank 1.

(setbank1) ==> (setreg :status #x20)

Special functions

The compiler has the following special functions. Required to be defined is only main. init and intr are optional.

  • init
  • main
  • intr

Just after the micro controller is powered, init special function is called. Then, main special function is called soon after init special function has returned. intr special function is called when an interruption occurs.

[PIC-Function] init

INIT

Optional. init is called soon after the micro controller is powered. It must have no arguments. Expected is that some initializing operations are done in init special function.

(defpic init ()
  (setbank1)
  (setreg :trisio #x08)   ; set pin 4 only to output mode
  (setbank0)
  (setreg :gpio #x00))    ; set GPIO to low

[PIC-Function] main

MAIN

Required. main is called next to init special function. It must have no arguments. Expected is that main operations are done in main special function. Often it ends with a recursive call to itself to make infinite loop.

(defpic main ()
  (do-main-operations)
  (main))                ; call itself to repeat the main operations

[PIC-Function] intr

INTR

Optional. intr is called when an interruption occurs. It must have no arguments. Expected is that some operations to accept interruptions are done in intr special function. It naturally returns with RETFIE instruction to the address where the interruption has occured.

(defpic intr ()
  (do-some-interruption-operations))

Design

Overview

The host language is a pretty small subset of ML-like language and the target language is 8-bit PIC micro controller assembly. Common Lisp is the compiler language. Overall design of the compiler is based on MinCaml.

Calling convention

The compiler uses the following 'pseudo-registers' allocated in a particular part in the data memory for function calling.

  • input pseudo-registers I0-I7
  • local pseudo-registers L0-L7

On calling a function, its parameters are stored to be passed in the input pseudo-registers. Return values are stored in W register. Functions can use the local pseudo-registers freely for themselves. To avoid destroying the values in a caller function's 'alive' local pseudo-registers, they are saved in the software stack before calling. After returning from the callee function, they are restored. Here 'alive' means the registers are used after returning from the callee function. About the software stack, see the next section.

Software stack

The compiler uses a software stack for saving the values in local pseudo-registers. The term 'software stack' means distinguishing it from the micro controller's hardware stack. It begins from the address STK upwords and the stack pointer is stored in the address SP. For pushing a content in W register on top of the stack, _PUSH_STACK assembler macro does the work. Conversely, _POP_STACK assembler macro pops back a value on top of the stack into W register. Currently, saving values in local pseudo-registers is the only usage of the software stack.

Why no closures?

To adopt closures, calling to indirect address is required. However 8-bit PIC assembly's CALL instruction accepts only immediates for its destination address. Although calling to indirect address is possible with writing an address directly into the program counter, it is accompanied by the following instricates:

  • managing not only PCL but PCLATH
  • calculating the return address
  • managing return address manually without the hardware stack
  • considering PCL carry out

Because of them, closures are not adopted for now.

Slide

See also

Author

Copyright

Copyright (c) 2015 Masayuki Takagi ([email protected])

License

Licensed under the MIT License.