please dont rip this site

PIC JAL Routine

For access to PIC peripherals

by Wouter van Ooijen, extended to  further support '877 by  Vasile Surducan

-- --------------------------------------------------------------------
-- file      : jpicm.jal
-- author    : Wouter van Ooijen
-- date      : 02-APR-2000
-- purpose   : access to PIC peripherals
-- requires  : -
--
-- Copyright (C) 1998, 2000 Wouter van Ooijen
--
-- This library is free software; you can redistribute it and/or
-- modify it under the terms of the GNU Library General Public
-- License as published by the Free Software Foundation; either
-- version 2 of the License, or (at your option) any later version.
--
-- This library is distributed in the hope that it will be useful,
-- but WITHOUT ANY WARRANTY; without even the implied warranty of
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
-- Library General Public License for more details.
--
-- You should have received a copy of the GNU Library General Public
-- License along with this library; if not, write to the
-- Free Software Foundation, Inc., 59 Temple Place - Suite 330,
-- Boston, MA  02111-1307, USA.
--
-- after june 2000 adapted by V.Surducan for more 877
-- 02-APR-2000 adapted for 12c509a and 16F877
-- 17-DEC-1998 ???
-- --------------------------------------------------------------------


-- --------------------------------------------------------------------
-- some special function registers and bits within these registers
-- --------------------------------------------------------------------

var volatile byte indf         at  0
var volatile byte tmr0         at  1
var volatile byte pcl          at  2
var volatile byte status       at  3
var volatile byte fsr          at  4
var volatile byte port_a       at  5
var volatile byte port_b       at  6
var volatile byte port_c       at  7
var volatile byte port_d       at  8
var volatile byte port_e       at  9
var volatile byte x84_eedata   at  8
var volatile byte x84_eeadr    at  9
var volatile byte pclath       at 10
var volatile byte intcon       at 11

var volatile byte f877_t2con   at 0x12
var volatile byte f877_ccpr1l  at 0x15
var volatile byte f877_ccpr1h  at 0x16
var volatile byte f877_ccp1con at 0x17

var volatile byte f877_adcon1  at 0x9F
var volatile byte f877_adcon0  at 0x1F
var volatile byte f877_pr2     at 0x92
var volatile byte f877_adresl  at 0x9E
var volatile byte f877_adresh  at 0x1E

var volatile byte f877_eeadr   at 0x10D
var volatile byte f877_eedath  at 0x10E
var volatile byte f877_eeadrh  at 0x10F
var volatile byte f877_eedata  at 0x10C

var volatile byte f877_eecon1  at 0x18C
var volatile byte f877_eecon2  at 0x18D

-- pseudo-variable in bank 1
var volatile byte option

var volatile bit  pin_a0 at port_a : 0
var volatile bit  pin_a1 at port_a : 1
var volatile bit  pin_a2 at port_a : 2
var volatile bit  pin_a3 at port_a : 3
var volatile bit  pin_a4 at port_a : 4
var volatile bit  pin_a5 at port_a : 5

var volatile bit  pin_b0 at port_b : 0
var volatile bit  pin_b1 at port_b : 1
var volatile bit  pin_b2 at port_b : 2
var volatile bit  pin_b3 at port_b : 3
var volatile bit  pin_b4 at port_b : 4
var volatile bit  pin_b5 at port_b : 5
var volatile bit  pin_b6 at port_b : 6
var volatile bit  pin_b7 at port_b : 7

var volatile bit  pin_c0 at port_c : 0
var volatile bit  pin_c1 at port_c : 1
var volatile bit  pin_c2 at port_c : 2
var volatile bit  pin_c3 at port_c : 3
var volatile bit  pin_c4 at port_c : 4
var volatile bit  pin_c5 at port_c : 5
var volatile bit  pin_c6 at port_c : 6
var volatile bit  pin_c7 at port_c : 7

var volatile bit  pin_d0 at port_d : 0
var volatile bit  pin_d1 at port_d : 1
var volatile bit  pin_d2 at port_d : 2
var volatile bit  pin_d3 at port_d : 3
var volatile bit  pin_d4 at port_d : 4
var volatile bit  pin_d5 at port_d : 5
var volatile bit  pin_d6 at port_d : 6
var volatile bit  pin_d7 at port_d : 7

var volatile bit  pin_e0 at port_e : 0
var volatile bit  pin_e1 at port_e : 1
var volatile bit  pin_e2 at port_e : 2

var volatile bit  status_c    at status : 0
var volatile bit  status_dc   at status : 1
var volatile bit  status_z    at status : 2
var volatile bit  status_pd   at status : 3
var volatile bit  status_to   at status : 4
var volatile bit  status_rp0  at status : 5
var volatile bit  status_rp1  at status : 6
var volatile bit  status_irp  at status : 7

var volatile bit  intcon_gie  at intcon : 7
var volatile bit  intcon_eeie at intcon : 6
var volatile bit  intcon_peie at intcon : 6
var volatile bit  intcon_t0ie at intcon : 5
var volatile bit  intcon_inte at intcon : 4
var volatile bit  intcon_rbie at intcon : 3
var volatile bit  intcon_t0if at intcon : 2
var volatile bit  intcon_intf at intcon : 1
var volatile bit  intcon_rbif at intcon : 0

var volatile bit  ccp1x at f877_ccp1con : 5
var volatile bit  ccp1y at f877_ccp1con : 4

var volatile bit  adcon0_go     at f877_adcon0 : 2
var volatile bit  adcon0_ch0    at f877_adcon0 : 3
var volatile bit  adcon0_ch1    at f877_adcon0 : 4
var volatile bit  adcon0_ch2    at f877_adcon0 : 5
var volatile bit  eecon1_rd     at f877_eecon1 : 0
var volatile bit  eecon1_wr     at f877_eecon1 : 1
var volatile bit  eecon1_wren   at f877_eecon1 : 2
var volatile bit  eecon1_wrerr  at f877_eecon1 : 3
var volatile bit  eecon1_eepgd  at f877_eecon1 : 7

-- --------------------------------------------------------------------
-- register bank selection
-- --------------------------------------------------------------------

procedure bank_0 is
   if( target_chip == pic_16f877 ) then
      asm bcf status, 5
      asm bcf status, 6
   end if
   asm bank 0
end procedure

procedure bank_1 is
   if( target_chip == pic_16f877 ) then
      asm bsf status, 5
      asm bcf status, 6
   end if
   asm bank 1
end procedure

procedure bank_2 is
   if( target_chip == pic_16f877 ) then
      asm bcf status, 5
      asm bsf status, 6
   end if
   asm bank 2
end procedure

procedure bank_3 is
   if( target_chip == pic_16f877 ) then
      asm bsf status, 5
      asm bsf status, 6
   end if
   asm bank 3
end procedure

procedure bank_4 is
   asm bank 4
end procedure

procedure bank_5 is
   asm bank 5
end procedure

procedure bank_6 is
   asm bank 6
end procedure

procedure bank_7 is
   asm bank 7
end procedure

-- --------------------------------------------------------------------
-- option put and get
-- --------------------------------------------------------------------

procedure option'put( byte in x ) is
   assembler
      bank  movfw x
            option
   end assembler
end procedure

function option'get return byte is
   var byte x
   asm bank movfw 0x81
   if( target_chip == pic_16f877 ) then bank_1 end if
   asm bank  movwf x
   if( target_chip == pic_16f877 ) then bank_0 end if
   return x
end function

-- --------------------------------------------------------------------
-- port and pin direction
-- --------------------------------------------------------------------

const bit input           = on
const bit output          = off
const byte all_input      = 0b_1111_1111
const byte all_output     = 0b_0000_0000

-- shadows of the actual tris values
var byte trisa
var byte trisb
var byte trisc
var byte trisd
var byte trise

-- Bring the applicable trisX values in accordance
-- with the power-on hardware defaults.
trisa = all_input
if target_cpu != pic_12 then
   trisb = all_input
end if
if target_chip == pic_16f877 | target_cpu == sx_12 then
   trisc = all_input
end if
if target_chip == pic_16f877 then
   trisd = all_input
   trise = 0x0F -- high nibble has other functions!
end if

procedure _trisa_flush is
   assembler
      bank movfw trisa
           tris  5
   end assembler
end procedure

procedure _trisb_flush is
   assembler
      bank movfw trisb
           tris  6
   end assembler
end procedure

procedure _trisc_flush is
   assembler
      bank movfw trisc
           tris  7
   end assembler
end procedure

procedure _trisd_flush is
   asm movfw trisd
   bank_1
   asm movwf 0x8
   bank_0
end procedure

procedure _trise_flush is
   asm movfw trise
   bank_1
   asm movwf 0x9
   bank_0
end procedure

var byte port_a_direction at trisa
procedure port_a_direction'put( byte in x at trisa ) is
   _trisa_flush
end procedure

var byte port_b_direction at trisb
procedure port_b_direction'put( byte in x at trisb ) is
   _trisb_flush
end procedure

var byte port_c_direction at trisc
procedure port_c_direction'put( byte in x at trisc ) is
   _trisc_flush
end procedure

var byte port_d_direction at trisd
procedure port_d_direction'put( byte in x at trisd ) is
   _trisd_flush
end procedure

var byte port_e_direction at trise
procedure port_e_direction'put( byte in x ) is
   var byte c at trise = ( trise & 0xF0 ) | ( x & 0x0F )
   _trise_flush
end procedure

var bit pin_a0_direction at trisa : 0
var bit pin_a1_direction at trisa : 1
var bit pin_a2_direction at trisa : 2
var bit pin_a3_direction at trisa : 3
var bit pin_a4_direction at trisa : 4
var bit pin_a5_direction at trisa : 5

procedure pin_a0_direction'put( bit in d at trisa : 0 ) is
   _trisa_flush
end procedure
procedure pin_a1_direction'put( bit in d at trisa : 1 ) is
   _trisa_flush
end procedure
procedure pin_a2_direction'put( bit in d at trisa : 2 ) is
   _trisa_flush
end procedure
procedure pin_a3_direction'put( bit in d at trisa : 3 ) is
   _trisa_flush
end procedure
procedure pin_a4_direction'put( bit in d at trisa : 4 ) is
   _trisa_flush
end procedure

var bit pin_b0_direction at trisb : 0
var bit pin_b1_direction at trisb : 1
var bit pin_b2_direction at trisb : 2
var bit pin_b3_direction at trisb : 3
var bit pin_b4_direction at trisb : 4
var bit pin_b5_direction at trisb : 5
var bit pin_b6_direction at trisb : 6
var bit pin_b7_direction at trisb : 7

procedure pin_b0_direction'put( bit in d at trisb : 0 ) is
   _trisb_flush
end procedure
procedure pin_b1_direction'put( bit in d at trisb : 1 ) is
   _trisb_flush
end procedure
procedure pin_b2_direction'put( bit in d at trisb : 2 ) is
   _trisb_flush
end procedure
procedure pin_b3_direction'put( bit in d at trisb : 3 ) is
   _trisb_flush
end procedure
procedure pin_b4_direction'put( bit in d at trisb : 4 ) is
   _trisb_flush
end procedure
procedure pin_b5_direction'put( bit in d at trisb : 5 ) is
   _trisb_flush
end procedure
procedure pin_b6_direction'put( bit in d at trisb : 6 ) is
   _trisb_flush
end procedure
procedure pin_b7_direction'put( bit in d at trisb : 7 ) is
   _trisb_flush
end procedure

var bit pin_c0_direction at trisc : 0
var bit pin_c1_direction at trisc : 1
var bit pin_c2_direction at trisc : 2
var bit pin_c3_direction at trisc : 3
var bit pin_c4_direction at trisc : 4
var bit pin_c5_direction at trisc : 5
var bit pin_c6_direction at trisc : 6
var bit pin_c7_direction at trisc : 7

procedure pin_c0_direction'put( bit in d at trisc : 0 ) is
   _trisc_flush
end procedure
procedure pin_c1_direction'put( bit in d at trisc : 1 ) is
   _trisc_flush
end procedure
procedure pin_c2_direction'put( bit in d at trisc : 2 ) is
   _trisc_flush
end procedure
procedure pin_c3_direction'put( bit in d at trisc : 3 ) is
   _trisc_flush
end procedure
procedure pin_c4_direction'put( bit in d at trisc : 4 ) is
   _trisc_flush
end procedure
procedure pin_c5_direction'put( bit in d at trisc : 5 ) is
   _trisc_flush
end procedure
procedure pin_c6_direction'put( bit in d at trisc : 6 ) is
   _trisc_flush
end procedure
procedure pin_c7_direction'put( bit in d at trisc : 7 ) is
   _trisc_flush
end procedure

var bit pin_d0_direction at trisd : 0
var bit pin_d1_direction at trisd : 1
var bit pin_d2_direction at trisd : 2
var bit pin_d3_direction at trisd : 3
var bit pin_d4_direction at trisd : 4
var bit pin_d5_direction at trisd : 5
var bit pin_d6_direction at trisd : 6
var bit pin_d7_direction at trisd : 7

procedure pin_d0_direction'put( bit in d at trisd : 0 ) is
   _trisd_flush
end procedure
procedure pin_d1_direction'put( bit in d at trisd : 1 ) is
   _trisd_flush
end procedure
procedure pin_d2_direction'put( bit in d at trisd : 2 ) is
   _trisd_flush
end procedure
procedure pin_d3_direction'put( bit in d at trisd : 3 ) is
   _trisd_flush
end procedure
procedure pin_d4_direction'put( bit in d at trisd : 4 ) is
   _trisd_flush
end procedure
procedure pin_d5_direction'put( bit in d at trisd : 5 ) is
   _trisd_flush
end procedure
procedure pin_d6_direction'put( bit in d at trisd : 6 ) is
   _trisd_flush
end procedure
procedure pin_d7_direction'put( bit in d at trisd : 7 ) is
   _trisd_flush
end procedure

var bit pin_e0_direction at trisc : 0
var bit pin_e1_direction at trisc : 1
var bit pin_e2_direction at trisc : 2

procedure pin_e0_direction'put( bit in d at trise : 0 ) is
   _trise_flush
end procedure
procedure pin_e1_direction'put( bit in d at trise : 1 ) is
   _trise_flush
end procedure
procedure pin_e2_direction'put( bit in d at trise : 2 ) is
   _trise_flush
end procedure

procedure port_a_low_direction'put( byte in d ) is
   var byte a at trisa = ( trisa & 0xF0 ) | ( d & 0x0F )
   _trisa_flush
end procedure
procedure port_a_high_direction'put( byte in d ) is
   var byte a at trisa = ( trisa & 0x0F ) | ( ( d & 0x0F ) << 4 )
   _trisa_flush
end procedure

procedure port_b_low_direction'put( byte in d ) is
   var byte b at trisb = ( trisb & 0xF0 ) | ( d & 0x0F )
   _trisb_flush
end procedure
procedure port_b_high_direction'put( byte in d ) is
   var byte b at trisb  = ( trisb & 0x0F ) | ( ( d & 0x0F ) << 4 )
   _trisb_flush
end procedure

procedure port_c_low_direction'put( byte in d ) is
   var byte c at trisc = ( trisc & 0xF0 ) | ( d & 0x0F )
   _trisc_flush
end procedure
procedure port_c_high_direction'put( byte in d ) is
   var byte c at trisc = ( trisc & 0x0F ) | ( ( d & 0x0F ) << 4 )
   _trisc_flush
end procedure

procedure port_d_low_direction'put( byte in d ) is
   var byte c at trisd = ( trisd & 0xF0 ) | ( d & 0x0F )
   _trisd_flush
end procedure
procedure port_d_high_direction'put( byte in d ) is
   var byte c at trisd = ( trisd & 0x0F ) | ( ( d & 0x0F ) << 4 )
   _trisd_flush
end procedure

procedure port_e_low_direction'put( byte in d ) is
   var byte c at trise = ( trise & 0xF0 ) | ( d & 0x0F )
   _trise_flush
end procedure

function port_a_low_direction'get return byte is
   var byte a at trisa
   return a & 0x0F
end function
function port_a_high_direction'get return byte is
   var byte a at trisa
   return a >> 4
end function

function port_b_low_direction'get return byte is
   var byte b at trisb
   return b & 0x0F
end function
function port_b_high_direction'get return byte is
   var byte b at trisb
   return b >> 4
end function

function port_c_low_direction'get return byte is
   var byte b at trisc
   return b & 0x0F
end function
function port_c_high_direction'get return byte is
   var byte b at trisc
   return b >> 4
end function

function port_d_low_direction'get return byte is
   var byte b at trisd
   return b & 0x0F
end function
function port_d_high_direction'get return byte is
   var byte b at trisd
   return b >> 4
end function

function port_e_low_direction'get return byte is
   var byte b at trise
   return b & 0x0F
end function

-- port and pin value

var byte _port_a_buffer
var byte _port_b_buffer
var byte _port_c_buffer
var byte _port_d_buffer
var byte _port_e_buffer

procedure _port_a_flush is
   var volatile byte port_a at 5 = _port_a_buffer
end procedure
procedure _port_b_flush is
   var volatile byte port_b at 6 = _port_b_buffer
end procedure
procedure _port_c_flush is
   var volatile byte port_c at 7 = _port_c_buffer
end procedure
procedure _port_d_flush is
   var volatile byte port_d at 8 = _port_d_buffer
end procedure
procedure _port_e_flush is
   var volatile byte port_e at 9 = _port_e_buffer
end procedure

procedure port_a'put( byte in x at _port_a_buffer ) is
   _port_a_flush
end procedure
procedure port_b'put( byte in x at _port_b_buffer ) is
   _port_b_flush
end procedure
procedure port_c'put( byte in x at _port_c_buffer ) is
   _port_c_flush
end procedure
procedure port_d'put( byte in x at _port_d_buffer ) is
   _port_d_flush
end procedure
procedure port_e'put( byte in x at _port_e_buffer ) is
   _port_e_flush
end procedure

procedure port_a_low'put( byte in x ) is
   _port_a_buffer = ( _port_a_buffer  & 0xF0 ) | ( x & 0x0F )
   _port_a_flush
end procedure
function port_a_low'get return byte is
   return _port_a_buffer & 0x0F
end function

procedure port_b_low'put( byte in x ) is
   _port_b_buffer = ( _port_b_buffer  & 0xF0 ) | ( x & 0x0F )
   _port_b_flush
end procedure
function port_b_low'get return byte is
   return _port_b_buffer & 0x0F
end function

procedure port_b_high'put( byte in x ) is
   _port_b_buffer = ( _port_b_buffer & 0x0F ) | ( x << 4 )
   _port_b_flush
end procedure
function port_b_high'get return byte is
   return _port_b_buffer >> 4
end function

procedure port_c_low'put( byte in x ) is
   _port_c_buffer = ( _port_c_buffer  & 0xF0 ) | ( x & 0x0F )
   _port_c_flush
end procedure
function port_c_low'get return byte is
   return _port_c_buffer & 0x0F
end function

procedure port_c_high'put( byte in x ) is
   _port_c_buffer = ( _port_c_buffer & 0x0F ) | ( x << 4 )
   _port_c_flush
end procedure
function port_c_high'get return byte is
   return _port_c_buffer >> 4
end function

procedure port_d_low'put( byte in x ) is
   _port_d_buffer = ( _port_d_buffer  & 0xF0 ) | ( x & 0x0F )
   _port_d_flush
end procedure
function port_d_low'get return byte is
   return _port_d_buffer & 0x0F
end function

procedure port_d_high'put( byte in x ) is
   _port_d_buffer = ( _port_d_buffer & 0x0F ) | ( x << 4 )
   _port_d_flush
end procedure
function port_d_high'get return byte is
   return _port_d_buffer >> 4
end function

procedure port_e_low'put( byte in x ) is
   _port_e_buffer = ( _port_e_buffer  & 0xF0 ) | ( x & 0x0F )
   _port_e_flush
end procedure
function port_e_low'get return byte is
   return _port_e_buffer & 0x0F
end function

procedure pin_a0'put( bit in x at _port_a_buffer : 0 ) is
   _port_a_flush
end procedure
procedure pin_a1'put( bit in x at _port_a_buffer : 1 ) is
   _port_a_flush
end procedure
procedure pin_a2'put( bit in x at _port_a_buffer : 2 ) is
   _port_a_flush
end procedure
procedure pin_a3'put( bit in x at _port_a_buffer : 3 ) is
   _port_a_flush
end procedure
procedure pin_a4'put( bit in x at _port_a_buffer : 4 ) is
   _port_a_flush
end procedure
procedure pin_a5'put( bit in x at _port_a_buffer : 5 ) is
   _port_a_flush
end procedure

procedure pin_b0'put( bit in x at _port_b_buffer : 0 ) is
   _port_b_flush
end procedure
procedure pin_b1'put( bit in x at _port_b_buffer : 1 ) is
   _port_b_flush
end procedure
procedure pin_b2'put( bit in x at _port_b_buffer : 2 ) is
   _port_b_flush
end procedure
procedure pin_b3'put( bit in x at _port_b_buffer : 3 ) is
  _port_b_flush
end procedure
procedure pin_b4'put( bit in x at _port_b_buffer : 4 ) is
   _port_b_flush
end procedure
procedure pin_b5'put( bit in x at _port_b_buffer : 5 ) is
   _port_b_flush
end procedure
procedure pin_b6'put( bit in x at _port_b_buffer : 6 ) is
   _port_b_flush
end procedure
procedure pin_b7'put( bit in x at _port_b_buffer : 7 ) is
   _port_b_flush
end procedure

procedure pin_c0'put( bit in x at _port_c_buffer : 0 ) is
   _port_c_flush
end procedure
procedure pin_c1'put( bit in x at _port_c_buffer : 1 ) is
   _port_c_flush
end procedure
procedure pin_c2'put( bit in x at _port_c_buffer : 2 ) is
   _port_c_flush
end procedure
procedure pin_c3'put( bit in x at _port_c_buffer : 3 ) is
   _port_c_flush
end procedure
procedure pin_c4'put( bit in x at _port_c_buffer : 4 ) is
   _port_c_flush
end procedure
procedure pin_c5'put( bit in x at _port_c_buffer : 5 ) is
   _port_c_flush
end procedure
procedure pin_c6'put( bit in x at _port_c_buffer : 6 ) is
   _port_c_flush
end procedure
procedure pin_c7'put( bit in x at _port_c_buffer : 7 ) is
   _port_c_flush
end procedure

procedure pin_d0'put( bit in x at _port_d_buffer : 0 ) is
   _port_d_flush
end procedure
procedure pin_d1'put( bit in x at _port_d_buffer : 1 ) is
   _port_d_flush
end procedure
procedure pin_d2'put( bit in x at _port_d_buffer : 2 ) is
   _port_d_flush
end procedure
procedure pin_d3'put( bit in x at _port_d_buffer : 3 ) is
   _port_d_flush
end procedure
procedure pin_d4'put( bit in x at _port_d_buffer : 4 ) is
   _port_d_flush
end procedure
procedure pin_d5'put( bit in x at _port_d_buffer : 5 ) is
   _port_d_flush
end procedure
procedure pin_d6'put( bit in x at _port_d_buffer : 6 ) is
   _port_d_flush
end procedure
procedure pin_d7'put( bit in x at _port_d_buffer : 7 ) is
   _port_d_flush
end procedure

procedure pin_e0'put( bit in x at _port_e_buffer : 0 ) is
   _port_e_flush
end procedure
procedure pin_e1'put( bit in x at _port_e_buffer : 1 ) is
   _port_e_flush
end procedure
procedure pin_e2'put( bit in x at _port_e_buffer : 2 ) is
   _port_e_flush
end procedure


-- --------------------------------------------------------------------
-- indirect access to the file registers
-- --------------------------------------------------------------------

procedure file_get( byte in a, byte out d ) is begin
   if target_cpu != pic_14 then
      pragma error -- not implemented yet
   end if
   fsr = a
   d   = indf
end procedure

procedure file_put( byte in a, byte in d ) is begin
   if target_cpu != pic_14 then
      pragma error -- not implemented yet
   end if
   fsr  = a
   indf = d
end procedure


-- --------------------------------------------------------------------
-- (indirect) access to the eeprom
-- original versions corrected by AxelK
-- --------------------------------------------------------------------

procedure eeprom_get( byte in a, byte out d ) is

   if ( target_chip == pic_16c84 ) | ( target_chip == pic_16f84 ) then

      var volatile bit ee_read at 8 : 0

      x84_eeadr        = a
      status_rp0       = on          -- select page 1
      ee_read          = on          -- set read bit in EECON1
      status_rp0       = off         -- back to page 0
      d                = x84_eedata  -- the actual data from eeprom

   elsif target_chip == pic_16f877 then

      f877_eeadr   = a

      -- 16F877 datasheet p45
      assembler
         bank bcf eecon1_eepgd
              bsf eecon1_rd
      end assembler

      a            = f877_eedata

   else
      pragma error -- eeprom not available
   end if
end procedure

procedure eeprom_put( byte in a, byte in d ) is

   if ( target_chip == pic_16c84 ) | ( target_chip == pic_16f84 ) then

      var volatile bit ee_write        at 8 : 1
      var volatile bit ee_write_enable at 8 : 2

      -- preparation
      x84_eeadr        = a
      x84_eedata       = d

      status_rp0       = on      -- select page 1
      ee_write_enable  = on
      x84_eeadr        = 0x55    -- to EECON2
      x84_eeadr        = 0xAA    -- to EECON2
      ee_write         = on

      -- wait for completion
      while ee_write loop end loop

      ee_write_enable = off      -- disable writing to prevent accidental writes
      status_rp0      = off      -- back to page 0

   elsif target_chip == pic_16f877 then

      f877_eeadr   = a
      f877_eedata  = d

      -- 16F877 datasheet p45
      assembler
         bank bcf eecon1_eepgd
         bank bsf eecon1_wren
         bank bcf intcon_gie
              movlw 0x55
         bank movwf f877_eecon2
              movlw 0xAA
         bank movwf f877_eecon2
         bank bsf eecon1_wr
         bank bsf intcon_gie
              sleep
         bank bcf eecon1_wren
      end assembler

   else
      pragma error -- eeprom not available
   end if
end procedure

-- --------------------------------------------------------------------
-- (indirect) access to the code flash
-- --------------------------------------------------------------------

procedure flash_get(
   byte in  al,
   byte in  ah,
   byte out dl,
   byte out dh
) is
   if ( target_chip != pic_16f877 ) then
      pragma error -- flash read/write not available
   end if

   f877_eeadrh = ah
   f877_eeadr  = al

   -- 16F877 datasheet p44
   assembler
      bank bsf status_rp0
      bank bsf status_rp1
      bank bsf eecon1_eepgd
      bank bsf eecon1_rd
           nop
           nop
   end assembler

   dl = f877_eedata
   dh = f877_eedath

end procedure

procedure flash_put(
   byte in al,
   byte in ah,
   byte in dl,
   byte in dh
) is
   if ( target_chip != pic_16f877 ) then
      pragma error -- flash read/write not available
   end if

   f877_eeadrh = ah
   f877_eeadr  = al
   dl = f877_eedata
   dh = f877_eedath

   -- 16F877 datasheet p45
   assembler
      bank bsf status_rp0
      bank bsf status_rp1
      bank bsf eecon1_eepgd
      bank bsf eecon1_wren
      bank bcf intcon_gie
           movlw 0x55
      bank movwf f877_eecon2
           movlw 0xAA
      bank movwf f877_eecon2
      bank bsf eecon1_wr
           nop
           nop
      bank bsf intcon_gie
      bank bcf eecon1_wren
   end assembler

end procedure

-- --------------------------------------------------------------------
-- pic special functions
-- --------------------------------------------------------------------

procedure sleep is
   asm sleep
end procedure

procedure clear_watchdog is
   asm clrwdt
end procedure

procedure swap_nibbles( byte in out x ) is
   asm bank swapf x, f
end procedure

-- disable the f877 A/D to be able to use port a as input
procedure disable_a_d_functions is
 bank_1
 asm movlw 7
 asm movwf 0x1F
 bank_0
end procedure

Questions:


file: /Techref/piclist/jal/jpicm.htm, 26KB, , updated: 2008/2/22 17:06, local time: 2024/11/17 10:30,
TOP NEW HELP FIND: 
3.144.23.143:LOG IN

 ©2024 These pages are served without commercial sponsorship. (No popup ads, etc...).Bandwidth abuse increases hosting cost forcing sponsorship or shutdown. This server aggressively defends against automated copying for any reason including offline viewing, duplication, etc... Please respect this requirement and DO NOT RIP THIS SITE. Questions?
Please DO link to this page! Digg it! / MAKE!

<A HREF="http://massmind.ecomorder.com/techref/piclist/jal/jpicm.htm"> PIC JAL Routine </A>

After you find an appropriate page, you are invited to your to this massmind site! (posts will be visible only to you before review) Just type a nice message (short messages are blocked as spam) in the box and press the Post button. (HTML welcomed, but not the <A tag: Instead, use the link box to link to another page. A tutorial is available Members can login to post directly, become page editors, and be credited for their posts.


Link? Put it here: 
if you want a response, please enter your email address: 
Attn spammers: All posts are reviewed before being made visible to anyone other than the poster.
Did you find what you needed?

 

Welcome to ecomorder.com!

 

Welcome to massmind.ecomorder.com!

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

  .