📄 io_map.h
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/** ###################################################################
** THIS BEAN MODULE IS GENERATED BY THE TOOL. DO NOT MODIFY IT.
** Filename : IO_Map.H
** Project : le4
** Processor : MC9RS08LE4CPC
** Beantype : IO_Map
** Version : Driver 01.00
** Compiler : CodeWarrior RS08 C Compiler
** Date/Time : 20/1/2009, 14:18
** Abstract :
** IO_Map.h - implements an IO device's mapping.
** This module contains symbol definitions of all peripheral
** registers and bits.
** Settings :
**
** Contents :
** No public methods
**
** (c) Copyright UNIS, a.s. 1997-2008
** UNIS, a.s.
** Jundrovska 33
** 624 00 Brno
** Czech Republic
** http : www.processorexpert.com
** mail : info@processorexpert.com
** ###################################################################*/
#ifndef _IO_MAP_H
#define _IO_MAP_H
/* Based on CPU DB MC9RS08LE4_28, version 3.00.000 (RegistersPrg V2.24) */
/* DataSheet : MC9RS08LE4RM Rev. 0 Draft C 8/2008 */
#include <hidef.h>
#include "PE_Types.h"
#pragma MESSAGE DISABLE C1106 /* WARNING C1106: Non-standard bitfield type */
/*********************************************/
/* */
/* PE I/O map */
/* */
/*********************************************/
/**************** registers I/O map ****************/
/*** ADCSC1 - Status and Control Register 1; 0x00000010 ***/
typedef union {
byte Byte;
struct {
byte ADCH0 :1; /* Input Channel Select Bit 0 */
byte ADCH1 :1; /* Input Channel Select Bit 1 */
byte ADCH2 :1; /* Input Channel Select Bit 2 */
byte ADCH3 :1; /* Input Channel Select Bit 3 */
byte ADCH4 :1; /* Input Channel Select Bit 4 */
byte ADCO :1; /* Continuous Conversion Enable - ADCO is used to enable continuous conversions */
byte AIEN :1; /* Interrupt Enable - AIEN is used to enable conversion complete interrupts. When COCO becomes set while AIEN is high, an interrupt is asserted */
byte COCO :1; /* Conversion Complete Flag */
} Bits;
struct {
byte grpADCH :5;
byte :1;
byte :1;
byte :1;
} MergedBits;
} ADCSC1STR;
extern volatile ADCSC1STR _ADCSC1 @0x00000010;
#define ADCSC1 _ADCSC1.Byte
#define ADCSC1_ADCH0 _ADCSC1.Bits.ADCH0
#define ADCSC1_ADCH1 _ADCSC1.Bits.ADCH1
#define ADCSC1_ADCH2 _ADCSC1.Bits.ADCH2
#define ADCSC1_ADCH3 _ADCSC1.Bits.ADCH3
#define ADCSC1_ADCH4 _ADCSC1.Bits.ADCH4
#define ADCSC1_ADCO _ADCSC1.Bits.ADCO
#define ADCSC1_AIEN _ADCSC1.Bits.AIEN
#define ADCSC1_COCO _ADCSC1.Bits.COCO
#define ADCSC1_ADCH _ADCSC1.MergedBits.grpADCH
#define ADCSC1_ADCH0_MASK 0x01
#define ADCSC1_ADCH1_MASK 0x02
#define ADCSC1_ADCH2_MASK 0x04
#define ADCSC1_ADCH3_MASK 0x08
#define ADCSC1_ADCH4_MASK 0x10
#define ADCSC1_ADCO_MASK 0x20
#define ADCSC1_AIEN_MASK 0x40
#define ADCSC1_COCO_MASK 0x80
#define ADCSC1_ADCH_MASK 0x1F
#define ADCSC1_ADCH_BITNUM 0x00
/*** ADCSC2 - Status and Control Register 2; 0x00000011 ***/
typedef union {
byte Byte;
struct {
byte :1;
byte :1;
byte :1;
byte :1;
byte ACFGT :1; /* Compare Function Greater Than Enable */
byte ACFE :1; /* Compare Function Enable - ACFE is used to enable the compare function */
byte ADTRG :1; /* Conversion Trigger Select-ADTRG is used to select the type of trigger to be used for initiating a conversion */
byte ADACT :1; /* Conversion Active - ADACT indicates that a conversion is in progress. ADACT is set when a conversion is initiated and cleared when a conversion is completed or aborted */
} Bits;
} ADCSC2STR;
extern volatile ADCSC2STR _ADCSC2 @0x00000011;
#define ADCSC2 _ADCSC2.Byte
#define ADCSC2_ACFGT _ADCSC2.Bits.ACFGT
#define ADCSC2_ACFE _ADCSC2.Bits.ACFE
#define ADCSC2_ADTRG _ADCSC2.Bits.ADTRG
#define ADCSC2_ADACT _ADCSC2.Bits.ADACT
#define ADCSC2_ACFGT_MASK 0x10
#define ADCSC2_ACFE_MASK 0x20
#define ADCSC2_ADTRG_MASK 0x40
#define ADCSC2_ADACT_MASK 0x80
/*** ADCR - Data Result Register; 0x00000012 ***/
typedef union {
word Word;
/* Overlapped registers: */
struct {
/*** ADCRH - Data Result High Register; 0x00000012 ***/
union {
byte Byte;
struct {
byte ADR8 :1; /* ADC Result Data Bit 8 */
byte ADR9 :1; /* ADC Result Data Bit 9 */
byte :1;
byte :1;
byte :1;
byte :1;
byte :1;
byte :1;
} Bits;
struct {
byte grpADR_8 :2;
byte :1;
byte :1;
byte :1;
byte :1;
byte :1;
byte :1;
} MergedBits;
} ADCRHSTR;
#define ADCRH _ADCR.Overlap_STR.ADCRHSTR.Byte
#define ADCRH_ADR8 _ADCR.Overlap_STR.ADCRHSTR.Bits.ADR8
#define ADCRH_ADR9 _ADCR.Overlap_STR.ADCRHSTR.Bits.ADR9
#define ADCRH_ADR_8 _ADCR.Overlap_STR.ADCRHSTR.MergedBits.grpADR_8
#define ADCRH_ADR ADCRH_ADR_8
#define ADCRH_ADR8_MASK 0x01
#define ADCRH_ADR9_MASK 0x02
#define ADCRH_ADR_8_MASK 0x03
#define ADCRH_ADR_8_BITNUM 0x00
/*** ADCRL - Data Result Low Register; 0x00000013 ***/
union {
byte Byte;
struct {
byte ADR0 :1; /* ADC Result Data Bit 0 */
byte ADR1 :1; /* ADC Result Data Bit 1 */
byte ADR2 :1; /* ADC Result Data Bit 2 */
byte ADR3 :1; /* ADC Result Data Bit 3 */
byte ADR4 :1; /* ADC Result Data Bit 4 */
byte ADR5 :1; /* ADC Result Data Bit 5 */
byte ADR6 :1; /* ADC Result Data Bit 6 */
byte ADR7 :1; /* ADC Result Data Bit 7 */
} Bits;
} ADCRLSTR;
#define ADCRL _ADCR.Overlap_STR.ADCRLSTR.Byte
#define ADCRL_ADR0 _ADCR.Overlap_STR.ADCRLSTR.Bits.ADR0
#define ADCRL_ADR1 _ADCR.Overlap_STR.ADCRLSTR.Bits.ADR1
#define ADCRL_ADR2 _ADCR.Overlap_STR.ADCRLSTR.Bits.ADR2
#define ADCRL_ADR3 _ADCR.Overlap_STR.ADCRLSTR.Bits.ADR3
#define ADCRL_ADR4 _ADCR.Overlap_STR.ADCRLSTR.Bits.ADR4
#define ADCRL_ADR5 _ADCR.Overlap_STR.ADCRLSTR.Bits.ADR5
#define ADCRL_ADR6 _ADCR.Overlap_STR.ADCRLSTR.Bits.ADR6
#define ADCRL_ADR7 _ADCR.Overlap_STR.ADCRLSTR.Bits.ADR7
#define ADCRL_ADR0_MASK 0x01
#define ADCRL_ADR1_MASK 0x02
#define ADCRL_ADR2_MASK 0x04
#define ADCRL_ADR3_MASK 0x08
#define ADCRL_ADR4_MASK 0x10
#define ADCRL_ADR5_MASK 0x20
#define ADCRL_ADR6_MASK 0x40
#define ADCRL_ADR7_MASK 0x80
} Overlap_STR;
} ADCRSTR;
extern volatile ADCRSTR _ADCR @0x00000012;
#define ADCR _ADCR.Word
/*** ADCCV - Compare Value Register; 0x00000014 ***/
typedef union {
word Word;
/* Overlapped registers: */
struct {
/*** ADCCVH - Compare Value High Register; 0x00000014 ***/
union {
byte Byte;
struct {
byte ADCV8 :1; /* Compare Function Value 8 */
byte ADCV9 :1; /* Compare Function Value 9 */
byte :1;
byte :1;
byte :1;
byte :1;
byte :1;
byte :1;
} Bits;
struct {
byte grpADCV_8 :2;
byte :1;
byte :1;
byte :1;
byte :1;
byte :1;
byte :1;
} MergedBits;
} ADCCVHSTR;
#define ADCCVH _ADCCV.Overlap_STR.ADCCVHSTR.Byte
#define ADCCVH_ADCV8 _ADCCV.Overlap_STR.ADCCVHSTR.Bits.ADCV8
#define ADCCVH_ADCV9 _ADCCV.Overlap_STR.ADCCVHSTR.Bits.ADCV9
#define ADCCVH_ADCV_8 _ADCCV.Overlap_STR.ADCCVHSTR.MergedBits.grpADCV_8
#define ADCCVH_ADCV ADCCVH_ADCV_8
#define ADCCVH_ADCV8_MASK 0x01
#define ADCCVH_ADCV9_MASK 0x02
#define ADCCVH_ADCV_8_MASK 0x03
#define ADCCVH_ADCV_8_BITNUM 0x00
/*** ADCCVL - Compare Value Low Register; 0x00000015 ***/
union {
byte Byte;
struct {
byte ADCV0 :1; /* Compare Function Value 0 */
byte ADCV1 :1; /* Compare Function Value 1 */
byte ADCV2 :1; /* Compare Function Value 2 */
byte ADCV3 :1; /* Compare Function Value 3 */
byte ADCV4 :1; /* Compare Function Value 4 */
byte ADCV5 :1; /* Compare Function Value 5 */
byte ADCV6 :1; /* Compare Function Value 6 */
byte ADCV7 :1; /* Compare Function Value 7 */
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