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/***************************************************************************
* Copyright (C) 2005 by David Saxton *
* david@bluehaze.org *
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; either version 2 of the License, or *
* (at your option) any later version. *
***************************************************************************/
#include "config.h"
#ifndef NO_GPSIM
#ifndef GPSIMPROCESSOR_H
#define GPSIMPROCESSOR_H
#include "sourceline.h"
#include <tqmap.h>
#include <tqvaluevector.h>
#include <tqobject.h>
#include <tqvaluelist.h>
class DebugLine;
class GpsimProcessor;
class MicroInfo;
class pic_processor; // from gpsim
class Register;
class RegisterMemoryAccess;
typedef TQMap<SourceLine, SourceLine> SourceLineMap;
typedef TQMap<int, TQString> TQStringMap;
typedef TQValueList<int> IntList;
class DebugLine : public SourceLine
{
public:
DebugLine();
DebugLine( const TQString & fileName, int line );
/**
* Whether or not to break when we reach this line.
*/
bool isBreakpoint() const { return m_bIsBreakpoint; }
/**
* Set whether or not to break when we reach this line.
*/
void setBreakpoint( bool breakpoint ) { m_bIsBreakpoint = breakpoint; }
/**
* Used for efficiency purposes by GpsimProcessor. Sets a flag.
*/
void markAsDeleted() { m_bMarkedAsDeleted = true; }
/**
* Used for efficiency purposes by GpsimProcessor.
*/
bool markedAsDeleted() const { return m_bMarkedAsDeleted; }
protected:
bool m_bIsBreakpoint;
bool m_bMarkedAsDeleted;
private:
DebugLine( const DebugLine & dl );
DebugLine & operator = ( const DebugLine & dl );
};
/**
@short Stores info from gpsim register, used to hide gpsim interface
@author David Saxton
*/
class RegisterInfo : public TQObject
{
Q_OBJECT
TQ_OBJECT
public:
RegisterInfo( Register * reg );
enum RegisterType
{
Invalid,
Generic,
File,
SFR,
Breakpoint
};
RegisterType type() const { return m_type; }
TQString name() const { return m_name; }
unsigned value() const;
static TQString toString( RegisterType type );
/**
* Checks to see if the value has changed; if so, emit new value.
*/
void update();
signals:
void valueChanged( unsigned newValue );
protected:
TQString m_name;
RegisterType m_type;
Register * m_pRegister;
unsigned m_prevEmitValue;
};
/**
@short Stores information about a set of registers, used to hide gpsim interface.
@author David Saxton
*/
class RegisterSet
{
public:
RegisterSet( pic_processor * picProcessor );
~RegisterSet();
/**
* Calls update for each RegisterInfo in this set.
*/
void update();
/**
* Returns the number of registers.
*/
unsigned size() const { return m_registers.size(); }
RegisterInfo * fromAddress( unsigned address );
RegisterInfo * fromName( const TQString & name );
protected:
typedef TQMap< TQString, RegisterInfo * > RegisterInfoMap;
RegisterInfoMap m_nameToRegisterMap;
TQValueVector< RegisterInfo * > m_registers;
};
/**
@author David Saxton
*/
class GpsimDebugger : public TQObject
{
friend class GpsimProcessor;
Q_OBJECT
TQ_OBJECT
public:
enum Type
{
AsmDebugger = 0,
HLLDebugger = 1
};
GpsimDebugger( Type type, GpsimProcessor * gpsim );
~GpsimDebugger();
GpsimProcessor * gpsim() const { return m_pGpsim; }
/**
* When an assembly file was generated by a high level language compiler
* like SDCC, it will insert markers like ";#CSRC" that show which line
* of source-code generated the given set of assembly instructions. This
* matches up the assembly file lines with the associated source file
* lines.
*/
void associateLine( const TQString & sourceFile, int sourceLine, const TQString & assemblyFile, int assemblyLine );
/**
* Check to see if we've hit a breakpoint or similar; if so, this
* function will stop the execution of the PIC program.
*/
void checkForBreak();
/**
* Sets the breakpoints used for the given file to exactly those that
* are contained in this list. Breakpoints for other files are not
* affected.
* @param path the location of the file (which gpsim must recognise).
*/
void setBreakpoints( const TQString & path, const IntList & lines );
/**
* Sets / removes the breakpoint at the given line
*/
void setBreakpoint( const TQString & path, int line, bool isBreakpoint );
/**
* Returns the current source line that gpsim is at. By default, this
* will be the corresponding assembly line. That can be overwritten
* using mapAddressBlockToLine.
*/
SourceLine currentLine();
/**
* Returns a pointer to the debug info for the current line.
*/
DebugLine * currentDebugLine();
/**
* @return the program address for the given line (or -1 if no such
* line).
*/
int programAddress( const TQString & path, int line );
/**
* Step into the next program line.
*/
void stepInto();
/**
* Step over the next program instruction. If we are currently running,
* this function will do nothing. Otherwise, it will record the current
* stack level, step, and if the new stack level is <= the initial level
* then return - otherwise, this processor will set a breakpoint for
* stack levels <= initial, and go to running mode.
*/
void stepOver();
/**
* Similar to stepOver, except we break when the stack level becomes <
* the initial stack level (instead of <= initial).
*/
void stepOut();
signals:
/**
* Emitted when a line is reached. By default, this is the line of the
* input assembly file; however, the line associated with an address in
* the PIC memory can be changed with mapAddressBlockToLine.
*/
void lineReached( const SourceLine & sourceLine );
protected slots:
void gpsimRunningStatusChanged( bool isRunning );
protected:
void initAddressToLineMap();
void stackStep( int dl );
void emitLineReached();
int m_stackLevelLowerBreak; // Set by step-over, for when the stack level decreases to the one given
SourceLine m_previousAtLineEmit; // Used for working out whether we should emit a new line reached signal
DebugLine ** m_addressToLineMap;
DebugLine * m_pBreakFromOldLine;
GpsimProcessor * m_pGpsim;
Type m_type;
unsigned m_addressSize;
SourceLineMap m_sourceLineMap; // assembly <--> High level language
};
/**
@author David Saxton
*/
class GpsimProcessor : public TQObject
{
friend class GpsimDebugger;
Q_OBJECT
TQ_OBJECT
public:
/**
* Create a new gpsim processor. After calling this constructor, you
* should always call codLoadStatus() to ensure that the cod file was
* loaded successfully.
*/
GpsimProcessor( TQString symbolFile, TQObject *parent = 0 );
~GpsimProcessor();
void setDebugMode( GpsimDebugger::Type mode ) { m_debugMode = mode; }
GpsimDebugger * currentDebugger() const { return m_pDebugger[m_debugMode]; }
enum CodLoadStatus
{
CodSuccess,
CodFileNotFound,
CodUnrecognizedProcessor,
CodFileNameTooLong,
CodLstNotFound,
CodBadFile,
CodFileUnreadable,
CodFailure,
CodUnknown // Should never be this, but just in case load_symbol_file returns something funny
};
enum InstructionType
{
LiteralOp,
BitOp,
RegisterOp,
UnknownOp,
};
/**
* @return status of opening the COD file
* @see displayCodLoadStatus
*/
CodLoadStatus codLoadStatus() const { return m_codLoadStatus; }
/**
* Popups a messagebox to the user according to the CodLoadStatus. Will
* only popup a messagebox if the CodLoadStatus wasn't CodSuccess.
*/
void displayCodLoadStatus();
/**
* Returns a list of source files for the currently running program.
*/
TQStringList sourceFileList();
/**
* Set whether or not to run gpsim. (i.e. whether or not the step
* function should do anything when called with force=false).
*/
void setRunning( bool run );
/**
* Returns true if running (currently simulating), else gpsim is paused.
*/
bool isRunning() const { return m_bIsRunning; }
/**
* Execute the next program instruction. If we are not in a running
* mode, then this function will do nothing.
*/
void executeNext();
/**
* Reset all parts of the simulation. Gpsim will not run until
* setRunning(true) is called. Breakpoints are not affected.
*/
void reset();
/**
* Returns the microinfo describing this processor.
*/
MicroInfo * microInfo() const;
pic_processor * picProcessor() const { return m_pPicProcessor; }
unsigned programMemorySize() const;
RegisterSet * registerMemory() const { return m_pRegisterMemory; }
/**
* @return the instruction type at the given address.
*/
InstructionType instructionType( unsigned address );
/**
* @return the address of the operand's register at address if the
* instruction at address is a register operation, and -1 otherwise.
*/
int operandRegister( unsigned address );
/**
* @return the literal if the instruction at address is a literal
* operation, and -1 otherwise.
*/
int operandLiteral( unsigned address );
//BEGIN Convenience functions for PIC files
enum ProgramFileValidity { DoesntExist, IncorrectType, Valid };
/**
* @return information on the validity of the given program file (either
* DoesntExist, IncorrectType, or Valid).
* @see static TQString generateSymbolFile
*/
static ProgramFileValidity isValidProgramFile( const TQString & programFile );
/**
* Converts the file at programFile to a Symbol file for emulation,
* and returns that symbol file's path
* @param programFile The full url to the file
* @param assembled The slot to connect the assembled signal to
* @see static bool isValidProgramFile( const TQString &programFile )
*/
static TQString generateSymbolFile( const TQString &fileName, TQObject *receiver, const char *successMember, const char * failMember = 0l );
/**
*Compile microbe to output to the given filename
*/
static void compileMicrobe( const TQString &filename, TQObject *receiver, const char * successMember, const char * failMember = 0l );
//END convenience functions for PIC files
signals:
/**
* Emitted when the running status of gpsim changes.
*/
void runningStatusChanged( bool isRunning );
protected:
/**
* Calls emitLineReached for each debugger.
*/
void emitLineReached();
pic_processor * m_pPicProcessor;
CodLoadStatus m_codLoadStatus;
const TQString m_symbolFile;
RegisterSet * m_pRegisterMemory;
GpsimDebugger::Type m_debugMode;
GpsimDebugger * m_pDebugger[2]; // Asm, HLL
/**
* We are called effectively for each cycle of the cycle of the
* processor. This value is used as some instructions (e.g. goto) take
* two cycles to execute, and so we must ignore one cycle to ensure
* realtime simulation.
*/
bool m_bCanExecuteNextCycle;
private:
bool m_bIsRunning;
};
#endif
#endif // !NO_GPSIM
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