/usr/include/gpsim/16bit-registers.h is in gpsim-dev 0.29.0-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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Copyright (C) 1998 T. Scott Dattalo
This file is part of the libgpsim library of gpsim
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 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
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, see
<http://www.gnu.org/licenses/lgpl-2.1.html>.
*/
#include <iostream>
#include <stdio.h>
class InvalidRegister; // Forward reference
#ifndef __16_BIT_REGISTERS_H__
#define __16_BIT_REGISTERS_H__
#include "pic-processor.h"
#include "14bit-registers.h"
#include "14bit-tmrs.h"
#include "pir.h"
#include "uart.h"
#include "a2dconverter.h"
#include "ssp.h"
#include "rcon.h"
#include "eeprom.h"
#define _16BIT_REGISTER_MASK 0xfff
class _16bit_processor;
class stimulus; // forward reference
class IOPIN;
class source_stimulus;
class Stimulus_Node;
class PORTB;
//---------------------------------------------------------
//
// Indirect_Addressing
//
// This class coordinates the indirect addressing on the 18cxxx
// parts. Each of the registers comprising the indirect addressing
// subsystem: FSRnL,FSRnH, INDFn, POSTINCn, POSTDECn, PREINCn, and
// PLUSWn are each individually defined as sfr_registers AND included
// in the Indirect_Addressing class. So accessing these registers
// is the same as accessing any register: through the core cpu's
// register memory. The only difference for these registers is that
// the
class Indirect_Addressing; // Forward reference
//---------------------------------------------------------
// FSR registers
class FSRL : public sfr_register
{
public:
FSRL(Processor *, const char *pName, const char *pDesc, Indirect_Addressing *pIAM);
void put(unsigned int new_value);
void put_value(unsigned int new_value);
protected:
Indirect_Addressing *iam;
};
class FSRH : public sfr_register
{
public:
FSRH(Processor *, const char *pName, const char *pDesc, Indirect_Addressing *pIAM);
void put(unsigned int new_value);
void put_value(unsigned int new_value);
protected:
Indirect_Addressing *iam;
};
class INDF16 : public sfr_register
{
public:
INDF16(Processor *, const char *pName, const char *pDesc, Indirect_Addressing *pIAM);
void put(unsigned int new_value);
void put_value(unsigned int new_value);
unsigned int get();
unsigned int get_value();
protected:
Indirect_Addressing *iam;
};
class PREINC : public sfr_register
{
public:
PREINC(Processor *, const char *pName, const char *pDesc, Indirect_Addressing *pIAM);
void put(unsigned int new_value);
void put_value(unsigned int new_value);
unsigned int get();
unsigned int get_value();
protected:
Indirect_Addressing *iam;
};
class POSTINC : public sfr_register
{
public:
POSTINC(Processor *, const char *pName, const char *pDesc, Indirect_Addressing *pIAM);
void put(unsigned int new_value);
void put_value(unsigned int new_value);
unsigned int get();
unsigned int get_value();
protected:
Indirect_Addressing *iam;
};
class POSTDEC : public sfr_register
{
public:
POSTDEC(Processor *, const char *pName, const char *pDesc, Indirect_Addressing *pIAM);
void put(unsigned int new_value);
void put_value(unsigned int new_value);
unsigned int get();
unsigned int get_value();
protected:
Indirect_Addressing *iam;
};
class PLUSW : public sfr_register
{
public:
PLUSW(Processor *, const char *pName, const char *pDesc, Indirect_Addressing *pIAM);
void put(unsigned int new_value);
void put_value(unsigned int new_value);
unsigned int get();
unsigned int get_value();
protected:
Indirect_Addressing *iam;
};
class Indirect_Addressing
{
public:
Indirect_Addressing(pic_processor *cpu, const string &n);
pic_processor *cpu;
//RRR _16bit_processor *cpu;
unsigned int fsr_value; // 16bit concatenation of fsrl and fsrh
unsigned int fsr_state; /* used in conjunction with the pre/post incr
* and decrement. This is mainly needed for
* those instructions that perform read-modify-
* write operations on the indirect registers
* eg. btg POSTINC1,4 . The post increment must
* occur after the bit is toggled and not during
* the read operation that's determining the
* current state.
*/
int fsr_delta; /* If there's a pending update to the fsr register
* pair, then the magnitude of that update is
* stored here.
*/
guint64 current_cycle; /* Stores the cpu cycle when the fsr was last
* changed.
*/
FSRL fsrl;
FSRH fsrh;
INDF16 indf;
PREINC preinc;
POSTINC postinc;
POSTDEC postdec;
PLUSW plusw;
//void init(_16bit_processor *new_cpu);
void put(unsigned int new_value);
unsigned int get();
unsigned int get_value();
void put_fsr(unsigned int new_fsr);
unsigned int get_fsr_value(){return (fsr_value & 0xfff);};
void update_fsr_value();
void preinc_fsr_value();
void postinc_fsr_value();
void postdec_fsr_value();
int plusw_fsr_value();
int plusk_fsr_value(int k);
/* bool is_indirect_register(unsigned int reg_address)
*
* The purpose of this routine is to determine whether or not the
* 'reg_address' is the address of an indirect register. This is
* used by the 'put' and 'get' functions of the indirect registers.
* Indirect registers are forbidden access to other indirect registers.
* (Although double indirection in a single instruction cycle would
* be powerful!).
*
* The indirect registers reside at the following addresses
* 0xfeb - 0xfef, 0xfe3 - 0xfe7, 0xfdb- 0xfdf
* If you look at the binary representation of these ranges:
* 1111 1110 1011, 1111 1110 1100 - 1111 1110 1111 (0xfeb,0xfec - 0xfef)
* 1111 1110 0011, 1111 1110 0100 - 1111 1110 0111 (0xfe3,0xfe4 - 0xfe7)
* 1111 1101 1011, 1111 1101 1100 - 1111 1101 1111 (0xfdb,0xfdc - 0xfdf)
* ------------------------------------------------------------------------
* 1111 11xx x011, 1111 11vv v1yy - 1111 11vv v1yy
*
* Then you'll notice that indirect register addresses share
* the common bit pattern 1111 11xx x011 for the left column.
* Furthermore, the middle 3-bits, xxx, can only be 3,4, 5.
* The ranges in the last two columns share the bit pattern
* 1111 11vv v1yy. The middle 3-bits, vvv, again can only be
* 3,4, or 5. The least two lsbs, yy, are don't cares.
*/
inline bool is_indirect_register(unsigned int reg_address)
{
if( ((reg_address & 0xfc7) == 0xfc3) || ((reg_address & 0xfc4) == 0xfc4))
{
unsigned midbits = (reg_address >> 3) & 0x7;
if(midbits >= 3 && midbits <= 5)
return 1;
}
return 0;
}
};
//---------------------------------------------------------
class Fast_Stack
{
public:
unsigned int w,status,bsr;
_16bit_processor *cpu;
void init(_16bit_processor *new_cpu);
void push();
void pop();
};
//---------------------------------------------------------
class PCL16 : public PCL
{
public:
virtual unsigned int get();
virtual unsigned int get_value();
PCL16(Processor *, const char *pName, const char *pDesc=0);
};
//---------------------------------------------------------
// Program Counter
//
class Program_Counter16 : public Program_Counter
{
public:
//virtual void increment();
//virtual void skip();
//virtual void jump(unsigned int new_value);
//virtual void interrupt(unsigned int new_value);
virtual void computed_goto(unsigned int new_value);
//virtual void new_address(unsigned int new_value);
virtual void put_value(unsigned int new_value);
virtual unsigned int get_value();
//virtual unsigned int get_next();
Program_Counter16(Processor *pCpu);
};
//---------------------------------------------------------
// Stack
//
class Stack16;
class STKPTR16 : public sfr_register
{
public:
enum {
STKUNF = 1<<6,
STKOVF = 1<<7
};
STKPTR16(Processor *, const char *pName, const char *pDesc=0);
Stack16 *stack;
void put_value(unsigned int new_value);
void put(unsigned int new_value);
};
class TOSU : public sfr_register
{
public:
TOSU(Processor *, const char *pName, const char *pDesc=0);
Stack16 *stack;
void put(unsigned int new_value);
void put_value(unsigned int new_value);
unsigned int get();
unsigned int get_value();
};
class Stack16 : public Stack
{
public:
STKPTR16 stkptr;
TOSL tosl;
TOSH tosh;
TOSU tosu;
Stack16(Processor *);
~Stack16();
virtual bool push(unsigned int);
virtual unsigned int pop();
virtual void reset(RESET_TYPE);
virtual bool stack_overflow();
virtual bool stack_underflow();
};
class TMR0_16;
//---------------------------------------------------------
class CPUSTA : public sfr_register
{
public:
enum
{
BOR = 1<<0,
POR = 1<<1,
PD = 1<<2,
TO = 1<<3,
GLINTD = 1<<4,
STKAV = 1<<5,
};
CPUSTA(Processor *, const char *pName, const char *pDesc=0);
};
//---------------------------------------------------------
// T0CON - Timer 0 control register
class T0CON : public OPTION_REG
{
public:
enum {
T08BIT = 1<<6,
TMR0ON = 1<<7
};
T0CON(Processor *, const char *pName, const char *pDesc=0);
void put(unsigned int new_value);
void initialize();
};
//---------------------------------------------------------
// TMR0 - Timer for the 16bit core.
//
// The 18cxxx extends TMR0 to a 16-bit timer. However, it maintains
// an 8-bit mode that is compatible with the 8-bit TMR0's in the
// 14 and 12-bit cores. The 18cxxx TMR0 reuses this code by deriving
// from the TMR0 class and providing definitions for many of the
// virtual functions.
class TMR0H : public sfr_register
{
public:
TMR0H(Processor *, const char *pName, const char *pDesc=0);
void put(unsigned int new_value);
void put_value(unsigned int new_value);
unsigned int get();
unsigned int get_value();
};
class TMR0_16 : public TMR0
{
public:
TMR0_16(Processor *, const char *pName, const char *pDesc=0);
T0CON *t0con;
INTCON *intcon;
TMR0H *tmr0h;
unsigned int value16;
virtual void callback();
virtual void callback_print();
virtual void increment();
virtual unsigned int get();
virtual unsigned int get_value();
virtual void put_value(unsigned int new_value);
virtual unsigned int get_prescale();
virtual unsigned int max_counts();
virtual void set_t0if();
virtual bool get_t0cs();
virtual void initialize();
virtual void start(int new_value,int sync=0);
virtual void sleep();
virtual void wake();
};
//---------------------------------------------------------
/*
class TMR3H : public TMRH
{
public:
};
class TMR3L : public TMRL
{
public:
};
*/
class T3CON : public T1CON { public: enum { T3CCP1 = 1<<3, T3CCP2 = 1<<6,
};
CCPRL *ccpr1l;
CCPRL *ccpr2l;
TMRL *tmr1l;
T1CON *t1con;
T3CON(Processor *pCpu, const char *pName, const char *pDesc=0);
virtual void put(unsigned int new_value);
virtual bool get_t1oscen() {
if (t1con)
return(t1con->get_t1oscen());
return(0);
}
};
//---------------------------------------------------------
//
// TMR3_MODULE
//
//
class TMR3_MODULE
{
public:
_16bit_processor *cpu;
char * name_str;
T3CON *t3con;
PIR_SET *pir_set;
TMR3_MODULE();
void initialize(T3CON *t1con, PIR_SET *pir_set);
};
//-------------------------------------------------------------------
class TBL_MODULE : public EEPROM_EXTND
{
public:
TBL_MODULE(_16bit_processor *pCpu);
unsigned int state;
unsigned int internal_latch;
_16bit_processor *cpu;
sfr_register tablat,
tblptrl,
tblptrh,
tblptru;
void increment();
void decrement();
void read();
void write();
virtual void start_write();
//void initialize(_16bit_processor *);
};
//////////////////////////////////////////
//////////////////////////////////////////
// vapid Place holders
//////////////////////////////////////////
//////////////////////////////////////////
class LVDCON : public sfr_register
{
public:
unsigned int valid_bits;
enum {
LVDL0 = 1<<0,
LVDL1 = 1<<1,
LVDL2 = 1<<2,
LVDL3 = 1<<3,
LVDEN = 1<<4,
IRVST = 1<<5,
};
LVDCON(Processor *, const char *pName, const char *pDesc=0);
};
class OSCCON2 : public sfr_register
{
public:
void put(unsigned int new_value);
OSCCON2(Processor *pCpu, const char *pName, const char *pDesc)
: sfr_register(pCpu,pName,pDesc) {}
enum
{
LFIOFS = 1<<0, // LFINTOSC Frequency Stable bit
MFIOFS = 1<<1, // MFINTOSC Frequency Stable bit
PRISD = 1<<2, // Primary Oscillator Drive Circuit Shutdown bit
SOSCGO = 1<<3, // Secondary Oscillator Start Control bit
MFIOSEL = 1<<4, // MFINTOSC Select bit
SOSCRUN = 1<<6, // SOSC Run Status bit
PLLRDY = 1<<7 // PLL Run Status bit
};
};
/* RC clock 16Mhz with pll to 64Mhz
*/
class OSCCON_HS : public OSCCON
{
public:
virtual bool set_rc_frequency();
OSCCON_HS(Processor *pCpu, const char *pName, const char *pDesc) :
OSCCON(pCpu, pName, pDesc), osccon2(0){}
OSCCON2 *osccon2;
};
/*
High/Low-Voltage Detect Module
*/
class HLVDCON;
class HLVD_stimulus : public stimulus
{
public:
HLVD_stimulus(HLVDCON *_hlvd, const char *n=0);
~HLVD_stimulus();
virtual void set_nodeVoltage(double v);
private:
HLVDCON *hlvd;
};
class HLVDCON : public sfr_register, public TriggerObject
{
public:
enum
{
VDIRMAG = 1<<7, // Voltage Direction Magnitude Select bit
BGVST = 1<<6, // Band Gap Reference Voltages Stable Status Flag bit
IRVST = 1<<5, // Internal Reference Voltage Stable Flag bit
HLVDEN = 1<<4, // High/Low-Voltage Detect Power Enable bit
HLVDL3 = 1<<3, // Voltage Detection Level bits
HLVDL2 = 1<<2, // Voltage Detection Level bits
HLVDL1 = 1<<1, // Voltage Detection Level bits
HLVDL0 = 1<<0, // Voltage Detection Level bits
HLVDL_MASK = 0xf
};
HLVDCON(Processor *pCpu, const char *pName, const char *pDesc);
~HLVDCON();
void put(unsigned int new_value);
virtual void callback_print(){cout << name() << " has callback, ID = " << CallBackID << '\n';}
void callback();
void set_hlvdin(PinModule *_hlvdin){ hlvdin = _hlvdin;}
void check_hlvd();
virtual void setIntSrc(InterruptSource *_IntSrc) { IntSrc = _IntSrc;}
private:
PinModule *hlvdin;
HLVD_stimulus *hlvdin_stimulus;
bool stimulus_active;
unsigned int write_mask;
InterruptSource *IntSrc;
};
#endif // __16_BIT_REGISTERS_H__
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