AppleWin/source/Debugger/Debug.cpp

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/*
AppleWin : An Apple //e emulator for Windows
Copyright (C) 1994-1996, Michael O'Brien
Copyright (C) 1999-2001, Oliver Schmidt
Copyright (C) 2002-2005, Tom Charlesworth
Copyright (C) 2006-2014, Tom Charlesworth, Michael Pohoreski
AppleWin 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.
AppleWin 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with AppleWin; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
/* Description: Debugger
*
* Author: Copyright (C) 2006-2010 Michael Pohoreski
*/
// disable warning C4786: symbol greater than 255 character:
//#pragma warning(disable: 4786)
#include "StdAfx.h"
#include "Debug.h"
#include "DebugDefs.h"
#include "..\AppleWin.h"
#include "..\CPU.h"
#include "..\Disk.h"
#include "..\Frame.h"
#include "..\Keyboard.h"
#include "..\Memory.h"
#include "..\NTSC.h"
#include "..\SoundCore.h" // SoundCore_SetFade()
#include "..\Video.h"
// #define DEBUG_COMMAND_HELP 1
// #define DEBUG_ASM_HASH 1
#define ALLOW_INPUT_LOWERCASE 1
2010-12-19 22:04:43 +00:00
// See /docs/Debugger_Changelog.txt for full details
const int DEBUGGER_VERSION = MAKE_VERSION(2,9,0,12);
// Public _________________________________________________________________________________________
// All (Global)
bool g_bDebuggerEatKey = false;
// Bookmarks __________________________________________________________________
int g_nBookmarks = 0;
Bookmark_t g_aBookmarks[ MAX_BOOKMARKS ];
// Breakpoints ________________________________________________________________
// Any Speed Breakpoints
int g_nDebugBreakOnInvalid = 0; // Bit Flags of Invalid Opcode to break on: // iOpcodeType = AM_IMPLIED (BRK), AM_1, AM_2, AM_3
int g_iDebugBreakOnOpcode = 0;
static int g_bDebugBreakpointHit = 0; // See: BreakpointHit_t
int g_nBreakpoints = 0;
Breakpoint_t g_aBreakpoints[ MAX_BREAKPOINTS ];
// NOTE: Breakpoint_Source_t and g_aBreakpointSource must match!
const char *g_aBreakpointSource[ NUM_BREAKPOINT_SOURCES ] =
{ // Used to be one char, since ArgsCook also uses // TODO/FIXME: Parser use Param[] ?
// Used for both Input & Output!
// Regs
"A", // Reg A
"X", // Reg X
"Y", // Reg Y
// Special
"PC", // Program Counter -- could use "$"
"S" , // Stack Pointer
// Flags -- .8 Moved: Flag names from g_aFlagNames[] to "inlined" g_aBreakpointSource[]
"P", // Processor Status
"C", // ---- ---1 Carry
"Z", // ---- --1- Zero
"I", // ---- -1-- Interrupt
"D", // ---- 1--- Decimal
"B", // ---1 ---- Break
"R", // --1- ---- Reserved
"V", // -1-- ---- Overflow
"N", // 1--- ---- Sign
// Misc
"OP", // Opcode/Instruction/Mnemonic
// Memory
"M" // Main
// TODO: M0 ram bank 0, M1 aux ram ?
};
// Note: BreakpointOperator_t, _PARAM_BREAKPOINT_, and g_aBreakpointSymbols must match!
const char *g_aBreakpointSymbols[ NUM_BREAKPOINT_OPERATORS ] =
{ // Output: Must be 2 chars!
2017-04-18 04:44:30 +00:00
"<=", // LESS_EQUAL
"< ", // LESS_THAN
"= ", // EQUAL
"!=", // NOT_EQUAL
// "! ", // NOT_EQUAL_1
"> ", // GREATER_THAN
">=", // GREATER_EQUAL
2010-12-18 16:04:05 +00:00
"? ", // READ // Q. IO Read use 'I'? A. No, since I=Interrupt // Also can't use: 'r' reserver
"@ ", // WRITE // Q. IO Write use 'O'? A. No, since O=Opcode // This is free: 'w'
"* ", // Read/Write
};
static WORD g_uBreakMemoryAddress = 0;
// Commands _______________________________________________________________________________________
int g_iCommand; // last command (enum) // used for consecutive commands
std::vector<int> g_vPotentialCommands; // global, since TAB-completion also needs
std::vector<Command_t> g_vSortedCommands;
// static const char g_aFlagNames[_6502_NUM_FLAGS+1] = TEXT("CZIDBRVN");// Reversed since arrays are from left-to-right
// Cursor (Console Input) _____________________________________________________
// char g_aInputCursor[] = "\|/-";
enum InputCursor
{
CURSOR_INSERT,
CURSOR_OVERSTRIKE,
NUM_INPUT_CURSORS
};
const char g_aInputCursor[] = "_\x7F"; // insert over-write
bool g_bInputCursor = false;
int g_iInputCursor = CURSOR_OVERSTRIKE; // which cursor to use
const int g_nInputCursor = sizeof( g_aInputCursor );
void DebuggerCursorUpdate();
char DebuggerCursorGet();
// Cursor (Disasm) ____________________________________________________________
WORD g_nDisasmTopAddress = 0;
WORD g_nDisasmBotAddress = 0;
WORD g_nDisasmCurAddress = 0;
bool g_bDisasmCurBad = false;
int g_nDisasmCurLine = 0; // Aligned to Top or Center
int g_iDisasmCurState = CURSOR_NORMAL;
int g_nDisasmWinHeight = 0;
// char g_aConfigDisasmAddressColon[] = TEXT(" :");
extern const int WINDOW_DATA_BYTES_PER_LINE = 8;
#if OLD_FONT
// Font
TCHAR g_sFontNameDefault[ MAX_FONT_NAME ] = TEXT("Courier New");
TCHAR g_sFontNameConsole[ MAX_FONT_NAME ] = TEXT("Courier New");
TCHAR g_sFontNameDisasm [ MAX_FONT_NAME ] = TEXT("Courier New");
TCHAR g_sFontNameInfo [ MAX_FONT_NAME ] = TEXT("Courier New");
TCHAR g_sFontNameBranch [ MAX_FONT_NAME ] = TEXT("Webdings");
HFONT g_hFontWebDings = (HFONT)0;
#endif
int g_iFontSpacing = FONT_SPACING_CLEAN;
// TODO: This really needs to be phased out, and use the ConfigFont[] settings
#if USE_APPLE_FONT
int g_nFontHeight = CONSOLE_FONT_HEIGHT; // 13 -> 12 Lucida Console is readable
#else
int g_nFontHeight = 15; // 13 -> 12 Lucida Console is readable
#endif
const int MIN_DISPLAY_CONSOLE_LINES = 5; // doesn't include ConsoleInput
int g_nDisasmDisplayLines = 0;
// Config _____________________________________________________________________
// Config - Disassembly
bool g_bConfigDisasmAddressView = true;
int g_bConfigDisasmClick = 4; // GH#462 alt=1, ctrl=2, shift=4 bitmask (default to Shift-Click)
bool g_bConfigDisasmAddressColon = true;
bool g_bConfigDisasmOpcodesView = true;
bool g_bConfigDisasmOpcodeSpaces = true;
int g_iConfigDisasmTargets = DISASM_TARGET_BOTH;
int g_iConfigDisasmBranchType = DISASM_BRANCH_FANCY;
int g_bConfigDisasmImmediateChar = DISASM_IMMED_BOTH;
int g_iConfigDisasmScroll = 3; // favor 3 byte opcodes
// Config - Info
bool g_bConfigInfoTargetPointer = false;
MemoryTextFile_t g_ConfigState;
static bool g_bDebugFullSpeed = false;
static bool g_bLastGoCmdWasFullSpeed = false;
static bool g_bGoCmd_ReinitFlag = false;
// Display ____________________________________________________________________
void UpdateDisplay( Update_t bUpdate );
// Memory _____________________________________________________________________
MemoryDump_t g_aMemDump[ NUM_MEM_DUMPS ];
// Made global so operator @# can be used with other commands.
MemorySearchResults_t g_vMemorySearchResults;
// Profile
const int NUM_PROFILE_LINES = NUM_OPCODES + NUM_OPMODES + 16;
ProfileOpcode_t g_aProfileOpcodes[ NUM_OPCODES ];
ProfileOpmode_t g_aProfileOpmodes[ NUM_OPMODES ];
TCHAR g_FileNameProfile[] = TEXT("Profile.txt"); // changed from .csv to .txt since Excel doesn't give import options.
int g_nProfileLine = 0;
char g_aProfileLine[ NUM_PROFILE_LINES ][ CONSOLE_WIDTH ];
void ProfileReset ();
bool ProfileSave ();
void ProfileFormat( bool bSeperateColumns, ProfileFormat_e eFormatMode );
char * ProfileLinePeek ( int iLine );
char * ProfileLinePush ();
void ProfileLineReset ();
// Soft-switches __________________________________________________________________________________
// Source Level Debugging _________________________________________________________________________
bool g_bSourceLevelDebugging = false;
bool g_bSourceAddSymbols = false;
bool g_bSourceAddMemory = false;
char g_aSourceFileName[ MAX_PATH ] = "";
MemoryTextFile_t g_AssemblerSourceBuffer;
int g_iSourceDisplayStart = 0;
int g_nSourceAssembleBytes = 0;
int g_nSourceAssemblySymbols = 0;
// TODO: Support multiple source filenames
SourceAssembly_t g_aSourceDebug;
// Watches ________________________________________________________________________________________
int g_nWatches = 0;
Watches_t g_aWatches[ MAX_WATCHES ]; // TODO: use vector<Watch_t> ??
// Window _________________________________________________________________________________________
int g_iWindowLast = WINDOW_CODE; // TODO: FIXME! should be offset into WindowConfig!!!
// Who has active focus
int g_iWindowThis = WINDOW_CODE; // TODO: FIXME! should be offset into WindowConfig!!!
WindowSplit_t g_aWindowConfig[ NUM_WINDOWS ];
// Zero Page Pointers _____________________________________________________________________________
int g_nZeroPagePointers = 0;
ZeroPagePointers_t g_aZeroPagePointers[ MAX_ZEROPAGE_POINTERS ]; // TODO: use vector<> ?
// TODO: // CONFIG SAVE --> VERSION #
enum DebugConfigVersion_e
{
VERSION_0,
CURRENT_VERSION = VERSION_0
};
// Misc. __________________________________________________________________________________________
char g_sFileNameConfig [] =
#ifdef MSDOS
"AWDEBUGR.CFG";
#else
"AppleWinDebugger.cfg";
#endif
static char g_sFileNameTrace [] = "Trace.txt";
static bool g_bBenchmarking = false;
static BOOL fulldisp = 0;
static BOOL g_bProfiling = 0;
static int g_nDebugSteps = 0;
static DWORD g_nDebugStepCycles = 0;
static int g_nDebugStepStart = 0;
static int g_nDebugStepUntil = -1; // HACK: MAGIC #
static int g_nDebugSkipStart = 0;
static int g_nDebugSkipLen = 0;
static FILE *g_hTraceFile = NULL;
static bool g_bTraceHeader = false; // semaphore, flag header to be printed
static bool g_bTraceFileWithVideoScanner = false;
DWORD extbench = 0;
static bool g_bIgnoreNextKey = false;
// Private ________________________________________________________________________________________
// Prototypes _______________________________________________________________
static void DebugEnd ();
static int ParseInput ( LPTSTR pConsoleInput, bool bCook = true );
static Update_t ExecuteCommand ( int nArgs );
// Breakpoints
void _BWZ_List ( const Breakpoint_t * aBreakWatchZero, const int iBWZ ); // bool bZeroBased = true );
void _BWZ_ListAll ( const Breakpoint_t * aBreakWatchZero, const int nMax );
// bool CheckBreakpoint (WORD address, BOOL memory);
bool _CmdBreakpointAddReg ( Breakpoint_t *pBP, BreakpointSource_t iSrc, BreakpointOperator_t iCmp, WORD nAddress, int nLen, bool bIsTempBreakpoint );
int _CmdBreakpointAddCommonArg ( int iArg, int nArg, BreakpointSource_t iSrc, BreakpointOperator_t iCmp, bool bIsTempBreakpoint=false );
void _BWZ_Clear( Breakpoint_t * aBreakWatchZero, int iSlot );
// Config - Colors
static void _ConfigColorsReset ( BYTE *pPalDst = 0 );
// Config - Save
bool ConfigSave_BufferToDisk ( char *pFileName, ConfigSave_t eConfigSave );
void ConfigSave_PrepareHeader ( const Parameters_e eCategory, const Commands_e eCommandClear );
// Drawing
static void _CmdColorGet ( const int iScheme, const int iColor );
// Font
static void _UpdateWindowFontHeights (int nFontHeight);
// Source Level Debugging
static bool BufferAssemblyListing ( char * pFileName );
static bool ParseAssemblyListing ( bool bBytesToMemory, bool bAddSymbols );
// Window
void _WindowJoin ();
void _WindowSplit (Window_e eNewBottomWindow );
void _WindowLast ();
void _WindowSwitch ( int eNewWindow );
int WindowGetHeight ( int iWindow );
void WindowUpdateDisasmSize ();
void WindowUpdateConsoleDisplayedSize ();
void WindowUpdateSizes ();
Update_t _CmdWindowViewFull (int iNewWindow);
Update_t _CmdWindowViewCommon (int iNewWindow);
// Utility
char FormatCharTxtCtrl ( const BYTE b, bool *pWasCtrl_ );
char FormatCharTxtAsci ( const BYTE b, bool *pWasAsci_ );
char FormatCharTxtHigh ( const BYTE b, bool *pWasHi_ );
char FormatChar4Font ( const BYTE b, bool *pWasHi_, bool *pWasLo_ );
void _CursorMoveDownAligned( int nDelta );
void _CursorMoveUpAligned( int nDelta );
void DisasmCalcTopFromCurAddress( bool bUpdateTop = true );
void DisasmCalcCurFromTopAddress();
void DisasmCalcBotFromTopAddress();
void DisasmCalcTopBotAddress ();
WORD DisasmCalcAddressFromLines( WORD iAddress, int nLines );
// DebugVideoMode _____________________________________________________________
// Fix for GH#345
// Wrap & protect the debugger's video mode in its own class:
// . This may seem like overkill but it stops the video mode being (erroneously) additionally used as a flag.
// . VideoMode is a bitmap of video flags and a VideoMode value of zero is a valid video mode (GR,PAGE1,non-mixed).
class DebugVideoMode // NB. Implemented as a singleton
{
protected:
DebugVideoMode()
{
Reset();
}
public:
~DebugVideoMode(){}
static DebugVideoMode& Instance()
{
return m_Instance;
}
void Reset(void)
{
m_bIsVideoModeValid = false;
m_uVideoMode = 0;
}
bool IsSet(void)
{
return m_bIsVideoModeValid;
}
bool Get(UINT* pVideoMode)
{
if (pVideoMode)
*pVideoMode = m_bIsVideoModeValid ? m_uVideoMode : 0;
return m_bIsVideoModeValid;
}
void Set(UINT videoMode)
{
m_bIsVideoModeValid = true;
m_uVideoMode = videoMode;
}
private:
bool m_bIsVideoModeValid;
uint32_t m_uVideoMode;
static DebugVideoMode m_Instance;
};
DebugVideoMode DebugVideoMode::m_Instance;
bool DebugGetVideoMode(UINT* pVideoMode)
{
return DebugVideoMode::Instance().Get(pVideoMode);
}
// File _______________________________________________________________________
int _GetFileSize( FILE *hFile )
{
fseek( hFile, 0, SEEK_END );
int nFileBytes = ftell( hFile );
fseek( hFile, 0, SEEK_SET );
return nFileBytes;
}
// Bookmarks __________________________________________________________________
//===========================================================================
bool _Bookmark_Add( const int iBookmark, const WORD nAddress )
{
if (iBookmark < MAX_BOOKMARKS)
{
// g_aBookmarks.push_back( nAddress );
// g_aBookmarks.at( iBookmark ) = nAddress;
g_aBookmarks[ iBookmark ].nAddress = nAddress;
g_aBookmarks[ iBookmark ].bSet = true;
g_nBookmarks++;
return true;
}
return false;
}
//===========================================================================
bool _Bookmark_Del( const WORD nAddress )
{
bool bDeleted = false;
// int nSize = g_aBookmarks.size();
int iBookmark;
for (iBookmark = 0; iBookmark < MAX_BOOKMARKS; iBookmark++ )
{
if (g_aBookmarks[ iBookmark ].nAddress == nAddress)
{
// g_aBookmarks.at( iBookmark ) = NO_6502_TARGET;
g_aBookmarks[ iBookmark ].bSet = false;
bDeleted = true;
}
}
return bDeleted;
}
bool Bookmark_Find( const WORD nAddress )
{
// Ugh, linear search
// int nSize = g_aBookmarks.size();
int iBookmark;
for (iBookmark = 0; iBookmark < MAX_BOOKMARKS; iBookmark++ )
{
if (g_aBookmarks[ iBookmark ].nAddress == nAddress)
{
if (g_aBookmarks[ iBookmark ].bSet)
return true;
}
}
return false;
}
//===========================================================================
bool _Bookmark_Get( const int iBookmark, WORD & nAddress )
{
// int nSize = g_aBookmarks.size();
if (iBookmark >= MAX_BOOKMARKS)
return false;
if (g_aBookmarks[ iBookmark ].bSet)
{
nAddress = g_aBookmarks[ iBookmark ].nAddress;
return true;
}
return false;
}
//===========================================================================
void _Bookmark_Reset()
{
// g_aBookmarks.reserve( MAX_BOOKMARKS );
// g_aBookmarks.insert( g_aBookma int iBookmark = 0;
int iBookmark = 0;
for (iBookmark = 0; iBookmark < MAX_BOOKMARKS; iBookmark++ )
{
g_aBookmarks[ iBookmark ].bSet = false;
}
}
//===========================================================================
int _Bookmark_Size()
{
g_nBookmarks = 0;
int iBookmark;
for (iBookmark = 0; iBookmark < MAX_BOOKMARKS; iBookmark++ )
{
if (g_aBookmarks[ iBookmark ].bSet)
g_nBookmarks++;
}
return g_nBookmarks;
}
//===========================================================================
Update_t CmdBookmark (int nArgs)
{
return CmdBookmarkAdd( nArgs );
}
//===========================================================================
Update_t CmdBookmarkAdd (int nArgs )
{
// BMA [address]
// BMA # address
if (! nArgs)
{
return CmdZeroPageList( 0 );
}
int iArg = 1;
int iBookmark = NO_6502_TARGET;
if (nArgs > 1)
{
iBookmark = g_aArgs[ 1 ].nValue;
iArg++;
}
bool bAdded = false;
for (; iArg <= nArgs; iArg++ )
{
WORD nAddress = g_aArgs[ iArg ].nValue;
if (iBookmark == NO_6502_TARGET)
{
iBookmark = 0;
while ((iBookmark < MAX_BOOKMARKS) && (g_aBookmarks[iBookmark].bSet))
{
iBookmark++;
}
}
if ((iBookmark >= MAX_BOOKMARKS) && !bAdded)
{
char sText[ CONSOLE_WIDTH ];
sprintf( sText, "All bookmarks are currently in use. (Max: %d)", MAX_BOOKMARKS );
ConsoleDisplayPush( sText );
return ConsoleUpdate();
}
if ((iBookmark < MAX_BOOKMARKS) && (g_nBookmarks < MAX_BOOKMARKS))
{
g_aBookmarks[iBookmark].bSet = true;
g_aBookmarks[iBookmark].nAddress = nAddress;
bAdded = true;
g_nBookmarks++;
iBookmark++;
}
}
if (!bAdded)
goto _Help;
return UPDATE_DISASM | ConsoleUpdate();
_Help:
return Help_Arg_1( CMD_BOOKMARK_ADD );
}
//===========================================================================
Update_t CmdBookmarkClear (int nArgs)
{
int iBookmark = 0;
int iArg;
for (iArg = 1; iArg <= nArgs; iArg++ )
{
if (! _tcscmp(g_aArgs[nArgs].sArg, g_aParameters[ PARAM_WILDSTAR ].m_sName))
{
for (iBookmark = 0; iBookmark < MAX_BOOKMARKS; iBookmark++ )
{
if (g_aBookmarks[ iBookmark ].bSet)
g_aBookmarks[ iBookmark ].bSet = false;
}
break;
}
iBookmark = g_aArgs[ iArg ].nValue;
if (g_aBookmarks[ iBookmark ].bSet)
g_aBookmarks[ iBookmark ].bSet = false;
}
return UPDATE_DISASM;
}
//===========================================================================
Update_t CmdBookmarkGoto ( int nArgs )
{
if (! nArgs)
return Help_Arg_1( CMD_BOOKMARK_GOTO );
int iBookmark = g_aArgs[ 1 ].nValue;
WORD nAddress;
if (_Bookmark_Get( iBookmark, nAddress ))
{
g_nDisasmCurAddress = nAddress;
g_nDisasmCurLine = 0;
DisasmCalcTopBotAddress();
}
return UPDATE_DISASM;
}
//===========================================================================
Update_t CmdBookmarkList (int nArgs)
{
if (! g_nBookmarks)
{
TCHAR sText[ CONSOLE_WIDTH ];
ConsoleBufferPushFormat( sText, TEXT(" There are no current bookmarks. (Max: %d)"), MAX_BOOKMARKS );
}
else
{
_BWZ_ListAll( g_aBookmarks, MAX_BOOKMARKS );
}
return ConsoleUpdate();
}
//===========================================================================
Update_t CmdBookmarkLoad (int nArgs)
{
char sFilePath[ MAX_PATH ] = "";
if (nArgs == 1)
{
// strcpy( sMiniFileName, pFileName );
// strcat( sMiniFileName, ".aws" ); // HACK: MAGIC STRING
// _tcscpy(sFileName, g_sCurrentDir); //
// _tcscat(sFileName, sMiniFileName);
}
return UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
Update_t CmdBookmarkSave (int nArgs)
{
TCHAR sText[ CONSOLE_WIDTH ];
g_ConfigState.Reset();
ConfigSave_PrepareHeader( PARAM_CAT_BOOKMARKS, CMD_BOOKMARK_CLEAR );
int iBookmark = 0;
while (iBookmark < MAX_BOOKMARKS)
{
if (g_aBookmarks[ iBookmark ].bSet)
{
sprintf( sText, "%s %x %04X\n"
, g_aCommands[ CMD_BOOKMARK_ADD ].m_sName
, iBookmark
, g_aBookmarks[ iBookmark ].nAddress
);
g_ConfigState.PushLine( sText );
}
iBookmark++;
}
if (nArgs)
{
if (! (g_aArgs[ 1 ].bType & TYPE_QUOTED_2))
return Help_Arg_1( CMD_BOOKMARK_SAVE );
if (ConfigSave_BufferToDisk( g_aArgs[ 1 ].sArg, CONFIG_SAVE_FILE_CREATE ))
{
ConsoleBufferPush( TEXT( "Saved." ) );
return ConsoleUpdate();
}
}
return UPDATE_CONSOLE_DISPLAY;
}
// Benchmark ______________________________________________________________________________________
//===========================================================================
Update_t CmdBenchmark (int nArgs)
{
if (g_bBenchmarking)
CmdBenchmarkStart(0);
else
CmdBenchmarkStop(0);
return UPDATE_ALL; // TODO/FIXME Verify
}
//===========================================================================
Update_t CmdBenchmarkStart (int nArgs)
{
CpuSetupBenchmark();
g_nDisasmCurAddress = regs.pc;
DisasmCalcTopBotAddress();
g_bBenchmarking = true;
return UPDATE_ALL; // 1;
}
//===========================================================================
Update_t CmdBenchmarkStop (int nArgs)
{
g_bBenchmarking = false;
DebugEnd();
FrameRefreshStatus(DRAW_TITLE);
VideoRedrawScreen();
DWORD currtime = GetTickCount();
while ((extbench = GetTickCount()) != currtime)
; // intentional busy-waiting
KeybQueueKeypress(TEXT(' '),1);
return UPDATE_ALL; // 0;
}
//===========================================================================
Update_t CmdProfile (int nArgs)
{
if (! nArgs)
{
sprintf( g_aArgs[ 1 ].sArg, "%s", g_aParameters[ PARAM_RESET ].m_sName );
nArgs = 1;
}
if (nArgs == 1)
{
int iParam;
int nFound = FindParam( g_aArgs[ 1 ].sArg, MATCH_EXACT, iParam, _PARAM_GENERAL_BEGIN, _PARAM_GENERAL_END );
if (! nFound)
goto _Help;
if (iParam == PARAM_RESET)
{
ProfileReset();
g_bProfiling = 1;
ConsoleBufferPush( TEXT(" Resetting profile data." ) );
}
else
{
if ((iParam != PARAM_SAVE) && (iParam != PARAM_LIST))
goto _Help;
bool bExport = true;
if (iParam == PARAM_LIST)
bExport = false;
// .csv (Comma Seperated Value)
// ProfileFormat( bExport, bExport ? PROFILE_FORMAT_COMMA : PROFILE_FORMAT_SPACE );
// .txt (Tab Seperated Value)
ProfileFormat( bExport, bExport ? PROFILE_FORMAT_TAB : PROFILE_FORMAT_SPACE );
// Dump to console
if (iParam == PARAM_LIST)
{
char *pText;
char sText[ CONSOLE_WIDTH ];
int nLine = g_nProfileLine;
int iLine;
for( iLine = 0; iLine < nLine; iLine++ )
{
pText = ProfileLinePeek( iLine );
if (pText)
{
TextConvertTabsToSpaces( sText, pText, CONSOLE_WIDTH, 4 );
// ConsoleBufferPush( sText );
ConsolePrint( sText );
}
}
}
if (iParam == PARAM_SAVE)
{
if (ProfileSave())
{
TCHAR sText[ CONSOLE_WIDTH ];
ConsoleBufferPushFormat ( sText, " Saved: %s", g_FileNameProfile );
}
else
ConsoleBufferPush( TEXT(" ERROR: Couldn't save file. (In use?)" ) );
}
}
}
else
goto _Help;
return ConsoleUpdate(); // UPDATE_CONSOLE_DISPLAY;
_Help:
return Help_Arg_1( CMD_PROFILE );
}
// Breakpoints ____________________________________________________________________________________
//===========================================================================
// iOpcodeType = AM_IMPLIED (BRK), AM_1, AM_2, AM_3
static int IsDebugBreakOnInvalid( int iOpcodeType )
{
g_bDebugBreakpointHit |= ((g_nDebugBreakOnInvalid >> iOpcodeType) & 1) ? BP_HIT_INVALID : 0;
return g_bDebugBreakpointHit;
}
// iOpcodeType = AM_IMPLIED (BRK), AM_1, AM_2, AM_3
static void SetDebugBreakOnInvalid( int iOpcodeType, int nValue )
{
if (iOpcodeType <= AM_3)
{
g_nDebugBreakOnInvalid &= ~ ( 1 << iOpcodeType);
g_nDebugBreakOnInvalid |= ((nValue & 1) << iOpcodeType);
}
}
Update_t CmdBreakInvalid (int nArgs) // Breakpoint IFF Full-speed!
{
if (nArgs > 2) // || (nArgs == 0))
goto _Help;
int iType = AM_IMPLIED; // default to BRK
int nActive = 0;
if (nArgs == 0)
{
nArgs = 1;
g_aArgs[ 1 ].nValue = AM_IMPLIED;
g_aArgs[ 1 ].sArg[0] = 0;
}
iType = g_aArgs[ 1 ].nValue;
// Cases:
// 0. CMD // display
// 1a. CMD # // display
// 1b. CMD ON | OFF //set
// 1c. CMD ? // error
// 2a. CMD # ON | OFF // set
// 2b. CMD # ? // error
TCHAR sText[ CONSOLE_WIDTH ];
bool bValidParam = true;
int iParamArg = nArgs;
int iParam;
int nFound = FindParam( g_aArgs[ iParamArg ].sArg, MATCH_EXACT, iParam, _PARAM_GENERAL_BEGIN, _PARAM_GENERAL_END );
if (nFound)
{
if (iParam == PARAM_ON)
nActive = 1;
else
if (iParam == PARAM_OFF)
nActive = 0;
else
bValidParam = false;
}
else
bValidParam = false;
if (nArgs == 1)
{
if (! nFound) // bValidParam) // case 1a or 1c
{
if ((iType < AM_IMPLIED) || (iType > AM_3))
goto _Help;
if ( IsDebugBreakOnInvalid( iType ) )
iParam = PARAM_ON;
else
iParam = PARAM_OFF;
}
else // case 1b
{
SetDebugBreakOnInvalid( iType, nActive );
}
if (iType == 0)
ConsoleBufferPushFormat( sText, TEXT("Enter debugger on BRK opcode: %s"), g_aParameters[ iParam ].m_sName );
else
ConsoleBufferPushFormat( sText, TEXT("Enter debugger on INVALID %1X opcode: %s"), iType, g_aParameters[ iParam ].m_sName );
return ConsoleUpdate();
}
else
if (nArgs == 2)
{
if (! bValidParam) // case 2b
{
goto _Help;
}
else // case 2a (or not 2b ;-)
{
if ((iType < 0) || (iType > AM_3))
goto _Help;
SetDebugBreakOnInvalid( iType, nActive );
if (iType == 0)
ConsoleBufferPushFormat( sText, TEXT("Enter debugger on BRK opcode: %s"), g_aParameters[ iParam ].m_sName );
else
ConsoleBufferPushFormat( sText, TEXT("Enter debugger on INVALID %1X opcode: %s"), iType, g_aParameters[ iParam ].m_sName );
return ConsoleUpdate();
}
}
return UPDATE_CONSOLE_DISPLAY;
_Help:
return HelpLastCommand();
}
//===========================================================================
Update_t CmdBreakOpcode (int nArgs) // Breakpoint IFF Full-speed!
{
TCHAR sText[ CONSOLE_WIDTH ];
if (nArgs > 1)
return HelpLastCommand();
TCHAR sAction[ CONSOLE_WIDTH ] = TEXT("Current"); // default to display
if (nArgs == 1)
{
int iOpcode = g_aArgs[ 1] .nValue;
g_iDebugBreakOnOpcode = iOpcode & 0xFF;
_tcscpy( sAction, TEXT("Setting") );
if (iOpcode >= NUM_OPCODES)
{
ConsoleBufferPushFormat( sText, TEXT("Warning: clamping opcode: %02X"), g_iDebugBreakOnOpcode );
return ConsoleUpdate();
}
}
if (g_iDebugBreakOnOpcode == 0)
// Show what the current break opcode is
ConsoleBufferPushFormat( sText, TEXT("%s Break on Opcode: None")
, sAction
);
else
// Show what the current break opcode is
ConsoleBufferPushFormat( sText, TEXT("%s Break on Opcode: %02X %s")
, sAction
, g_iDebugBreakOnOpcode
, g_aOpcodes65C02[ g_iDebugBreakOnOpcode ].sMnemonic
);
return ConsoleUpdate();
}
// bool bBP = g_nBreakpoints && CheckBreakpoint(nOffset,nOffset == regs.pc);
//===========================================================================
bool GetBreakpointInfo ( WORD nOffset, bool & bBreakpointActive_, bool & bBreakpointEnable_ )
{
for (int iBreakpoint = 0; iBreakpoint < MAX_BREAKPOINTS; iBreakpoint++)
{
Breakpoint_t *pBP = &g_aBreakpoints[ iBreakpoint ];
if ((pBP->nLength)
// && (pBP->bEnabled) // not bSet
&& (nOffset >= pBP->nAddress) && (nOffset < (pBP->nAddress + pBP->nLength))) // [nAddress,nAddress+nLength]
{
bBreakpointActive_ = pBP->bSet;
bBreakpointEnable_ = pBP->bEnabled;
return true;
}
// if (g_aBreakpoints[iBreakpoint].nLength && g_aBreakpoints[iBreakpoint].bEnabled &&
// (g_aBreakpoints[iBreakpoint].nAddress <= targetaddr) &&
// (g_aBreakpoints[iBreakpoint].nAddress + g_aBreakpoints[iBreakpoint].nLength > targetaddr))
}
bBreakpointActive_ = false;
bBreakpointEnable_ = false;
return false;
}
// Returns true if we should continue checking breakpoint details, else false
//===========================================================================
bool _BreakpointValid( Breakpoint_t *pBP ) //, BreakpointSource_t iSrc )
{
bool bStatus = false;
if (! pBP->bEnabled)
return bStatus;
// if (pBP->eSource != iSrc)
// return bStatus;
if (! pBP->nLength)
return bStatus;
return true;
}
//===========================================================================
bool _CheckBreakpointValue( Breakpoint_t *pBP, int nVal )
{
bool bStatus = false;
int iCmp = pBP->eOperator;
switch (iCmp)
{
case BP_OP_LESS_EQUAL :
if (nVal <= pBP->nAddress)
bStatus = true;
break;
case BP_OP_LESS_THAN :
if (nVal < pBP->nAddress)
bStatus = true;
break;
case BP_OP_EQUAL : // Range is like C++ STL: [,) (inclusive,not-inclusive)
if ((nVal >= pBP->nAddress) && (nVal < (pBP->nAddress + pBP->nLength)))
bStatus = true;
break;
case BP_OP_NOT_EQUAL : // Rnage is: (,] (not-inclusive, inclusive)
if ((nVal < pBP->nAddress) || (nVal >= (pBP->nAddress + pBP->nLength)))
bStatus = true;
break;
case BP_OP_GREATER_THAN :
if (nVal > pBP->nAddress)
bStatus = true;
break;
case BP_OP_GREATER_EQUAL:
if (nVal >= pBP->nAddress)
bStatus = true;
break;
default:
break;
}
return bStatus;
}
//===========================================================================
int CheckBreakpointsIO ()
{
const int NUM_TARGETS = 3;
int aTarget[ NUM_TARGETS ] =
{
NO_6502_TARGET,
NO_6502_TARGET,
NO_6502_TARGET
};
int nBytes;
bool bBreakpointHit = 0;
int iTarget;
int nAddress;
_6502_GetTargets( regs.pc, &aTarget[0], &aTarget[1], &aTarget[2], &nBytes, false );
if (nBytes)
{
for (iTarget = 0; iTarget < NUM_TARGETS; iTarget++ )
{
nAddress = aTarget[ iTarget ];
if (nAddress != NO_6502_TARGET)
{
for (int iBreakpoint = 0; iBreakpoint < MAX_BREAKPOINTS; iBreakpoint++)
{
Breakpoint_t *pBP = &g_aBreakpoints[iBreakpoint];
if (_BreakpointValid( pBP ))
{
if (pBP->eSource == BP_SRC_MEM_1)
{
if (_CheckBreakpointValue( pBP, nAddress ))
{
g_uBreakMemoryAddress = (WORD) nAddress;
return BP_HIT_MEM;
}
}
}
}
}
}
}
return bBreakpointHit;
}
// Returns true if a register breakpoint is triggered
//===========================================================================
int CheckBreakpointsReg ()
{
int bBreakpointHit = 0;
for (int iBreakpoint = 0; iBreakpoint < MAX_BREAKPOINTS; iBreakpoint++)
{
Breakpoint_t *pBP = &g_aBreakpoints[iBreakpoint];
if (! _BreakpointValid( pBP ))
continue;
switch (pBP->eSource)
{
case BP_SRC_REG_PC:
bBreakpointHit = _CheckBreakpointValue( pBP, regs.pc );
break;
case BP_SRC_REG_A:
bBreakpointHit = _CheckBreakpointValue( pBP, regs.a );
break;
case BP_SRC_REG_X:
bBreakpointHit = _CheckBreakpointValue( pBP, regs.x );
break;
case BP_SRC_REG_Y:
bBreakpointHit = _CheckBreakpointValue( pBP, regs.y );
break;
case BP_SRC_REG_P:
bBreakpointHit = _CheckBreakpointValue( pBP, regs.ps );
break;
case BP_SRC_REG_S:
bBreakpointHit = _CheckBreakpointValue( pBP, regs.sp );
break;
default:
break;
}
if (bBreakpointHit)
{
bBreakpointHit = BP_HIT_REG;
if (pBP->bTemp)
_BWZ_Clear(pBP, iBreakpoint);
break;
}
}
return bBreakpointHit;
}
void ClearTempBreakpoints ()
{
for (int iBreakpoint = 0; iBreakpoint < MAX_BREAKPOINTS; iBreakpoint++)
{
Breakpoint_t *pBP = &g_aBreakpoints[iBreakpoint];
if (! _BreakpointValid( pBP ))
continue;
if (pBP->bTemp)
_BWZ_Clear(pBP, iBreakpoint);
}
}
//===========================================================================
Update_t CmdBreakpoint (int nArgs)
{
return CmdBreakpointAddPC( nArgs );
}
// smart breakpoint
//===========================================================================
Update_t CmdBreakpointAddSmart (int nArgs)
{
int nAddress = g_aArgs[1].nValue;
if (! nArgs)
{
nArgs = 1;
g_aArgs[ nArgs ].nValue = g_nDisasmCurAddress;
}
if ((nAddress >= _6502_IO_BEGIN) && (nAddress <= _6502_IO_END))
{
return CmdBreakpointAddIO( nArgs );
}
else
{
CmdBreakpointAddReg( nArgs );
CmdBreakpointAddMem( nArgs );
return UPDATE_BREAKPOINTS;
}
}
//===========================================================================
Update_t CmdBreakpointAddReg (int nArgs)
{
if (! nArgs)
{
return Help_Arg_1( CMD_BREAKPOINT_ADD_REG );
}
BreakpointSource_t iSrc = BP_SRC_REG_PC;
BreakpointOperator_t iCmp = BP_OP_EQUAL ;
bool bHaveSrc = false;
bool bHaveCmp = false;
int iParamSrc;
int iParamCmp;
int nFound;
int iArg = 0;
while (iArg++ < nArgs)
{
char *sArg = g_aArgs[iArg].sArg;
bHaveSrc = false;
bHaveCmp = false;
nFound = FindParam( sArg, MATCH_EXACT, iParamSrc, _PARAM_REGS_BEGIN, _PARAM_REGS_END );
if (nFound)
{
switch (iParamSrc)
{
case PARAM_REG_A : iSrc = BP_SRC_REG_A ; bHaveSrc = true; break;
case PARAM_FLAGS : iSrc = BP_SRC_REG_P ; bHaveSrc = true; break;
case PARAM_REG_X : iSrc = BP_SRC_REG_X ; bHaveSrc = true; break;
case PARAM_REG_Y : iSrc = BP_SRC_REG_Y ; bHaveSrc = true; break;
case PARAM_REG_PC: iSrc = BP_SRC_REG_PC; bHaveSrc = true; break;
case PARAM_REG_SP: iSrc = BP_SRC_REG_S ; bHaveSrc = true; break;
default:
break;
}
}
nFound = FindParam( sArg, MATCH_EXACT, iParamCmp, _PARAM_BREAKPOINT_BEGIN, _PARAM_BREAKPOINT_END );
if (nFound)
{
switch (iParamCmp)
{
case PARAM_BP_LESS_EQUAL : iCmp = BP_OP_LESS_EQUAL ; bHaveCmp = true; break;
case PARAM_BP_LESS_THAN : iCmp = BP_OP_LESS_THAN ; bHaveCmp = true; break;
case PARAM_BP_EQUAL : iCmp = BP_OP_EQUAL ; bHaveCmp = true; break;
case PARAM_BP_NOT_EQUAL : iCmp = BP_OP_NOT_EQUAL ; bHaveCmp = true; break;
case PARAM_BP_NOT_EQUAL_1 : iCmp = BP_OP_NOT_EQUAL ; bHaveCmp = true; break;
case PARAM_BP_GREATER_THAN : iCmp = BP_OP_GREATER_THAN ; bHaveCmp = true; break;
case PARAM_BP_GREATER_EQUAL: iCmp = BP_OP_GREATER_EQUAL; bHaveCmp = true; break;
default:
break;
}
}
if ((! bHaveSrc) && (! bHaveCmp)) // Inverted/Convoluted logic: didn't find BOTH this pass, so we must have already found them.
{
int dArgs = _CmdBreakpointAddCommonArg( iArg, nArgs, iSrc, iCmp );
if (!dArgs)
{
return Help_Arg_1( CMD_BREAKPOINT_ADD_REG );
}
iArg += dArgs;
}
}
return UPDATE_ALL;
}
//===========================================================================
bool _CmdBreakpointAddReg( Breakpoint_t *pBP, BreakpointSource_t iSrc, BreakpointOperator_t iCmp, WORD nAddress, int nLen, bool bIsTempBreakpoint )
{
bool bStatus = false;
if (pBP)
{
pBP->eSource = iSrc;
pBP->eOperator = iCmp;
pBP->nAddress = nAddress;
pBP->nLength = nLen;
pBP->bSet = true;
pBP->bEnabled = true;
pBP->bTemp = bIsTempBreakpoint;
bStatus = true;
}
return bStatus;
}
// @return Number of args processed
//===========================================================================
int _CmdBreakpointAddCommonArg ( int iArg, int nArg, BreakpointSource_t iSrc, BreakpointOperator_t iCmp, bool bIsTempBreakpoint )
{
int dArg = 0;
int iBreakpoint = 0;
Breakpoint_t *pBP = & g_aBreakpoints[ iBreakpoint ];
while ((iBreakpoint < MAX_BREAKPOINTS) && g_aBreakpoints[iBreakpoint].bSet) //g_aBreakpoints[iBreakpoint].nLength)
{
iBreakpoint++;
pBP++;
}
if (iBreakpoint >= MAX_BREAKPOINTS)
{
ConsoleDisplayError(TEXT("All Breakpoints slots are currently in use."));
return dArg;
}
if (iArg <= nArg)
{
#if DEBUG_VAL_2
int nLen = g_aArgs[iArg].nVal2;
#endif
WORD nAddress = 0;
WORD nAddress2 = 0;
WORD nEnd = 0;
int nLen = 0;
dArg = 1;
RangeType_t eRange = Range_Get( nAddress, nAddress2, iArg);
if ((eRange == RANGE_HAS_END) ||
(eRange == RANGE_HAS_LEN))
{
Range_CalcEndLen( eRange, nAddress, nAddress2, nEnd, nLen );
dArg = 2;
}
if ( !nLen)
{
nLen = 1;
}
if (! _CmdBreakpointAddReg( pBP, iSrc, iCmp, nAddress, nLen, bIsTempBreakpoint ))
{
dArg = 0;
}
g_nBreakpoints++;
}
return dArg;
}
//===========================================================================
Update_t CmdBreakpointAddPC (int nArgs)
{
BreakpointSource_t iSrc = BP_SRC_REG_PC;
BreakpointOperator_t iCmp = BP_OP_EQUAL ;
if (!nArgs)
{
nArgs = 1;
// g_aArgs[1].nValue = regs.pc;
g_aArgs[1].nValue = g_nDisasmCurAddress;
}
bool bHaveCmp = false;
// int iParamSrc;
int iParamCmp;
int nFound = 0;
int iArg = 0;
while (iArg++ < nArgs)
{
char *sArg = g_aArgs[iArg].sArg;
if (g_aArgs[iArg].bType & TYPE_OPERATOR)
{
nFound = FindParam( sArg, MATCH_EXACT, iParamCmp, _PARAM_BREAKPOINT_BEGIN, _PARAM_BREAKPOINT_END );
if (nFound)
{
switch (iParamCmp)
{
case PARAM_BP_LESS_EQUAL : iCmp = BP_OP_LESS_EQUAL ; bHaveCmp = true; break;
case PARAM_BP_LESS_THAN : iCmp = BP_OP_LESS_THAN ; bHaveCmp = true; break;
case PARAM_BP_EQUAL : iCmp = BP_OP_EQUAL ; bHaveCmp = true; break;
case PARAM_BP_NOT_EQUAL : iCmp = BP_OP_NOT_EQUAL ; bHaveCmp = true; break;
case PARAM_BP_GREATER_THAN : iCmp = BP_OP_GREATER_THAN ; bHaveCmp = true; break;
case PARAM_BP_GREATER_EQUAL: iCmp = BP_OP_GREATER_EQUAL; bHaveCmp = true; break;
default:
break;
}
}
}
else
{
int dArg = _CmdBreakpointAddCommonArg( iArg, nArgs, iSrc, iCmp );
if (! dArg)
{
return Help_Arg_1( CMD_BREAKPOINT_ADD_PC );
}
iArg += dArg;
}
}
return UPDATE_BREAKPOINTS | UPDATE_CONSOLE_DISPLAY; // 1;
}
//===========================================================================
Update_t CmdBreakpointAddIO (int nArgs)
{
return CmdBreakpointAddMem( nArgs );
// return UPDATE_BREAKPOINTS | UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
Update_t CmdBreakpointAddMem (int nArgs)
{
BreakpointSource_t iSrc = BP_SRC_MEM_1;
BreakpointOperator_t iCmp = BP_OP_EQUAL ;
int iArg = 0;
while (iArg++ < nArgs)
{
if (g_aArgs[iArg].bType & TYPE_OPERATOR)
{
return Help_Arg_1( CMD_BREAKPOINT_ADD_MEM );
}
else
{
int dArg = _CmdBreakpointAddCommonArg( iArg, nArgs, iSrc, iCmp );
if (! dArg)
{
return Help_Arg_1( CMD_BREAKPOINT_ADD_MEM );
}
iArg += dArg;
}
}
return UPDATE_BREAKPOINTS | UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
void _BWZ_Clear( Breakpoint_t * aBreakWatchZero, int iSlot )
{
aBreakWatchZero[ iSlot ].bSet = false;
aBreakWatchZero[ iSlot ].bEnabled = false;
aBreakWatchZero[ iSlot ].nLength = 0;
}
void _BWZ_RemoveOne( Breakpoint_t *aBreakWatchZero, const int iSlot, int & nTotal )
{
if (aBreakWatchZero[iSlot].bSet)
{
_BWZ_Clear( aBreakWatchZero, iSlot );
nTotal--;
}
}
void _BWZ_RemoveAll( Breakpoint_t *aBreakWatchZero, const int nMax, int & nTotal )
{
for( int iSlot = 0; iSlot < nMax; iSlot++ )
{
_BWZ_RemoveOne( aBreakWatchZero, iSlot, nTotal );
}
}
// called by BreakpointsClear, WatchesClear, ZeroPagePointersClear
//===========================================================================
void _BWZ_ClearViaArgs( int nArgs, Breakpoint_t * aBreakWatchZero, const int nMax, int & nTotal )
{
int iSlot = 0;
// Clear specified breakpoints
while (nArgs)
{
iSlot = g_aArgs[nArgs].nValue;
if (! _tcscmp(g_aArgs[nArgs].sArg, g_aParameters[ PARAM_WILDSTAR ].m_sName))
{
_BWZ_RemoveAll( aBreakWatchZero, nMax, nTotal );
break;
}
else
if ((iSlot >= 0) && (iSlot < nMax))
{
_BWZ_RemoveOne( aBreakWatchZero, iSlot, nTotal );
}
nArgs--;
}
}
// called by BreakpointsEnable, WatchesEnable, ZeroPagePointersEnable
// called by BreakpointsDisable, WatchesDisable, ZeroPagePointersDisable
void _BWZ_EnableDisableViaArgs( int nArgs, Breakpoint_t * aBreakWatchZero, const int nMax, const bool bEnabled )
{
int iSlot = 0;
// Enable each breakpoint in the list
while (nArgs)
{
iSlot = g_aArgs[nArgs].nValue;
if (! _tcscmp(g_aArgs[nArgs].sArg, g_aParameters[ PARAM_WILDSTAR ].m_sName))
{
for( ; iSlot < nMax; iSlot++ )
{
aBreakWatchZero[ iSlot ].bEnabled = bEnabled;
}
}
else
if ((iSlot >= 0) && (iSlot < nMax))
{
aBreakWatchZero[ iSlot ].bEnabled = bEnabled;
}
nArgs--;
}
}
//===========================================================================
Update_t CmdBreakpointClear (int nArgs)
{
if (!g_nBreakpoints)
return ConsoleDisplayError(TEXT("There are no breakpoints defined."));
if (!nArgs)
{
_BWZ_RemoveAll( g_aBreakpoints, MAX_BREAKPOINTS, g_nBreakpoints );
}
else
{
_BWZ_ClearViaArgs( nArgs, g_aBreakpoints, MAX_BREAKPOINTS, g_nBreakpoints );
}
return UPDATE_DISASM | UPDATE_BREAKPOINTS | UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
Update_t CmdBreakpointDisable (int nArgs)
{
if (! g_nBreakpoints)
return ConsoleDisplayError(TEXT("There are no (PC) Breakpoints defined."));
if (! nArgs)
return Help_Arg_1( CMD_BREAKPOINT_DISABLE );
_BWZ_EnableDisableViaArgs( nArgs, g_aBreakpoints, MAX_BREAKPOINTS, false );
return UPDATE_BREAKPOINTS;
}
//===========================================================================
Update_t CmdBreakpointEdit (int nArgs)
{
return (UPDATE_DISASM | UPDATE_BREAKPOINTS);
}
//===========================================================================
Update_t CmdBreakpointEnable (int nArgs) {
if (! g_nBreakpoints)
return ConsoleDisplayError(TEXT("There are no (PC) Breakpoints defined."));
if (! nArgs)
return Help_Arg_1( CMD_BREAKPOINT_ENABLE );
_BWZ_EnableDisableViaArgs( nArgs, g_aBreakpoints, MAX_BREAKPOINTS, true );
return UPDATE_BREAKPOINTS;
}
void _BWZ_List( const Breakpoint_t * aBreakWatchZero, const int iBWZ ) //, bool bZeroBased )
{
static char sText[ CONSOLE_WIDTH ];
static const char sFlags[] = "-*";
static char sName[ MAX_SYMBOLS_LEN+1 ];
WORD nAddress = aBreakWatchZero[ iBWZ ].nAddress;
2010-12-19 16:59:33 +00:00
const char* pSymbol = GetSymbol( nAddress, 2 );
if (! pSymbol)
{
sName[0] = 0;
pSymbol = sName;
}
ConsoleBufferPushFormat( sText, " #%d %c %04X %s",
// (bZeroBased ? iBWZ + 1 : iBWZ),
iBWZ,
sFlags[ (int) aBreakWatchZero[ iBWZ ].bEnabled ],
aBreakWatchZero[ iBWZ ].nAddress,
pSymbol
);
}
void _BWZ_ListAll( const Breakpoint_t * aBreakWatchZero, const int nMax )
{
int iBWZ = 0;
while (iBWZ < nMax) //
{
if (aBreakWatchZero[ iBWZ ].bSet)
{
_BWZ_List( aBreakWatchZero, iBWZ );
}
iBWZ++;
}
}
//===========================================================================
Update_t CmdBreakpointList (int nArgs)
{
// ConsoleBufferPush( );
// std::vector<int> vBreakpoints;
// int iBreakpoint = MAX_BREAKPOINTS;
// while (iBreakpoint--)
// {
// if (g_aBreakpoints[iBreakpoint].enabled)
// {
// vBreakpoints.push_back( g_aBreakpoints[iBreakpoint].address );
// }
// }
// std::sort( vBreakpoints.begin(), vBreakpoints.end() );
// iBreakpoint = vBreakPoints.size();
if (! g_nBreakpoints)
{
TCHAR sText[ CONSOLE_WIDTH ];
ConsoleBufferPushFormat( sText, TEXT(" There are no current breakpoints. (Max: %d)"), MAX_BREAKPOINTS );
}
else
{
_BWZ_ListAll( g_aBreakpoints, MAX_BREAKPOINTS );
}
return ConsoleUpdate();
}
//===========================================================================
Update_t CmdBreakpointLoad (int nArgs)
{
return UPDATE_ALL;
}
//===========================================================================
Update_t CmdBreakpointSave (int nArgs)
{
TCHAR sText[ CONSOLE_WIDTH ];
g_ConfigState.Reset();
ConfigSave_PrepareHeader( PARAM_CAT_BREAKPOINTS, CMD_BREAKPOINT_CLEAR );
int iBreakpoint = 0;
while (iBreakpoint < MAX_BREAKPOINTS)
{
if (g_aBreakpoints[ iBreakpoint ].bSet)
{
sprintf( sText, "%s %x %04X,%04X\n"
, g_aCommands[ CMD_BREAKPOINT_ADD_REG ].m_sName
, iBreakpoint
, g_aBreakpoints[ iBreakpoint ].nAddress
, g_aBreakpoints[ iBreakpoint ].nLength
);
g_ConfigState.PushLine( sText );
}
if (! g_aBreakpoints[ iBreakpoint ].bEnabled)
{
sprintf( sText, "%s %x\n"
, g_aCommands[ CMD_BREAKPOINT_DISABLE ].m_sName
, iBreakpoint
);
g_ConfigState.PushLine( sText );
}
iBreakpoint++;
}
if (nArgs)
{
if (! (g_aArgs[ 1 ].bType & TYPE_QUOTED_2))
return Help_Arg_1( CMD_BREAKPOINT_SAVE );
if (ConfigSave_BufferToDisk( g_aArgs[ 1 ].sArg, CONFIG_SAVE_FILE_CREATE ))
{
ConsoleBufferPush( TEXT( "Saved." ) );
return ConsoleUpdate();
}
}
return UPDATE_CONSOLE_DISPLAY;
}
// Assembler ______________________________________________________________________________________
//===========================================================================
Update_t _CmdAssemble( WORD nAddress, int iArg, int nArgs )
{
bool bHaveLabel = false;
// if AlphaNumeric
ArgToken_e iTokenSrc = NO_TOKEN;
ParserFindToken( g_pConsoleInput, g_aTokens, NUM_TOKENS, &iTokenSrc );
if (iTokenSrc == NO_TOKEN) // is TOKEN_ALPHANUMERIC
if (g_pConsoleInput[0] != CHAR_SPACE)
{
bHaveLabel = true;
// Symbol
char *pSymbolName = g_aArgs[ iArg ].sArg; // pArg->sArg;
SymbolUpdate( SYMBOLS_ASSEMBLY, pSymbolName, nAddress, false, true ); // bool bRemoveSymbol, bool bUpdateSymbol )
iArg++;
}
bool bStatus = Assemble( iArg, nArgs, nAddress );
if ( bStatus)
return UPDATE_ALL;
return UPDATE_CONSOLE_DISPLAY; // UPDATE_NOTHING;
}
//===========================================================================
Update_t CmdAssemble (int nArgs)
{
if (! g_bAssemblerOpcodesHashed)
{
AssemblerStartup();
g_bAssemblerOpcodesHashed = true;
}
// 0 : A
// 1 : A address
// 2+: A address mnemonic...
if (! nArgs)
{
// return Help_Arg_1( CMD_ASSEMBLE );
// Start assembler, continue with last assembled address
AssemblerOn();
return UPDATE_CONSOLE_DISPLAY;
}
g_nAssemblerAddress = g_aArgs[1].nValue;
if (nArgs == 1)
{
int iArg = 1;
// undocumented ASM *
if ((! _tcscmp( g_aArgs[ iArg ].sArg, g_aParameters[ PARAM_WILDSTAR ].m_sName )) ||
(! _tcscmp( g_aArgs[ iArg ].sArg, g_aParameters[ PARAM_MEM_SEARCH_WILD ].m_sName )) )
{
_CmdAssembleHashDump();
}
AssemblerOn();
return UPDATE_CONSOLE_DISPLAY;
// return Help_Arg_1( CMD_ASSEMBLE );
}
if (nArgs > 1)
{
return _CmdAssemble( g_nAssemblerAddress, 2, nArgs ); // disasm, memory, watches, zeropage
}
// return Help_Arg_1( CMD_ASSEMBLE );
// g_nAssemblerAddress; // g_aArgs[1].nValue;
// return ConsoleUpdate();
return UPDATE_CONSOLE_DISPLAY;
}
// CPU ____________________________________________________________________________________________
// CPU Step, Trace ________________________________________________________________________________
//===========================================================================
static Update_t CmdGo (int nArgs, const bool bFullSpeed)
{
// G StopAddress [SkipAddress,Length]
// Example:
// G C600 FA00,FFFF
// TODO: G addr1,len addr3,len
// TODO: G addr1:addr2 addr3:addr4
const int kCmdGo = !bFullSpeed ? CMD_GO_NORMAL_SPEED : CMD_GO_FULL_SPEED;
g_nDebugSteps = -1;
g_nDebugStepCycles = 0;
g_nDebugStepStart = regs.pc;
g_nDebugStepUntil = nArgs ? g_aArgs[1].nValue : -1;
g_nDebugSkipStart = -1;
g_nDebugSkipLen = -1;
if (nArgs > 4)
return Help_Arg_1( kCmdGo );
// G StopAddress [SkipAddress,Len]
// Old 1 2 2
// G addr addr [, len]
// New 1 2 3 4
if (nArgs > 1)
{
int iArg = 2;
g_nDebugSkipStart = g_aArgs[ iArg ].nValue;
#if DEBUG_VAL_2
WORD nAddress = g_aArgs[ iArg ].nVal2;
#endif
int nLen = 0;
int nEnd = 0;
if (nArgs > 2)
{
if (g_aArgs[ iArg + 1 ].eToken == TOKEN_COMMA)
{
if (nArgs > 3)
{
nLen = g_aArgs[ iArg + 2 ].nValue;
nEnd = g_nDebugSkipStart + nLen;
if (nEnd > _6502_MEM_END)
nEnd = _6502_MEM_END + 1;
}
else
{
return Help_Arg_1( kCmdGo );
}
}
else
if (g_aArgs[ iArg+ 1 ].eToken == TOKEN_COLON)
{
nEnd = g_aArgs[ iArg + 2 ].nValue + 1;
}
else
return Help_Arg_1( kCmdGo );
}
else
return Help_Arg_1( kCmdGo );
nLen = nEnd - g_nDebugSkipStart;
if (nLen < 0)
nLen = -nLen;
g_nDebugSkipLen = nLen;
g_nDebugSkipLen &= _6502_MEM_END;
#if _DEBUG
TCHAR sText[ CONSOLE_WIDTH ];
ConsoleBufferPushFormat( sText, TEXT("Start: %04X,%04X End: %04X Len: %04X"),
g_nDebugSkipStart, g_nDebugSkipLen, nEnd, nLen );
ConsoleBufferToDisplay();
#endif
}
// WORD nAddressSymbol = 0;
// bool bFoundSymbol = FindAddressFromSymbol( g_aArgs[1].sArg, & nAddressSymbol );
// if (bFoundSymbol)
// g_nDebugStepUntil = nAddressSymbol;
// if (!g_nDebugStepUntil)
// g_nDebugStepUntil = GetAddress(g_aArgs[1].sArg);
g_bDebuggerEatKey = true;
g_bDebugFullSpeed = bFullSpeed;
g_bLastGoCmdWasFullSpeed = bFullSpeed;
g_bGoCmd_ReinitFlag = true;
g_nAppMode = MODE_STEPPING;
FrameRefreshStatus(DRAW_TITLE);
SoundCore_SetFade(FADE_IN);
return UPDATE_CONSOLE_DISPLAY;
}
Update_t CmdGoNormalSpeed (int nArgs)
{
return CmdGo(nArgs, false);
}
Update_t CmdGoFullSpeed (int nArgs)
{
return CmdGo(nArgs, true);
}
//===========================================================================
Update_t CmdStepOver (int nArgs)
{
// assert( g_nDisasmCurAddress == regs.pc );
// g_nDebugSteps = nArgs ? g_aArgs[1].nValue : 1;
WORD nDebugSteps = nArgs ? g_aArgs[1].nValue : 1;
while (nDebugSteps -- > 0)
{
int nOpcode = *(mem + regs.pc); // g_nDisasmCurAddress
// int eMode = g_aOpcodes[ nOpcode ].addrmode;
// int nByte = g_aOpmodes[eMode]._nBytes;
// if ((eMode == AM_A) &&
CmdTrace(0);
if (nOpcode == OPCODE_JSR)
{
CmdStepOut(0);
g_nDebugSteps = 0xFFFF;
while (g_nDebugSteps != 0)
DebugContinueStepping();
}
}
return UPDATE_ALL;
}
//===========================================================================
Update_t CmdStepOut (int nArgs)
{
// TODO: "RET" should probably pop the Call stack
// Also see: CmdCursorJumpRetAddr
WORD nAddress;
if (_6502_GetStackReturnAddress( nAddress ))
{
nArgs = _Arg_1( nAddress );
g_aArgs[1].sArg[0] = 0;
CmdGo( 1, true );
}
return UPDATE_ALL;
}
//===========================================================================
Update_t CmdTrace (int nArgs)
{
g_nDebugSteps = nArgs ? g_aArgs[1].nValue : 1;
g_nDebugStepCycles = 0;
g_nDebugStepStart = regs.pc;
g_nDebugStepUntil = -1;
g_nAppMode = MODE_STEPPING;
FrameRefreshStatus(DRAW_TITLE);
DebugContinueStepping();
return UPDATE_ALL; // TODO: Verify // 0
}
//===========================================================================
Update_t CmdTraceFile (int nArgs)
{
char sText[ CONSOLE_WIDTH ] = "";
if (g_hTraceFile)
{
fclose( g_hTraceFile );
g_hTraceFile = NULL;
ConsoleBufferPush( "Trace stopped." );
}
else
{
char sFileName[MAX_PATH];
if (nArgs)
strcpy( sFileName, g_aArgs[1].sArg );
else
strcpy( sFileName, g_sFileNameTrace );
g_bTraceFileWithVideoScanner = (nArgs >= 2);
char sFilePath[ MAX_PATH ];
strcpy(sFilePath, g_sCurrentDir); // TODO: g_sDebugDir
strcat(sFilePath, sFileName );
g_hTraceFile = fopen( sFilePath, "wt" );
if (g_hTraceFile)
{
const char* pTextHdr = g_bTraceFileWithVideoScanner ? "Trace (with video info) started: %s"
: "Trace started: %s";
ConsoleBufferPushFormat( sText, pTextHdr, sFilePath );
g_bTraceHeader = true;
}
else
{
ConsoleBufferPushFormat( sText, "Trace ERROR: %s", sFilePath );
}
}
2015-02-17 22:00:52 +00:00
ConsoleBufferToDisplay();
return UPDATE_ALL; // TODO: Verify // 0
}
//===========================================================================
Update_t CmdTraceLine (int nArgs)
{
g_nDebugSteps = nArgs ? g_aArgs[1].nValue : 1;
g_nDebugStepCycles = 1;
g_nDebugStepStart = regs.pc;
g_nDebugStepUntil = -1;
g_nAppMode = MODE_STEPPING;
FrameRefreshStatus(DRAW_TITLE);
DebugContinueStepping();
return UPDATE_ALL; // TODO: Verify // 0
}
// Unassemble
//===========================================================================
Update_t CmdUnassemble (int nArgs)
{
if (! nArgs)
return Help_Arg_1( CMD_UNASSEMBLE );
WORD nAddress = g_aArgs[1].nValue;
g_nDisasmTopAddress = nAddress;
DisasmCalcCurFromTopAddress();
DisasmCalcBotFromTopAddress();
return UPDATE_DISASM;
}
//===========================================================================
Update_t CmdKey (int nArgs)
{
KeybQueueKeypress(
nArgs ? g_aArgs[1].nValue ? g_aArgs[1].nValue : g_aArgs[1].sArg[0] : TEXT(' '), 1); // FIXME!!!
return UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
Update_t CmdIn (int nArgs)
{
if (!nArgs)
return Help_Arg_1( CMD_IN );
WORD nAddress = g_aArgs[1].nValue;
IORead[ (nAddress>>4) & 0xF ](regs.pc, nAddress & 0xFF, 0, 0, 0); // g_aArgs[1].nValue
return UPDATE_CONSOLE_DISPLAY; // TODO: Verify // 1
}
//===========================================================================
Update_t CmdJSR (int nArgs)
{
if (! nArgs)
return Help_Arg_1( CMD_JSR );
WORD nAddress = g_aArgs[1].nValue & _6502_MEM_END;
// Mark Stack Page as dirty
*(memdirty+(regs.sp >> 8)) = 1;
// Push PC onto stack
*(mem + regs.sp) = ((regs.pc >> 8) & 0xFF);
regs.sp--;
*(mem + regs.sp) = ((regs.pc >> 0) - 1) & 0xFF;
regs.sp--;
// Jump to new address
regs.pc = nAddress;
return UPDATE_ALL;
}
//===========================================================================
Update_t CmdNOP (int nArgs)
{
int iOpcode;
int iOpmode;
int nOpbytes;
_6502_GetOpcodeOpmodeOpbyte( iOpcode, iOpmode, nOpbytes );
while (nOpbytes--)
{
*(mem+regs.pc + nOpbytes) = 0xEA;
}
return UPDATE_ALL;
}
//===========================================================================
Update_t CmdOut (int nArgs)
{
// if ((!nArgs) ||
// ((g_aArgs[1].sArg[0] != TEXT('0')) && (!g_aArgs[1].nValue) && (!GetAddress(g_aArgs[1].sArg))))
// return DisplayHelp(CmdInput);
if (!nArgs)
Help_Arg_1( CMD_OUT );
WORD nAddress = g_aArgs[1].nValue;
IOWrite[ (nAddress>>4) & 0xF ] (regs.pc, nAddress & 0xFF, 1, g_aArgs[2].nValue & 0xFF, 0);
return UPDATE_CONSOLE_DISPLAY; // TODO: Verify // 1
}
// Color __________________________________________________________________________________________
void _ColorPrint( int iColor, COLORREF nColor )
{
int R = (nColor >> 0) & 0xFF;
int G = (nColor >> 8) & 0xFF;
int B = (nColor >> 16) & 0xFF;
TCHAR sText[ CONSOLE_WIDTH ];
ConsoleBufferPushFormat( sText, " Color %01X: %02X %02X %02X", iColor, R, G, B ); // TODO: print name of colors!
}
void _CmdColorGet( const int iScheme, const int iColor )
{
if (iColor < NUM_DEBUG_COLORS)
{
// COLORREF nColor = g_aColors[ iScheme ][ iColor ];
DebugColors_e eColor = static_cast<DebugColors_e>( iColor );
COLORREF nColor = DebuggerGetColor( eColor );
_ColorPrint( iColor, nColor );
}
else
{
TCHAR sText[ CONSOLE_WIDTH ];
wsprintf( sText, "Color: %d\nOut of range!", iColor );
MessageBox( g_hFrameWindow, sText, TEXT("ERROR"), MB_OK );
}
}
//===========================================================================
Update_t CmdConfigColorMono (int nArgs)
{
int iScheme = 0;
if (g_iCommand == CMD_CONFIG_COLOR)
iScheme = SCHEME_COLOR;
if (g_iCommand == CMD_CONFIG_MONOCHROME)
iScheme = SCHEME_MONO;
if (g_iCommand == CMD_CONFIG_BW)
iScheme = SCHEME_BW;
if ((iScheme < 0) || (iScheme > NUM_COLOR_SCHEMES)) // sanity check
iScheme = SCHEME_COLOR;
if (! nArgs)
{
g_iColorScheme = iScheme;
UpdateDisplay( UPDATE_BACKGROUND );
return UPDATE_ALL;
}
// if ((nArgs != 1) && (nArgs != 4))
if (nArgs > 4)
return HelpLastCommand();
int iColor = g_aArgs[ 1 ].nValue;
if ((iColor < 0) || iColor >= NUM_DEBUG_COLORS)
return HelpLastCommand();
int iParam;
int nFound = FindParam( g_aArgs[ 1 ].sArg, MATCH_EXACT, iParam, _PARAM_GENERAL_BEGIN, _PARAM_GENERAL_END );
if (nFound)
{
if (iParam == PARAM_RESET)
{
_ConfigColorsReset();
ConsoleBufferPush( TEXT(" Resetting colors." ) );
}
else
if (iParam == PARAM_SAVE)
{
}
else
if (iParam == PARAM_LOAD)
{
}
else
return HelpLastCommand();
}
else
{
if (nArgs == 1)
{ // Dump Color
_CmdColorGet( iScheme, iColor );
return ConsoleUpdate();
}
else
if (nArgs == 4)
{ // Set Color
int R = g_aArgs[2].nValue & 0xFF;
int G = g_aArgs[3].nValue & 0xFF;
int B = g_aArgs[4].nValue & 0xFF;
COLORREF nColor = RGB(R,G,B);
DebuggerSetColor( iScheme, iColor, nColor );
}
else
return HelpLastCommand();
}
return UPDATE_ALL;
}
Update_t CmdConfigHColor (int nArgs)
{
if ((nArgs != 1) && (nArgs != 4))
return Help_Arg_1( g_iCommand );
int iColor = g_aArgs[ 1 ].nValue;
if ((iColor < 0) || iColor >= NUM_DEBUG_COLORS)
return Help_Arg_1( g_iCommand );
if (nArgs == 1)
{ // Dump Color
// _CmdColorGet( iScheme, iColor );
// TODO/FIXME: must export AW_Video.cpp: static LPBITMAPINFO framebufferinfo;
// COLORREF nColor = g_aColors[ iScheme ][ iColor ];
// _ColorPrint( iColor, nColor );
return ConsoleUpdate();
}
else
{ // Set Color
// DebuggerSetColor( iScheme, iColor );
return UPDATE_ALL;
}
}
// Config _________________________________________________________________________________________
//===========================================================================
Update_t CmdConfigLoad (int nArgs)
{
// TODO: CmdConfigRun( gaFileNameConfig )
// TCHAR sFileNameConfig[ MAX_PATH ];
if (! nArgs)
{
}
// gDebugConfigName
// DEBUGLOAD file // load debugger setting
return UPDATE_ALL;
}
//===========================================================================
bool ConfigSave_BufferToDisk ( char *pFileName, ConfigSave_t eConfigSave )
{
bool bStatus = false;
char sModeCreate[] = "w+t";
char sModeAppend[] = "a+t";
char *pMode = NULL;
if (eConfigSave == CONFIG_SAVE_FILE_CREATE)
pMode = sModeCreate;
else
if (eConfigSave == CONFIG_SAVE_FILE_APPEND)
pMode = sModeAppend;
char sFileName[ MAX_PATH ];
_tcscpy(sFileName, g_sCurrentDir); // TODO: g_sDebugDir
_tcscat(sFileName, pFileName );
FILE *hFile = fopen( pFileName, pMode );
if (hFile)
{
char *pText;
int nLine = g_ConfigState.GetNumLines();
int iLine;
for( iLine = 0; iLine < nLine; iLine++ )
{
pText = g_ConfigState.GetLine( iLine );
if ( pText )
{
fputs( pText, hFile );
}
}
fclose( hFile );
bStatus = true;
}
else
{
}
return bStatus;
}
//===========================================================================
void ConfigSave_PrepareHeader ( const Parameters_e eCategory, const Commands_e eCommandClear )
{
char sText[ CONSOLE_WIDTH ];
sprintf( sText, "%s %s = %s\n"
, g_aTokens[ TOKEN_COMMENT_EOL ].sToken
, g_aParameters[ PARAM_CATEGORY ].m_sName
2015-07-30 14:08:18 +00:00
, g_aParameters[ eCategory ].m_sName
);
g_ConfigState.PushLine( sText );
sprintf( sText, "%s %s\n"
, g_aCommands[ eCommandClear ].m_sName
, g_aParameters[ PARAM_WILDSTAR ].m_sName
);
g_ConfigState.PushLine( sText );
}
// Save Debugger Settings
//===========================================================================
Update_t CmdConfigSave (int nArgs)
{
TCHAR sFilename[ MAX_PATH ];
_tcscpy( sFilename, g_sProgramDir ); // TODO: g_sDebugDir
_tcscat( sFilename, g_sFileNameConfig );
/*
HANDLE hFile = CreateFile( sfilename,
GENERIC_WRITE,
0,
(LPSECURITY_ATTRIBUTES)NULL,
CREATE_ALWAYS,
FILE_ATTRIBUTE_NORMAL | FILE_FLAG_SEQUENTIAL_SCAN,
NULL);
if (hFile != INVALID_HANDLE_VALUE)
{
void *pSrc;
int nLen;
DWORD nPut;
// FIXME: Should be saving in Text format, not binary!
int nVersion = CURRENT_VERSION;
pSrc = (void *) &nVersion;
nLen = sizeof( nVersion );
WriteFile( hFile, pSrc, nLen, &nPut, NULL );
pSrc = (void *) & g_aColorPalette;
nLen = sizeof( g_aColorPalette );
WriteFile( hFile, pSrc, nLen, &nPut, NULL );
pSrc = (void *) & g_aColorIndex;
nLen = sizeof( g_aColorIndex );
WriteFile( hFile, pSrc, nLen, &nPut, NULL );
CloseHandle( hFile );
}
*/
// Bookmarks
CmdBookmarkSave( 0 );
// Breakpoints
CmdBreakpointSave( 0 );
// Watches
CmdWatchSave( 0 );
// Zeropage pointers
CmdZeroPageSave( 0 );
// Color Palete
// Color Index
// CmdColorSave( 0 );
// UserSymbol
// History
return UPDATE_CONSOLE_DISPLAY;
}
// Config - Disasm ________________________________________________________________________________
//===========================================================================
Update_t CmdConfigDisasm( int nArgs )
{
int iParam = 0;
TCHAR sText[ CONSOLE_WIDTH ];
bool bDisplayCurrentSettings = false;
// if (! _tcscmp( g_aArgs[ 1 ].sArg, g_aParameters[ PARAM_WILDSTAR ].m_sName ))
if (! nArgs)
{
bDisplayCurrentSettings = true;
nArgs = PARAM_CONFIG_NUM;
}
else
{
if (nArgs > 2)
return Help_Arg_1( CMD_CONFIG_DISASM );
}
for (int iArg = 1; iArg <= nArgs; iArg++ )
{
if (bDisplayCurrentSettings)
iParam = _PARAM_CONFIG_BEGIN + iArg - 1;
else
if (FindParam( g_aArgs[iArg].sArg, MATCH_FUZZY, iParam ))
{
}
switch (iParam)
{
case PARAM_CONFIG_BRANCH:
if ((nArgs > 1) && (! bDisplayCurrentSettings)) // set
2017-08-25 14:22:08 +00:00
{
iArg++;
g_iConfigDisasmBranchType = g_aArgs[ iArg ].nValue;
if (g_iConfigDisasmBranchType < 0)
g_iConfigDisasmBranchType = 0;
if (g_iConfigDisasmBranchType >= NUM_DISASM_BRANCH_TYPES)
g_iConfigDisasmBranchType = NUM_DISASM_BRANCH_TYPES - 1;
}
else // show current setting
{
ConsoleBufferPushFormat( sText, TEXT( "Branch Type: %d" ), g_iConfigDisasmBranchType );
ConsoleBufferToDisplay();
}
break;
2017-08-25 14:22:08 +00:00
case PARAM_CONFIG_CLICK: // GH#462
if ((nArgs > 1) && (! bDisplayCurrentSettings)) // set
{
iArg++;
g_bConfigDisasmClick = (g_aArgs[ iArg ].nValue) & 7; // MAGIC NUMBER
}
// else // Always show current setting -- TODO: Fix remaining disasm to show current setting when set
{
const char *aClickKey[8] =
{
"" // 0
,"Alt " // 1
,"Ctrl " // 2
,"Alt+Ctrl " // 3
,"Shift " // 4
,"Shift+Alt " // 5
,"Shift+Ctrl " // 6
,"Shift+Ctarl+Alt " // 7
};
ConsoleBufferPushFormat( sText, TEXT( "Click: %d = %sLeft click" ), g_bConfigDisasmClick, aClickKey[ g_bConfigDisasmClick & 7 ] );
ConsoleBufferToDisplay();
}
break;
case PARAM_CONFIG_COLON:
if ((nArgs > 1) && (! bDisplayCurrentSettings)) // set
{
iArg++;
g_bConfigDisasmAddressColon = (g_aArgs[ iArg ].nValue) ? true : false;
}
else // show current setting
{
int iState = g_bConfigDisasmAddressColon ? PARAM_ON : PARAM_OFF;
ConsoleBufferPushFormat( sText, TEXT( "Colon: %s" ), g_aParameters[ iState ].m_sName );
ConsoleBufferToDisplay();
}
break;
case PARAM_CONFIG_OPCODE:
if ((nArgs > 1) && (! bDisplayCurrentSettings)) // set
{
iArg++;
g_bConfigDisasmOpcodesView = (g_aArgs[ iArg ].nValue) ? true : false;
}
else
{
int iState = g_bConfigDisasmOpcodesView ? PARAM_ON : PARAM_OFF;
ConsoleBufferPushFormat( sText, TEXT( "Opcodes: %s" ), g_aParameters[ iState ].m_sName );
ConsoleBufferToDisplay();
}
break;
case PARAM_CONFIG_POINTER:
if ((nArgs > 1) && (! bDisplayCurrentSettings)) // set
{
iArg++;
g_bConfigInfoTargetPointer = (g_aArgs[ iArg ].nValue) ? true : false;
}
else
{
int iState = g_bConfigInfoTargetPointer ? PARAM_ON : PARAM_OFF;
ConsoleBufferPushFormat( sText, TEXT( "Info Target Pointer: %s" ), g_aParameters[ iState ].m_sName );
ConsoleBufferToDisplay();
}
break;
case PARAM_CONFIG_SPACES:
if ((nArgs > 1) && (! bDisplayCurrentSettings)) // set
{
iArg++;
g_bConfigDisasmOpcodeSpaces = (g_aArgs[ iArg ].nValue) ? true : false;
}
else
{
int iState = g_bConfigDisasmOpcodeSpaces ? PARAM_ON : PARAM_OFF;
ConsoleBufferPushFormat( sText, TEXT( "Opcode spaces: %s" ), g_aParameters[ iState ].m_sName );
ConsoleBufferToDisplay();
}
break;
case PARAM_CONFIG_TARGET:
if ((nArgs > 1) && (! bDisplayCurrentSettings)) // set
{
iArg++;
g_iConfigDisasmTargets = g_aArgs[ iArg ].nValue;
if (g_iConfigDisasmTargets < 0)
g_iConfigDisasmTargets = 0;
if (g_iConfigDisasmTargets >= NUM_DISASM_TARGET_TYPES)
g_iConfigDisasmTargets = NUM_DISASM_TARGET_TYPES - 1;
}
else // show current setting
{
ConsoleBufferPushFormat( sText, TEXT( "Target: %d" ), g_iConfigDisasmTargets );
ConsoleBufferToDisplay();
}
break;
default:
return Help_Arg_1( CMD_CONFIG_DISASM ); // CMD_CONFIG_DISASM_OPCODE );
}
// }
// else
// return Help_Arg_1( CMD_CONFIG_DISASM );
}
return UPDATE_CONSOLE_DISPLAY | UPDATE_DISASM;
}
// Config - Font __________________________________________________________________________________
//===========================================================================
Update_t CmdConfigFontLoad( int nArgs )
{
return UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
Update_t CmdConfigFontSave( int nArgs )
{
return UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
Update_t CmdConfigFontMode( int nArgs )
{
if (nArgs != 2)
return Help_Arg_1( CMD_CONFIG_FONT );
int nMode = g_aArgs[ 2 ].nValue;
if ((nMode < 0) || (nMode >= NUM_FONT_SPACING))
return Help_Arg_1( CMD_CONFIG_FONT );
g_iFontSpacing = nMode;
_UpdateWindowFontHeights( g_aFontConfig[ FONT_DISASM_DEFAULT ]._nFontHeight );
return UPDATE_CONSOLE_DISPLAY | UPDATE_DISASM;
}
//===========================================================================
Update_t CmdConfigFont (int nArgs)
{
int iArg;
if (! nArgs)
return CmdConfigGetFont( nArgs );
else
if (nArgs <= 2) // nArgs
{
iArg = 1;
// FONT * is undocumented, like VERSION *
if ((! _tcscmp( g_aArgs[ iArg ].sArg, g_aParameters[ PARAM_WILDSTAR ].m_sName )) ||
(! _tcscmp( g_aArgs[ iArg ].sArg, g_aParameters[ PARAM_MEM_SEARCH_WILD ].m_sName )) )
{
TCHAR sText[ CONSOLE_WIDTH ];
ConsoleBufferPushFormat( sText, "Lines: %d Font Px: %d Line Px: %d"
, g_nDisasmDisplayLines
, g_aFontConfig[ FONT_DISASM_DEFAULT ]._nFontHeight
, g_aFontConfig[ FONT_DISASM_DEFAULT ]._nLineHeight );
ConsoleBufferToDisplay();
return UPDATE_CONSOLE_DISPLAY;
}
int iFound;
int nFound;
nFound = FindParam( g_aArgs[iArg].sArg, MATCH_EXACT, iFound, _PARAM_GENERAL_BEGIN, _PARAM_GENERAL_END );
if (nFound)
{
switch( iFound )
{
case PARAM_LOAD:
return CmdConfigFontLoad( nArgs );
break;
case PARAM_SAVE:
return CmdConfigFontSave( nArgs );
break;
// TODO: FONT SIZE #
// TODO: AA {ON|OFF}
default:
break;
}
}
nFound = FindParam( g_aArgs[iArg].sArg, MATCH_EXACT, iFound, _PARAM_FONT_BEGIN, _PARAM_FONT_END );
if (nFound)
{
if (iFound == PARAM_FONT_MODE)
return CmdConfigFontMode( nArgs );
}
return CmdConfigSetFont( nArgs );
}
return Help_Arg_1( CMD_CONFIG_FONT );
}
// Only for FONT_DISASM_DEFAULT !
//===========================================================================
void _UpdateWindowFontHeights( int nFontHeight )
{
if (nFontHeight)
{
int nConsoleTopY = GetConsoleTopPixels( g_nConsoleDisplayLines );
int nHeight = 0;
if (g_iFontSpacing == FONT_SPACING_CLASSIC)
{
nHeight = nFontHeight + 1;
g_nDisasmDisplayLines = nConsoleTopY / nHeight;
}
else
if (g_iFontSpacing == FONT_SPACING_CLEAN)
{
nHeight = nFontHeight;
g_nDisasmDisplayLines = nConsoleTopY / nHeight;
}
else
if (g_iFontSpacing == FONT_SPACING_COMPRESSED)
{
nHeight = nFontHeight - 1;
g_nDisasmDisplayLines = (nConsoleTopY + nHeight) / nHeight; // Ceil()
}
g_aFontConfig[ FONT_DISASM_DEFAULT ]._nLineHeight = nHeight;
// int nHeightOptimal = (nHeight0 + nHeight1) / 2;
// int nLinesOptimal = nConsoleTopY / nHeightOptimal;
// g_nDisasmDisplayLines = nLinesOptimal;
WindowUpdateSizes();
}
}
//===========================================================================
bool _CmdConfigFont ( int iFont, LPCSTR pFontName, int iPitchFamily, int nFontHeight )
{
bool bStatus = false;
HFONT hFont = (HFONT) 0;
FontConfig_t *pFont = NULL;
if (iFont < NUM_FONTS)
pFont = & g_aFontConfig[ iFont ];
if (pFontName)
{
// int nFontHeight = g_nFontHeight - 1;
int bAntiAlias = (nFontHeight < 14) ? DEFAULT_QUALITY : ANTIALIASED_QUALITY;
// Try allow new font
hFont = CreateFont(
nFontHeight
, 0 // Width
, 0 // Escapement
, 0 // Orientatin
, FW_MEDIUM // Weight
, 0 // Italic
, 0 // Underline
, 0 // Strike Out
, DEFAULT_CHARSET // OEM_CHARSET
, OUT_DEFAULT_PRECIS
, CLIP_DEFAULT_PRECIS
, bAntiAlias // ANTIALIASED_QUALITY // DEFAULT_QUALITY
, iPitchFamily // HACK: MAGIC #: 4
, pFontName );
if (hFont)
{
if (iFont == FONT_DISASM_DEFAULT)
_UpdateWindowFontHeights( nFontHeight );
_tcsncpy( pFont->_sFontName, pFontName, MAX_FONT_NAME-1 );
pFont->_sFontName[ MAX_FONT_NAME-1 ] = 0;
HDC hDC = FrameGetDC();
TEXTMETRIC tm;
GetTextMetrics(hDC, &tm);
SIZE size;
TCHAR sText[] = "W";
int nLen = 1;
int nFontWidthAvg;
int nFontWidthMax;
// if (! (tm.tmPitchAndFamily & TMPF_FIXED_PITCH)) // Windows has this bitflag reversed!
// { // Proportional font?
// bool bStop = true;
// }
// GetCharWidth32() doesn't work with TrueType Fonts
if (GetTextExtentPoint32( hDC, sText, nLen, &size ))
{
nFontWidthAvg = tm.tmAveCharWidth;
nFontWidthMax = size.cx;
}
else
{
// Font Name Avg Max "W"
// Arial 7 8 11
// Courier 5 32 11
// Courier New 7 14
nFontWidthAvg = tm.tmAveCharWidth;
nFontWidthMax = tm.tmMaxCharWidth;
}
if (! nFontWidthAvg)
{
nFontWidthAvg = 7;
nFontWidthMax = 7;
}
FrameReleaseDC();
// DeleteObject( g_hFontDisasm );
// g_hFontDisasm = hFont;
pFont->_hFont = hFont;
pFont->_nFontWidthAvg = nFontWidthAvg;
pFont->_nFontWidthMax = nFontWidthMax;
pFont->_nFontHeight = nFontHeight;
bStatus = true;
}
}
return bStatus;
}
//===========================================================================
Update_t CmdConfigSetFont (int nArgs)
{
#if OLD_FONT
HFONT hFont = (HFONT) 0;
TCHAR *pFontName = NULL;
int nHeight = g_nFontHeight;
int iFontTarget = FONT_DISASM_DEFAULT;
int iFontPitch = FIXED_PITCH | FF_MODERN;
// int iFontMode =
bool bHaveTarget = false;
bool bHaveFont = false;
if (! nArgs)
{ // reset to defaut font
pFontName = g_sFontNameDefault;
}
else
if (nArgs <= 3)
{
int iArg = 1;
pFontName = g_aArgs[1].sArg;
// [DISASM|INFO|CONSOLE] "FontName" [#]
// "FontName" can be either arg 1 or 2
int iFound;
int nFound = FindParam( g_aArgs[iArg].sArg, MATCH_EXACT, iFound, _PARAM_WINDOW_BEGIN, _PARAM_WINDOW_END );
if (nFound)
{
switch( iFound )
{
case PARAM_DISASM : iFontTarget = FONT_DISASM_DEFAULT; iFontPitch = FIXED_PITCH | FF_MODERN ; bHaveTarget = true; break;
case PARAM_INFO : iFontTarget = FONT_INFO ; iFontPitch = FIXED_PITCH | FF_MODERN ; bHaveTarget = true; break;
case PARAM_CONSOLE: iFontTarget = FONT_CONSOLE ; iFontPitch = DEFAULT_PITCH | FF_DECORATIVE; bHaveTarget = true; break;
default:
if (g_aArgs[2].bType != TOKEN_QUOTE_DOUBLE)
return Help_Arg_1( CMD_CONFIG_FONT );
break;
}
if (bHaveTarget)
{
pFontName = g_aArgs[2].sArg;
}
}
else
if (nArgs == 2)
{
nHeight = atoi(g_aArgs[2].sArg );
if ((nHeight < 6) || (nHeight > 36))
nHeight = g_nFontHeight;
}
}
else
{
return Help_Arg_1( CMD_CONFIG_FONT );
}
if (! _CmdConfigFont( iFontTarget, pFontName, iFontPitch, nHeight ))
{
}
#endif
return UPDATE_ALL;
}
//===========================================================================
Update_t CmdConfigGetFont (int nArgs)
{
if (! nArgs)
{
for (int iFont = 0; iFont < NUM_FONTS; iFont++ )
{
TCHAR sText[ CONSOLE_WIDTH ] = TEXT("");
ConsoleBufferPushFormat( sText, " Font: %-20s A:%2d M:%2d",
// g_sFontNameCustom, g_nFontWidthAvg, g_nFontWidthMax );
g_aFontConfig[ iFont ]._sFontName,
g_aFontConfig[ iFont ]._nFontWidthAvg,
g_aFontConfig[ iFont ]._nFontWidthMax );
}
return ConsoleUpdate();
}
return UPDATE_CONSOLE_DISPLAY;
}
// Cursor _________________________________________________________________________________________
// Given an Address, and Line to display it on
// Calculate the address of the top and bottom lines
// @param bUpdateCur
// true = Update Cur based on Top
// false = Update Top & Bot based on Cur
//===========================================================================
void DisasmCalcTopFromCurAddress( bool bUpdateTop )
{
int nLen = ((g_nDisasmWinHeight - g_nDisasmCurLine) * 3); // max 3 opcodes/instruction, is our search window
// Look for a start address that when disassembled,
// will have the cursor on the specified line and address
int iTop = g_nDisasmCurAddress - nLen;
int iCur = g_nDisasmCurAddress;
g_bDisasmCurBad = false;
bool bFound = false;
while (iTop <= iCur)
{
WORD iAddress = iTop;
// int iOpcode;
int iOpmode;
int nOpbytes;
for( int iLine = 0; iLine <= nLen; iLine++ ) // min 1 opcode/instruction
{
// a.
_6502_GetOpmodeOpbyte( iAddress, iOpmode, nOpbytes );
// b.
// _6502_GetOpcodeOpmodeOpbyte( iOpcode, iOpmode, nOpbytes );
if (iLine == g_nDisasmCurLine) // && (iAddress == g_nDisasmCurAddress))
{
if (iAddress == g_nDisasmCurAddress)
// b.
// && (iOpmode != AM_1) &&
// && (iOpmode != AM_2) &&
// && (iOpmode != AM_3) &&
// && _6502_IsOpcodeValid( iOpcode))
{
g_nDisasmTopAddress = iTop;
bFound = true;
break;
}
}
// .20 Fixed: DisasmCalcTopFromCurAddress()
//if ((eMode >= AM_1) && (eMode <= AM_3))
#if 0 // _DEBUG
TCHAR sText[ CONSOLE_WIDTH ];
wsprintf( sText, "%04X : %d bytes\n", iAddress, nOpbytes );
OutputDebugString( sText );
#endif
iAddress += nOpbytes;
}
if (bFound)
{
break;
}
iTop++;
}
if (! bFound)
{
// Well, we're up the creek.
// There is no (valid) solution!
// Basically, there is no address, that when disassembled,
// will put our Address on the cursor Line!
// So, like typical game programming, when we don't like the solution, change the problem!
// if (bUpdateTop)
g_nDisasmTopAddress = g_nDisasmCurAddress;
g_bDisasmCurBad = true; // Bad Disassembler, no opcode for you!
// We reall should move the cursor line to the top for one instruction.
// Moving the cursor line around is not really a good idea, since we're breaking consistency paradigm for the user.
// g_nDisasmCurLine = 0;
#if 0 // _DEBUG
TCHAR sText[ CONSOLE_WIDTH * 2 ];
sprintf( sText, TEXT("DisasmCalcTopFromCurAddress()\n"
"\tTop: %04X\n"
"\tLen: %04X\n"
"\tMissed: %04X"),
g_nDisasmCurAddress - nLen, nLen, g_nDisasmCurAddress );
MessageBox( g_hFrameWindow, sText, "ERROR", MB_OK );
#endif
}
}
//===========================================================================
WORD DisasmCalcAddressFromLines( WORD iAddress, int nLines )
{
while (nLines-- > 0)
{
int iOpmode;
int nOpbytes;
_6502_GetOpmodeOpbyte( iAddress, iOpmode, nOpbytes );
iAddress += nOpbytes;
}
return iAddress;
}
//===========================================================================
void DisasmCalcCurFromTopAddress()
{
g_nDisasmCurAddress = DisasmCalcAddressFromLines( g_nDisasmTopAddress, g_nDisasmCurLine );
}
//===========================================================================
void DisasmCalcBotFromTopAddress( )
{
g_nDisasmBotAddress = DisasmCalcAddressFromLines( g_nDisasmTopAddress, g_nDisasmWinHeight );
}
//===========================================================================
void DisasmCalcTopBotAddress ()
{
DisasmCalcTopFromCurAddress();
DisasmCalcBotFromTopAddress();
}
//===========================================================================
Update_t CmdCursorFollowTarget ( int nArgs )
{
WORD nAddress = 0;
if (_6502_GetTargetAddress( g_nDisasmCurAddress, nAddress ))
{
g_nDisasmCurAddress = nAddress;
if (CURSOR_ALIGN_CENTER == nArgs)
{
WindowUpdateDisasmSize();
}
else
if (CURSOR_ALIGN_TOP == nArgs)
{
g_nDisasmCurLine = 0;
}
DisasmCalcTopBotAddress();
}
return UPDATE_ALL;
}
//===========================================================================
Update_t CmdCursorLineDown (int nArgs)
{
int iOpmode;
int nOpbytes;
_6502_GetOpmodeOpbyte( g_nDisasmCurAddress, iOpmode, nOpbytes ); // g_nDisasmTopAddress
if (g_iWindowThis == WINDOW_DATA)
{
_CursorMoveDownAligned( WINDOW_DATA_BYTES_PER_LINE );
DisasmCalcTopBotAddress();
}
else
if (nArgs) // scroll down by 'n' bytes
{
nOpbytes = nArgs; // HACKL g_aArgs[1].val
g_nDisasmTopAddress += nOpbytes;
g_nDisasmCurAddress += nOpbytes;
g_nDisasmBotAddress += nOpbytes;
DisasmCalcTopBotAddress();
}
else
{
#if DEBUG_SCROLL == 6
// Works except on one case: G FB53, SPACE, DOWN
WORD nTop = g_nDisasmTopAddress;
WORD nCur = g_nDisasmCurAddress + nOpbytes;
if (g_bDisasmCurBad)
{
g_nDisasmCurAddress = nCur;
g_bDisasmCurBad = false;
DisasmCalcTopFromCurAddress();
return UPDATE_DISASM;
}
// Adjust Top until nNewCur is at > Cur
do
{
g_nDisasmTopAddress++;
DisasmCalcCurFromTopAddress();
} while (g_nDisasmCurAddress < nCur);
DisasmCalcCurFromTopAddress();
DisasmCalcBotFromTopAddress();
g_bDisasmCurBad = false;
#endif
g_nDisasmCurAddress += nOpbytes;
_6502_GetOpmodeOpbyte( g_nDisasmTopAddress, iOpmode, nOpbytes );
g_nDisasmTopAddress += nOpbytes;
_6502_GetOpmodeOpbyte( g_nDisasmBotAddress, iOpmode, nOpbytes );
g_nDisasmBotAddress += nOpbytes;
if (g_bDisasmCurBad)
{
// MessageBox( NULL, TEXT("Bad Disassembly of opcodes"), TEXT("Debugger"), MB_OK );
// g_nDisasmCurAddress = nCur;
// g_bDisasmCurBad = false;
// DisasmCalcTopFromCurAddress();
DisasmCalcTopBotAddress();
// return UPDATE_DISASM;
}
g_bDisasmCurBad = false;
}
// Can't use use + nBytes due to Disasm Singularity
// DisasmCalcTopBotAddress();
return UPDATE_DISASM;
}
// C++ Bug, can't have local structs used in STL containers
struct LookAhead_t
{
int _nAddress;
int _iOpcode;
int _iOpmode;
int _nOpbytes;
};
//===========================================================================
Update_t CmdCursorLineUp (int nArgs)
{
int nBytes = 1;
if (g_iWindowThis == WINDOW_DATA)
{
_CursorMoveUpAligned( WINDOW_DATA_BYTES_PER_LINE );
}
else
if (nArgs)
{
nBytes = nArgs; // HACK: g_aArgs[1].nValue
g_nDisasmTopAddress--;
DisasmCalcCurFromTopAddress();
DisasmCalcBotFromTopAddress();
}
else
{
// if (! g_nDisasmCurLine)
// {
// g_nDisasmCurLine = 1;
// DisasmCalcTopFromCurAddress( false );
// g_nDisasmCurLine = 0;
// DisasmCalcCurFromTopAddress();
// DisasmCalcBotFromTopAddress();
// return UPDATE_DISASM;
// }
// SmartLineUp()
// Figure out if we should move up 1, 2, or 3 bytes since we have 2 possible cases:
//
// a) Scroll up by 2 bytes
// xx-2: A9 yy LDA #xx
// xxxx: top
//
// b) Scroll up by 3 bytes
// xx-3: 20 A9 xx JSR $00A9
// xxxx: top of window
//
#define DEBUG_SCROLL 3
#if DEBUG_SCROLL == 1
WORD nCur = g_nDisasmCurAddress - nBytes;
// Adjust Top until nNewCur is at > Cur
do
{
g_nDisasmTopAddress--;
DisasmCalcCurFromTopAddress();
} while (g_nDisasmCurAddress > nCur);
#endif
#if DEBUG_SCROLL == 2
WORD nCur = g_nDisasmCurAddress - nBytes;
int iOpcode;
int iOpmode;
int nOpbytes;
int aOpBytes[ 4 ]; // index is relative offset from cursor
int nLeastDesiredTopAddress = NO_6502_TARGET;
do
{
g_nDisasmTopAddress--;
// _6502_GetOpcodeOpmodeOpbyte( iOpcode, iOpmode, nOpbytes );
iOpcode = _6502_GetOpmodeOpbyte( g_nDisasmTopAddress, iOpmode, nOpbytes );
aOpBytes[ 1 ] = nOpbytes;
// Disasm is kept in sync. Maybe bad opcode, but if no other choices...
if (nOpbytes == 1)
nLeastDesiredTopAddress = g_nDisasmTopAddress;
if ( (iOpmode == AM_1)
|| (iOpmode == AM_2)
|| (iOpmode == AM_3)
|| ! _6502_IsOpcodeValid( iOpcode)
|| (nOpbytes != 1) )
{
g_nDisasmTopAddress--;
DisasmCalcCurFromTopAddress();
iOpcode = _6502_GetOpmodeOpbyte( g_nDisasmTopAddress, iOpmode, nOpbytes );
aOpBytes[ 2 ] = nOpbytes;
if ( (iOpmode == AM_1)
|| (iOpmode == AM_2)
|| (iOpmode == AM_3)
|| ! _6502_IsOpcodeValid( iOpcode)
|| (nOpbytes != 2) )
{
g_nDisasmTopAddress--;
DisasmCalcCurFromTopAddress();
iOpcode = _6502_GetOpmodeOpbyte( g_nDisasmTopAddress, iOpmode, nOpbytes );
aOpBytes[ 3 ] = nOpbytes;
if ( (iOpmode == AM_1)
|| (iOpmode == AM_2)
|| (iOpmode == AM_3)
|| (nOpbytes != 3) )
g_nDisasmTopAddress--;
DisasmCalcCurFromTopAddress();
}
}
DisasmCalcCurFromTopAddress();
} while (g_nDisasmCurAddress > nCur);
#endif
#if DEBUG_SCROLL == 3
// Isn't this the new DisasmCalcTopFromCurAddress() ??
int iOpcode;
int iOpmode;
int nOpbytes;
const int MAX_LOOK_AHEAD = g_nDisasmWinHeight;
static std::vector<LookAhead_t> aTopCandidates;
LookAhead_t tCandidate;
// if (! aBestTop.capacity() )
aTopCandidates.reserve( MAX_LOOK_AHEAD );
aTopCandidates.erase( aTopCandidates.begin(), aTopCandidates.end() );
WORD nTop = g_nDisasmTopAddress;
WORD iTop = 0;
WORD nCur = 0;
do
{
nTop--;
nCur = nTop;
iTop = (g_nDisasmTopAddress - nTop);
for (int iLine = 0; iLine < MAX_LOOK_AHEAD; iLine++ )
{
iOpcode = _6502_GetOpmodeOpbyte( nCur, iOpmode, nOpbytes );
// If address on iLine = g_nDisasmCurLine + 1
if (iLine == (g_nDisasmCurLine + 1))
{
if (nCur == (g_nDisasmCurAddress))
{
iOpcode = _6502_GetOpmodeOpbyte( nTop, iOpmode, nOpbytes );
tCandidate._nAddress = nTop;
tCandidate._iOpcode = iOpcode;
tCandidate._iOpmode = iOpmode;
tCandidate._nOpbytes = nOpbytes;
aTopCandidates.push_back( tCandidate );
}
}
nCur += nOpbytes;
if (nCur > g_nDisasmCurAddress)
break;
}
} while (iTop < MAX_LOOK_AHEAD);
int nCandidates = aTopCandidates.size();
if (nCandidates)
{
int iBest = NO_6502_TARGET;
int iCandidate = 0;
for ( ; iCandidate < nCandidates; iCandidate++ )
{
tCandidate = aTopCandidates.at( iCandidate );
iOpcode = tCandidate._iOpcode;
iOpmode = tCandidate._iOpmode;
if ( (iOpmode != AM_1)
&& (iOpmode != AM_2)
&& (iOpmode != AM_3)
&& _6502_IsOpcodeValid( iOpcode ) )
{
if (g_iConfigDisasmScroll == 1)
{
// Favor min opbytes
if (iBest != NO_6502_TARGET)
iBest = iCandidate;
}
else
if (g_iConfigDisasmScroll == 3)
{
// Favor max opbytes
iBest = iCandidate;
}
}
}
// All were "invalid", pick first choice
if (iBest == NO_6502_TARGET)
iBest = 0;
tCandidate = aTopCandidates.at( iBest );
g_nDisasmTopAddress = tCandidate._nAddress;
DisasmCalcCurFromTopAddress();
DisasmCalcBotFromTopAddress();
g_bDisasmCurBad = false;
}
else
{
// Singularity
g_bDisasmCurBad = true;
// g_nDisasmTopAddress--;
g_nDisasmCurAddress--;
// g_nDisasmBotAddress--;
DisasmCalcTopBotAddress();
}
#endif
}
return UPDATE_DISASM;
}
//===========================================================================
Update_t CmdCursorJumpPC (int nArgs)
{
// TODO: Allow user to decide if they want next g_aOpcodes at
// 1) Centered (traditionaly), or
// 2) Top of the screen
// if (UserPrefs.bNextInstructionCentered)
if (CURSOR_ALIGN_CENTER == nArgs)
{
g_nDisasmCurAddress = regs.pc; // (2)
WindowUpdateDisasmSize(); // calc cur line
}
else
if (CURSOR_ALIGN_TOP == nArgs)
{
g_nDisasmCurAddress = regs.pc; // (2)
g_nDisasmCurLine = 0;
}
DisasmCalcTopBotAddress();
return UPDATE_ALL;
}
//===========================================================================
Update_t CmdCursorJumpRetAddr (int nArgs)
{
WORD nAddress = 0;
if (_6502_GetStackReturnAddress( nAddress ))
{
g_nDisasmCurAddress = nAddress;
if (CURSOR_ALIGN_CENTER == nArgs)
{
WindowUpdateDisasmSize();
}
else
if (CURSOR_ALIGN_TOP == nArgs)
{
g_nDisasmCurLine = 0;
}
DisasmCalcTopBotAddress();
}
return UPDATE_ALL;
}
//===========================================================================
Update_t CmdCursorRunUntil (int nArgs)
{
nArgs = _Arg_1( g_nDisasmCurAddress );
return CmdGo( nArgs, true );
}
//===========================================================================
WORD _ClampAddress( int nAddress )
{
if (nAddress < 0)
nAddress = 0;
if (nAddress > _6502_MEM_END)
nAddress = _6502_MEM_END;
return (WORD) nAddress;
}
// nDelta must be a power of 2
//===========================================================================
void _CursorMoveDownAligned( int nDelta )
{
if (g_iWindowThis == WINDOW_DATA)
{
if (g_aMemDump[0].bActive)
{
if (g_aMemDump[0].eDevice == DEV_MEMORY)
{
g_aMemDump[0].nAddress += nDelta;
g_aMemDump[0].nAddress &= _6502_MEM_END;
}
}
}
else
{
int nNewAddress = g_nDisasmTopAddress; // BUGFIX: g_nDisasmCurAddress;
if ((nNewAddress & (nDelta-1)) == 0)
nNewAddress += nDelta;
else
nNewAddress += (nDelta - (nNewAddress & (nDelta-1))); // .22 Fixed: Shift-PageUp Shift-PageDown Ctrl-PageUp Ctrl-PageDown -> _CursorMoveUpAligned() & _CursorMoveDownAligned()
g_nDisasmTopAddress = nNewAddress & _6502_MEM_END; // .21 Fixed: _CursorMoveUpAligned() & _CursorMoveDownAligned() not wrapping around past FF00 to 0, and wrapping around past 0 to FF00
}
}
// nDelta must be a power of 2
//===========================================================================
void _CursorMoveUpAligned( int nDelta )
{
if (g_iWindowThis == WINDOW_DATA)
{
if (g_aMemDump[0].bActive)
{
if (g_aMemDump[0].eDevice == DEV_MEMORY)
{
g_aMemDump[0].nAddress -= nDelta;
g_aMemDump[0].nAddress &= _6502_MEM_END;
}
}
}
else
{
int nNewAddress = g_nDisasmTopAddress; // BUGFIX: g_nDisasmCurAddress;
if ((nNewAddress & (nDelta-1)) == 0)
nNewAddress -= nDelta;
else
nNewAddress -= (nNewAddress & (nDelta-1)); // .22 Fixed: Shift-PageUp Shift-PageDown Ctrl-PageUp Ctrl-PageDown -> _CursorMoveUpAligned() & _CursorMoveDownAligned()
g_nDisasmTopAddress = nNewAddress & _6502_MEM_END; // .21 Fixed: _CursorMoveUpAligned() & _CursorMoveDownAligned() not wrapping around past FF00 to 0, and wrapping around past 0 to FF00
}
}
//===========================================================================
Update_t CmdCursorPageDown (int nArgs)
{
int iLines = 0; // show at least 1 line from previous display
int nLines = WindowGetHeight( g_iWindowThis );
if (nLines < 2)
nLines = 2;
if (g_iWindowThis == WINDOW_DATA)
{
const int nStep = 128;
_CursorMoveDownAligned( nStep );
}
else
{
// 4
// while (++iLines < nLines)
// CmdCursorLineDown(nArgs);
// 5
nLines -= (g_nDisasmCurLine + 1);
if (nLines < 1)
nLines = 1;
while (iLines++ < nLines)
{
CmdCursorLineDown( 0 ); // nArgs
}
// 6
}
return UPDATE_DISASM;
}
//===========================================================================
Update_t CmdCursorPageDown256 (int nArgs)
{
const int nStep = 256;
_CursorMoveDownAligned( nStep );
return UPDATE_DISASM;
}
//===========================================================================
Update_t CmdCursorPageDown4K (int nArgs)
{
const int nStep = 4096;
_CursorMoveDownAligned( nStep );
return UPDATE_DISASM;
}
//===========================================================================
Update_t CmdCursorPageUp (int nArgs)
{
int iLines = 0; // show at least 1 line from previous display
int nLines = WindowGetHeight( g_iWindowThis );
if (nLines < 2)
nLines = 2;
if (g_iWindowThis == WINDOW_DATA)
{
const int nStep = 128;
_CursorMoveUpAligned( nStep );
}
else
{
// while (++iLines < nLines)
// CmdCursorLineUp(nArgs);
nLines -= (g_nDisasmCurLine + 1);
if (nLines < 1)
nLines = 1;
while (iLines++ < nLines)
{
CmdCursorLineUp( 0 ); // smart line up
// CmdCursorLineUp( -nLines );
}
}
return UPDATE_DISASM;
}
//===========================================================================
Update_t CmdCursorPageUp256 (int nArgs)
{
const int nStep = 256;
_CursorMoveUpAligned( nStep );
return UPDATE_DISASM;
}
//===========================================================================
Update_t CmdCursorPageUp4K (int nArgs)
{
const int nStep = 4096;
_CursorMoveUpAligned( nStep );
return UPDATE_DISASM;
}
//===========================================================================
Update_t CmdCursorSetPC( int nArgs) // TODO rename
{
regs.pc = nArgs; // HACK:
return UPDATE_DISASM;
}
// Flags __________________________________________________________________________________________
//===========================================================================
Update_t CmdFlagClear (int nArgs)
{
int iFlag = (g_iCommand - CMD_FLAG_CLR_C);
if (g_iCommand == CMD_FLAG_CLEAR)
{
int iArg = nArgs;
while (iArg)
{
iFlag = 0;
while (iFlag < _6502_NUM_FLAGS)
{
// if (g_aFlagNames[iFlag] == g_aArgs[iArg].sArg[0])
if (g_aBreakpointSource[ BP_SRC_FLAG_N + iFlag ][0] == g_aArgs[iArg].sArg[0])
{
regs.ps &= ~(1 << iFlag);
}
iFlag++;
}
iArg--;
}
}
else
{
regs.ps &= ~(1 << iFlag);
}
return UPDATE_FLAGS; // 1;
}
//===========================================================================
Update_t CmdFlagSet (int nArgs)
{
int iFlag = (g_iCommand - CMD_FLAG_SET_C);
if (g_iCommand == CMD_FLAG_SET)
{
int iArg = nArgs;
while (iArg)
{
iFlag = 0;
while (iFlag < _6502_NUM_FLAGS)
{
// if (g_aFlagNames[iFlag] == g_aArgs[iArg].sArg[0])
if (g_aBreakpointSource[ BP_SRC_FLAG_N + iFlag ][0] == g_aArgs[iArg].sArg[0])
{
regs.ps |= (1 << iFlag);
}
iFlag++;
}
iArg--;
}
}
else
{
regs.ps |= (1 << iFlag);
}
return UPDATE_FLAGS; // 1;
}
//===========================================================================
Update_t CmdFlag (int nArgs)
{
// if (g_aArgs[0].sArg[0] == g_aParameters[PARAM_FLAG_CLEAR].aName[0] ) // TEXT('R')
if (g_iCommand == CMD_FLAG_CLEAR)
return CmdFlagClear( nArgs );
else
if (g_iCommand == CMD_FLAG_SET)
// if (g_aArgs[0].sArg[0] == g_aParameters[PARAM_FLAG_SET].aName[0] ) // TEXT('S')
return CmdFlagSet( nArgs );
return UPDATE_ALL; // 0;
}
// Disk ___________________________________________________________________________________________
Update_t CmdDisk ( int nArgs)
{
if (! nArgs)
goto _Help;
// check for info command
int iParam = 0;
2015-07-30 15:12:55 +00:00
FindParam( g_aArgs[ 1 ].sArg, MATCH_EXACT, iParam, _PARAM_DISK_BEGIN, _PARAM_DISK_END );
if (iParam == PARAM_DISK_INFO)
{
if (nArgs > 2)
goto _Help;
int drive = DiskGetCurrentDrive() + 1;
char buffer[200] = "";
ConsoleBufferPushFormat(buffer, "D%d at T$%X (%d), phase $%X, offset $%X, %s",
drive,
DiskGetCurrentTrack(),
DiskGetCurrentTrack(),
DiskGetCurrentPhase(),
DiskGetCurrentOffset(),
DiskGetCurrentState());
return ConsoleUpdate();
}
if (nArgs < 2)
goto _Help;
// first param should be drive
int iDrive = g_aArgs[ 1 ].nValue;
if ((iDrive < 1) || (iDrive > 2))
return HelpLastCommand();
iDrive--;
// second param is command
int nFound = FindParam( g_aArgs[ 2 ].sArg, MATCH_EXACT, iParam, _PARAM_DISK_BEGIN, _PARAM_DISK_END );
if (! nFound)
goto _Help;
if (iParam == PARAM_DISK_EJECT)
{
if (nArgs > 2)
goto _Help;
DiskEject( iDrive );
FrameRefreshStatus(DRAW_LEDS | DRAW_BUTTON_DRIVES);
}
else
if (iParam == PARAM_DISK_PROTECT)
{
if (nArgs > 3)
goto _Help;
bool bProtect = true;
if (nArgs == 3)
bProtect = g_aArgs[ 3 ].nValue ? true : false;
DiskSetProtect( iDrive, bProtect );
FrameRefreshStatus(DRAW_LEDS | DRAW_BUTTON_DRIVES);
}
else
{
if (nArgs != 3)
goto _Help;
LPCTSTR pDiskName = g_aArgs[ 3 ].sArg;
// DISK # "Diskname"
DiskInsert( iDrive, pDiskName, IMAGE_FORCE_WRITE_PROTECTED, IMAGE_DONT_CREATE );
FrameRefreshStatus(DRAW_LEDS | DRAW_BUTTON_DRIVES);
}
return UPDATE_CONSOLE_DISPLAY;
_Help:
return HelpLastCommand();
}
// Memory _________________________________________________________________________________________
// TO DO:
// . Add support for dumping Disk][ device
//===========================================================================
bool MemoryDumpCheck (int nArgs, WORD * pAddress_ )
{
if (! nArgs)
return false;
Arg_t *pArg = &g_aArgs[1];
WORD nAddress = pArg->nValue;
bool bUpdate = false;
pArg->eDevice = DEV_MEMORY; // Default
if(strncmp(g_aArgs[1].sArg, "SY", 2) == 0) // SY6522
{
nAddress = (g_aArgs[1].sArg[2] - '0') & 3;
pArg->eDevice = DEV_SY6522;
bUpdate = true;
}
else if(strncmp(g_aArgs[1].sArg, "AY", 2) == 0) // AY8910
{
nAddress = (g_aArgs[1].sArg[2] - '0') & 3;
pArg->eDevice = DEV_AY8910;
bUpdate = true;
}
#ifdef SUPPORT_Z80_EMU
else if(strcmp(g_aArgs[1].sArg, "*AF") == 0)
{
nAddress = *(WORD*)(mem + REG_AF);
bUpdate = true;
}
else if(strcmp(g_aArgs[1].sArg, "*BC") == 0)
{
nAddress = *(WORD*)(mem + REG_BC);
bUpdate = true;
}
else if(strcmp(g_aArgs[1].sArg, "*DE") == 0)
{
nAddress = *(WORD*)(mem + REG_DE);
bUpdate = true;
}
else if(strcmp(g_aArgs[1].sArg, "*HL") == 0)
{
nAddress = *(WORD*)(mem + REG_HL);
bUpdate = true;
}
else if(strcmp(g_aArgs[1].sArg, "*IX") == 0)
{
nAddress = *(WORD*)(mem + REG_IX);
bUpdate = true;
}
#endif
if (bUpdate)
{
pArg->nValue = nAddress;
sprintf( pArg->sArg, "%04X", nAddress );
}
if (pAddress_)
{
*pAddress_ = nAddress;
}
return true;
}
//===========================================================================
Update_t CmdMemoryCompare (int nArgs )
{
if (nArgs < 3)
return Help_Arg_1( CMD_MEMORY_COMPARE );
WORD nSrcAddr = g_aArgs[1].nValue;
WORD nDstAddr = g_aArgs[3].nValue;
WORD nSrcSymAddr;
WORD nDstSymAddr;
if (!nSrcAddr)
{
nSrcSymAddr = GetAddressFromSymbol( g_aArgs[1].sArg );
if (nSrcAddr != nSrcSymAddr)
nSrcAddr = nSrcSymAddr;
}
if (!nDstAddr)
{
nDstSymAddr = GetAddressFromSymbol( g_aArgs[3].sArg );
if (nDstAddr != nDstSymAddr)
nDstAddr = nDstSymAddr;
}
// if ((!nSrcAddr) || (!nDstAddr))
// return Help_Arg_1( CMD_MEMORY_COMPARE );
return UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
static Update_t _CmdMemoryDump (int nArgs, int iWhich, int iView )
{
WORD nAddress = 0;
if( ! MemoryDumpCheck(nArgs, & nAddress ) )
{
return Help_Arg_1( g_iCommand );
}
g_aMemDump[iWhich].nAddress = nAddress;
g_aMemDump[iWhich].eDevice = g_aArgs[1].eDevice;
g_aMemDump[iWhich].bActive = true;
g_aMemDump[iWhich].eView = (MemoryView_e) iView;
return UPDATE_MEM_DUMP; // TODO: This really needed? Don't think we do any actual ouput
}
//===========================================================================
bool _MemoryCheckMiniDump ( int iWhich )
{
if ((iWhich < 0) || (iWhich > NUM_MEM_MINI_DUMPS))
{
TCHAR sText[ CONSOLE_WIDTH ];
wsprintf( sText, TEXT(" Only %d memory mini dumps"), NUM_MEM_MINI_DUMPS );
ConsoleDisplayError( sText );
return true;
}
return false;
}
//===========================================================================
Update_t CmdMemoryMiniDumpHex (int nArgs)
{
int iWhich = g_iCommand - CMD_MEM_MINI_DUMP_HEX_1;
if (_MemoryCheckMiniDump( iWhich ))
return UPDATE_CONSOLE_DISPLAY;
return _CmdMemoryDump(nArgs, iWhich, MEM_VIEW_HEX );
}
//===========================================================================
Update_t CmdMemoryMiniDumpAscii (int nArgs)
{
int iWhich = g_iCommand - CMD_MEM_MINI_DUMP_ASCII_1;
if (_MemoryCheckMiniDump( iWhich ))
return UPDATE_CONSOLE_DISPLAY;
return _CmdMemoryDump(nArgs, iWhich, MEM_VIEW_ASCII );
}
//===========================================================================
Update_t CmdMemoryMiniDumpApple (int nArgs)
{
int iWhich = g_iCommand - CMD_MEM_MINI_DUMP_APPLE_1;
if (_MemoryCheckMiniDump( iWhich ))
return UPDATE_CONSOLE_DISPLAY;
return _CmdMemoryDump(nArgs, iWhich, MEM_VIEW_APPLE ); // MEM_VIEW_TXT_LO );
}
//===========================================================================
//Update_t CmdMemoryMiniDumpLow (int nArgs)
//{
// int iWhich = g_iCommand - CMD_MEM_MINI_DUMP_TXT_LO_1;
// if (_MemoryCheckMiniDump( iWhich ))
// return UPDATE_CONSOLE_DISPLAY;
//
// return _CmdMemoryDump(nArgs, iWhich, MEM_VIEW_APPLE ); // MEM_VIEW_TXT_LO );
//}
//===========================================================================
//Update_t CmdMemoryMiniDumpHigh (int nArgs)
//{
// int iWhich = g_iCommand - CMD_MEM_MINI_DUMP_TXT_HI_1;
// if (_MemoryCheckMiniDump( iWhich ))
// return UPDATE_CONSOLE_DISPLAY;
//
// return _CmdMemoryDump(nArgs, iWhich, MEM_VIEW_APPLE ); // MEM_VIEW_TXT_HI );
//}
//===========================================================================
Update_t CmdMemoryEdit (int nArgs)
{
return UPDATE_CONSOLE_DISPLAY;
}
// MEB addr 8_bit_value
//===========================================================================
Update_t CmdMemoryEnterByte (int nArgs)
{
if ((nArgs < 2) ||
((g_aArgs[2].sArg[0] != TEXT('0')) && (!g_aArgs[2].nValue))) // arg2 not numeric or not specified
{
Help_Arg_1( CMD_MEMORY_ENTER_WORD );
}
WORD nAddress = g_aArgs[1].nValue;
while (nArgs >= 2)
{
WORD nData = g_aArgs[nArgs].nValue;
if( nData > 0xFF)
{
*(mem + nAddress + nArgs - 2) = (BYTE)(nData >> 0);
*(mem + nAddress + nArgs - 1) = (BYTE)(nData >> 8);
}
else
{
*(mem + nAddress+nArgs-2) = (BYTE)nData;
}
*(memdirty+(nAddress >> 8)) = 1;
nArgs--;
}
return UPDATE_ALL;
}
// MEW addr 16-bit_vaue
//===========================================================================
Update_t CmdMemoryEnterWord (int nArgs)
{
if ((nArgs < 2) ||
((g_aArgs[2].sArg[0] != TEXT('0')) && (!g_aArgs[2].nValue))) // arg2 not numeric or not specified
{
Help_Arg_1( CMD_MEMORY_ENTER_WORD );
}
WORD nAddress = g_aArgs[1].nValue;
while (nArgs >= 2)
{
WORD nData = g_aArgs[nArgs].nValue;
// Little Endian
*(mem + nAddress + nArgs - 2) = (BYTE)(nData >> 0);
*(mem + nAddress + nArgs - 1) = (BYTE)(nData >> 8);
*(memdirty+(nAddress >> 8)) |= 1;
nArgs--;
}
return UPDATE_ALL;
}
//===========================================================================
void MemMarkDirty( WORD nAddressStart, WORD nAddressEnd )
{
for( int iPage = (nAddressStart >> 8); iPage <= (nAddressEnd >> 8); iPage++ )
{
*(memdirty+iPage) = 1;
}
}
//===========================================================================
Update_t CmdMemoryFill (int nArgs)
{
// F address end value
// F address,len value
// F address:end value
if ((!nArgs) || (nArgs < 3) || (nArgs > 4))
return Help_Arg_1( CMD_MEMORY_FILL );
WORD nAddress2 = 0;
WORD nAddressStart = 0;
WORD nAddressEnd = 0;
int nAddressLen = 0;
BYTE nValue = 0;
if( nArgs == 3)
{
nAddressStart = g_aArgs[1].nValue;
nAddressEnd = g_aArgs[2].nValue;
nAddressLen = MIN(_6502_MEM_END , nAddressEnd - nAddressStart + 1 );
}
else
{
RangeType_t eRange;
eRange = Range_Get( nAddressStart, nAddress2, 1 );
if (! Range_CalcEndLen( eRange, nAddressStart, nAddress2, nAddressEnd, nAddressLen ))
return Help_Arg_1( CMD_MEMORY_MOVE );
}
#if DEBUG_VAL_2
nBytes = MAX(1,g_aArgs[1].nVal2); // TODO: This actually work??
#endif
if ((nAddressLen > 0) && (nAddressEnd <= _6502_MEM_END))
{
MemMarkDirty( nAddressStart, nAddressEnd );
nValue = g_aArgs[nArgs].nValue & 0xFF;
while( nAddressLen-- ) // v2.7.0.22
{
// TODO: Optimize - split into pre_io, and post_io
if ((nAddress2 < _6502_IO_BEGIN) || (nAddress2 > _6502_IO_END))
{
*(mem + nAddressStart) = nValue;
}
nAddressStart++;
}
}
return UPDATE_ALL; // UPDATE_CONSOLE_DISPLAY;
}
static TCHAR g_sMemoryLoadSaveFileName[ MAX_PATH ] = TEXT("");
2015-01-11 06:47:55 +00:00
// "PWD"
//===========================================================================
Update_t CmdConfigGetDebugDir (int nArgs)
{
if( nArgs != 0 )
return Help_Arg_1( CMD_CONFIG_GET_DEBUG_DIR );
TCHAR sPath[ MAX_PATH + 8 ];
// TODO: debugger dir has no ` CONSOLE_COLOR_ESCAPE_CHAR ?!?!
ConsoleBufferPushFormat( sPath, "Path: %s", g_sCurrentDir );
return ConsoleUpdate();
}
2015-01-11 06:47:55 +00:00
// "CD"
//===========================================================================
Update_t CmdConfigSetDebugDir (int nArgs)
{
if ( nArgs > 1 )
return Help_Arg_1( CMD_CONFIG_SET_DEBUG_DIR );
if ( nArgs == 0 )
return CmdConfigGetDebugDir(0);
#if _WIN32
// http://msdn.microsoft.com/en-us/library/aa365530(VS.85).aspx
// TODO: Support paths prefixed with "\\?\" (for long/unicode pathnames)
if (strncmp("\\\\?\\", g_aArgs[1].sArg, 4) == 0)
return Help_Arg_1( CMD_CONFIG_SET_DEBUG_DIR );
TCHAR sPath[ MAX_PATH + 1 ];
if (g_aArgs[1].sArg[1] == ':') // Absolute
{
_tcscpy( sPath, g_aArgs[1].sArg );
}
else if (g_aArgs[1].sArg[0] == '\\') // Absolute
{
if (g_sCurrentDir[1] == ':')
{
_tcsncpy( sPath, g_sCurrentDir, 2 ); // Prefix with drive letter & colon
sPath[2] = 0;
}
_tcscat( sPath, g_aArgs[1].sArg );
}
else // Relative
{
// TODO: Support ".." - currently just appends (which still works)
_tcscpy( sPath, g_sCurrentDir ); // TODO: debugger dir has no ` CONSOLE_COLOR_ESCAPE_CHAR ?!?!
_tcscat( sPath, g_aArgs[1].sArg );
}
if ( SetCurrentImageDir( sPath ) )
nArgs = 0; // intentional fall into
#else
#error "Need chdir() implemented"
#endif
return CmdConfigGetDebugDir(0); // Show the new PWD
}
//===========================================================================
#if 0 // Original
Update_t CmdMemoryLoad (int nArgs)
{
// BLOAD ["Filename"] , addr[, len]
// BLOAD ["Filename"] , addr[: end]
// 1 2 3 4 5
if (nArgs > 5)
return Help_Arg_1( CMD_MEMORY_LOAD );
bool bHaveFileName = false;
int iArgAddress = 3;
if (g_aArgs[1].bType & TYPE_QUOTED_2)
bHaveFileName = true;
// if (g_aArgs[2].bType & TOKEN_QUOTE_DOUBLE)
// bHaveFileName = true;
if (nArgs > 1)
{
if (g_aArgs[1].bType & TYPE_QUOTED_2)
bHaveFileName = true;
int iArgComma1 = 2;
int iArgAddress = 3;
int iArgComma2 = 4;
int iArgLength = 5;
if (! bHaveFileName)
{
iArgComma1 = 1;
iArgAddress = 2;
iArgComma2 = 3;
iArgLength = 4;
if (nArgs > 4)
return Help_Arg_1( CMD_MEMORY_LOAD );
}
if (g_aArgs[ iArgComma1 ].eToken != TOKEN_COMMA)
return Help_Arg_1( CMD_MEMORY_SAVE );
TCHAR sLoadSaveFilePath[ MAX_PATH ];
_tcscpy( sLoadSaveFilePath, g_sCurrentDir ); // TODO: g_sDebugDir
WORD nAddressStart;
WORD nAddress2 = 0;
WORD nAddressEnd = 0;
int nAddressLen = 0;
RangeType_t eRange;
eRange = Range_Get( nAddressStart, nAddress2, iArgAddress );
if (nArgs > 4)
{
if (eRange == RANGE_MISSING_ARG_2)
{
return Help_Arg_1( CMD_MEMORY_LOAD );
}
// if (eRange == RANGE_MISSING_ARG_2)
if (! Range_CalcEndLen( eRange, nAddressStart, nAddress2, nAddressEnd, nAddressLen ))
{
return Help_Arg_1( CMD_MEMORY_SAVE );
}
}
BYTE *pMemory = new BYTE [ _6502_MEM_END + 1 ]; // default 64K buffer
BYTE *pDst = mem + nAddressStart;
BYTE *pSrc = pMemory;
if (bHaveFileName)
{
_tcscpy( g_sMemoryLoadSaveFileName, g_aArgs[ 1 ].sArg );
}
_tcscat( sLoadSaveFilePath, g_sMemoryLoadSaveFileName );
FILE *hFile = fopen( sLoadSaveFilePath, "rb" );
if (hFile)
{
int nFileBytes = _GetFileSize( hFile );
if (nFileBytes > _6502_MEM_END)
nFileBytes = _6502_MEM_END + 1; // Bank-switched RAMR/ROM is only 16-bit
// Caller didnt' specify how many bytes to read, default to them all
if (nAddressLen == 0)
{
nAddressLen = nFileBytes;
}
size_t nRead = fread( pMemory, nAddressLen, 1, hFile );
if (nRead == 1) // (size_t)nLen)
{
int iByte;
for( iByte = 0; iByte < nAddressLen; iByte++ )
{
*pDst++ = *pSrc++;
}
ConsoleBufferPush( TEXT( "Loaded." ) );
}
fclose( hFile );
}
else
{
ConsoleBufferPush( TEXT( "ERROR: Bad filename" ) );
CmdConfigGetDebugDir( 0 );
TCHAR sFile[ MAX_PATH + 8 ];
ConsoleBufferPushFormat( sFile, "File: %s", g_sMemoryLoadSaveFileName );
}
delete [] pMemory;
}
else
return Help_Arg_1( CMD_MEMORY_LOAD );
return ConsoleUpdate();
}
#else // Extended cmd for loading physical memory
Update_t CmdMemoryLoad (int nArgs)
{
// Active memory:
// BLOAD ["Filename"] , addr[, len]
// BLOAD ["Filename"] , addr[: end]
// 1 2 3 4 5
// Physical 64K memory bank:
// BLOAD ["Filename"] , bank : addr [, len]
// BLOAD ["Filename"] , bank : addr [: end]
// 1 2 3 4 5 6 7
if (nArgs > 7)
return Help_Arg_1( CMD_MEMORY_LOAD );
if (nArgs < 1)
return Help_Arg_1( CMD_MEMORY_LOAD );
bool bHaveFileName = false;
if (g_aArgs[1].bType & TYPE_QUOTED_2)
bHaveFileName = true;
// if (g_aArgs[2].bType & TOKEN_QUOTE_DOUBLE)
// bHaveFileName = true;
int iArgComma1 = 2;
int iArgAddress = 3;
int iArgComma2 = 4;
int iArgLength = 5;
int iArgBank = 3;
int iArgColon = 4;
int nBank = 0;
bool bBankSpecified = false;
if (! bHaveFileName)
{
iArgComma1 = 1;
iArgAddress = 2;
iArgComma2 = 3;
iArgLength = 4;
iArgBank = 2;
iArgColon = 3;
if (nArgs > 6)
return Help_Arg_1( CMD_MEMORY_LOAD );
}
if (nArgs >= 5)
{
if (!(g_aArgs[iArgBank].bType & TYPE_ADDRESS && g_aArgs[iArgColon].eToken == TOKEN_COLON))
return Help_Arg_1( CMD_MEMORY_LOAD );
nBank = g_aArgs[iArgBank].nValue;
bBankSpecified = true;
iArgAddress += 2;
iArgComma2 += 2;
iArgLength += 2;
}
else
{
bBankSpecified = false;
}
struct KnownFileType_t
{
char *pExtension;
int nAddress;
int nLength;
};
const KnownFileType_t aFileTypes[] =
{
{ "" , 0, 0 } // n/a
,{ ".hgr" , 0x2000, 0x2000 }
,{ ".hgr2", 0x4000, 0x2000 }
// TODO: extension ".dhgr", ".dhgr2"
};
const int nFileTypes = sizeof( aFileTypes ) / sizeof( KnownFileType_t );
const KnownFileType_t *pFileType = NULL;
char *pFileName = g_aArgs[ 1 ].sArg;
int nLen = strlen( pFileName );
char *pEnd = pFileName + nLen - 1;
while( pEnd > pFileName )
{
if( *pEnd == '.' )
{
for( int i = 1; i < nFileTypes; i++ )
{
if( strcmp( pEnd, aFileTypes[i].pExtension ) == 0 )
{
pFileType = &aFileTypes[i];
break;
}
}
}
if( pFileType )
break;
pEnd--;
}
if( !pFileType )
if (g_aArgs[ iArgComma1 ].eToken != TOKEN_COMMA)
return Help_Arg_1( CMD_MEMORY_LOAD );
TCHAR sLoadSaveFilePath[ MAX_PATH ];
_tcscpy( sLoadSaveFilePath, g_sCurrentDir ); // TODO: g_sDebugDir
2015-07-30 16:25:53 +00:00
WORD nAddressStart = 0;
WORD nAddress2 = 0;
WORD nAddressEnd = 0;
int nAddressLen = 0;
if( pFileType )
{
nAddressStart = pFileType->nAddress;
nAddressLen = pFileType->nLength;
nAddressEnd = pFileType->nLength + nAddressLen;
}
RangeType_t eRange = RANGE_MISSING_ARG_2;
if (g_aArgs[ iArgComma1 ].eToken == TOKEN_COMMA)
eRange = Range_Get( nAddressStart, nAddress2, iArgAddress );
if( nArgs > iArgComma2 )
{
if (eRange == RANGE_MISSING_ARG_2)
{
return Help_Arg_1( CMD_MEMORY_LOAD );
}
// if (eRange == RANGE_MISSING_ARG_2)
if (! Range_CalcEndLen( eRange, nAddressStart, nAddress2, nAddressEnd, nAddressLen ))
{
return Help_Arg_1( CMD_MEMORY_LOAD );
}
}
if (bHaveFileName)
{
_tcscpy( g_sMemoryLoadSaveFileName, pFileName );
}
_tcscat( sLoadSaveFilePath, g_sMemoryLoadSaveFileName );
BYTE * const pMemBankBase = bBankSpecified ? MemGetBankPtr(nBank) : mem;
if (!pMemBankBase)
{
ConsoleBufferPush( TEXT( "Error: Bank out of range." ) );
return ConsoleUpdate();
}
FILE *hFile = fopen( sLoadSaveFilePath, "rb" );
if (hFile)
{
int nFileBytes = _GetFileSize( hFile );
if (nFileBytes > _6502_MEM_END)
nFileBytes = _6502_MEM_END + 1; // Bank-switched RAM/ROM is only 16-bit
// Caller didn't specify how many bytes to read, default to them all
if (nAddressLen == 0)
{
nAddressLen = nFileBytes;
}
size_t nRead = fread( pMemBankBase+nAddressStart, nAddressLen, 1, hFile );
if (nRead == 1)
{
char text[ 128 ];
ConsoleBufferPushFormat( text, "Loaded @ A$%04X,L$%04X", nAddressStart, nAddressLen );
}
else
{
ConsoleBufferPush( TEXT( "Error loading data." ) );
}
fclose( hFile );
if (bBankSpecified)
{
MemUpdatePaging(TRUE);
}
else
{
for (UINT i=(nAddressStart>>8); i!=((nAddressStart+nAddressLen)>>8); i++)
{
memdirty[i] = 0xff;
}
}
}
else
{
ConsoleBufferPush( TEXT( "ERROR: Bad filename" ) );
CmdConfigGetDebugDir( 0 );
TCHAR sFile[ MAX_PATH + 8 ];
ConsoleBufferPushFormat( sFile, "File: ", g_sMemoryLoadSaveFileName );
}
return ConsoleUpdate();
}
#endif
// dst src : len
//===========================================================================
Update_t CmdMemoryMove (int nArgs)
{
// M destaddr address end
// M destaddr address,len
// M destaddr address:end
// 2000<4000.5FFFM
if (nArgs < 3)
return Help_Arg_1( CMD_MEMORY_MOVE );
WORD nDst = g_aArgs[1].nValue;
// WORD nSrc = g_aArgs[2].nValue;
// WORD nLen = g_aArgs[3].nValue - nSrc;
WORD nAddress2 = 0;
WORD nAddressStart = 0;
WORD nAddressEnd = 0;
int nAddressLen = 0;
RangeType_t eRange;
eRange = Range_Get( nAddressStart, nAddress2, 2 );
// if (eRange == RANGE_MISSING_ARG_2)
if (! Range_CalcEndLen( eRange, nAddressStart, nAddress2, nAddressEnd, nAddressLen ))
return Help_Arg_1( CMD_MEMORY_MOVE );
if ((nAddressLen > 0) && (nAddressEnd <= _6502_MEM_END))
{
MemMarkDirty( nAddressStart, nAddressEnd );
// BYTE *pSrc = mem + nAddressStart;
// BYTE *pDst = mem + nDst;
// BYTE *pEnd = pSrc + nAddressLen;
while( nAddressLen-- ) // v2.7.0.23
{
// TODO: Optimize - split into pre_io, and post_io
if ((nDst < _6502_IO_BEGIN) || (nDst > _6502_IO_END))
{
*(mem + nDst) = *(mem + nAddressStart);
}
nDst++;
nAddressStart++;
}
return UPDATE_ALL;
}
return UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
#if 0 // Original
Update_t CmdMemorySave (int nArgs)
{
// BSAVE ["Filename"] , addr , len
// BSAVE ["Filename"] , addr : end
// 1 2 3 4 5
static WORD nAddressStart = 0;
WORD nAddress2 = 0;
static WORD nAddressEnd = 0;
static int nAddressLen = 0;
if (nArgs > 5)
return Help_Arg_1( CMD_MEMORY_SAVE );
if (! nArgs)
{
TCHAR sLast[ CONSOLE_WIDTH ] = TEXT("");
if (nAddressLen)
{
ConsoleBufferPushFormat( sLast, TEXT("Last saved: $%04X:$%04X, %04X"),
nAddressStart, nAddressEnd, nAddressLen );
}
else
{
ConsoleBufferPush( sLast, TEXT( "Last saved: none" ) );
}
}
else
{
bool bHaveFileName = false;
if (g_aArgs[1].bType & TYPE_QUOTED_2)
bHaveFileName = true;
// if (g_aArgs[1].bType & TOKEN_QUOTE_DOUBLE)
// bHaveFileName = true;
int iArgComma1 = 2;
int iArgAddress = 3;
int iArgComma2 = 4;
int iArgLength = 5;
if (! bHaveFileName)
{
iArgComma1 = 1;
iArgAddress = 2;
iArgComma2 = 3;
iArgLength = 4;
if (nArgs > 4)
return Help_Arg_1( CMD_MEMORY_SAVE );
}
// if ((g_aArgs[ iArgComma1 ].eToken != TOKEN_COMMA) ||
// (g_aArgs[ iArgComma2 ].eToken != TOKEN_COLON))
// return Help_Arg_1( CMD_MEMORY_SAVE );
TCHAR sLoadSaveFilePath[ MAX_PATH ];
_tcscpy( sLoadSaveFilePath, g_sCurrentDir ); // g_sProgramDir
RangeType_t eRange;
eRange = Range_Get( nAddressStart, nAddress2, iArgAddress );
// if (eRange == RANGE_MISSING_ARG_2)
if (! Range_CalcEndLen( eRange, nAddressStart, nAddress2, nAddressEnd, nAddressLen ))
return Help_Arg_1( CMD_MEMORY_SAVE );
if ((nAddressLen) && (nAddressEnd <= _6502_MEM_END))
{
if (! bHaveFileName)
{
sprintf( g_sMemoryLoadSaveFileName, "%04X.%04X.bin", nAddressStart, nAddressLen ); // nAddressEnd );
}
else
{
_tcscpy( g_sMemoryLoadSaveFileName, g_aArgs[ 1 ].sArg );
}
_tcscat( sLoadSaveFilePath, g_sMemoryLoadSaveFileName );
// if (nArgs == 2)
{
BYTE *pMemory = new BYTE [ nAddressLen ];
BYTE *pDst = pMemory;
BYTE *pSrc = mem + nAddressStart;
// memcpy -- copy out of active memory bank
int iByte;
for( iByte = 0; iByte < nAddressLen; iByte++ )
{
*pDst++ = *pSrc++;
}
FILE *hFile = fopen( sLoadSaveFilePath, "rb" );
if (hFile)
{
ConsoleBufferPush( TEXT( "Warning: File already exists. Overwriting." ) );
fclose( hFile );
}
hFile = fopen( sLoadSaveFilePath, "wb" );
if (hFile)
{
size_t nWrote = fwrite( pMemory, nAddressLen, 1, hFile );
if (nWrote == 1) // (size_t)nAddressLen)
{
ConsoleBufferPush( TEXT( "Saved." ) );
}
else
{
ConsoleBufferPush( TEXT( "Error saving." ) );
}
fclose( hFile );
}
delete [] pMemory;
}
}
}
return ConsoleUpdate();
}
#else // Extended cmd for saving physical memory
Update_t CmdMemorySave (int nArgs)
{
// Active memory:
// BSAVE ["Filename"] , addr , len
// BSAVE ["Filename"] , addr : end
// 1 2 3 4 5
// Physical 64K memory bank:
// BSAVE ["Filename"] , bank : addr , len
// BSAVE ["Filename"] , bank : addr : end
// 1 2 3 4 5 6 7
static WORD nAddressStart = 0;
WORD nAddress2 = 0;
static WORD nAddressEnd = 0;
static int nAddressLen = 0;
static int nBank = 0;
static bool bBankSpecified = false;
if (nArgs > 7)
return Help_Arg_1( CMD_MEMORY_SAVE );
if (! nArgs)
{
TCHAR sLast[ CONSOLE_WIDTH ] = TEXT("");
if (nAddressLen)
{
if (!bBankSpecified)
ConsoleBufferPushFormat( sLast, TEXT("Last saved: $%04X:$%04X, %04X"),
nAddressStart, nAddressEnd, nAddressLen );
else
ConsoleBufferPushFormat( sLast, TEXT("Last saved: Bank=%02X $%04X:$%04X, %04X"),
nBank, nAddressStart, nAddressEnd, nAddressLen );
}
else
{
ConsoleBufferPush( TEXT( "Last saved: none" ) );
}
}
else
{
bool bHaveFileName = false;
if (g_aArgs[1].bType & TYPE_QUOTED_2)
bHaveFileName = true;
// if (g_aArgs[1].bType & TOKEN_QUOTE_DOUBLE)
// bHaveFileName = true;
int iArgComma1 = 2;
int iArgAddress = 3;
int iArgComma2 = 4;
int iArgLength = 5;
int iArgBank = 3;
int iArgColon = 4;
if (! bHaveFileName)
{
iArgComma1 = 1;
iArgAddress = 2;
iArgComma2 = 3;
iArgLength = 4;
iArgBank = 2;
iArgColon = 3;
if (nArgs > 6)
return Help_Arg_1( CMD_MEMORY_SAVE );
}
if (nArgs > 5)
{
if (!(g_aArgs[iArgBank].bType & TYPE_ADDRESS && g_aArgs[iArgColon].eToken == TOKEN_COLON))
return Help_Arg_1( CMD_MEMORY_SAVE );
nBank = g_aArgs[iArgBank].nValue;
bBankSpecified = true;
iArgAddress += 2;
iArgComma2 += 2;
iArgLength += 2;
}
else
{
bBankSpecified = false;
}
// if ((g_aArgs[ iArgComma1 ].eToken != TOKEN_COMMA) ||
// (g_aArgs[ iArgComma2 ].eToken != TOKEN_COLON))
// return Help_Arg_1( CMD_MEMORY_SAVE );
TCHAR sLoadSaveFilePath[ MAX_PATH ];
_tcscpy( sLoadSaveFilePath, g_sCurrentDir ); // g_sProgramDir
RangeType_t eRange;
eRange = Range_Get( nAddressStart, nAddress2, iArgAddress );
// if (eRange == RANGE_MISSING_ARG_2)
if (! Range_CalcEndLen( eRange, nAddressStart, nAddress2, nAddressEnd, nAddressLen ))
return Help_Arg_1( CMD_MEMORY_SAVE );
if ((nAddressLen) && (nAddressEnd <= _6502_MEM_END))
{
if (! bHaveFileName)
{
if (! bBankSpecified)
sprintf( g_sMemoryLoadSaveFileName, "%04X.%04X.bin", nAddressStart, nAddressLen );
else
sprintf( g_sMemoryLoadSaveFileName, "%04X.%04X.bank%02X.bin", nAddressStart, nAddressLen, nBank );
}
else
{
_tcscpy( g_sMemoryLoadSaveFileName, g_aArgs[ 1 ].sArg );
}
_tcscat( sLoadSaveFilePath, g_sMemoryLoadSaveFileName );
const BYTE * const pMemBankBase = bBankSpecified ? MemGetBankPtr(nBank) : mem;
if (!pMemBankBase)
{
ConsoleBufferPush( TEXT( "Error: Bank out of range." ) );
return ConsoleUpdate();
}
FILE *hFile = fopen( sLoadSaveFilePath, "rb" );
if (hFile)
{
ConsoleBufferPush( TEXT( "Warning: File already exists. Overwriting." ) );
fclose( hFile );
// TODO: BUG: Is this a bug/feature that we can over-write files and the user has no control over that?
}
hFile = fopen( sLoadSaveFilePath, "wb" );
if (hFile)
{
size_t nWrote = fwrite( pMemBankBase+nAddressStart, nAddressLen, 1, hFile );
if (nWrote == 1)
{
ConsoleBufferPush( TEXT( "Saved." ) );
}
else
{
ConsoleBufferPush( TEXT( "Error saving." ) );
}
fclose( hFile );
}
else
{
ConsoleBufferPush( TEXT( "Error opening file." ) );
}
}
}
return ConsoleUpdate();
}
#endif
char g_aTextScreen[ DEBUG_VIRTUAL_TEXT_HEIGHT * (DEBUG_VIRTUAL_TEXT_WIDTH + 4) ]; // (80 column + CR + LF) * 24 rows + NULL
int g_nTextScreen = 0;
/*
$FBC1 BASCALC IN: A=row, OUT: $28=low, $29=hi
BASCALC PHA ; 000abcde -> temp
LSR ; 0000abcd CARRY=e y /= 2
AND #3 ; 000000cd y & 3
ORA #4 ; 000001cd y | 4
STA $29
PLA ; 000abcde <- temp
AND #$18 ; 000ab000
BCC BASCLC2 ; e=0?
ADC #7F ; 100ab000 yes CARRY=e=1 -> #$+80
BASCLC2 STA $28 ; e00ab000 no CARRY=e=0
ASL ; 00ab0000
ASL ; 0ab00000
ORA $28 ; 0abab000
STA $28 ; eabab000
300:A9 00 20 C1 FB A5 29 A6 28 4C 41 F9
y Hex 000a_bcde 01cd_eaba_b000
0 00 0000_0000 -> $400 0100 0000_0000
1 01 0000_0001 -> $480 0100 1000_0000
2 02 0000_0010 -> $500 0101 0000_0000
3 03 0000_0011 -> $580 0101 1000_0000
4 04 0000_0100 -> $600 0110 0000_0000
5 05 0000_0101 -> $680 0110 1000_0000
6 06 0000_0110 -> $700 0111 0000_0000
7 07 0000_0111 -> $780 0111 1000_0000
8 08 0000_1000 -> $428 0100 0010_1000
9 09 0000_1001 -> $4A8 0100 1010_1000
10 0A 0000_1010 -> $528 0101 0010_1000
11 0B 0000_1011 -> $5A8 0101 1010_1000
12 0C 0000_1100 -> $628 0110 0010_1000
13 0D 0000_1101 -> $6A8 0110 1010_1000
14 0E 0000_1110 -> $728 0111 0010_1000
15 0F 0000_1111 -> $7A8 0111 1010_1000
16 10 0001_0000 -> $450 0100 0101_0000
17 11 0001_0001 -> $4D0 0100 1101_0000
18 12 0001_0010 -> $550 0101 0101_0000
19 13 0001_0011 -> $5D0 0101 1101_0000
20 14 0001_0100 -> $650 0110 0101_0000
21 15 0001_0101 -> $6D0 0110_1101_0000
22 16 0001_0110 -> $750 0111_0101_0000
23 17 0001_0111 -> $7D0 0111 1101 0000
*/
// Convert ctrl characters to displayable
// Note: FormatCharTxtCtrl() and RemapChar()
static char RemapChar(const char c)
{
if ( c < 0x20 )
return c + '@'; // Remap INVERSE control character to NORMAL
else if ( c == 0x7F )
return ' '; // Remap checkboard (DEL) to space
return c;
}
size_t Util_GetDebuggerText( char* &pText_ )
{
char *pBeg = &g_aTextScreen[0];
char *pEnd = &g_aTextScreen[0];
g_nTextScreen = 0;
memset( pBeg, 0, sizeof( g_aTextScreen ) );
memset( g_aDebuggerVirtualTextScreen, 0, sizeof( g_aDebuggerVirtualTextScreen ) );
DebugDisplay();
for( int y = 0; y < DEBUG_VIRTUAL_TEXT_HEIGHT; y++ )
{
for( int x = 0; x < DEBUG_VIRTUAL_TEXT_WIDTH; x++ )
{
char c = g_aDebuggerVirtualTextScreen[y][x];
if( (c < 0x20) || (c >= 0x7F) )
c = ' '; // convert null to spaces to keep everything non-proptional
*pEnd++ = c;
}
#ifdef _WIN32
*pEnd++ = 0x0D; // CR // Windows inserts extra char
#endif
*pEnd++ = 0x0A; // LF // OSX, Linux
}
*pEnd = 0;
g_nTextScreen = pEnd - pBeg;
pText_ = pBeg;
return g_nTextScreen;
}
size_t Util_GetTextScreen ( char* &pText_ )
{
WORD nAddressStart = 0;
char *pBeg = &g_aTextScreen[0];
char *pEnd = &g_aTextScreen[0];
g_nTextScreen = 0;
memset( pBeg, 0, sizeof( g_aTextScreen ) );
Simplified and moved main-loop video update logic into Video.cpp. Removed complex case below for: . VideoHasRefreshed(), 'anyupdates' . VideoCheckPage() Detailed notes below. --- Video updates in ContinueExecution() loop: 'anyupdates' gets set if there were any page-flip(s) in last ~17030 cycles: anyupdates |= VideoHasRefreshed(); ie. VideoRefreshScreen() was called outside of this loop. If there's been a call to VideoRefreshScreen() outside of this loop, and then the video framebuffer gets written to, ie. VideoApparentlyDirty() returns TRUE, then don't call VideoRefreshScreen() from this loop for 3 frames. (If a VideoRefreshScreen() is called outside of this loop then restart the 3 frame count.) So.. if the game is flipping, the VideoApparentlyDirty() will return FALSE (since game writes to other framebuffer). if the game is not flipping, then VideoHasRefreshed() will return FALSE (since no flips occur). Therefore this complex case above probably only arises at a boundary eg. when the game is transitioning between these 2 modes, and so if the emulator does the very occasional screen update in this main loop, it is of no consequence. (I guess this extra logic was to throttle video updates on very old slow machines) --- VideoCheckPage(BOOL bForce) was called twice in main-loop: UnexpectedPage if g_bVideoDisplayPage2 != SW_PAGE2 Once each time through the loop (ie. every 1ms), with bForce=0 if UnexpectedPage && >500ms since last flip then VideoRefreshScreen() Once each video frame (ie. ~17030 cycles) when not flipping, with bForce=1 if UnexpectedPage then VideoRefreshScreen() Basically this was all about supporting FullSpeed mode, and limiting the calls to VideoRefreshScreen().
2014-09-13 21:22:27 +00:00
unsigned int uBank2 = VideoGetSWPAGE2() ? 1 : 0;
LPBYTE g_pTextBank1 = MemGetAuxPtr (0x400 << uBank2);
LPBYTE g_pTextBank0 = MemGetMainPtr(0x400 << uBank2);
for( int y = 0; y < 24; y++ )
{
// nAddressStart = 0x400 + (y%8)*0x80 + (y/8)*0x28;
nAddressStart = ((y&7)<<7) | ((y&0x18)<<2) | (y&0x18); // no 0x400| since using MemGet*Ptr()
for( int x = 0; x < 40; x++ ) // always 40 columns
{
char c; // TODO: FormatCharTxtCtrl() ?
Simplified and moved main-loop video update logic into Video.cpp. Removed complex case below for: . VideoHasRefreshed(), 'anyupdates' . VideoCheckPage() Detailed notes below. --- Video updates in ContinueExecution() loop: 'anyupdates' gets set if there were any page-flip(s) in last ~17030 cycles: anyupdates |= VideoHasRefreshed(); ie. VideoRefreshScreen() was called outside of this loop. If there's been a call to VideoRefreshScreen() outside of this loop, and then the video framebuffer gets written to, ie. VideoApparentlyDirty() returns TRUE, then don't call VideoRefreshScreen() from this loop for 3 frames. (If a VideoRefreshScreen() is called outside of this loop then restart the 3 frame count.) So.. if the game is flipping, the VideoApparentlyDirty() will return FALSE (since game writes to other framebuffer). if the game is not flipping, then VideoHasRefreshed() will return FALSE (since no flips occur). Therefore this complex case above probably only arises at a boundary eg. when the game is transitioning between these 2 modes, and so if the emulator does the very occasional screen update in this main loop, it is of no consequence. (I guess this extra logic was to throttle video updates on very old slow machines) --- VideoCheckPage(BOOL bForce) was called twice in main-loop: UnexpectedPage if g_bVideoDisplayPage2 != SW_PAGE2 Once each time through the loop (ie. every 1ms), with bForce=0 if UnexpectedPage && >500ms since last flip then VideoRefreshScreen() Once each video frame (ie. ~17030 cycles) when not flipping, with bForce=1 if UnexpectedPage then VideoRefreshScreen() Basically this was all about supporting FullSpeed mode, and limiting the calls to VideoRefreshScreen().
2014-09-13 21:22:27 +00:00
if ( VideoGetSW80COL() )
{ // AUX
c = g_pTextBank1[ nAddressStart ] & 0x7F;
c = RemapChar(c);
*pEnd++ = c;
} // MAIN -- NOTE: intentional indent & outside if() !
c = g_pTextBank0[ nAddressStart ] & 0x7F;
c = RemapChar(c);
*pEnd++ = c;
nAddressStart++;
}
// Newline // http://en.wikipedia.org/wiki/Newline
#ifdef _WIN32
*pEnd++ = 0x0D; // CR // Windows inserts extra char
#endif
*pEnd++ = 0x0A; // LF // OSX, Linux
}
*pEnd = 0;
g_nTextScreen = pEnd - pBeg;
pText_ = pBeg;
return g_nTextScreen;
}
void Util_CopyTextToClipboard ( const size_t nSize, const char *pText )
{
HGLOBAL hMem = GlobalAlloc(GMEM_MOVEABLE, nSize + 1 );
memcpy( GlobalLock(hMem), pText, nSize + 1 );
GlobalUnlock( hMem );
OpenClipboard(0);
EmptyClipboard();
SetClipboardData( CF_TEXT, hMem );
CloseClipboard();
// GlobalFree() ??
}
//===========================================================================
Update_t CmdNTSC (int nArgs)
{
int iParam;
int nFound = FindParam( g_aArgs[ 1 ].sArg, MATCH_EXACT, iParam, _PARAM_GENERAL_BEGIN, _PARAM_GENERAL_END );
struct KnownFileType_t
{
char *pExtension;
};
enum KnownFileType_e
{
TYPE_UNKNOWN
,TYPE_BMP
,TYPE_RAW
,NUM_FILE_TYPES
};
const KnownFileType_t aFileTypes[ NUM_FILE_TYPES ] =
{
{ "" } // n/a
,{ ".bmp" }
,{ ".data" }
// ,{ ".raw" }
// ,{ ".ntsc" }
};
const int nFileType = sizeof( aFileTypes ) / sizeof( KnownFileType_t );
const KnownFileType_t *pFileType = NULL;
/* */ KnownFileType_e iFileType = TYPE_UNKNOWN;
#if _DEBUG
assert( (nFileType == NUM_FILE_TYPES) );
#endif
char *pFileName = (nArgs > 1) ? g_aArgs[ 2 ].sArg : "";
int nLen = strlen( pFileName );
char *pEnd = pFileName + nLen - 1;
while( pEnd > pFileName )
{
if( *pEnd == '.' )
{
for( int i = TYPE_BMP; i < NUM_FILE_TYPES; i++ )
{
if( strcmp( pEnd, aFileTypes[i].pExtension ) == 0 )
{
pFileType = &aFileTypes[i];
iFileType = (KnownFileType_e) i;
break;
}
}
}
if( pFileType )
break;
pEnd--;
}
if( nLen == 0 )
pFileName = "AppleWinNTSC4096x4@32.data";
static TCHAR sPaletteFilePath[ MAX_PATH ];
_tcscpy( sPaletteFilePath, g_sCurrentDir );
_tcscat( sPaletteFilePath, pFileName );
class ConsoleFilename
{
public:
static void update( const char *pPrefixText )
{
TCHAR text[ CONSOLE_WIDTH*2 ] = TEXT("");
size_t len1 = strlen( pPrefixText );
size_t len2 = strlen( sPaletteFilePath );
size_t len = len1 + len2;
if (len >= CONSOLE_WIDTH)
{
ConsoleBufferPush( pPrefixText ); // TODO: Add a ": " separator
#if _DEBUG
sprintf( text, "Filename.length.1: %d\n", len1 );
OutputDebugString( text );
sprintf( text, "Filename.length.2: %d\n", len2 );
OutputDebugString( text );
OutputDebugString( sPaletteFilePath );
#endif
// File path is too long
// TODO: Need to split very long path names
strncpy( text, sPaletteFilePath, CONSOLE_WIDTH );
ConsoleBufferPush( text ); // TODO: Switch ConsoleBufferPush() to ConsoleBufferPushFormat()
}
else
{
ConsoleBufferPushFormat( text, "%s: %s", pPrefixText, sPaletteFilePath );
}
}
};
class Swizzle32
{
public:
2015-01-11 06:47:55 +00:00
static void RGBAswapBGRA( size_t nSize, const uint8_t *pSrc, uint8_t *pDst ) // Note: pSrc and pDst _may_ alias; code handles this properly
{
const uint8_t* pEnd = pSrc + nSize;
while ( pSrc < pEnd )
{
2015-01-11 06:47:55 +00:00
const uint8_t r = pSrc[2];
const uint8_t g = pSrc[1];
const uint8_t b = pSrc[0];
const uint8_t a = 255; // Force A=1, 100% opacity; as pSrc[3] might not be 255
*pDst++ = r;
*pDst++ = g;
*pDst++ = b;
*pDst++ = a;
2015-01-11 06:47:55 +00:00
pSrc += 4;
}
}
2015-01-11 06:47:55 +00:00
static void ABGRswizzleBGRA( size_t nSize, const uint8_t *pSrc, uint8_t *pDst ) // Note: pSrc and pDst _may_ alias; code handles this properly
{
const uint8_t* pEnd = pSrc + nSize;
while ( pSrc < pEnd )
{
const uint8_t r = pSrc[3];
const uint8_t g = pSrc[2];
const uint8_t b = pSrc[1];
const uint8_t a = 255; // Force A=1, 100% opacity; as pSrc[3] might not be 255
*pDst++ = b;
*pDst++ = g;
*pDst++ = r;
*pDst++ = a;
pSrc += 4;
}
}
#if 0
static void ABGRswizzleRGBA( size_t nSize, const uint8_t *pSrc, uint8_t *pDst ) // Note: pSrc and pDst _may_ alias; code handles this properly
{
const uint8_t* pEnd = pSrc + nSize;
while ( pSrc < pEnd )
{
const uint8_t r = pSrc[3];
const uint8_t g = pSrc[2];
const uint8_t b = pSrc[1];
const uint8_t a = 255; // Force A=1, 100% opacity; as pSrc[3] might not be 255
*pDst++ = r;
*pDst++ = g;
*pDst++ = b;
*pDst++ = a;
pSrc += 4;
}
}
#endif
};
class Transpose64x1
{
public:
static void transposeTo64x256( const uint8_t *pSrc, uint8_t *pDst )
{
const uint32_t nBPP = 4; // bytes per pixel
// Expand y from 1 to 256 rows
const size_t nBytesPerScanLine = 16 * 4 * nBPP; // 16 colors * 4 phases
for( int y = 0; y < 256; y++ )
memcpy( pDst + y*nBytesPerScanLine, pSrc, nBytesPerScanLine );
}
};
// Transpose from 16x1 to 4096x16
class Transpose16x1
{
public:
/*
.Column
. Phases 0..3
. X P0 P1 P2 P3
. 0 0 0 0 0
. 1 1 8 4 2
. 2 2 1 8 4
. 3 3 9 C 6
. 4 4 2 1 8
. 5 5 A 5 A
. 6 6 3 9 C
. 7 7 B D E
. 8 8 4 2 1
. 9 9 C 6 3
. A A 5 A 5
. B B D E 7
. C C 6 3 9
. D D E 7 B
. E E 7 B D
. F F F F F
.
. 1 2 4 8 Delta
*/
static void transposeTo64x1( const uint8_t *pSrc, uint8_t *pDst )
{
const uint32_t *pPhase0 = (uint32_t*) pSrc;
/* */ uint32_t *pTmp = (uint32_t*) pDst;
#if 1 // Loop
// Expand x from 16 colors (single phase) to 64 colors (16 * 4 phases)
for( int iPhase = 0; iPhase < 4; iPhase++ )
{
int phase = iPhase;
if (iPhase == 1) phase = 3;
if (iPhase == 3) phase = 1;
int mul = (1 << phase); // Mul: *1 *8 *4 *2
for( int iDstX = 0; iDstX < 16; iDstX++ )
{
int iSrcX = (iDstX * mul) % 15; // Delta: +1 +2 +4 +8
if (iDstX == 15)
iSrcX = 15;
#if 0 // _DEBUG
char text[ 128 ];
sprintf( text, "[ %X ] = [ %X ]\n", iDstX, iSrcX );
OutputDebugStringA( text );
#endif
pTmp[ iDstX + 16*iPhase ] = pPhase0[ iSrcX ];
}
}
#else // Manual Loop unrolled
const uint32_t nBPP = 4; // bytes per pixel
const size_t nBytesPerScanLine = 16 * 4 * nBPP; // 16 colors * 4 phases
memcpy( pDst, pSrc, nBytesPerScanLine );
int iPhase = 1;
int iDstX = iPhase * 16;
pTmp[ iDstX + 0x0 ] = pPhase0[ 0x0 ];
pTmp[ iDstX + 0x1 ] = pPhase0[ 0x8 ];
pTmp[ iDstX + 0x2 ] = pPhase0[ 0x1 ];
pTmp[ iDstX + 0x3 ] = pPhase0[ 0x9 ];
pTmp[ iDstX + 0x4 ] = pPhase0[ 0x2 ];
pTmp[ iDstX + 0x5 ] = pPhase0[ 0xA ];
pTmp[ iDstX + 0x6 ] = pPhase0[ 0x3 ];
pTmp[ iDstX + 0x7 ] = pPhase0[ 0xB ];
pTmp[ iDstX + 0x8 ] = pPhase0[ 0x4 ];
pTmp[ iDstX + 0x9 ] = pPhase0[ 0xC ];
pTmp[ iDstX + 0xA ] = pPhase0[ 0x5 ];
pTmp[ iDstX + 0xB ] = pPhase0[ 0xD ];
pTmp[ iDstX + 0xC ] = pPhase0[ 0x6 ];
pTmp[ iDstX + 0xD ] = pPhase0[ 0xE ];
pTmp[ iDstX + 0xE ] = pPhase0[ 0x7 ];
pTmp[ iDstX + 0xF ] = pPhase0[ 0xF ];
iPhase = 2;
iDstX = iPhase * 16;
pTmp[ iDstX + 0x0 ] = pPhase0[ 0x0 ];
pTmp[ iDstX + 0x1 ] = pPhase0[ 0x4 ];
pTmp[ iDstX + 0x2 ] = pPhase0[ 0x8 ];
pTmp[ iDstX + 0x3 ] = pPhase0[ 0xC ];
pTmp[ iDstX + 0x4 ] = pPhase0[ 0x1 ];
pTmp[ iDstX + 0x5 ] = pPhase0[ 0x5 ];
pTmp[ iDstX + 0x6 ] = pPhase0[ 0x9 ];
pTmp[ iDstX + 0x7 ] = pPhase0[ 0xD ];
pTmp[ iDstX + 0x8 ] = pPhase0[ 0x2 ];
pTmp[ iDstX + 0x9 ] = pPhase0[ 0x6 ];
pTmp[ iDstX + 0xA ] = pPhase0[ 0xA ];
pTmp[ iDstX + 0xB ] = pPhase0[ 0xE ];
pTmp[ iDstX + 0xC ] = pPhase0[ 0x3 ];
pTmp[ iDstX + 0xD ] = pPhase0[ 0x7 ];
pTmp[ iDstX + 0xE ] = pPhase0[ 0xB ];
pTmp[ iDstX + 0xF ] = pPhase0[ 0xF ];
iPhase = 3;
iDstX = iPhase * 16;
pTmp[ iDstX + 0x0 ] = pPhase0[ 0x0 ];
pTmp[ iDstX + 0x1 ] = pPhase0[ 0x2 ];
pTmp[ iDstX + 0x2 ] = pPhase0[ 0x4 ];
pTmp[ iDstX + 0x3 ] = pPhase0[ 0x6 ];
pTmp[ iDstX + 0x4 ] = pPhase0[ 0x8 ];
pTmp[ iDstX + 0x5 ] = pPhase0[ 0xA ];
pTmp[ iDstX + 0x6 ] = pPhase0[ 0xC ];
pTmp[ iDstX + 0x7 ] = pPhase0[ 0xE ];
pTmp[ iDstX + 0x8 ] = pPhase0[ 0x1 ];
pTmp[ iDstX + 0x9 ] = pPhase0[ 0x3 ];
pTmp[ iDstX + 0xA ] = pPhase0[ 0x5 ];
pTmp[ iDstX + 0xB ] = pPhase0[ 0x7 ];
pTmp[ iDstX + 0xC ] = pPhase0[ 0x9 ];
pTmp[ iDstX + 0xD ] = pPhase0[ 0xB ];
pTmp[ iDstX + 0xE ] = pPhase0[ 0xD ];
pTmp[ iDstX + 0xF ] = pPhase0[ 0xF ];
#endif
}
/*
. Source layout = 16x1 @ 32-bit
. | phase 0 |
. +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
. |BGRA|BGRA|BGRA|BGRA|BGRA|BGRA|BGRA|BGRA|BGRA|BGRA|BGRA|BGRA|BGRA|BGRA|BGRA|BGRA| row 0
. +----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+----+
. \ 0/ \ 1/ \ 2/ \ 3/ \ 4/ \ 5/ \ 6/ \ 7/ \ 8/ \ 9/ \ A/ \ B/ \ C/ \ D/ \ E/ \ F/
.
. |<----------------------------------- 16 px ----------------------------------->|
. 64 byte
.
. Destination layout = 4096x4 @ 32-bit
. +----+----+----+----+----+
. |BGRA|BGRA|BGRA|... |BGRA| phase 0
. +----+----+----+----+----+
. |BGRA|BGRA|BGRA|... |BGRA| phase 1
. +----+----+----+----+----|
. |BGRA|BGRA|BGRA|... |BGRA| phase 2
. +----+----+----+----+----+
. |BGRA|BGRA|BGRA|... |BGRA| phase 3
. +----+----+----+----+----+
. 0 1 2 4095 column
*/
/*
static void transposeFrom16x1( const uint8_t *pSrc, uint8_t *pDst )
{
const uint8_t *pTmp = pSrc;
const uint32_t nBPP = 4; // bytes per pixel
for( int x = 0; x < 16; x++ )
{
pTmp = pSrc + (x * nBPP); // dst is 16-px column
for( int y = 0; y < 256; y++ )
{
*pDst++ = pTmp[0];
*pDst++ = pTmp[1];
*pDst++ = pTmp[2];
*pDst++ = pTmp[3];
}
}
/*
// we duplicate phase 0 a total of 4 times
const size_t nBytesPerScanLine = 4096 * nBPP;
for( int iPhase = 1; iPhase < 4; iPhase++ )
memcpy( pDst + iPhase*nBytesPerScanLine, pDst, nBytesPerScanLine );
}
*/
};
2015-01-10 20:14:38 +00:00
class Transpose4096x4
{
2015-01-11 06:47:55 +00:00
/*
. Source layout = 4096x4 @ 32-bit
. +----+----+----+----+----+
. |BGRA|BGRA|BGRA|... |BGRA| phase 0
. +----+----+----+----+----+
. |BGRA|BGRA|BGRA|... |BGRA| phase 1
. +----+----+----+----+----|
. |BGRA|BGRA|BGRA|... |BGRA| phase 2
. +----+----+----+----+----+
. |BGRA|BGRA|BGRA|... |BGRA| phase 3
. +----+----+----+----+----+
. 0 1 2 4095 column
.
. Destination layout = 64x256 @ 32-bit
2015-01-11 06:47:55 +00:00
. | phase 0 | phase 1 | phase 2 | phase 3 |
. +----+----+----+----+----+----+----+----+
. |BGRA|BGRA|BGRA|BGRA|BGRA|BGRA|BGRA|BGRA| row 0
. +----+----+----+----+----+----+----+----+
. |BGRA|BGRA|BGRA|BGRA|BGRA|BGRA|BGRA|BGRA| row 1
. +----+----+----+----+----+----+----+----+
. |... |... |... |... |... |... |... |... |
. +----+----+----+----+----+----+----+----+
. |BGRA|BGRA|BGRA|BGRA|BGRA|BGRA|BGRA|BGRA| row 255
2015-01-11 06:47:55 +00:00
. +----+----+----+----+----+----+----+----+
. \ 16 px / \ 16 px / \ 16 px / \ 16 px / = 64 pixels
. 64 byte 64 byte 64 byte 64 byte
.
.Column
. Phases 0..3
. X P0 P1 P2 P3
. 0 0 0 0 0
. 1 1 8 4 2
. 2 2 1 8 4
. 3 3 9 C 6
. 4 4 2 1 8
. 5 5 A 5 A
. 6 6 3 9 C
. 7 7 B D E
. 8 8 4 2 1
. 9 9 C 6 3
. A A 5 A 5
. B B D E 7
. C C 6 3 9
. D D E 7 B
. E E 7 B D
. F F F F F
.
. 1 2 4 8 Delta
2015-01-11 06:47:55 +00:00
*/
public:
static void transposeTo64x256( const uint8_t *pSrc, uint8_t *pDst )
{
/* */ uint8_t *pTmp = pDst;
const uint32_t nBPP = 4; // bytes per pixel
for( int iPhase = 0; iPhase < 4; iPhase++ )
{
2015-01-11 06:47:55 +00:00
pDst = pTmp + (iPhase * 16 * nBPP); // dst is 16-px column
for( int x = 0; x < 4096/16; x++ ) // 4096px/16 px = 256 columns
{
for( int i = 0; i < 16*nBPP; i++ ) // 16 px, 32-bit
*pDst++ = *pSrc++;
pDst -= (16*nBPP);
pDst += (64*nBPP); // move to next scan line
}
}
2015-01-10 20:14:38 +00:00
}
static void transposeFrom64x256( const uint8_t *pSrc, uint8_t *pDst )
2015-01-10 20:14:38 +00:00
{
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const uint8_t *pTmp = pSrc;
const uint32_t nBPP = 4; // bytes per pixel
2015-01-10 20:14:38 +00:00
for( int iPhase = 0; iPhase < 4; iPhase++ )
{
2015-01-11 06:47:55 +00:00
pSrc = pTmp + (iPhase * 16 * nBPP); // src is 16-px column
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for( int y = 0; y < 256; y++ )
{
2015-01-11 06:47:55 +00:00
for( int i = 0; i < 16*nBPP; i++ ) // 16 px, 32-bit
*pDst++ = *pSrc++;
pSrc -= (16*nBPP);
pSrc += (64*nBPP); // move to next scan line
}
2015-01-10 20:14:38 +00:00
}
}
};
bool bColorTV = (g_eVideoType == VT_COLOR_TV);
2015-01-11 06:47:55 +00:00
uint32_t* pChromaTable = NTSC_VideoGetChromaTable( false, bColorTV );
char aStatusText[ CONSOLE_WIDTH*2 ] = "Loaded";
2015-01-11 06:47:55 +00:00
//uint8_t* pTmp = (uint8_t*) pChromaTable;
//*pTmp++ = 0xFF; // b
//*pTmp++ = 0x00; // g
//*pTmp++ = 0x00; // r
//*pTmp++ = 0xFF; // a
if (nFound)
{
if (iParam == PARAM_RESET)
{
NTSC_VideoInitChroma();
ConsoleBufferPush( TEXT(" Resetting NTSC palette." ) );
}
else
if (iParam == PARAM_SAVE)
{
FILE *pFile = fopen( sPaletteFilePath, "w+b" );
if( pFile )
{
size_t nWrote = 0;
uint8_t *pSwizzled = new uint8_t[ g_nChromaSize ];
if( iFileType == TYPE_BMP )
{
// need to save 32-bit bpp as 24-bit bpp
// VideoSaveScreenShot()
Transpose4096x4::transposeTo64x256( (uint8_t*) pChromaTable, pSwizzled );
// Write BMP header
2015-01-10 20:14:38 +00:00
WinBmpHeader_t bmp, *pBmp = &bmp;
Video_SetBitmapHeader( pBmp, 64, 256, 32 );
fwrite( pBmp, sizeof( WinBmpHeader_t ), 1, pFile );
}
else
{
2015-01-10 20:14:38 +00:00
// RAW has no header
2015-01-11 06:47:55 +00:00
Swizzle32::RGBAswapBGRA( g_nChromaSize, (uint8_t*) pChromaTable, pSwizzled );
}
nWrote = fwrite( pSwizzled, g_nChromaSize, 1, pFile );
fclose( pFile );
delete [] pSwizzled;
if (nWrote == 1)
{
ConsoleFilename::update( "Saved" );
}
else
ConsoleBufferPush( TEXT( "Error saving." ) );
}
else
{
2015-01-11 06:47:55 +00:00
ConsoleFilename::update( "File" );
ConsoleBufferPush( TEXT( "Error couldn't open file for writing." ) );
}
}
else
if (iParam == PARAM_LOAD)
{
FILE *pFile = fopen( sPaletteFilePath, "rb" );
if( pFile )
{
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strcpy( aStatusText, "Loaded" );
// Get File Size
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size_t nFileSize = _GetFileSize( pFile );
uint8_t *pSwizzled = new uint8_t[ g_nChromaSize ];
2015-01-11 06:47:55 +00:00
bool bSwizzle = true;
WinBmpHeader4_t bmp, *pBmp = &bmp;
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if( iFileType == TYPE_BMP )
{
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fread( pBmp, sizeof( WinBmpHeader4_t ), 1, pFile );
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fseek( pFile, pBmp->nOffsetData, SEEK_SET );
if (pBmp->nBitsPerPixel != 32)
{
strcpy( aStatusText, "Bitmap not 32-bit RGBA" );
goto _error;
}
if (pBmp->nOffsetData > nFileSize)
2015-01-10 20:14:38 +00:00
{
strcpy( aStatusText, "Bad BITMAP: Data > file size !?" );
goto _error;
}
if( !
( ((pBmp->nWidthPixels == 64 ) && (pBmp->nHeightPixels == 256))
|| ((pBmp->nWidthPixels == 64 ) && (pBmp->nHeightPixels == 1))
|| ((pBmp->nWidthPixels == 16 ) && (pBmp->nHeightPixels == 1))
))
{
strcpy( aStatusText, "Bitmap not 64x256, 64x1, or 16x1" );
2015-01-10 20:14:38 +00:00
goto _error;
}
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if(pBmp->nStructSize == 0x28)
{
if( pBmp->nCompression == 0) // BI_RGB mode
bSwizzle = false;
}
else // 0x7C version4 bitmap
{
if( pBmp->nCompression == 3 ) // BI_BITFIELDS
{
if((pBmp->nRedMask == 0xFF000000 ) // Gimp writes in ABGR order
&& (pBmp->nGreenMask == 0x00FF0000 )
&& (pBmp->nBlueMask == 0x0000FF00 ))
bSwizzle = true;
}
}
2015-01-10 20:14:38 +00:00
}
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else
if( nFileSize != g_nChromaSize )
{
sprintf( aStatusText, "Raw size != %d", 64*256*4 );
goto _error;
}
2015-01-10 20:14:38 +00:00
size_t nRead = fread( pSwizzled, g_nChromaSize, 1, pFile );
if( iFileType == TYPE_BMP )
{
if (pBmp->nHeightPixels == 1)
{
uint8_t *pTemp64x256 = new uint8_t[ 64 * 256 * 4 ];
memset( pTemp64x256, 0, g_nChromaSize );
//Transpose16x1::transposeFrom16x1( pSwizzled, (uint8_t*) pChromaTable );
if (pBmp->nWidthPixels == 16)
{
Transpose16x1::transposeTo64x1( pSwizzled, pTemp64x256 );
Transpose64x1::transposeTo64x256( pTemp64x256, pTemp64x256 );
}
else
if (pBmp->nWidthPixels == 64)
Transpose64x1::transposeTo64x256( pSwizzled, pTemp64x256 );
Transpose4096x4::transposeFrom64x256( pTemp64x256, (uint8_t*) pChromaTable );
delete [] pTemp64x256;
}
else
Transpose4096x4::transposeFrom64x256( pSwizzled, (uint8_t*) pChromaTable );
2015-01-11 06:47:55 +00:00
if( bSwizzle )
Swizzle32::ABGRswizzleBGRA( g_nChromaSize, (uint8_t*) pChromaTable, (uint8_t*) pChromaTable );
}
2015-01-11 06:47:55 +00:00
else
Swizzle32::RGBAswapBGRA( g_nChromaSize, pSwizzled, (uint8_t*) pChromaTable );
2015-01-10 20:14:38 +00:00
_error:
fclose( pFile );
delete [] pSwizzled;
}
else
{
2015-01-10 20:14:38 +00:00
strcpy( aStatusText, "File: " );
ConsoleBufferPush( TEXT( "Error couldn't open file for reading." ) );
}
2015-01-10 20:14:38 +00:00
ConsoleFilename::update( aStatusText );
}
else
return HelpLastCommand();
}
// else
return ConsoleUpdate();
}
//===========================================================================
int CmdTextSave (int nArgs)
{
// Save the TEXT1 40-colomn to text file (Default: AppleWin_Text40.txt"
// TSAVE ["Filename"]
// TSAVE ["Filename"]
// 1
if (nArgs > 1)
return Help_Arg_1( CMD_TEXT_SAVE );
bool bHaveFileName = false;
if (g_aArgs[1].bType & TYPE_QUOTED_2)
bHaveFileName = true;
char *pText;
size_t nSize = Util_GetTextScreen( pText );
TCHAR sLoadSaveFilePath[ MAX_PATH ];
_tcscpy( sLoadSaveFilePath, g_sCurrentDir ); // g_sProgramDir
if( bHaveFileName )
_tcscpy( g_sMemoryLoadSaveFileName, g_aArgs[ 1 ].sArg );
else
{
Simplified and moved main-loop video update logic into Video.cpp. Removed complex case below for: . VideoHasRefreshed(), 'anyupdates' . VideoCheckPage() Detailed notes below. --- Video updates in ContinueExecution() loop: 'anyupdates' gets set if there were any page-flip(s) in last ~17030 cycles: anyupdates |= VideoHasRefreshed(); ie. VideoRefreshScreen() was called outside of this loop. If there's been a call to VideoRefreshScreen() outside of this loop, and then the video framebuffer gets written to, ie. VideoApparentlyDirty() returns TRUE, then don't call VideoRefreshScreen() from this loop for 3 frames. (If a VideoRefreshScreen() is called outside of this loop then restart the 3 frame count.) So.. if the game is flipping, the VideoApparentlyDirty() will return FALSE (since game writes to other framebuffer). if the game is not flipping, then VideoHasRefreshed() will return FALSE (since no flips occur). Therefore this complex case above probably only arises at a boundary eg. when the game is transitioning between these 2 modes, and so if the emulator does the very occasional screen update in this main loop, it is of no consequence. (I guess this extra logic was to throttle video updates on very old slow machines) --- VideoCheckPage(BOOL bForce) was called twice in main-loop: UnexpectedPage if g_bVideoDisplayPage2 != SW_PAGE2 Once each time through the loop (ie. every 1ms), with bForce=0 if UnexpectedPage && >500ms since last flip then VideoRefreshScreen() Once each video frame (ie. ~17030 cycles) when not flipping, with bForce=1 if UnexpectedPage then VideoRefreshScreen() Basically this was all about supporting FullSpeed mode, and limiting the calls to VideoRefreshScreen().
2014-09-13 21:22:27 +00:00
if( VideoGetSW80COL() )
sprintf( g_sMemoryLoadSaveFileName, "AppleWin_Text80.txt" );
else
sprintf( g_sMemoryLoadSaveFileName, "AppleWin_Text40.txt" );
}
_tcscat( sLoadSaveFilePath, g_sMemoryLoadSaveFileName );
FILE *hFile = fopen( sLoadSaveFilePath, "rb" );
if (hFile)
{
ConsoleBufferPush( TEXT( "Warning: File already exists. Overwriting." ) );
fclose( hFile );
}
hFile = fopen( sLoadSaveFilePath, "wb" );
if (hFile)
{
size_t nWrote = fwrite( pText, nSize, 1, hFile );
if (nWrote == 1)
{
TCHAR text[ CONSOLE_WIDTH ] = TEXT("");
ConsoleBufferPushFormat( text, "Saved: %s", g_sMemoryLoadSaveFileName );
}
else
{
ConsoleBufferPush( TEXT( "Error saving." ) );
}
fclose( hFile );
}
else
{
ConsoleBufferPush( TEXT( "Error opening file." ) );
}
return ConsoleUpdate();
}
//===========================================================================
int _SearchMemoryFind(
MemorySearchValues_t vMemorySearchValues,
WORD nAddressStart,
WORD nAddressEnd )
{
int nFound = 0;
g_vMemorySearchResults.erase( g_vMemorySearchResults.begin(), g_vMemorySearchResults.end() );
g_vMemorySearchResults.push_back( NO_6502_TARGET );
WORD nAddress;
for( nAddress = nAddressStart; nAddress < nAddressEnd; nAddress++ )
{
bool bMatchAll = true;
WORD nAddress2 = nAddress;
int nMemBlocks = vMemorySearchValues.size();
for (int iBlock = 0; iBlock < nMemBlocks; iBlock++, nAddress2++ )
{
MemorySearch_t ms = vMemorySearchValues.at( iBlock );
ms.m_bFound = false;
if ((ms.m_iType == MEM_SEARCH_BYTE_EXACT ) ||
(ms.m_iType == MEM_SEARCH_NIB_HIGH_EXACT) ||
(ms.m_iType == MEM_SEARCH_NIB_LOW_EXACT ))
{
BYTE nTarget = *(mem + nAddress2);
if (ms.m_iType == MEM_SEARCH_NIB_LOW_EXACT)
nTarget &= 0x0F;
if (ms.m_iType == MEM_SEARCH_NIB_HIGH_EXACT)
nTarget &= 0xF0;
if (ms.m_nValue == nTarget)
{ // ms.m_nAddress = nAddress2;
ms.m_bFound = true;
continue;
}
else
{
bMatchAll = false;
break;
}
}
else
if (ms.m_iType == MEM_SEARCH_BYTE_1_WILD)
{
// match by definition
}
else
{
// start 2ndary search
// if next block matches, then this block matches (since we are wild)
if ((iBlock + 1) == nMemBlocks) // there is no next block, hence we match
continue;
MemorySearch_t ms2 = vMemorySearchValues.at( iBlock + 1 );
WORD nAddress3 = nAddress2;
for (nAddress3 = nAddress2; nAddress3 < nAddressEnd; nAddress3++ )
{
if ((ms.m_iType == MEM_SEARCH_BYTE_EXACT ) ||
(ms.m_iType == MEM_SEARCH_NIB_HIGH_EXACT) ||
(ms.m_iType == MEM_SEARCH_NIB_LOW_EXACT ))
{
BYTE nTarget = *(mem + nAddress3);
if (ms.m_iType == MEM_SEARCH_NIB_LOW_EXACT)
nTarget &= 0x0F;
if (ms.m_iType == MEM_SEARCH_NIB_HIGH_EXACT)
nTarget &= 0xF0;
if (ms.m_nValue == nTarget)
{
nAddress2 = nAddress3;
continue;
}
else
{
bMatchAll = false;
break;
}
}
}
}
}
if (bMatchAll)
{
nFound++;
// Save the search result
g_vMemorySearchResults.push_back( nAddress );
}
}
return nFound;
}
//===========================================================================
Update_t _SearchMemoryDisplay (int nArgs)
{
const UINT nBuf = CONSOLE_WIDTH * 2;
int nFound = g_vMemorySearchResults.size() - 1;
int nLen = 0; // temp
int nLineLen = 0; // string length of matches for this line, for word-wrap
TCHAR sMatches[ nBuf ] = TEXT("");
TCHAR sResult[ nBuf ];
TCHAR sText[ nBuf ] = TEXT("");
if (nFound > 0)
{
int iFound = 1;
while (iFound <= nFound)
{
WORD nAddress = g_vMemorySearchResults.at( iFound );
// sprintf( sText, "%2d:$%04X ", iFound, nAddress );
// int nLen = _tcslen( sText );
sResult[0] = 0;
nLen = 0;
StringCat( sResult, CHC_NUM_DEC, nBuf ); // 2.6.2.17 Search Results: The n'th result now using correct color (was command, now number decimal)
2011-01-04 17:33:10 +00:00
sprintf( sText, "%02X", iFound ); // BUGFIX: 2.6.2.32 n'th Search results were being displayed in dec, yet parser takes hex numbers. i.e. SH D000:FFFF A9 00
nLen += StringCat( sResult, sText , nBuf );
StringCat( sResult, CHC_DEFAULT, nBuf ); // intentional default instead of CHC_ARG_SEP for better readability
nLen += StringCat( sResult, ":" , nBuf );
StringCat( sResult, CHC_ARG_SEP, nBuf );
nLen += StringCat( sResult, "$" , nBuf ); // 2.6.2.16 Fixed: Search Results: The hex specify for target address results now colorized properly
StringCat( sResult, CHC_ADDRESS, nBuf );
sprintf( sText, "%04X ", nAddress ); // 2.6.2.15 Fixed: Search Results: Added space between results for better readability
nLen += StringCat( sResult, sText, nBuf );
// Fit on same line?
if ((nLineLen + nLen) > (g_nConsoleDisplayWidth - 1)) // CONSOLE_WIDTH
{
//ConsoleDisplayPush( sMatches );
ConsolePrint( sMatches );
_tcscpy( sMatches, sResult );
nLineLen = nLen;
}
else
{
StringCat( sMatches, sResult, nBuf );
nLineLen += nLen;
}
iFound++;
}
ConsolePrint( sMatches );
}
// wsprintf( sMatches, "Total: %d (#$%04X)", nFound, nFound );
// ConsoleDisplayPush( sMatches );
sResult[0] = 0;
StringCat( sResult, CHC_USAGE , nBuf );
nLen += StringCat( sResult, "Total", nBuf );
StringCat( sResult, CHC_DEFAULT, nBuf );
nLen += StringCat( sResult, ": " , nBuf );
StringCat( sResult, CHC_NUM_DEC, nBuf ); // intentional CHC_DEFAULT instead of
sprintf( sText, "%d ", nFound );
nLen += StringCat( sResult, sText, nBuf );
StringCat( sResult, CHC_ARG_SEP, nBuf ); // CHC_ARC_OPT -> CHC_ARG_SEP
nLen += StringCat( sResult, "(" , nBuf );
StringCat( sResult, CHC_ARG_SEP, nBuf ); // CHC_DEFAULT
nLen += StringCat( sResult, "#$", nBuf );
StringCat( sResult, CHC_NUM_HEX, nBuf );
sprintf( sText, "%04X", nFound );
nLen += StringCat( sResult, sText, nBuf );
StringCat( sResult, CHC_ARG_SEP, nBuf );
nLen += StringCat( sResult, ")" , nBuf );
ConsolePrint( sResult );
// g_vMemorySearchResults is cleared in DebugEnd()
// return UPDATE_CONSOLE_DISPLAY;
return ConsoleUpdate();
}
//===========================================================================
Update_t _CmdMemorySearch (int nArgs, bool bTextIsAscii = true )
{
WORD nAddressStart = 0;
WORD nAddress2 = 0;
WORD nAddressEnd = 0;
int nAddressLen = 0;
RangeType_t eRange;
eRange = Range_Get( nAddressStart, nAddress2 );
// if (eRange == RANGE_MISSING_ARG_2)
if (! Range_CalcEndLen( eRange, nAddressStart, nAddress2, nAddressEnd, nAddressLen))
return ConsoleDisplayError( TEXT("Error: Missing address seperator (comma or colon)" ) );
int iArgFirstByte = 4;
// S start,len #
int nMinLen = nArgs - (iArgFirstByte - 1);
bool bHaveWildCards = false;
int iArg;
MemorySearchValues_t vMemorySearchValues;
MemorySearch_e tLastType = MEM_SEARCH_BYTE_N_WILD;
// Get search "string"
Arg_t *pArg = & g_aArgs[ iArgFirstByte ];
WORD nTarget;
for (iArg = iArgFirstByte; iArg <= nArgs; iArg++, pArg++ )
{
MemorySearch_t ms;
nTarget = pArg->nValue;
ms.m_nValue = nTarget & 0xFF;
ms.m_iType = MEM_SEARCH_BYTE_EXACT;
if (nTarget > 0xFF) // searching for 16-bit address
{
vMemorySearchValues.push_back( ms );
ms.m_nValue = (nTarget >> 8);
tLastType = ms.m_iType;
}
else
{
TCHAR *pByte = pArg->sArg;
if (pArg->bType & TYPE_QUOTED_1)
{
// Convert string to hex byte(s)
int iChar = 0;
int nChars = pArg->nArgLen;
if (nChars)
{
ms.m_iType = MEM_SEARCH_BYTE_EXACT;
ms.m_bFound = false;
while (iChar < nChars)
{
ms.m_nValue = pArg->sArg[ iChar ];
// Ascii (Low-Bit)
// Apple (High-Bit)
// if (! bTextIsAscii) // NOTE: Single quote chars is opposite hi-bit !!!
// ms.m_nValue &= 0x7F;
// else
ms.m_nValue |= 0x80;
// last char is handle in common case below
iChar++;
if (iChar < nChars)
vMemorySearchValues.push_back( ms );
}
}
}
else
if (pArg->bType & TYPE_QUOTED_2)
{
// Convert string to hex byte(s)
int iChar = 0;
int nChars = pArg->nArgLen;
if (nChars)
{
ms.m_iType = MEM_SEARCH_BYTE_EXACT;
ms.m_bFound = false;
while (iChar < nChars)
{
ms.m_nValue = pArg->sArg[ iChar ];
// Ascii (Low-Bit)
// Apple (High-Bit)
// if (bTextIsAscii)
ms.m_nValue &= 0x7F;
// else
// ms.m_nValue |= 0x80;
iChar++; // last char is handle in common case below
if (iChar < nChars)
vMemorySearchValues.push_back( ms );
}
}
}
else
{
// must be numeric .. make sure not too big
if (pArg->nArgLen > 2)
{
vMemorySearchValues.erase( vMemorySearchValues.begin(), vMemorySearchValues.end() );
return HelpLastCommand();
}
if (pArg->nArgLen == 1)
{
if (pByte[0] == g_aParameters[ PARAM_MEM_SEARCH_WILD ].m_sName[0]) // Hack: hard-coded one char token
{
ms.m_iType = MEM_SEARCH_BYTE_1_WILD;
}
}
else
{
if (pByte[0] == g_aParameters[ PARAM_MEM_SEARCH_WILD ].m_sName[0]) // Hack: hard-coded one char token
{
ms.m_iType = MEM_SEARCH_NIB_LOW_EXACT;
ms.m_nValue = pArg->nValue & 0x0F;
}
if (pByte[1] == g_aParameters[ PARAM_MEM_SEARCH_WILD ].m_sName[0]) // Hack: hard-coded one char token
{
if (ms.m_iType == MEM_SEARCH_NIB_LOW_EXACT)
{
ms.m_iType = MEM_SEARCH_BYTE_N_WILD;
}
else
{
ms.m_iType = MEM_SEARCH_NIB_HIGH_EXACT;
ms.m_nValue = (pArg->nValue << 4) & 0xF0;
}
}
}
}
}
// skip over multiple byte_wild, since they are redundent
// xx ?? ?? xx
// ^
// redundant
if ((tLastType == MEM_SEARCH_BYTE_N_WILD) && (ms.m_iType == MEM_SEARCH_BYTE_N_WILD))
continue;
vMemorySearchValues.push_back( ms );
tLastType = ms.m_iType;
}
_SearchMemoryFind( vMemorySearchValues, nAddressStart, nAddressEnd );
vMemorySearchValues.erase( vMemorySearchValues.begin(), vMemorySearchValues.end() );
return _SearchMemoryDisplay();
}
//===========================================================================
Update_t CmdMemorySearch (int nArgs)
{
// S address,length # [,#]
if (nArgs < 4)
return HelpLastCommand();
return _CmdMemorySearch( nArgs, true );
return UPDATE_CONSOLE_DISPLAY;
}
// Search for ASCII text (no Hi-Bit set)
//===========================================================================
Update_t CmdMemorySearchAscii (int nArgs)
{
if (nArgs < 4)
return HelpLastCommand();
return _CmdMemorySearch( nArgs, true );
}
// Search for Apple text (Hi-Bit set)
//===========================================================================
Update_t CmdMemorySearchApple (int nArgs)
{
if (nArgs < 4)
return HelpLastCommand();
return _CmdMemorySearch( nArgs, false );
}
//===========================================================================
Update_t CmdMemorySearchHex (int nArgs)
{
if (nArgs < 4)
return HelpLastCommand();
return _CmdMemorySearch( nArgs, true );
}
// Registers ______________________________________________________________________________________
//===========================================================================
Update_t CmdRegisterSet (int nArgs)
{
if (nArgs < 2) // || ((g_aArgs[2].sArg[0] != TEXT('0')) && !g_aArgs[2].nValue))
{
return Help_Arg_1( CMD_REGISTER_SET );
}
else
{
TCHAR *pName = g_aArgs[1].sArg;
int iParam;
if (FindParam( pName, MATCH_EXACT, iParam, _PARAM_REGS_BEGIN, _PARAM_REGS_END ))
{
int iArg = 2;
if (g_aArgs[ iArg ].eToken == TOKEN_EQUAL)
iArg++;
if (iArg > nArgs)
return Help_Arg_1( CMD_REGISTER_SET );
BYTE b = (BYTE)(g_aArgs[ iArg ].nValue & 0xFF);
WORD w = (WORD)(g_aArgs[ iArg ].nValue & 0xFFFF);
switch (iParam)
{
case PARAM_REG_A : regs.a = b; break;
case PARAM_REG_PC: regs.pc = w; g_nDisasmCurAddress = regs.pc; DisasmCalcTopBotAddress(); break;
case PARAM_REG_SP: regs.sp = b | 0x100; break;
case PARAM_REG_X : regs.x = b; break;
case PARAM_REG_Y : regs.y = b; break;
default: return Help_Arg_1( CMD_REGISTER_SET );
}
}
}
// g_nDisasmCurAddress = regs.pc;
// DisasmCalcTopBotAddress();
return UPDATE_ALL; // 1
}
// Output _________________________________________________________________________________________
//===========================================================================
Update_t CmdOutputCalc (int nArgs)
{
const int nBits = 8;
if (! nArgs)
return Help_Arg_1( CMD_OUTPUT_CALC );
WORD nAddress = g_aArgs[1].nValue;
TCHAR sText [ CONSOLE_WIDTH ];
bool bHi = false;
bool bLo = false;
char c = FormatChar4Font( (BYTE) nAddress, &bHi, &bLo );
bool bParen = bHi || bLo;
int nBit = 0;
int iBit = 0;
for( iBit = 0; iBit < nBits; iBit++ )
{
bool bSet = (nAddress >> iBit) & 1;
if (bSet)
nBit |= (1 << (iBit * 4)); // 4 bits per hex digit
}
wsprintf( sText, TEXT("$%04X 0z%08X %5d '%c' "),
nAddress, nBit, nAddress, c );
if (bParen)
_tcscat( sText, TEXT("(") );
if (bHi & bLo)
_tcscat( sText, TEXT("High Ctrl") );
else
if (bHi)
_tcscat( sText, TEXT("High") );
else
if (bLo)
_tcscat( sText, TEXT("Ctrl") );
if (bParen)
_tcscat( sText, TEXT(")") );
ConsoleBufferPush( sText );
return ConsoleUpdate();
}
//===========================================================================
Update_t CmdOutputEcho (int nArgs)
{
TCHAR sText[ CONSOLE_WIDTH ] = TEXT("");
if (g_aArgs[1].bType & TYPE_QUOTED_2)
{
ConsoleDisplayPush( g_aArgs[1].sArg );
}
else
{
const char *pText = g_pConsoleFirstArg; // ConsoleInputPeek();
if (pText)
{
ConsoleDisplayPush( pText );
}
}
return ConsoleUpdate();
}
enum PrintState_e
{ PS_LITERAL
, PS_TYPE
, PS_ESCAPE
, PS_NEXT_ARG_BIN
, PS_NEXT_ARG_HEX
, PS_NEXT_ARG_DEC
, PS_NEXT_ARG_CHR
};
struct PrintFormat_t
{
int nValue;
int eType;
};
//===========================================================================
Update_t CmdOutputPrint (int nArgs)
{
// PRINT "A:",A," X:",X
// Removed: PRINT "A:%d",A," X: %d",X
TCHAR sText[ CONSOLE_WIDTH ] = TEXT("");
int nLen = 0;
int nValue;
if (! nArgs)
goto _Help;
int iArg;
for (iArg = 1; iArg <= nArgs; iArg++ )
{
if (g_aArgs[ iArg ].bType & TYPE_QUOTED_2)
{
int iChar;
int nChar = _tcslen( g_aArgs[ iArg ].sArg );
for( iChar = 0; iChar < nChar; iChar++ )
{
TCHAR c = g_aArgs[ iArg ].sArg[ iChar ];
sText[ nLen++ ] = c;
}
iArg++;
// if (iArg > nArgs)
// goto _Help;
if (iArg <= nArgs)
if (g_aArgs[ iArg ].eToken != TOKEN_COMMA)
goto _Help;
}
else
{
nValue = g_aArgs[ iArg ].nValue;
sprintf( &sText[ nLen ], "%04X", nValue );
while (sText[ nLen ])
nLen++;
iArg++;
if (iArg <= nArgs)
if (g_aArgs[ iArg ].eToken != TOKEN_COMMA)
goto _Help;
}
#if 0
sprintf( &sText[ nLen ], "%04X", nValue );
sprintf( &sText[ nLen ], "%d", nValue );
sprintf( &sText[ nLen ], "%c", nValue );
#endif
}
if (nLen)
ConsoleBufferPush( sText );
return ConsoleUpdate();
_Help:
return Help_Arg_1( CMD_OUTPUT_PRINT );
}
//===========================================================================
Update_t CmdOutputPrintf (int nArgs)
{
// PRINTF "A:%d X:%d",A,X
// PRINTF "Hex:%x Dec:%d Bin:%z",A,A,A
TCHAR sText[ CONSOLE_WIDTH ] = TEXT("");
std::vector<Arg_t> aValues;
Arg_t entry;
int iValue = 0;
int nValue = 0;
if (! nArgs)
goto _Help;
int nLen = 0;
PrintState_e eThis = PS_LITERAL;
// PrintState_e eNext = PS_NEXT_ARG_HEX; // PS_LITERAL;
int nWidth = 0;
int iArg;
for (iArg = 1; iArg <= nArgs; iArg++ )
{
if (g_aArgs[ iArg ].bType & TYPE_QUOTED_2)
continue;
else
if (g_aArgs[ iArg ].eToken == TOKEN_COMMA)
continue;
else
{
// entry.eType = PS_LITERAL;
entry.nValue = g_aArgs[ iArg ].nValue;
aValues.push_back( entry );
// nValue = g_aArgs[ iArg ].nValue;
// aValues.push_back( nValue );
}
}
const int nParamValues = (int) aValues.size();
for (iArg = 1; iArg <= nArgs; iArg++ )
{
if (g_aArgs[ iArg ].bType & TYPE_QUOTED_2)
{
int iChar;
int nChar = _tcslen( g_aArgs[ iArg ].sArg );
for( iChar = 0; iChar < nChar; iChar++ )
{
TCHAR c = g_aArgs[ iArg ].sArg[ iChar ];
switch ( eThis )
{
case PS_LITERAL:
switch( c )
{
case '\\':
eThis = PS_ESCAPE;
2015-07-30 14:08:18 +00:00
break;
case '%':
eThis = PS_TYPE;
break;
default:
sText[ nLen++ ] = c;
break;
}
break;
case PS_ESCAPE:
switch( c )
{
case 'n':
case 'r':
eThis = PS_LITERAL;
sText[ nLen++ ] = '\n';
break;
}
break;
case PS_TYPE:
if (iValue >= nParamValues)
{
ConsoleBufferPushFormat( sText, TEXT("Error: Missing value arg: %d"), iValue + 1 );
return ConsoleUpdate();
}
switch( c )
{
case 'X':
case 'x': // PS_NEXT_ARG_HEX
nValue = aValues[ iValue ].nValue;
sprintf( &sText[ nLen ], "%04X", nValue );
iValue++;
break;
case 'D':
case 'd': // PS_NEXT_ARG_DEC
nValue = aValues[ iValue ].nValue;
sprintf( &sText[ nLen ], "%d", nValue );
iValue++;
break;
break;
case 'Z':
case 'z':
{
nValue = aValues[ iValue ].nValue;
if (!nWidth)
nWidth = 8;
int nBits = nWidth;
while (nBits-- > 0)
{
if ((nValue >> nBits) & 1)
sText[ nLen++ ] = '1';
else
sText[ nLen++ ] = '0';
}
iValue++;
break;
}
case 'c': // PS_NEXT_ARG_CHR;
nValue = aValues[ iValue ].nValue;
sprintf( &sText[ nLen ], "%c", nValue );
iValue++;
break;
case '%':
default:
sText[ nLen++ ] = c;
break;
}
while (sText[ nLen ])
nLen++;
eThis = PS_LITERAL;
break;
default:
break;
}
}
}
else
if (g_aArgs[ iArg ].eToken == TOKEN_COMMA)
{
iArg++;
if (iArg > nArgs)
goto _Help;
}
else
goto _Help;
}
if (nLen)
ConsoleBufferPush( sText );
return ConsoleUpdate();
_Help:
return Help_Arg_1( CMD_OUTPUT_PRINTF );
}
//===========================================================================
Update_t CmdOutputRun (int nArgs)
{
if (! nArgs)
return Help_Arg_1( CMD_OUTPUT_RUN );
if (nArgs != 1)
return Help_Arg_1( CMD_OUTPUT_RUN );
// Read in script
// could be made global, to cache last run.
// Opens up the possibility of:
// CHEAT [ON | OFF] -> re-run script
// with conditional logic
// IF @ON ....
MemoryTextFile_t script;
TCHAR * pFileName = g_aArgs[ 1 ].sArg;
TCHAR sFileName[ MAX_PATH ];
TCHAR sMiniFileName[ CONSOLE_WIDTH ];
// if (g_aArgs[1].bType & TYPE_QUOTED_2)
_tcscpy( sMiniFileName, pFileName );
// _tcscat( sMiniFileName, ".aws" ); // HACK: MAGIC STRING
if (pFileName[0] == '\\' || pFileName[1] == ':') // NB. Any prefix quote has already been stripped
{
// Abs pathname
_tcscpy(sFileName, sMiniFileName);
}
else
{
// Rel pathname
_tcscpy(sFileName, g_sCurrentDir);
_tcscat(sFileName, sMiniFileName);
}
if (script.Read( sFileName ))
{
int iLine = 0;
int nLine = script.GetNumLines();
Update_t bUpdateDisplay = UPDATE_NOTHING;
for( int iLine = 0; iLine < nLine; iLine++ )
{
script.GetLine( iLine, g_pConsoleInput, CONSOLE_WIDTH-2 );
g_nConsoleInputChars = _tcslen( g_pConsoleInput );
bUpdateDisplay |= DebuggerProcessCommand( false );
}
}
else
{
char sText[ CONSOLE_WIDTH ];
ConsolePrintFormat( sText, "%sCouldn't load filename: %s%s"
, CHC_ERROR
, CHC_STRING
, sFileName
);
}
return ConsoleUpdate();
}
// Source Level Debugging _________________________________________________________________________
//===========================================================================
bool BufferAssemblyListing( char *pFileName )
{
bool bStatus = false; // true = loaded
if (! pFileName)
return bStatus;
g_AssemblerSourceBuffer.Reset();
g_AssemblerSourceBuffer.Read( pFileName );
if (g_AssemblerSourceBuffer.GetNumLines())
{
g_bSourceLevelDebugging = true;
bStatus = true;
}
return bStatus;
}
//===========================================================================
int FindSourceLine( WORD nAddress )
{
int iAddress = 0;
int iLine = 0;
int iSourceLine = NO_SOURCE_LINE;
// iterate of <address,line>
// probably should be sorted by address
// then can do binary search
// iSourceLine = g_aSourceDebug.find( nAddress );
#if 0 // _DEBUG
{
TCHAR sText[ CONSOLE_WIDTH ];
for (int i = 0; i < g_vSourceLines.size(); i++ )
{
wsprintf( sText, "%d: %s\n", i, g_vSourceLines[ i ] );
OutputDebugString( sText );
}
}
#endif
SourceAssembly_t::iterator iSource = g_aSourceDebug.begin();
while (iSource != g_aSourceDebug.end() )
{
iAddress = iSource->first;
iLine = iSource->second;
#if 0 // _DEBUG
TCHAR sText[ CONSOLE_WIDTH ];
wsprintf( sText, "%04X -> %d line\n", iAddress, iLine );
OutputDebugString( sText );
#endif
if (iAddress == nAddress)
{
iSourceLine = iLine;
break;
}
iSource++;
}
// not found
return iSourceLine;
}
//===========================================================================
bool ParseAssemblyListing( bool bBytesToMemory, bool bAddSymbols )
{
bool bStatus = false; // true = loaded
// Assembler source listing file:
//
// xxxx:_b1_[b2]_[b3]__n_[label]_[opcode]_[param]
// char sByte1[ 2 ];
// char sByte2[ 2 ];
// char sByte3[ 2 ];
// char sLineN[ W ];
char sName[ MAX_SYMBOLS_LEN ];
// char sAsm [ W ];
// char sParam[ W ];
const int MAX_LINE = 256;
char sLine[ MAX_LINE ];
char sText[ MAX_LINE ];
// char sLabel[ MAX_LINE ];
g_nSourceAssembleBytes = 0;
g_nSourceAssemblySymbols = 0;
const DWORD INVALID_ADDRESS = _6502_MEM_END + 1;
bool bPrevSymbol = false;
bool bFourBytes = false;
BYTE nByte4 = 0;
int nLines = g_AssemblerSourceBuffer.GetNumLines();
for( int iLine = 0; iLine < nLines; iLine++ )
{
g_AssemblerSourceBuffer.GetLine( iLine, sText, MAX_LINE - 1 );
DWORD nAddress = INVALID_ADDRESS;
_tcscpy( sLine, sText );
char *p = sLine;
p = strstr( sLine, ":" );
if (p)
{
*p = 0;
// sscanf( sLine, "%s %s %s %s %s %s %s %s", sAddr1, sByte1, sByte2, sByte3, sLineN, sLabel, sAsm, sParam );
sscanf( sLine, "%X", &nAddress );
if (nAddress >= INVALID_ADDRESS) // || (sName[0] == 0) )
continue;
if (bBytesToMemory)
{
char *pEnd = p + 1;
char *pStart;
int iByte;
for (iByte = 0; iByte < 4; iByte++ ) // BUG: Some assemblers also put 4 bytes on a line
{
// xx xx xx
// ^ ^
// | |
// | end
// start
pStart = pEnd + 1;
pEnd = const_cast<char*>( SkipUntilWhiteSpace( pStart ));
int nLen = (pEnd - pStart);
if (nLen != 2)
{
break;
}
*pEnd = 0;
if (TextIsHexByte( pStart ))
{
BYTE nByte = TextConvert2CharsToByte( pStart );
*(mem + ((WORD)nAddress) + iByte ) = nByte;
}
}
g_nSourceAssembleBytes += iByte;
}
g_aSourceDebug[ (WORD) nAddress ] = iLine; // g_nSourceAssemblyLines;
}
_tcscpy( sLine, sText );
if (bAddSymbols)
{
// Add user symbol: symbolname EQU $address
// or user symbol: address: symbolname DFB #bytes
char *pEQU = strstr( sLine, "EQU" ); // EQUal / EQUate
char *pDFB = strstr( sLine, "DFB" ); // DeFine Byte
char *pLabel = NULL;
if (pEQU)
pLabel = pEQU;
if (pDFB)
pLabel = pDFB;
if (pLabel)
{
char *pLabelEnd = pLabel - 1;
pLabelEnd = const_cast<char*>( SkipWhiteSpaceReverse( pLabelEnd, &sLine[ 0 ] ));
char * pLabelStart = NULL; // SkipWhiteSpaceReverse( pLabelEnd, &sLine[ 0 ] );
if (pLabelEnd)
{
pLabelStart = const_cast<char*>( SkipUntilWhiteSpaceReverse( pLabelEnd, &sLine[ 0 ] ));
pLabelEnd++;
pLabelStart++;
int nLen = pLabelEnd - pLabelStart;
nLen = MIN( nLen, MAX_SYMBOLS_LEN );
strncpy( sName, pLabelStart, nLen );
sName[ nLen ] = 0;
char *pAddressEQU = strstr( pLabel, "$" );
char *pAddressDFB = strstr( sLine, ":" ); // Get address from start of line
char *pAddress = NULL;
if (pAddressEQU)
pAddress = pAddressEQU + 1;
if (pAddressDFB)
{
*pAddressDFB = 0;
pAddress = sLine;
}
if (pAddress)
{
char *pAddressEnd;
nAddress = (DWORD) strtol( pAddress, &pAddressEnd, 16 );
g_aSymbols[ SYMBOLS_SRC_2 ][ (WORD) nAddress] = sName;
g_nSourceAssemblySymbols++;
}
}
}
}
} // for
bStatus = true;
return bStatus;
}
//===========================================================================
Update_t CmdSource (int nArgs)
{
if (! nArgs)
{
g_bSourceLevelDebugging = false;
}
else
{
g_bSourceAddMemory = false;
g_bSourceAddSymbols = false;
for( int iArg = 1; iArg <= nArgs; iArg++ )
{
TCHAR *pFileName = g_aArgs[ iArg ].sArg;
int iParam;
bool bFound = FindParam( pFileName, MATCH_EXACT, iParam, _PARAM_SOURCE_BEGIN, _PARAM_SOURCE_END ) > 0 ? true : false;
if (bFound && (iParam == PARAM_SRC_SYMBOLS))
{
g_bSourceAddSymbols = true;
}
else
if (bFound && (iParam == PARAM_SRC_MEMORY))
{
g_bSourceAddMemory = true;
}
else
{
TCHAR sFileName[MAX_PATH];
_tcscpy(sFileName,g_sProgramDir);
_tcscat(sFileName, pFileName);
const int MAX_MINI_FILENAME = 20;
TCHAR sMiniFileName[ MAX_MINI_FILENAME + 1 ];
_tcsncpy( sMiniFileName, pFileName, MAX_MINI_FILENAME - 1 );
sMiniFileName[ MAX_MINI_FILENAME ] = 0;
if (BufferAssemblyListing( sFileName ))
{
_tcscpy( g_aSourceFileName, pFileName );
if (! ParseAssemblyListing( g_bSourceAddMemory, g_bSourceAddSymbols ))
{
ConsoleBufferPushFormat( sFileName, "Couldn't load filename: %s", sMiniFileName );
}
else
{
if (g_nSourceAssembleBytes)
{
ConsoleBufferPushFormat( sFileName, " Read: %d lines, %d symbols, %d bytes"
, g_AssemblerSourceBuffer.GetNumLines() // g_nSourceAssemblyLines
, g_nSourceAssemblySymbols, g_nSourceAssembleBytes );
}
else
{
ConsoleBufferPushFormat( sFileName, " Read: %d lines, %d symbols"
, g_AssemblerSourceBuffer.GetNumLines() // g_nSourceAssemblyLines
, g_nSourceAssemblySymbols );
}
}
}
else
{
ConsoleBufferPushFormat( sFileName, "Error reading: %s", sMiniFileName );
}
}
}
return ConsoleUpdate();
}
return UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
Update_t CmdSync (int nArgs)
{
// TODO
return UPDATE_CONSOLE_DISPLAY;
}
// Stack __________________________________________________________________________________________
//===========================================================================
Update_t CmdStackPush (int nArgs)
{
return UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
Update_t CmdStackPop (int nArgs)
{
return UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
Update_t CmdStackPopPseudo (int nArgs)
{
return UPDATE_CONSOLE_DISPLAY;
}
// View ___________________________________________________________________________________________
// See: CmdWindowViewOutput (int nArgs)
enum ViewVideoPage_t
{
VIEW_PAGE_X, // current page
VIEW_PAGE_1,
VIEW_PAGE_2
};
Update_t _ViewOutput( ViewVideoPage_t iPage, int bVideoModeFlags )
{
switch( iPage )
{
2017-02-17 16:00:22 +00:00
case VIEW_PAGE_X: bVideoModeFlags |= !VideoGetSWPAGE2() ? 0 : VF_PAGE2; break; // Page Current
case VIEW_PAGE_1: bVideoModeFlags |= 0; break; // Page 1
case VIEW_PAGE_2: bVideoModeFlags |= VF_PAGE2; break; // Page 2
default:
break;
}
DebugVideoMode::Instance().Set(bVideoModeFlags);
VideoRefreshScreen( bVideoModeFlags, true );
return UPDATE_NOTHING; // intentional
}
// Text 40
Update_t CmdViewOutput_Text4X (int nArgs)
{
return _ViewOutput( VIEW_PAGE_X, VF_TEXT );
}
Update_t CmdViewOutput_Text41 (int nArgs)
{
return _ViewOutput( VIEW_PAGE_1, VF_TEXT );
}
Update_t CmdViewOutput_Text42 (int nArgs)
{
return _ViewOutput( VIEW_PAGE_2, VF_TEXT );
}
// Text 80
Update_t CmdViewOutput_Text8X (int nArgs)
{
return _ViewOutput( VIEW_PAGE_X, VF_TEXT | VF_80COL );
}
Update_t CmdViewOutput_Text81 (int nArgs)
{
return _ViewOutput( VIEW_PAGE_1, VF_TEXT | VF_80COL );
}
Update_t CmdViewOutput_Text82 (int nArgs)
{
return _ViewOutput( VIEW_PAGE_2, VF_TEXT | VF_80COL );
}
// Lo-Res
Update_t CmdViewOutput_GRX (int nArgs)
{
return _ViewOutput( VIEW_PAGE_X, 0 );
}
Update_t CmdViewOutput_GR1 (int nArgs)
{
return _ViewOutput( VIEW_PAGE_1, 0 );
}
Update_t CmdViewOutput_GR2 (int nArgs)
{
return _ViewOutput( VIEW_PAGE_2, 0 );
}
// Double Lo-Res
Update_t CmdViewOutput_DGRX (int nArgs)
{
return _ViewOutput( VIEW_PAGE_X, VF_DHIRES | VF_80COL );
}
Update_t CmdViewOutput_DGR1 (int nArgs)
{
return _ViewOutput( VIEW_PAGE_1, VF_DHIRES | VF_80COL );
}
Update_t CmdViewOutput_DGR2 (int nArgs)
{
return _ViewOutput( VIEW_PAGE_2, VF_DHIRES | VF_80COL );
}
// Hi-Res
Update_t CmdViewOutput_HGRX (int nArgs)
{
return _ViewOutput( VIEW_PAGE_X, VF_HIRES );
}
Update_t CmdViewOutput_HGR1 (int nArgs)
{
return _ViewOutput( VIEW_PAGE_1, VF_HIRES );
}
Update_t CmdViewOutput_HGR2 (int nArgs)
{
return _ViewOutput( VIEW_PAGE_2, VF_HIRES );
}
// Double Hi-Res
Update_t CmdViewOutput_DHGRX (int nArgs)
{
return _ViewOutput( VIEW_PAGE_X, VF_HIRES | VF_DHIRES | VF_80COL );
}
Update_t CmdViewOutput_DHGR1 (int nArgs)
{
return _ViewOutput( VIEW_PAGE_1, VF_HIRES | VF_DHIRES | VF_80COL);
}
Update_t CmdViewOutput_DHGR2 (int nArgs)
{
return _ViewOutput( VIEW_PAGE_2, VF_HIRES | VF_DHIRES | VF_80COL );
}
// Watches ________________________________________________________________________________________
//===========================================================================
Update_t CmdWatch (int nArgs)
{
return CmdWatchAdd( nArgs );
}
//===========================================================================
Update_t CmdWatchAdd (int nArgs)
{
// WA [adddress]
// WA # address
if (! nArgs)
{
return CmdWatchList( 0 );
}
int iArg = 1;
int iWatch = NO_6502_TARGET;
if (nArgs > 1)
{
iWatch = g_aArgs[ 1 ].nValue;
iArg++;
}
bool bAdded = false;
for (; iArg <= nArgs; iArg++ )
{
WORD nAddress = g_aArgs[iArg].nValue;
// Make sure address isn't an IO address
if ((nAddress >= _6502_IO_BEGIN) && (nAddress <= _6502_IO_END))
return ConsoleDisplayError(TEXT("You may not watch an I/O location."));
if (iWatch == NO_6502_TARGET)
{
iWatch = 0;
while ((iWatch < MAX_ZEROPAGE_POINTERS) && (g_aWatches[iWatch].bSet))
{
iWatch++;
}
}
if ((iWatch >= MAX_WATCHES) && !bAdded)
{
char sText[ CONSOLE_WIDTH ];
sprintf( sText, "All watches are currently in use. (Max: %d)", MAX_WATCHES );
ConsoleDisplayPush( sText );
return ConsoleUpdate();
}
if ((iWatch < MAX_WATCHES) && (g_nWatches < MAX_WATCHES))
{
g_aWatches[iWatch].bSet = true;
g_aWatches[iWatch].bEnabled = true;
g_aWatches[iWatch].nAddress = (WORD) nAddress;
bAdded = true;
g_nWatches++;
iWatch++;
}
}
if (!bAdded)
goto _Help;
return UPDATE_WATCH;
_Help:
return Help_Arg_1( CMD_WATCH_ADD );
}
//===========================================================================
Update_t CmdWatchClear (int nArgs)
{
if (!g_nWatches)
return ConsoleDisplayError(TEXT("There are no watches defined."));
if (!nArgs)
return Help_Arg_1( CMD_WATCH_CLEAR );
_BWZ_ClearViaArgs( nArgs, g_aWatches, MAX_WATCHES, g_nWatches );
// if (! g_nWatches)
// {
// UpdateDisplay(UPDATE_BACKGROUND); // 1
// return UPDATE_NOTHING; // 0
// }
return UPDATE_CONSOLE_DISPLAY | UPDATE_WATCH; // 1
}
//===========================================================================
Update_t CmdWatchDisable (int nArgs)
{
if (! g_nWatches)
return ConsoleDisplayError(TEXT("There are no watches defined."));
if (!nArgs)
return Help_Arg_1( CMD_WATCH_DISABLE );
_BWZ_EnableDisableViaArgs( nArgs, g_aWatches, MAX_WATCHES, false );
return UPDATE_WATCH;
}
//===========================================================================
Update_t CmdWatchEnable (int nArgs)
{
if (! g_nWatches)
return ConsoleDisplayError(TEXT("There are no watches defined."));
if (!nArgs)
return Help_Arg_1( CMD_WATCH_ENABLE );
_BWZ_EnableDisableViaArgs( nArgs, g_aWatches, MAX_WATCHES, true );
return UPDATE_WATCH;
}
//===========================================================================
Update_t CmdWatchList (int nArgs)
{
if (! g_nWatches)
{
TCHAR sText[ CONSOLE_WIDTH ];
ConsoleBufferPushFormat( sText, TEXT(" There are no current watches. (Max: %d)"), MAX_WATCHES );
}
else
{
// _BWZ_List( g_aWatches, MAX_WATCHES );
_BWZ_ListAll( g_aWatches, MAX_WATCHES );
}
return ConsoleUpdate();
}
/*
//===========================================================================
Update_t CmdWatchLoad (int nArgs)
{
if (!nArgs)
return Help_Arg_1( CMD_WATCH_LOAD );
return UPDATE_CONSOLE_DISPLAY;
}
*/
//===========================================================================
Update_t CmdWatchSave (int nArgs)
{
if (!nArgs)
return Help_Arg_1( CMD_WATCH_SAVE );
return UPDATE_CONSOLE_DISPLAY;
}
// Window _________________________________________________________________________________________
//===========================================================================
void _WindowJoin ()
{
g_aWindowConfig[ g_iWindowThis ].bSplit = false;
}
//===========================================================================
void _WindowSplit ( Window_e eNewBottomWindow )
{
g_aWindowConfig[ g_iWindowThis ].bSplit = true;
g_aWindowConfig[ g_iWindowThis ].eBot = eNewBottomWindow;
}
//===========================================================================
void _WindowLast ()
{
int eNew = g_iWindowLast;
g_iWindowLast = g_iWindowThis;
g_iWindowThis = eNew;
}
//===========================================================================
void _WindowSwitch( int eNewWindow )
{
g_iWindowLast = g_iWindowThis;
g_iWindowThis = eNewWindow;
}
//===========================================================================
Update_t _CmdWindowViewCommon ( int iNewWindow )
{
// Switching to same window, remove split
if (g_iWindowThis == iNewWindow)
{
g_aWindowConfig[ iNewWindow ].bSplit = false;
}
else
{
_WindowSwitch( iNewWindow );
}
// WindowUpdateConsoleDisplayedSize();
WindowUpdateSizes();
return UPDATE_ALL;
}
//===========================================================================
Update_t _CmdWindowViewFull ( int iNewWindow )
{
if (g_iWindowThis != iNewWindow)
{
g_aWindowConfig[ iNewWindow ].bSplit = false;
_WindowSwitch( iNewWindow );
WindowUpdateConsoleDisplayedSize();
}
return UPDATE_ALL;
}
//===========================================================================
void WindowUpdateConsoleDisplayedSize()
{
g_nConsoleDisplayLines = MIN_DISPLAY_CONSOLE_LINES;
#if USE_APPLE_FONT
g_bConsoleFullWidth = true;
g_nConsoleDisplayWidth = CONSOLE_WIDTH - 1;
if (g_iWindowThis == WINDOW_CONSOLE)
{
g_nConsoleDisplayLines = MAX_DISPLAY_LINES;
g_nConsoleDisplayWidth = CONSOLE_WIDTH - 1;
g_bConsoleFullWidth = true;
}
#else
g_nConsoleDisplayWidth = (CONSOLE_WIDTH / 2) + 10;
g_bConsoleFullWidth = false;
// g_bConsoleFullWidth = false;
// g_nConsoleDisplayWidth = CONSOLE_WIDTH - 10;
if (g_iWindowThis == WINDOW_CONSOLE)
{
g_nConsoleDisplayLines = MAX_DISPLAY_LINES;
g_nConsoleDisplayWidth = CONSOLE_WIDTH - 1;
g_bConsoleFullWidth = true;
}
#endif
}
//===========================================================================
int WindowGetHeight( int iWindow )
{
// if (iWindow == WINDOW_CODE)
return g_nDisasmWinHeight;
}
//===========================================================================
void WindowUpdateDisasmSize()
{
if (g_aWindowConfig[ g_iWindowThis ].bSplit)
{
g_nDisasmWinHeight = (MAX_DISPLAY_LINES - g_nConsoleDisplayLines) / 2;
}
else
{
g_nDisasmWinHeight = MAX_DISPLAY_LINES - g_nConsoleDisplayLines;
}
g_nDisasmCurLine = MAX(0, (g_nDisasmWinHeight - 1) / 2);
#if _DEBUG
#endif
}
//===========================================================================
void WindowUpdateSizes()
{
WindowUpdateDisasmSize();
WindowUpdateConsoleDisplayedSize();
}
//===========================================================================
Update_t CmdWindowCycleNext( int nArgs )
{
g_iWindowThis++;
if (g_iWindowThis >= NUM_WINDOWS)
g_iWindowThis = 0;
WindowUpdateSizes();
return UPDATE_ALL;
}
//===========================================================================
Update_t CmdWindowCyclePrev( int nArgs )
{
g_iWindowThis--;
if (g_iWindowThis < 0)
g_iWindowThis = NUM_WINDOWS-1;
WindowUpdateSizes();
return UPDATE_ALL;
}
//===========================================================================
Update_t CmdWindowShowCode (int nArgs)
{
// g_bWindowDisplayShowChild = false;
// g_bWindowDisplayShowRoot = WINDOW_CODE;
if (g_iWindowThis == WINDOW_CODE)
{
g_aWindowConfig[ g_iWindowThis ].bSplit = false;
g_aWindowConfig[ g_iWindowThis ].eBot = WINDOW_CODE; // not really needed, but SAFE HEX ;-)
}
else
if (g_iWindowThis == WINDOW_DATA)
{
g_aWindowConfig[ g_iWindowThis ].bSplit = true;
g_aWindowConfig[ g_iWindowThis ].eBot = WINDOW_CODE;
}
WindowUpdateSizes();
return UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
Update_t CmdWindowShowCode1 (int nArgs)
{
/*
if ((g_iWindowThis == WINDOW_CODE) || (g_iWindowThis != WINDOW_DATA))
{
g_aWindowConfig[ g_iWindowThis ].bSplit = true;
g_aWindowConfig[ g_iWindowThis ].eTop = WINDOW_CODE;
Window_e eWindow = WINDOW_CODE;
if (g_iWindowThis == WINDOW_DATA)
eWindow = WINDOW_DATA;
g_aWindowConfig[ g_iWindowThis ].eBot = eWindow;
return UPDATE_ALL;
}
*/
return UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
Update_t CmdWindowShowCode2 (int nArgs)
{
if ((g_iWindowThis == WINDOW_CODE) || (g_iWindowThis == WINDOW_DATA))
{
if (g_iWindowThis == WINDOW_CODE)
{
_WindowJoin();
WindowUpdateDisasmSize();
}
else
if (g_iWindowThis == WINDOW_DATA)
{
_WindowSplit( WINDOW_CODE );
WindowUpdateDisasmSize();
}
return UPDATE_DISASM;
}
return UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
Update_t CmdWindowShowData (int nArgs)
{
if (g_iWindowThis == WINDOW_CODE)
{
g_aWindowConfig[ g_iWindowThis ].bSplit = true;
g_aWindowConfig[ g_iWindowThis ].eBot = WINDOW_DATA;
return UPDATE_ALL;
}
else
if (g_iWindowThis == WINDOW_DATA)
{
g_aWindowConfig[ g_iWindowThis ].bSplit = false;
g_aWindowConfig[ g_iWindowThis ].eBot = WINDOW_DATA; // not really needed, but SAFE HEX ;-)
return UPDATE_ALL;
}
return UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
Update_t CmdWindowShowData1 (int nArgs)
{
/*
if (g_iWindowThis != PARAM_CODE_1)
{
g_iWindowLast = g_iWindowThis;
g_iWindowThis = PARAM_DATA_1;
return UPDATE_ALL;
}
*/
return UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
Update_t CmdWindowShowData2 (int nArgs)
{
if ((g_iWindowThis == WINDOW_CODE) || (g_iWindowThis == WINDOW_DATA))
{
if (g_iWindowThis == WINDOW_CODE)
{
_WindowSplit( WINDOW_DATA );
}
else
if (g_iWindowThis == WINDOW_DATA)
{
_WindowJoin();
}
return UPDATE_DISASM;
}
return UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
Update_t CmdWindowShowSource (int nArgs)
{
return UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
Update_t CmdWindowShowSource1 (int nArgs)
{
return UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
Update_t CmdWindowShowSource2 (int nArgs)
{
_WindowSplit( WINDOW_SOURCE );
WindowUpdateSizes();
return UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
Update_t CmdWindowViewCode (int nArgs)
{
return _CmdWindowViewCommon( WINDOW_CODE );
}
//===========================================================================
Update_t CmdWindowViewConsole (int nArgs)
{
return _CmdWindowViewFull( WINDOW_CONSOLE );
}
//===========================================================================
Update_t CmdWindowViewData (int nArgs)
{
return _CmdWindowViewCommon( WINDOW_DATA );
}
//===========================================================================
Update_t CmdWindowViewOutput (int nArgs)
{
VideoRedrawScreen();
DebugVideoMode::Instance().Set(g_uVideoMode);
return UPDATE_NOTHING; // intentional
}
//===========================================================================
Update_t CmdWindowViewSource (int nArgs)
{
return _CmdWindowViewFull( WINDOW_CONSOLE );
}
//===========================================================================
Update_t CmdWindowViewSymbols (int nArgs)
{
return _CmdWindowViewFull( WINDOW_CONSOLE );
}
//===========================================================================
Update_t CmdWindow (int nArgs)
{
if (!nArgs)
return Help_Arg_1( CMD_WINDOW );
int iParam;
TCHAR *pName = g_aArgs[1].sArg;
int nFound = FindParam( pName, MATCH_EXACT, iParam, _PARAM_WINDOW_BEGIN, _PARAM_WINDOW_END );
if (nFound)
{
switch (iParam)
{
case PARAM_CODE : return CmdWindowViewCode(0) ; break;
case PARAM_CONSOLE: return CmdWindowViewConsole(0); break;
case PARAM_DATA : return CmdWindowViewData(0) ; break;
// case PARAM_INFO : CmdWindowInfo(); break;
case PARAM_SOURCE : return CmdWindowViewSource(0) ; break;
case PARAM_SYMBOLS: return CmdWindowViewSymbols(0); break;
default:
return Help_Arg_1( CMD_WINDOW );
break;
}
}
WindowUpdateConsoleDisplayedSize();
return UPDATE_ALL;
}
//===========================================================================
Update_t CmdWindowLast (int nArgs)
{
_WindowLast();
WindowUpdateConsoleDisplayedSize();
return UPDATE_ALL;
}
// ZeroPage _______________________________________________________________________________________
//===========================================================================
Update_t CmdZeroPage (int nArgs)
{
// ZP [address]
// ZP # address
return CmdZeroPageAdd( nArgs );
}
//===========================================================================
Update_t CmdZeroPageAdd (int nArgs)
{
// ZP [address]
// ZP # address [address...]
if (! nArgs)
{
return CmdZeroPageList( 0 );
}
int iArg = 1;
int iZP = NO_6502_TARGET;
if (nArgs > 1)
{
iZP = g_aArgs[ 1 ].nValue;
iArg++;
}
bool bAdded = false;
for (; iArg <= nArgs; iArg++ )
{
WORD nAddress = g_aArgs[iArg].nValue;
if (iZP == NO_6502_TARGET)
{
iZP = 0;
while ((iZP < MAX_ZEROPAGE_POINTERS) && (g_aZeroPagePointers[iZP].bSet))
{
iZP++;
}
}
if ((iZP >= MAX_ZEROPAGE_POINTERS) && !bAdded)
{
char sText[ CONSOLE_WIDTH ];
sprintf( sText, "All zero page pointers are currently in use. (Max: %d)", MAX_ZEROPAGE_POINTERS );
ConsoleDisplayPush( sText );
return ConsoleUpdate();
}
if ((iZP < MAX_ZEROPAGE_POINTERS) && (g_nZeroPagePointers < MAX_ZEROPAGE_POINTERS))
{
g_aZeroPagePointers[iZP].bSet = true;
g_aZeroPagePointers[iZP].bEnabled = true;
g_aZeroPagePointers[iZP].nAddress = (BYTE) nAddress;
bAdded = true;
g_nZeroPagePointers++;
iZP++;
}
}
if (!bAdded)
goto _Help;
return UPDATE_ZERO_PAGE | ConsoleUpdate();
_Help:
return Help_Arg_1( CMD_ZEROPAGE_POINTER_ADD );
}
Update_t _ZeroPage_Error()
{
// return ConsoleDisplayError( "There are no (ZP) pointers defined." );
char sText[ CONSOLE_WIDTH ];
sprintf( sText, " There are no current (ZP) pointers. (Max: %d)", MAX_ZEROPAGE_POINTERS );
// ConsoleBufferPush( sText );
return ConsoleDisplayError( sText );
}
//===========================================================================
Update_t CmdZeroPageClear (int nArgs)
{
if (!g_nBreakpoints)
return _ZeroPage_Error();
// CHECK FOR ERRORS
if (!nArgs)
return Help_Arg_1( CMD_ZEROPAGE_POINTER_CLEAR );
_BWZ_ClearViaArgs( nArgs, g_aZeroPagePointers, MAX_ZEROPAGE_POINTERS, g_nZeroPagePointers );
if (! g_nZeroPagePointers)
{
UpdateDisplay( UPDATE_BACKGROUND );
return UPDATE_CONSOLE_DISPLAY;
}
return UPDATE_CONSOLE_DISPLAY | UPDATE_ZERO_PAGE;
}
//===========================================================================
Update_t CmdZeroPageDisable (int nArgs)
{
if (!nArgs)
return Help_Arg_1( CMD_ZEROPAGE_POINTER_DISABLE );
if (! g_nZeroPagePointers)
return _ZeroPage_Error();
_BWZ_EnableDisableViaArgs( nArgs, g_aZeroPagePointers, MAX_ZEROPAGE_POINTERS, false );
return UPDATE_ZERO_PAGE;
}
//===========================================================================
Update_t CmdZeroPageEnable (int nArgs)
{
if (! g_nZeroPagePointers)
return _ZeroPage_Error();
if (!nArgs)
return Help_Arg_1( CMD_ZEROPAGE_POINTER_ENABLE );
_BWZ_EnableDisableViaArgs( nArgs, g_aZeroPagePointers, MAX_ZEROPAGE_POINTERS, true );
return UPDATE_ZERO_PAGE;
}
//===========================================================================
Update_t CmdZeroPageList (int nArgs)
{
if (! g_nZeroPagePointers)
{
_ZeroPage_Error();
}
else
{
_BWZ_ListAll( g_aZeroPagePointers, MAX_ZEROPAGE_POINTERS );
}
return ConsoleUpdate();
}
/*
//===========================================================================
Update_t CmdZeroPageLoad (int nArgs)
{
return UPDATE_CONSOLE_DISPLAY;
}
*/
//===========================================================================
Update_t CmdZeroPageSave (int nArgs)
{
return UPDATE_CONSOLE_DISPLAY;
}
//===========================================================================
Update_t CmdZeroPagePointer (int nArgs)
{
// p[0..4] : disable
// p[0..4] <ZeroPageAddr> : enable
if( (nArgs != 0) && (nArgs != 1) )
return Help_Arg_1( g_iCommand );
// return DisplayHelp(CmdZeroPagePointer);
// int nPtrNum = g_aArgs[0].sArg[1] - '0'; // HACK: hard-coded to command length
int iZP = g_iCommand - CMD_ZEROPAGE_POINTER_0;
if( (iZP < 0) || (iZP > MAX_ZEROPAGE_POINTERS) )
return Help_Arg_1( g_iCommand );
if (nArgs == 0)
{
g_aZeroPagePointers[iZP].bEnabled = false;
}
else
{
g_aZeroPagePointers[iZP].bSet = true;
g_aZeroPagePointers[iZP].bEnabled = true;
WORD nAddress = g_aArgs[1].nValue;
g_aZeroPagePointers[iZP].nAddress = (BYTE) nAddress;
}
return UPDATE_ZERO_PAGE;
}
// Command Input __________________________________________________________________________________
// Note: Range is [iParamBegin,iParamEnd], not the usually (STL) expected [iParamBegin,iParamEnd)
//===========================================================================
int FindParam( LPTSTR pLookupName, Match_e eMatch, int & iParam_, int iParamBegin, int iParamEnd )
{
int nFound = 0;
int nLen = _tcslen( pLookupName );
int iParam = 0;
if (! nLen)
return nFound;
#if ALLOW_INPUT_LOWERCASE
eMatch = MATCH_FUZZY;
#endif
if (eMatch == MATCH_EXACT)
{
// while (iParam < NUM_PARAMS )
for (iParam = iParamBegin; iParam <= iParamEnd; iParam++ )
{
TCHAR *pParamName = g_aParameters[iParam].m_sName;
int eCompare = _tcsicmp(pLookupName, pParamName);
if (! eCompare) // exact match?
{
nFound++;
iParam_ = g_aParameters[iParam].iCommand;
break;
}
}
}
else
if (eMatch == MATCH_FUZZY)
{
#if ALLOW_INPUT_LOWERCASE
TCHAR aLookup[ 256 ] = "";
for( int i = 0; i < nLen; i++ )
{
aLookup[ i ] = toupper( pLookupName[ i ] );
}
#endif
for (iParam = iParamBegin; iParam <= iParamEnd; iParam++ )
{
TCHAR *pParamName = g_aParameters[ iParam ].m_sName;
// _tcsnccmp
#if ALLOW_INPUT_LOWERCASE
if (! _tcsncmp(aLookup, pParamName ,nLen))
#else
if (! _tcsncmp(pLookupName, pParamName ,nLen))
#endif
{
nFound++;
iParam_ = g_aParameters[iParam].iCommand;
if (!_tcsicmp(pLookupName, pParamName)) // exact match?
{
nFound = 1; // Exact match takes precidence over fuzzy matches
break;
}
}
}
}
return nFound;
}
//===========================================================================
int FindCommand( LPTSTR pName, CmdFuncPtr_t & pFunction_, int * iCommand_ )
{
g_vPotentialCommands.erase( g_vPotentialCommands.begin(), g_vPotentialCommands.end() );
int nFound = 0;
int nLen = _tcslen( pName );
int iCommand = 0;
if (! nLen)
return nFound;
char sCommand[ CONSOLE_WIDTH ];
strcpy( sCommand, pName );
_strupr( sCommand );
while ((iCommand < NUM_COMMANDS_WITH_ALIASES)) // && (name[0] >= g_aCommands[iCommand].aName[0])) Command no longer in Alphabetical order
{
TCHAR *pCommandName = g_aCommands[iCommand].m_sName;
// int iCmp = strcasecmp( sCommand, pCommandName, nLen )
if (! _tcsncmp(sCommand, pCommandName, nLen))
{
pFunction_ = g_aCommands[iCommand].pFunction;
if (pFunction_)
{
g_iCommand = g_aCommands[iCommand].iCommand;
// Don't push the same comamnd/alias if already on the list
if (std::find( g_vPotentialCommands.begin(), g_vPotentialCommands.end(), g_iCommand) == g_vPotentialCommands.end())
{
nFound++;
g_vPotentialCommands.push_back( g_iCommand );
if (iCommand_)
*iCommand_ = iCommand;
// !_tcscmp
if (!_tcsicmp(pName, pCommandName)) // exact match?
{
// if (iCommand_)
// *iCommand_ = iCommand;
nFound = 1; // Exact match takes precidence over fuzzy matches
g_vPotentialCommands.erase( g_vPotentialCommands.begin(), g_vPotentialCommands.end() );
break;
}
}
}
}
iCommand++;
}
// if (nFound == 1)
// {
//
// }
return nFound;
}
//===========================================================================
void DisplayAmbigiousCommands( int nFound )
{
char sText[ CONSOLE_WIDTH * 2 ];
ConsolePrintFormat( sText, "Ambiguous %s%d%s Commands:"
, CHC_NUM_DEC
, g_vPotentialCommands.size()
, CHC_DEFAULT
);
int iCommand = 0;
while (iCommand < nFound)
{
char sPotentialCommands[ CONSOLE_WIDTH ];
sprintf( sPotentialCommands, "%s ", CHC_COMMAND );
int iWidth = strlen( sPotentialCommands );
while ((iCommand < nFound) && (iWidth < g_nConsoleDisplayWidth))
{
int nCommand = g_vPotentialCommands[ iCommand ];
char *pName = g_aCommands[ nCommand ].m_sName;
int nLen = strlen( pName );
if ((iWidth + nLen) >= (CONSOLE_WIDTH - 1))
break;
sprintf( sText, "%s ", pName );
strcat( sPotentialCommands, sText );
iWidth += nLen + 1;
iCommand++;
}
ConsolePrint( sPotentialCommands );
}
}
bool IsHexDigit( char c )
{
if ((c >= '0') && (c <= '9'))
return true;
else
if ((c >= 'A') && (c <= 'F'))
return true;
else
if ((c >= 'a') && (c <= 'f'))
return true;
return false;
}
//===========================================================================
Update_t ExecuteCommand (int nArgs)
{
Arg_t * pArg = & g_aArgs[ 0 ];
char * pCommand = & pArg->sArg[0];
CmdFuncPtr_t pFunction = NULL;
int nFound = FindCommand( pCommand, pFunction );
// int nCookMask = (1 << NUM_TOKENS) - 1; // ArgToken_e used as bit mask!
// BUGFIX: commands that are also valid hex addresses
// ####:# [#]
// #<#.#M
int nLen = pArg->nArgLen;
if ((! nFound) || (nLen < 6))
{
// 2.7.0.36 Fixed: empty command was re-triggering previous command. Example: DW 6062, // test
if ( nLen > 0 )
{
// verify pCommand[ 0 .. (nLen-1) ] are hex digits
bool bIsHex = false;
char *pChar = pCommand;
for (int iChar = 0; iChar < (nLen - 1); iChar++, pChar++ )
{
bIsHex = IsHexDigit( *pChar );
if( !bIsHex )
{
break;
}
}
if (bIsHex)
{
// Support Apple Monitor commands
WORD nAddress = 0;
// ####G -> JMP $address (exit debugger)
// NB. AppleWin 'g','gg' commands handled via pFunction below
if ((pCommand[nLen-1] == 'G') ||
(pCommand[nLen-1] == 'g'))
{
pCommand[nLen-1] = 0;
ArgsGetValue( pArg, & nAddress );
regs.pc = nAddress;
g_nAppMode = MODE_RUNNING; // exit the debugger
nFound = 1;
g_iCommand = CMD_OUTPUT_ECHO; // hack: don't cook args
}
else
// ####L -> Unassemble $address
if ((pCommand[nLen-1] == 'L') ||
(pCommand[nLen-1] == 'l'))
{
pCommand[nLen-1] = 0;
ArgsGetValue( pArg, & nAddress );
g_iCommand = CMD_UNASSEMBLE;
// replace: addrL
// with: comamnd addr
pArg[1] = pArg[0];
strcpy( pArg->sArg, g_aCommands[ g_iCommand ].m_sName );
pArg->nArgLen = strlen( pArg->sArg );
pArg++;
pArg->nValue = nAddress;
nArgs++;
pFunction = g_aCommands[ g_iCommand ].pFunction;
nFound = 1;
}
else
// address: byte ...
if ((pArg+1)->eToken == TOKEN_COLON)
{
g_iCommand = CMD_MEMORY_ENTER_BYTE;
// replace: addr :
// with: command addr
pArg[1] = pArg[0];
strcpy( pArg->sArg, g_aCommands[ g_iCommand ].m_sName );
pArg->nArgLen = strlen( pArg->sArg );
// nCookMask &= ~ (1 << TOKEN_COLON);
// nArgs++;
pFunction = g_aCommands[ g_iCommand ].pFunction;
nFound = 1;
}
else
// #<#.#M
if (pArg[1].eToken == TOKEN_LESS_THAN)
{
// Look for period
nLen = pArg[2].nArgLen;
char *pDst = pArg[0].sArg;
char *pSrc = pArg[2].sArg;
char *pEnd = 0;
bool bFoundSrc = false;
bool bFoundLen = false;
pChar = pSrc;
while( *pChar )
{
if( *pChar == '.' )
{
if( pEnd ) // only allowed one period
{
pEnd = 0;
break;
}
*pChar = 0; // ':';
pEnd = pChar + 1;
bFoundSrc = true;
} else
if( !IsHexDigit( *pChar ) )
{
break;
}
pChar++;
}
if( pEnd ) {
if( (*pChar == 'M')
|| (*pChar == 'm'))
{
*pChar++ = 0;
if( ! *pChar )
bFoundLen = true;
}
if( bFoundSrc && bFoundLen )
{
//ArgsGetValue( pArg, & nAddress );
//char sText[ CONSOLE_WIDTH ];
//ConsolePrintFormat( sText, "Dst:%s Src: %s End: %s", pDst, pSrc, pEnd );
g_iCommand = CMD_MEMORY_MOVE;
pFunction = g_aCommands[ g_iCommand ].pFunction;
strcpy( pArg[4].sArg, pEnd );
strcpy( pArg[3].sArg, g_aTokens[ TOKEN_COLON ].sToken );
strcpy( pArg[2].sArg, pSrc );
strcpy( pArg[1].sArg, pDst );
strcpy( pArg[0].sArg, g_aCommands[ g_iCommand ].m_sName );
// pDst moved from arg0 to arg1 !
pArg[1].bType = TYPE_VALUE;
pArg[2].bType = TYPE_VALUE;
pArg[3].bType = TYPE_OPERATOR;
pArg[4].bType = TYPE_VALUE;
ArgsGetValue( &pArg[1], &pArg[1].nValue );
ArgsGetValue( &pArg[2], &pArg[2].nValue );
pArg[3].eToken = TOKEN_COLON;
ArgsGetValue( &pArg[4], &pArg[4].nValue );
nFound = 1;
nArgs = 4;
}
}
}
// TODO: display memory at address
// addr1 [addr2] -> display byte at address
// MDB memory display byte (is deprecated, so can be re-used)
}
} else {
return UPDATE_CONSOLE_DISPLAY;
}
}
if (nFound > 1)
{
// ASSERT (nFound == g_vPotentialCommands.size() );
DisplayAmbigiousCommands( nFound );
return ConsoleUpdate();
// return ConsoleDisplayError( gaPotentialCommands );
}
if (nFound)
{
bool bCook = true;
if (g_iCommand == CMD_OUTPUT_ECHO)
bCook = false;
int nArgsCooked = nArgs;
if (bCook)
nArgsCooked = ArgsCook( nArgs ); // nCookMask
if (nArgsCooked == ARG_SYNTAX_ERROR)
return ConsoleDisplayError( "Syntax Error" );
if (pFunction)
return pFunction( nArgsCooked ); // Eat them
return UPDATE_CONSOLE_DISPLAY;
}
else
return ConsoleDisplayError( "Illegal Command" );
}
// ________________________________________________________________________________________________
//===========================================================================
void OutputTraceLine ()
{
DisasmLine_t line;
GetDisassemblyLine( regs.pc, line );
char sDisassembly[ CONSOLE_WIDTH ]; // DrawDisassemblyLine( 0,regs.pc, sDisassembly); // Get Disasm String
FormatDisassemblyLine( line, sDisassembly, CONSOLE_WIDTH );
char sFlags[ _6502_NUM_FLAGS + 1 ]; DrawFlags( 0, regs.ps, sFlags ); // Get Flags String
if (!g_hTraceFile)
return;
if (g_bTraceHeader)
{
g_bTraceHeader = false;
if (g_bTraceFileWithVideoScanner)
{
fprintf( g_hTraceFile,
// "0000 0000 0000 00 00 00 00 0000 -------- 0000:90 90 90 NOP"
"Vert Horz Addr Data A: X: Y: SP: Flags Addr:Opcode Mnemonic\n");
}
else
{
fprintf( g_hTraceFile,
// "00 00 00 0000 -------- 0000:90 90 90 NOP"
"A: X: Y: SP: Flags Addr:Opcode Mnemonic\n");
}
}
char sTarget[ 16 ];
if (line.bTargetValue)
{
sprintf( sTarget, "%s:%s"
, line.sTargetPointer
, line.sTargetValue
);
}
if (g_bTraceFileWithVideoScanner)
{
uint16_t addr = NTSC_VideoGetScannerAddress(0); // NB. uExecutedCycles==0 as SingleStep() called afterwards
BYTE data = mem[addr];
fprintf( g_hTraceFile,
"%04X %04X %04X %02X %02X %02X %02X %04X %s %s\n",
g_nVideoClockVert,
g_nVideoClockHorz,
addr,
data,
(unsigned)regs.a,
(unsigned)regs.x,
(unsigned)regs.y,
(unsigned)regs.sp,
(char*) sFlags
, sDisassembly
//, sTarget // TODO: Show target?
);
}
else
{
fprintf( g_hTraceFile,
"%02X %02X %02X %04X %s %s\n",
(unsigned)regs.a,
(unsigned)regs.x,
(unsigned)regs.y,
(unsigned)regs.sp,
(char*) sFlags
, sDisassembly
//, sTarget // TODO: Show target?
);
}
}
//===========================================================================
int ParseInput ( LPTSTR pConsoleInput, bool bCook )
{
int nArg = 0;
// TODO: need to check for non-quoted command seperator ';', and buffer input
RemoveWhiteSpaceReverse( pConsoleInput );
ArgsClear();
nArg = ArgsGet( pConsoleInput ); // Get the Raw Args
int iArg;
for( iArg = 0; iArg <= nArg; iArg++ )
{
g_aArgs[ iArg ] = g_aArgRaw[ iArg ];
}
return nArg;
}
//===========================================================================
void ParseParameter( )
{
}
// Return address of next line to write to.
//===========================================================================
char * ProfileLinePeek ( int iLine )
{
char *pText = NULL;
if (iLine < 0)
iLine = 0;
if (! g_nProfileLine)
pText = & g_aProfileLine[ iLine ][ 0 ];
if (iLine <= g_nProfileLine)
pText = & g_aProfileLine[ iLine ][ 0 ];
return pText;
}
//===========================================================================
char * ProfileLinePush ()
{
if (g_nProfileLine < NUM_PROFILE_LINES)
{
g_nProfileLine++;
}
return ProfileLinePeek( g_nProfileLine );
}
void ProfileLineReset()
{
g_nProfileLine = 0;
}
#define DELIM "%s"
//===========================================================================
void ProfileFormat( bool bExport, ProfileFormat_e eFormatMode )
{
char sSeperator7[ 32 ] = "\t";
char sSeperator2[ 32 ] = "\t";
char sSeperator1[ 32 ] = "\t";
char sOpcode [ 8 ]; // 2 chars for opcode in hex, plus quotes on either side
char sAddress[MAX_OPMODE_NAME];
if (eFormatMode == PROFILE_FORMAT_COMMA)
{
sSeperator7[0] = ',';
sSeperator2[0] = ',';
sSeperator1[0] = ',';
}
else
if (eFormatMode == PROFILE_FORMAT_SPACE)
{
sprintf( sSeperator7, " " ); // 7
sprintf( sSeperator2, " " ); // 2
sprintf( sSeperator1, " " ); // 1
}
ProfileLineReset();
char *pText = ProfileLinePeek( 0 );
int iOpcode;
int iOpmode;
bool bOpcodeGood = true;
bool bOpmodeGood = true;
std::vector< ProfileOpcode_t > vProfileOpcode( &g_aProfileOpcodes[0], &g_aProfileOpcodes[ NUM_OPCODES ] );
std::vector< ProfileOpmode_t > vProfileOpmode( &g_aProfileOpmodes[0], &g_aProfileOpmodes[ NUM_OPMODES ] );
// sort >
std::sort( vProfileOpcode.begin(), vProfileOpcode.end(), ProfileOpcode_t() );
std::sort( vProfileOpmode.begin(), vProfileOpmode.end(), ProfileOpmode_t() );
Profile_t nOpcodeTotal = 0;
Profile_t nOpmodeTotal = 0;
for (iOpcode = 0; iOpcode < NUM_OPCODES; ++iOpcode )
{
nOpcodeTotal += vProfileOpcode[ iOpcode ].m_nCount;
}
for (iOpmode = 0; iOpmode < NUM_OPMODES; ++iOpmode )
{
nOpmodeTotal += vProfileOpmode[ iOpmode ].m_nCount;
}
if (nOpcodeTotal < 1.)
{
nOpcodeTotal = 1;
bOpcodeGood = false;
}
char *pColorOperator = "";
char *pColorNumber = "";
char *pColorOpcode = "";
char *pColorMnemonic = "";
char *pColorOpmode = "";
char *pColorTotal = "";
if (! bExport)
{
pColorOperator = CHC_ARG_SEP; // grey
pColorNumber = CHC_NUM_DEC; // cyan
pColorOpcode = CHC_NUM_HEX; // yellow
pColorMnemonic = CHC_COMMAND; // green
pColorOpmode = CHC_USAGE ; // yellow
pColorTotal = CHC_DEFAULT; // white
}
// Opcode
if (bExport) // Export = SeperateColumns
sprintf( pText
, "\"Percent\"" DELIM "\"Count\"" DELIM "\"Opcode\"" DELIM "\"Mnemonic\"" DELIM "\"Addressing Mode\"\n"
, sSeperator7, sSeperator2, sSeperator1, sSeperator1 );
else
sprintf( pText
, "Percent" DELIM "Count" DELIM "Mnemonic" DELIM "Addressing Mode\n"
, sSeperator7, sSeperator2, sSeperator1 );
pText = ProfileLinePush();
for (iOpcode = 0; iOpcode < NUM_OPCODES; ++iOpcode )
{
ProfileOpcode_t tProfileOpcode = vProfileOpcode.at( iOpcode );
Profile_t nCount = tProfileOpcode.m_nCount;
// Don't spam with empty data if dumping to the console
if ((! nCount) && (! bExport))
continue;
int nOpcode = tProfileOpcode.m_iOpcode;
int nOpmode = g_aOpcodes[ nOpcode ].nAddressMode;
double nPercent = (100. * nCount) / nOpcodeTotal;
char sOpmode[ MAX_OPMODE_FORMAT ];
sprintf( sOpmode, g_aOpmodes[ nOpmode ].m_sFormat, 0 );
if (bExport)
{
// Excel Bug: Quoted numbers are NOT treated as strings in .csv! WTF?
// @reference: http://support.microsoft.com/default.aspx?scid=kb;EN-US;Q214233
//
// Workaround: Prefix with (') apostrophe -- this doesn't break HEX2DEC()
// This works properly in Openoffice.
// In Excel, this ONLY works IF you TYPE it in!
//
// Solution: Quote the numbers, but you must select the "TEXT" Column data format for the "Opcode" column.
// We don't use .csv, since you aren't given the Import Dialog in Excel!
sprintf( sOpcode, "\"%02X\"", nOpcode ); // Works with Excel, IF using Import dialog & choose Text. (also works with OpenOffice)
// sprintf( sOpcode, "'%02X", nOpcode ); // SHOULD work with Excel, but only works with OpenOffice.
sprintf( sAddress, "\"%s\"", g_aOpmodes[ nOpmode ].m_sName );
}
else // not qouted if dumping to console
{
sprintf( sOpcode, "%02X", nOpcode );
strcpy( sAddress, g_aOpmodes[ nOpmode ].m_sName );
}
// BUG: Yeah 100% is off by 1 char. Profiling only one opcode isn't worth fixing this visual alignment bug.
sprintf( pText,
"%s%7.4f%s%%" DELIM "%s%9u" DELIM "%s%s" DELIM "%s%s" DELIM "%s%s\n"
, pColorNumber
, nPercent
, pColorOperator
, sSeperator2
, pColorNumber
, static_cast<unsigned int>(nCount), sSeperator2
, pColorOpcode
, sOpcode, sSeperator2
, pColorMnemonic
, g_aOpcodes[ nOpcode ].sMnemonic, sSeperator2
, pColorOpmode
, sAddress
);
pText = ProfileLinePush();
}
if (! bOpcodeGood)
nOpcodeTotal = 0;
sprintf( pText
, "Total: " DELIM "%s%9u\n"
, sSeperator2
, pColorTotal
, static_cast<unsigned int>(nOpcodeTotal) );
pText = ProfileLinePush();
sprintf( pText, "\n" );
pText = ProfileLinePush();
// Opmode
// "Percent Count Adressing Mode\n" );
if (bExport)
// Note: 2 extra dummy columns are inserted to keep Addressing Mode in same column
sprintf( pText
, "\"Percent\"" DELIM "\"Count\"" DELIM DELIM DELIM "\"Addressing Mode\"\n"
, sSeperator7, sSeperator2, sSeperator2, sSeperator2 );
else
{
sprintf( pText
, "Percent" DELIM "Count" DELIM "Addressing Mode\n"
, sSeperator7, sSeperator2 );
}
pText = ProfileLinePush();
if (nOpmodeTotal < 1)
{
nOpmodeTotal = 1.;
bOpmodeGood = false;
}
for (iOpmode = 0; iOpmode < NUM_OPMODES; ++iOpmode )
{
ProfileOpmode_t tProfileOpmode = vProfileOpmode.at( iOpmode );
Profile_t nCount = tProfileOpmode.m_nCount;
// Don't spam with empty data if dumping to the console
if ((! nCount) && (! bExport))
continue;
int nOpmode = tProfileOpmode.m_iOpmode;
double nPercent = (100. * nCount) / nOpmodeTotal;
if (bExport)
{
// Note: 2 extra dummy columns are inserted to keep Addressing Mode in same column
sprintf( sAddress, "%s%s\"%s\"", sSeperator1, sSeperator1, g_aOpmodes[ nOpmode ].m_sName );
}
else // not qouted if dumping to console
{
strcpy( sAddress, g_aOpmodes[ nOpmode ].m_sName );
}
// BUG: Yeah 100% is off by 1 char. Profiling only one opcode isn't worth fixing this visual alignment bug.
sprintf( pText
, "%s%7.4f%s%%" DELIM "%s%9u" DELIM "%s%s\n"
, pColorNumber
, nPercent
, pColorOperator
, sSeperator2
, pColorNumber
, static_cast<unsigned int>(nCount), sSeperator2
, pColorOpmode
, sAddress
);
pText = ProfileLinePush();
}
if (! bOpmodeGood)
nOpmodeTotal = 0;
sprintf( pText
, "Total: " DELIM "%s%9u\n"
, sSeperator2
, pColorTotal
, static_cast<unsigned int>(nOpmodeTotal) );
pText = ProfileLinePush();
sprintf( pText, "\n" );
pText = ProfileLinePush();
}
#undef DELIM
//===========================================================================
void ProfileReset()
{
int iOpcode;
int iOpmode;
for (iOpcode = 0; iOpcode < NUM_OPCODES; iOpcode++ )
{
g_aProfileOpcodes[ iOpcode ].m_iOpcode = iOpcode;
g_aProfileOpcodes[ iOpcode ].m_nCount = 0;
}
for (iOpmode = 0; iOpmode < NUM_OPMODES; iOpmode++ )
{
g_aProfileOpmodes[ iOpmode ].m_iOpmode = iOpmode;
g_aProfileOpmodes[ iOpmode ].m_nCount = 0;
}
}
//===========================================================================
bool ProfileSave()
{
bool bStatus = false;
char sFilename[MAX_PATH];
strcpy( sFilename, g_sProgramDir ); // TODO: Allow user to decide?
strcat( sFilename, g_FileNameProfile );
FILE *hFile = fopen( sFilename, "wt" );
if (hFile)
{
char *pText;
int nLine = g_nProfileLine;
int iLine;
for( iLine = 0; iLine < nLine; iLine++ )
{
pText = ProfileLinePeek( iLine );
if ( pText )
{
fputs( pText, hFile );
}
}
fclose( hFile );
bStatus = true;
}
return bStatus;
}
static void InitDisasm(void)
{
g_nDisasmCurAddress = regs.pc;
DisasmCalcTopBotAddress();
}
// _____________________________________________________________________________________
// | |
// | Public Functions |
// | |
// |_____________________________________________________________________________________|
//===========================================================================
void DebugBegin ()
{
// This is called every time the debugger is entered.
GetDebuggerMemDC();
g_nAppMode = MODE_DEBUG;
FrameRefreshStatus(DRAW_TITLE);
if (GetMainCpu() == CPU_6502)
{
g_aOpcodes = & g_aOpcodes6502[ 0 ]; // Apple ][, ][+, //e
g_aOpmodes[ AM_2 ].m_nBytes = 1;
g_aOpmodes[ AM_3 ].m_nBytes = 1;
}
else
{
g_aOpcodes = & g_aOpcodes65C02[ 0 ]; // Enhanced Apple //e
g_aOpmodes[ AM_2 ].m_nBytes = 2;
g_aOpmodes[ AM_3 ].m_nBytes = 3;
}
InitDisasm();
DebugVideoMode::Instance().Reset();
UpdateDisplay( UPDATE_ALL );
#if DEBUG_APPLE_FONT
int iFG = 7;
int iBG = 4;
// DebuggerSetColorFG( aColors[ iFG ] );
// DebuggerSetColorBG( aColors[ iBG ] );
int iChar = 0;
int x = 0;
int y = 0;
for (iChar = 0; iChar < 256; iChar++)
{
x = (iChar % 16);
y = (iChar / 16);
iFG = (x >> 1); // (iChar % 8);
iBG = (y >> 1) & 7; // (iChar / 8) & 7;
DebuggerSetColorFG( aConsoleColors[ iFG ] );
DebuggerSetColorBG( aConsoleColors[ iBG ] );
DebuggerPrintChar( x * (APPLE_FONT_WIDTH / 2), y * (APPLE_FONT_HEIGHT / 2), iChar );
}
#endif
}
//===========================================================================
void DebugExitDebugger ()
{
if (g_nBreakpoints == 0 && g_hTraceFile == NULL)
{
DebugEnd();
return;
}
// Still have some BPs set or tracing to file, so continue single-stepping
if (!g_bLastGoCmdWasFullSpeed)
CmdGoNormalSpeed(0);
else
CmdGoFullSpeed(0);
}
//===========================================================================
static void CheckBreakOpcode( int iOpcode )
{
if (iOpcode == 0x00) // BRK
IsDebugBreakOnInvalid( AM_IMPLIED );
if (g_aOpcodes[iOpcode].sMnemonic[0] >= 'a') // All 6502/65C02 undocumented opcodes mnemonics are lowercase strings!
{
// TODO: Translate g_aOpcodes[iOpcode].nAddressMode into {AM_1, AM_2, AM_3}
IsDebugBreakOnInvalid( AM_1 );
}
// User wants to enter debugger on specific opcode? (NB. Can't be BRK)
if (g_iDebugBreakOnOpcode && g_iDebugBreakOnOpcode == iOpcode)
g_bDebugBreakpointHit |= BP_HIT_OPCODE;
}
void DebugContinueStepping ()
{
static bool bForceSingleStepNext = false; // Allow at least one instruction to execute so we don't trigger on the same invalid opcode
if (g_nDebugSkipLen > 0)
{
if ((regs.pc >= g_nDebugSkipStart) && (regs.pc < (g_nDebugSkipStart + g_nDebugSkipLen)))
{
// Enter turbo debugger mode -- UI not updated, etc.
g_nDebugSteps = -1;
g_nAppMode = MODE_STEPPING;
}
else
{
// Enter normal debugger mode -- UI updated every instruction, etc.
g_nDebugSteps = 1;
g_nAppMode = MODE_STEPPING;
}
}
if (g_nDebugSteps)
{
bool bDoSingleStep = true;
if (bForceSingleStepNext)
{
bForceSingleStepNext = false;
g_bDebugBreakpointHit = BP_HIT_NONE; // Don't show 'Stop Reason' msg a 2nd time
}
else if (GetActiveCpu() != CPU_Z80)
{
if (g_hTraceFile)
OutputTraceLine();
g_bDebugBreakpointHit = BP_HIT_NONE;
if ( MemIsAddrCodeMemory(regs.pc) )
{
BYTE nOpcode = *(mem+regs.pc);
// Update profiling stats
int nOpmode = g_aOpcodes[ nOpcode ].nAddressMode;
g_aProfileOpcodes[ nOpcode ].m_nCount++;
g_aProfileOpmodes[ nOpmode ].m_nCount++;
CheckBreakOpcode( nOpcode ); // Can set g_bDebugBreakpointHit
}
else
{
g_bDebugBreakpointHit = BP_HIT_PC_READ_FLOATING_BUS_OR_IO_MEM;
}
if (g_bDebugBreakpointHit)
{
bDoSingleStep = false;
bForceSingleStepNext = true; // Allow next single-step (after this) to execute
}
}
if (bDoSingleStep)
{
SingleStep(g_bGoCmd_ReinitFlag);
g_bGoCmd_ReinitFlag = false;
g_bDebugBreakpointHit |= CheckBreakpointsIO() | CheckBreakpointsReg();
}
if (regs.pc == g_nDebugStepUntil || g_bDebugBreakpointHit)
{
TCHAR sText[ CONSOLE_WIDTH ];
char szStopMessage[CONSOLE_WIDTH];
char* pszStopReason = szStopMessage;
if (regs.pc == g_nDebugStepUntil)
pszStopReason = TEXT("PC matches 'Go until' address");
else if (g_bDebugBreakpointHit & BP_HIT_INVALID)
pszStopReason = TEXT("Invalid opcode");
else if (g_bDebugBreakpointHit & BP_HIT_OPCODE)
pszStopReason = TEXT("Opcode match");
else if (g_bDebugBreakpointHit & BP_HIT_REG)
pszStopReason = TEXT("Register matches value");
else if (g_bDebugBreakpointHit & BP_HIT_MEM)
sprintf_s(szStopMessage, sizeof(szStopMessage), "Memory accessed at $%04X", g_uBreakMemoryAddress);
else if (g_bDebugBreakpointHit & BP_HIT_PC_READ_FLOATING_BUS_OR_IO_MEM)
pszStopReason = TEXT("PC reads from floating bus or I/O memory");
else
pszStopReason = TEXT("Unknown!");
ConsoleBufferPushFormat( sText, TEXT("Stop reason: %s"), pszStopReason );
ConsoleUpdate();
g_nDebugSteps = 0;
}
if (g_nDebugSteps > 0)
g_nDebugSteps--;
}
if (!g_nDebugSteps)
{
SoundCore_SetFade(FADE_OUT); // NB. Call when MODE_STEPPING (not MODE_DEBUG) - see function
g_nAppMode = MODE_DEBUG;
FrameRefreshStatus(DRAW_TITLE);
// BUG: PageUp, Trace - doesn't center cursor
g_nDisasmCurAddress = regs.pc;
DisasmCalcTopBotAddress();
Update_t bUpdate = UPDATE_ALL;
UpdateDisplay( bUpdate );
}
}
//===========================================================================
void DebugStopStepping(void)
{
_ASSERT(g_nAppMode == MODE_STEPPING);
if (g_nAppMode != MODE_STEPPING)
return;
g_nDebugSteps = 0; // On next DebugContinueStepping(), stop single-stepping and transition to MODE_DEBUG
ClearTempBreakpoints();
}
//===========================================================================
void DebugDestroy ()
{
DebugEnd();
for (int iFont = 0; iFont < NUM_FONTS; iFont++ )
{
DeleteObject( g_aFontConfig[ iFont ]._hFont );
g_aFontConfig[ iFont ]._hFont = NULL;
}
// DeleteObject(g_hFontDisasm );
// DeleteObject(g_hFontDebugger);
// DeleteObject(g_hFontWebDings);
// TODO: Symbols_Clear()
for( int iTable = 0; iTable < NUM_SYMBOL_TABLES; iTable++ )
{
_CmdSymbolsClear( (SymbolTable_Index_e) iTable );
}
// TODO: DataDisassembly_Clear()
DeleteObject( g_hConsoleBrushFG );
DeleteObject( g_hConsoleBrushBG );
DeleteDC( g_hConsoleFontDC );
DeleteObject( g_hConsoleFontBitmap );
}
//===========================================================================
static void DebugEnd ()
{
// Stepping ... calls us when key hit?! FrameWndProc() ProcessButtonClick() DebugEnd()
if (g_bProfiling)
{
// See: .csv / .txt note in CmdProfile()
ProfileFormat( true, PROFILE_FORMAT_TAB ); // Export in Excel-ready text format.
ProfileSave();
}
if (g_hTraceFile)
{
fclose(g_hTraceFile);
g_hTraceFile = NULL;
}
g_vMemorySearchResults.erase( g_vMemorySearchResults.begin(), g_vMemorySearchResults.end() );
g_nAppMode = MODE_RUNNING;
ReleaseDebuggerMemDC();
}
#if _DEBUG
#define DEBUG_COLOR_RAMP 0
//===========================================================================
void _SetupColorRamp( const int iPrimary, int & iColor_ )
{
TCHAR sRamp[ CONSOLE_WIDTH*2 ] = TEXT("");
#if DEBUG_COLOR_RAMP
TCHAR sText[ CONSOLE_WIDTH ];
#endif
bool bR = (iPrimary & 1) ? true : false;
bool bG = (iPrimary & 2) ? true : false;
bool bB = (iPrimary & 4) ? true : false;
int dStep = 32;
int nLevels = 256 / dStep;
for (int iLevel = nLevels; iLevel > 0; iLevel-- )
{
int nC = ((iLevel * dStep) - 1);
int nR = bR ? nC : 0;
int nG = bG ? nC : 0;
int nB = bB ? nC : 0;
DWORD nColor = RGB(nR,nG,nB);
g_aColorPalette[ iColor_ ] = nColor;
#if DEBUG_COLOR_RAMP
wsprintf( sText, TEXT("RGB(%3d,%3d,%3d), "), nR, nG, nB );
_tcscat( sRamp, sText );
#endif
iColor_++;
}
#if DEBUG_COLOR_RAMP
wsprintf( sText, TEXT(" // %d%d%d\n"), bB, bG, bR );
_tcscat( sRamp, sText );
OutputDebugString( sRamp );
sRamp[0] = 0;
#endif
}
#endif // _DEBUG
// Full Screen uses the palette from g_pFramebufferinfo
// BUT DebutInitialize() is called before VideoInitialize()
// THUS this is called post-initialize to set up the global palette
//
// pPalDst is the first color in the palette that we can stick our custom debug colors in
//===========================================================================
void Debug_UpdatePalette( BYTE *pPalDst )
{
_ConfigColorsReset( pPalDst );
}
//===========================================================================
void _ConfigColorsReset( BYTE *pPalDst )
{
// int iColor = 1; // black only has one level, skip it, since black levels same as white levels
// for (int iPrimary = 1; iPrimary < 8; iPrimary++ )
// {
// _SetupColorRamp( iPrimary, iColor );
// }
BYTE *pDst = pPalDst;
// Setup default colors
int iColor;
for (iColor = 0; iColor < NUM_DEBUG_COLORS; iColor++ )
{
COLORREF nColor = g_aColorPalette[ g_aColorIndex[ iColor ] ];
int R = (nColor >> 0) & 0xFF;
int G = (nColor >> 8) & 0xFF;
int B = (nColor >> 16) & 0xFF;
if( pDst )
{
*(pDst + 0) = B;
*(pDst + 1) = G;
*(pDst + 2) = R;
*(pDst + 3) = 0;
pDst += 4;
}
// There are many, many ways of shifting the color domain to the monochrome domain
// NTSC uses 3x3 matrix, could map RGB -> wavelength, etc.
int M = (R + G + B) / 3; // Monochrome component
int nThreshold = 64;
int BW;
if (M < nThreshold)
BW = 0;
else
BW = 255;
COLORREF nMono = RGB(M,M,M);
COLORREF nBW = RGB(BW,BW,BW);
DebuggerSetColor( SCHEME_COLOR, iColor, nColor );
DebuggerSetColor( SCHEME_MONO , iColor, nMono );
DebuggerSetColor( SCHEME_BW , iColor, nBW );
}
}
//===========================================================================
void DebugInitialize ()
{
AssemblerOff(); // update prompt
#if _DEBUG
DWORD nError = 0;
#endif
#if _DEBUG
nError = GetLastError();
#endif
// Must select a bitmap into the temp DC !
HDC hTmpDC = CreateCompatibleDC( FrameGetDC() );
#if _DEBUG
nError = GetLastError();
#endif
g_hConsoleFontDC = CreateCompatibleDC( FrameGetDC() );
#if _DEBUG
nError = GetLastError();
#endif
#if APPLE_FONT_NEW
// Pre-scaled bitmap
g_hConsoleFontBitmap = LoadBitmap(g_hInstance,TEXT("IDB_DEBUG_FONT_7x8"));
SelectObject( g_hConsoleFontDC, g_hConsoleFontBitmap );
#else
// Scale at run-time
// Black = Transparent
// White = Opaque
HBITMAP hTmpBitamp = LoadBitmap(g_hInstance,TEXT("CHARSET40"));
#if _DEBUG
nError = GetLastError();
#endif
SelectObject( hTmpDC ,hTmpBitamp);
#if _DEBUG
nError = GetLastError();
#endif
g_hConsoleFontBrush = GetStockBrush( WHITE_BRUSH );
SelectObject(g_hConsoleFontDC, g_hConsoleFontBrush );
// SelectObject(hTmpDC, g_hDebugFontBrush );
#if _DEBUG
nError = GetLastError();
#endif
g_hConsoleFontBitmap = CreateCompatibleBitmap(
hTmpDC,
APPLE_FONT_X_REGIONSIZE/2, APPLE_FONT_Y_REGIONSIZE/2
);
#if _DEBUG
nError = GetLastError();
#endif
SelectObject( g_hConsoleFontDC, g_hConsoleFontBitmap );
StretchBlt(
g_hConsoleFontDC, // HDC hdcDest, // handle to destination DC
0, 0, // int nXOriginDest, int nYOriginDest, // y-coord of destination upper-left corner
APPLE_FONT_X_REGIONSIZE/2, APPLE_FONT_Y_REGIONSIZE/2, // int nWidthDest, int nHeightDest,
hTmpDC, // HDC hdcSrc, // handle to source DC
0, APPLE_FONT_Y_APPLE_80COL, // int nXOriginSrc, int nYOriginSrc,
APPLE_FONT_X_REGIONSIZE, APPLE_FONT_Y_REGIONSIZE, // int nWidthSrc, int nHeightSrc,
SRCCOPY // DWORD dwRop // raster operation code
);
DeleteObject( hTmpBitamp );
DeleteObject( hTmpDC );
#endif
ZeroMemory( g_aConsoleDisplay, sizeof( g_aConsoleDisplay ) ); // CONSOLE_WIDTH * CONSOLE_HEIGHT );
ConsoleInputReset();
for( int iWindow = 0; iWindow < NUM_WINDOWS; iWindow++ )
{
WindowSplit_t *pWindow = & g_aWindowConfig[ iWindow ];
pWindow->bSplit = false;
pWindow->eTop = (Window_e) iWindow;
pWindow->eBot = (Window_e) iWindow;
}
g_iWindowThis = WINDOW_CODE;
g_iWindowLast = WINDOW_CODE;
WindowUpdateDisasmSize();
_ConfigColorsReset();
WindowUpdateConsoleDisplayedSize();
// CLEAR THE BREAKPOINT AND WATCH TABLES
ZeroMemory( g_aBreakpoints , MAX_BREAKPOINTS * sizeof(Breakpoint_t));
ZeroMemory( g_aWatches , MAX_WATCHES * sizeof(Watches_t) );
ZeroMemory( g_aZeroPagePointers, MAX_ZEROPAGE_POINTERS * sizeof(ZeroPagePointers_t));
// Load Main, Applesoft, and User Symbols
extern bool g_bSymbolsDisplayMissingFile;
g_bSymbolsDisplayMissingFile = false;
g_iCommand = CMD_SYMBOLS_ROM;
CmdSymbolsLoad(0);
g_iCommand = CMD_SYMBOLS_APPLESOFT;
CmdSymbolsLoad(0);
// ,0x7,0xFF // Treat zero-page as data
// $00 GOWARM JSR ...
// $01 LOC1 DW
// $03 GOSTROUT JSR ...
// $07..$B0
// $B1 CHRGET
// $C8
// $C9 RNDSEED DW
// $D0..$FF
g_iCommand = CMD_SYMBOLS_USER_1;
CmdSymbolsLoad(0);
g_bSymbolsDisplayMissingFile = true;
#if OLD_FONT
// CREATE A FONT FOR THE DEBUGGING SCREEN
int nArgs = _Arg_1( g_sFontNameDefault );
#endif
for (int iFont = 0; iFont < NUM_FONTS; iFont++ )
{
g_aFontConfig[ iFont ]._hFont = NULL;
#if USE_APPLE_FONT
g_aFontConfig[ iFont ]._nFontHeight = CONSOLE_FONT_HEIGHT;
g_aFontConfig[ iFont ]._nFontWidthAvg = CONSOLE_FONT_WIDTH;
g_aFontConfig[ iFont ]._nFontWidthMax = CONSOLE_FONT_WIDTH;
g_aFontConfig[ iFont ]._nLineHeight = CONSOLE_FONT_HEIGHT;
#endif
}
#if OLD_FONT
_CmdConfigFont( FONT_INFO , g_sFontNameInfo , FIXED_PITCH | FF_MODERN , g_nFontHeight ); // DEFAULT_CHARSET
_CmdConfigFont( FONT_CONSOLE , g_sFontNameConsole, FIXED_PITCH | FF_MODERN , g_nFontHeight ); // DEFAULT_CHARSET
_CmdConfigFont( FONT_DISASM_DEFAULT, g_sFontNameDisasm , FIXED_PITCH | FF_MODERN , g_nFontHeight ); // OEM_CHARSET
_CmdConfigFont( FONT_DISASM_BRANCH , g_sFontNameBranch , DEFAULT_PITCH | FF_DECORATIVE, g_nFontHeight+3); // DEFAULT_CHARSET
#endif
_UpdateWindowFontHeights( g_aFontConfig[ FONT_DISASM_DEFAULT ]._nFontHeight );
int iColor;
iColor = FG_CONSOLE_OUTPUT;
COLORREF nColor = g_aColorPalette[ g_aColorIndex[ iColor ] ];
g_anConsoleColor[ CONSOLE_COLOR_x ] = nColor;
/*
g_hFontDebugger = CreateFont(
g_nFontHeight // Height
, 0 // Width
, 0 // Escapement
, 0 // Orientatin
, FW_MEDIUM // Weight
, 0 // Italic
, 0 // Underline
, 0 // Strike Out
, DEFAULT_CHARSET // "OEM_CHARSET" DEFAULT_CHARSET
, OUT_DEFAULT_PRECIS
, CLIP_DEFAULT_PRECIS
, ANTIALIASED_QUALITY // DEFAULT_QUALITY
, FIXED_PITCH | FF_MODERN // HACK: MAGIC #: 4 // FIXED_PITCH
, g_sFontNameDefault );
g_hFontWebDings = CreateFont(
g_nFontHeight // Height
, 0 // Width
, 0 // Escapement
, 0 // Orientatin
, FW_MEDIUM // Weight
, 0 // Italic
, 0 // Underline
, 0 // Strike Out
, DEFAULT_CHARSET // ANSI_CHARSET // OEM_CHARSET DEFAULT_CHARSET
, OUT_DEFAULT_PRECIS
, CLIP_DEFAULT_PRECIS
, ANTIALIASED_QUALITY // DEFAULT_QUALITY
, DEFAULT_PITCH | FF_DECORATIVE // FIXED_PITCH | 4 | FF_MODERN
, g_sFontNameBranch );
*/
// if (g_hFontWebDings)
#if !USE_APPLE_FONT
if (g_aFontConfig[ FONT_DISASM_BRANCH ]._hFont)
{
g_iConfigDisasmBranchType = DISASM_BRANCH_FANCY;
}
else
{
g_iConfigDisasmBranchType = DISASM_BRANCH_PLAIN;
}
#endif
// ConsoleInputReset(); already called in DebugInitialize()
TCHAR sText[ CONSOLE_WIDTH ];
VerifyDebuggerCommandTable();
// Check all summary help to see if it fits within the console
for (int iCmd = 0; iCmd < NUM_COMMANDS; iCmd++ )
{
char *pHelp = g_aCommands[ iCmd ].pHelpSummary;
if (pHelp)
{
int nLen = _tcslen( pHelp ) + 2;
if (nLen > (CONSOLE_WIDTH-1))
{
ConsoleBufferPushFormat( sText, TEXT("Warning: %s help is %d chars"),
pHelp, nLen );
}
}
}
#if _DEBUG
//g_bConsoleBufferPaused = true;
#endif
_Bookmark_Reset();
CmdMOTD(0);
}
// Add character to the input line
//===========================================================================
void DebuggerInputConsoleChar( TCHAR ch )
{
_ASSERT(g_nAppMode == MODE_DEBUG);
if (g_nAppMode != MODE_DEBUG)
return;
if (g_bConsoleBufferPaused)
return;
if (g_bIgnoreNextKey)
{
g_bIgnoreNextKey = false;
return;
}
if (ch == CONSOLE_COLOR_ESCAPE_CHAR)
return;
if (g_nConsoleInputSkip == ch)
return;
if (ch == CHAR_SPACE)
{
// If don't have console input, don't pass space to the input line
// exception: pass to assembler
if ((! g_nConsoleInputChars) && (! g_bAssemblerInput))
return;
}
if (g_nConsoleInputChars > (g_nConsoleDisplayWidth-1))
return;
if ((ch >= CHAR_SPACE) && (ch <= 126)) // HACK MAGIC # 32 -> ' ', # 126
{
if ((ch == TCHAR_QUOTE_DOUBLE) || (ch == TCHAR_QUOTE_SINGLE))
g_bConsoleInputQuoted = ! g_bConsoleInputQuoted;
if (!g_bConsoleInputQuoted)
{
// TODO: must fix param matching to ignore case
#if ALLOW_INPUT_LOWERCASE
#else
ch = (TCHAR)CharUpper((LPTSTR)ch);
#endif
}
ConsoleInputChar( ch );
DebuggerCursorNext();
DrawConsoleInput();
StretchBltMemToFrameDC();
}
else
if (ch == 0x16) // HACK: Ctrl-V. WTF!?
{
// Support Clipboard (paste)
if (!IsClipboardFormatAvailable(CF_TEXT))
return;
if (!OpenClipboard( g_hFrameWindow ))
return;
HGLOBAL hClipboard;
LPTSTR pData;
hClipboard = GetClipboardData(CF_TEXT);
if (hClipboard != NULL)
{
pData = (char*) GlobalLock(hClipboard);
if (pData != NULL)
{
LPTSTR pSrc = pData;
char c;
while (true)
{
c = *pSrc++;
if (! c)
break;
if (c == CHAR_CR)
{
#if WIN32
// Eat char
#endif
#if MACOSX
#pragma error( "TODO: Mac port - handle CR/LF")
#endif
}
else
if (c == CHAR_LF)
{
#if WIN32
DebuggerProcessCommand( true );
#endif
#if MACOSX
#pragma error( "TODO: Mac port - handle CR/LF")
#endif
}
else
{
// If we didn't want verbatim, we could do:
// DebuggerInputConsoleChar( c );
if ((c >= CHAR_SPACE) && (c <= 126)) // HACK MAGIC # 32 -> ' ', # 126
ConsoleInputChar( c );
}
}
GlobalUnlock(hClipboard);
}
}
CloseClipboard();
UpdateDisplay( UPDATE_CONSOLE_DISPLAY );
}
}
// Triggered when ENTER is pressed, or via script
//===========================================================================
Update_t DebuggerProcessCommand ( const bool bEchoConsoleInput )
{
Update_t bUpdateDisplay = UPDATE_NOTHING;
char sText[ CONSOLE_WIDTH ];
if (bEchoConsoleInput)
ConsoleDisplayPush( ConsoleInputPeek() );
if (g_bAssemblerInput)
{
if (g_nConsoleInputChars)
{
ParseInput( g_pConsoleInput, false ); // Don't cook the args
bUpdateDisplay |= _CmdAssemble( g_nAssemblerAddress, 0, g_nArgRaw );
}
else
{
AssemblerOff();
int nDelayedTargets = AssemblerDelayedTargetsSize();
if (nDelayedTargets)
{
sprintf( sText, " Asm: %d sym declared, not defined", nDelayedTargets );
ConsoleDisplayPush( sText );
bUpdateDisplay |= UPDATE_CONSOLE_DISPLAY;
}
}
ConsoleInputReset();
bUpdateDisplay |= UPDATE_CONSOLE_DISPLAY | UPDATE_CONSOLE_INPUT;
ConsoleUpdate(); // udpate console, don't pause
}
else
if (g_nConsoleInputChars)
{
// BufferedInputPush(
// Handle Buffered Input
// while ( BufferedInputPeek() )
int nArgs = ParseInput( g_pConsoleInput );
if (nArgs == ARG_SYNTAX_ERROR)
{
sprintf( sText, "Syntax error: %s", g_aArgs[0].sArg );
bUpdateDisplay |= ConsoleDisplayError( sText );
}
else
{
bUpdateDisplay |= ExecuteCommand( nArgs ); // ParseInput());
}
if (!g_bConsoleBufferPaused)
{
ConsoleInputReset();
}
}
return bUpdateDisplay;
}
void ToggleFullScreenConsole()
{
// Switch to Console Window
if (g_iWindowThis != WINDOW_CONSOLE)
{
CmdWindowViewConsole( 0 );
}
else // switch back to last window
{
CmdWindowLast( 0 );
}
}
//===========================================================================
void DebuggerProcessKey( int keycode )
{
if (g_nAppMode != MODE_DEBUG)
return;
if (DebugVideoMode::Instance().IsSet())
{
if ((VK_SHIFT == keycode) || (VK_CONTROL == keycode) || (VK_MENU == keycode))
{
return;
}
// Normally any key press takes us out of "Viewing Apple Output" g_nAppMode
// VK_F# are already processed, so we can't use them to cycle next video g_nAppMode
// if ((g_nAppMode != MODE_LOGO) && (g_nAppMode != MODE_DEBUG))
DebugVideoMode::Instance().Reset();
UpdateDisplay( UPDATE_ALL ); // 1
return;
}
Update_t bUpdateDisplay = UPDATE_NOTHING;
// For long output, allow user to read it
if (g_nConsoleBuffer)
{
if ((VK_SPACE == keycode) || (VK_RETURN == keycode) || (VK_TAB == keycode) || (VK_ESCAPE == keycode))
{
int nLines = MIN( g_nConsoleBuffer, g_nConsoleDisplayLines - 1 ); // was -2
if (VK_ESCAPE == keycode) // user doesn't want to read all this stu
{
nLines = g_nConsoleBuffer;
}
ConsoleBufferTryUnpause( nLines );
// don't really need since 'else if (keycode = VK_BACK)' but better safe then sorry
keycode = 0; // don't single-step
}
bUpdateDisplay |= UPDATE_CONSOLE_DISPLAY | UPDATE_CONSOLE_INPUT;
ConsoleDisplayPause();
}
else
// If have console input, don't invoke curmovement
// TODO: Probably should disable all "movement" keys to map them to line editing g_nAppMode
if ((keycode == VK_SPACE) && g_nConsoleInputChars)
return;
else if (keycode == VK_ESCAPE)
{
g_bConsoleInputQuoted = false;
ConsoleInputReset();
bUpdateDisplay |= UPDATE_CONSOLE_INPUT;
}
else if (keycode == VK_BACK)
{
// Note: Checks prev char if QUTOE - SINGLE or DOUBLE
// ConsoleUpdateCursor( CHAR_SPACE );
if (! ConsoleInputBackSpace())
{
// CmdBeep();
}
bUpdateDisplay |= UPDATE_CONSOLE_INPUT;
}
else if (keycode == VK_RETURN)
{
// ConsoleUpdateCursor( 0 );
if (! g_nConsoleInputChars)
{
// bugfix: 2.6.1.35 Fixed: Pressing enter on blank line while in assembler wouldn't exit it.
if( g_bAssemblerInput )
{
bUpdateDisplay |= DebuggerProcessCommand( false );
}
else
{
ToggleFullScreenConsole();
bUpdateDisplay |= UPDATE_ALL;
}
}
else
{
ConsoleScrollEnd();
bUpdateDisplay |= DebuggerProcessCommand( true ); // copy console input to console output
// BUGFIX: main disassembly listing doesn't get updated in full screen console
//bUpdateDisplay |= UPDATE_CONSOLE_DISPLAY;
bUpdateDisplay |= UPDATE_ALL;
}
}
else if (( keycode == VK_OEM_3 ) || // US: Tilde ~ (key to the immediate left of numeral 1)
( keycode == VK_OEM_8 )) // UK: Logical NOT <20> (key to the immediate left of numeral 1)
{
if (KeybGetCtrlStatus())
{
ToggleFullScreenConsole();
bUpdateDisplay |= UPDATE_ALL;
}
else
{
g_nConsoleInputSkip = 0; // VK_OEM_3;
DebuggerInputConsoleChar( '~' );
}
g_nConsoleInputSkip = '~'; // VK_OEM_3;
}
else
{
switch (keycode)
{
case VK_TAB:
{
if (g_nConsoleInputChars)
{
// TODO: TabCompletionCommand()
// TODO: TabCompletionSymbol()
bUpdateDisplay |= ConsoleInputTabCompletion();
}
else
if (KeybGetCtrlStatus() && KeybGetShiftStatus())
bUpdateDisplay |= CmdWindowCyclePrev( 0 );
else
if (KeybGetCtrlStatus())
bUpdateDisplay |= CmdWindowCycleNext( 0 );
else
bUpdateDisplay |= CmdCursorJumpPC( CURSOR_ALIGN_CENTER );
break;
}
case VK_SPACE:
if (g_bAssemblerInput)
{
// if (g_nConsoleInputChars)
// {
// ParseInput( g_pConsoleInput, false ); // Don't cook the args
// bUpdateDisplay |= _CmdAssemble( g_nAssemblerAddress, 0, g_nArgRaw );
// }
}
else
{
if (KeybGetShiftStatus())
bUpdateDisplay |= CmdStepOut(0);
else
if (KeybGetCtrlStatus())
bUpdateDisplay |= CmdStepOver(0);
else
bUpdateDisplay |= CmdTrace(0);
}
break;
case VK_HOME:
if (g_iWindowThis == WINDOW_CONSOLE)
{
ConsoleScrollHome();
}
else
if (g_nConsoleInputChars > 0)
{
if (KeybGetShiftStatus())
{
bUpdateDisplay |= ConsoleScrollHome();
}
else
{
// Move cursor to start of console input
}
}
else
{
// If you really want $000 at the top of the screen...
// g_nDisasmTopAddress = _6502_MEM_BEGIN;
// DisasmCalcCurFromTopAddress();
// DisasmCalcBotFromTopAddress();
g_nDisasmCurAddress = _6502_MEM_BEGIN;
DisasmCalcTopBotAddress();
}
bUpdateDisplay |= UPDATE_DISASM;
break;
case VK_END:
if (g_iWindowThis == WINDOW_CONSOLE)
{
ConsoleScrollEnd();
}
else
if (g_nConsoleInputChars > 0)
{
if (KeybGetShiftStatus())
{
bUpdateDisplay |= ConsoleScrollEnd();
}
else
{
// Move cursor to end of console input
}
}
else
{
// If you really want $8000 at the top of the screen...
// g_nDisasmTopAddress = (_6502_MEM_END / 2) + 1;
// DisasmCalcCurFromTopAddress();
// DisasmCalcTopBotAddress();
g_nDisasmCurAddress = (_6502_MEM_END / 2) + 1;
DisasmCalcTopBotAddress();
}
bUpdateDisplay |= UPDATE_DISASM;
break;
case VK_PRIOR: // VK_PAGE_UP
if (g_iWindowThis == WINDOW_CONSOLE)
{
bUpdateDisplay |= ConsoleScrollPageUp();
}
else
if (g_nConsoleInputChars > 0)
{
if (KeybGetShiftStatus())
{
bUpdateDisplay |= ConsoleScrollPageUp();
}
else
{
// Scroll through console input history
bUpdateDisplay |= ConsoleScrollUp( 3 );
}
}
else
{
if (KeybGetShiftStatus())
bUpdateDisplay |= CmdCursorPageUp256(0);
else
if (KeybGetCtrlStatus())
bUpdateDisplay |= CmdCursorPageUp4K(0);
else
bUpdateDisplay |= CmdCursorPageUp(0);
}
break;
case VK_NEXT: // VK_PAGE_DN
if (g_iWindowThis == WINDOW_CONSOLE)
{
bUpdateDisplay |= ConsoleScrollPageDn();
}
else
if (g_nConsoleInputChars > 0)
{
if (KeybGetShiftStatus())
{
bUpdateDisplay |= ConsoleScrollPageDn();
}
else
{
// Scroll through console input history
bUpdateDisplay |= ConsoleScrollDn( 3 );
}
}
else
{
if (KeybGetShiftStatus())
bUpdateDisplay |= CmdCursorPageDown256(0);
else
if (KeybGetCtrlStatus())
bUpdateDisplay |= CmdCursorPageDown4K(0);
else
bUpdateDisplay |= CmdCursorPageDown(0);
}
break;
case VK_UP:
if (g_iWindowThis == WINDOW_CONSOLE)
{
bUpdateDisplay |= ConsoleScrollUp( 1 );
}
else
if (g_nConsoleInputChars > 0)
{
if (KeybGetShiftStatus())
{
bUpdateDisplay |= ConsoleScrollUp( 1 );
}
else
{
// TODO: FIXME: Scroll through console input history
}
}
else
{
// Shift the Top offset up by 1 byte
// i.e. no smart disassembly like LineUp()
// Normally UP moves to the previous "line" which may be multiple bytes.
if (KeybGetShiftStatus())
bUpdateDisplay |= CmdCursorLineUp(1);
else
bUpdateDisplay |= CmdCursorLineUp(0); // smart disassembly
}
break;
case VK_DOWN:
if (g_iWindowThis == WINDOW_CONSOLE)
{
bUpdateDisplay |= ConsoleScrollDn( 1 );
}
else
if (g_nConsoleInputChars > 0)
{
if (KeybGetShiftStatus())
{
bUpdateDisplay |= ConsoleScrollDn( 1 );
}
else
{
// TODO: FIXME: Scroll through console input history
}
}
else
{
if (KeybGetCtrlStatus())
bUpdateDisplay |= CmdCursorRunUntil(0);
else
if (KeybGetShiftStatus())
// Shift the Offest down by 1 byte
// i.e. no smart disassembly like LineDown()
bUpdateDisplay |= CmdCursorLineDown(1);
else
bUpdateDisplay |= CmdCursorLineDown(0);
}
break;
case VK_RIGHT:
if (KeybGetCtrlStatus())
bUpdateDisplay |= CmdCursorSetPC( g_nDisasmCurAddress );
else
if (KeybGetShiftStatus())
bUpdateDisplay |= CmdCursorJumpPC( CURSOR_ALIGN_TOP );
else
if (KeybGetAltStatus())
bUpdateDisplay |= CmdCursorJumpPC( CURSOR_ALIGN_CENTER );
else
bUpdateDisplay |= CmdCursorFollowTarget( CURSOR_ALIGN_TOP );
break;
case VK_LEFT:
if (KeybGetShiftStatus())
bUpdateDisplay |= CmdCursorJumpRetAddr( CURSOR_ALIGN_TOP ); // Jump to Caller
else
bUpdateDisplay |= CmdCursorJumpRetAddr( CURSOR_ALIGN_CENTER );
break;
default:
if ((keycode >= '0') && (keycode <= '9'))
{
int nArgs = 1;
int iBookmark = keycode - '0';
if (KeybGetCtrlStatus() && KeybGetShiftStatus())
{
nArgs = 2;
g_aArgs[ 1 ].nValue = iBookmark;
g_aArgs[ 2 ].nValue = g_nDisasmCurAddress;
bUpdateDisplay |= CmdBookmarkAdd( nArgs );
g_bIgnoreNextKey = true;
}
else
if (KeybGetCtrlStatus())
{
nArgs = 1;
g_aArgs[ 1 ].nValue = iBookmark;
bUpdateDisplay |= CmdBookmarkGoto( nArgs );
g_bIgnoreNextKey = true;
}
}
break;
} // switch
}
if (bUpdateDisplay && !DebugVideoMode::Instance().IsSet()) // & UPDATE_BACKGROUND)
UpdateDisplay( bUpdateDisplay );
}
void DebugDisplay( BOOL bInitDisasm/*=FALSE*/ )
{
if (bInitDisasm)
InitDisasm();
UpdateDisplay( UPDATE_ALL );
}
//===========================================================================
void DebuggerUpdate()
{
DebuggerCursorUpdate();
}
//===========================================================================
void DebuggerCursorUpdate()
{
if (g_nAppMode != MODE_DEBUG)
return;
const int nUpdatesPerSecond = 4;
const DWORD nUpdateInternal_ms = 1000 / nUpdatesPerSecond;
static DWORD nBeg = GetTickCount(); // timeGetTime();
DWORD nNow = GetTickCount(); // timeGetTime();
if (((nNow - nBeg) >= nUpdateInternal_ms) && !DebugVideoMode::Instance().IsSet())
{
nBeg = nNow;
DebuggerCursorNext();
DrawConsoleCursor();
StretchBltMemToFrameDC();
}
else
{
Sleep(10); // Stop process hogging CPU
}
}
//===========================================================================
void DebuggerCursorNext()
{
g_bInputCursor ^= true;
if (g_bInputCursor)
ConsoleUpdateCursor( g_aInputCursor[ g_iInputCursor ] );
else
ConsoleUpdateCursor( 0 ); // show char under cursor
}
//===========================================================================
//char DebuggerCursorGet()
//{
// return g_aInputCursor[ g_iInputCursor ];
//}
//===========================================================================
void DebuggerMouseClick( int x, int y )
{
if (g_nAppMode != MODE_DEBUG)
return;
2017-08-25 14:22:08 +00:00
// NOTE: KeybUpdateCtrlShiftStatus() should be called before
int iAltCtrlShift = 0;
iAltCtrlShift |= (g_bAltKey & 1) << 0;
iAltCtrlShift |= (g_bCtrlKey & 1) << 1;
iAltCtrlShift |= (g_bShiftKey & 1) << 2;
// GH#462 disasm click #
if (iAltCtrlShift != g_bConfigDisasmClick)
return;
int nFontWidth = g_aFontConfig[ FONT_DISASM_DEFAULT ]._nFontWidthAvg * GetViewportScale();
int nFontHeight = g_aFontConfig[ FONT_DISASM_DEFAULT ]._nLineHeight * GetViewportScale();
// do picking
const int nOffsetX = IsFullScreen() ? GetFullScreenOffsetX() : Get3DBorderWidth();
const int nOffsetY = IsFullScreen() ? GetFullScreenOffsetY() : Get3DBorderHeight();
const int nOffsetInScreenX = x - nOffsetX;
const int nOffsetInScreenY = y - nOffsetY;
if (nOffsetInScreenX < 0 || nOffsetInScreenY < 0)
return;
int cx = nOffsetInScreenX / nFontWidth;
int cy = nOffsetInScreenY / nFontHeight;
#if _DEBUG
char sText[ CONSOLE_WIDTH ];
sprintf( sText, "x:%d y:%d cx:%d cy:%d", x, y, cx, cy );
ConsoleDisplayPush( sText );
DebugDisplay();
#endif
if (g_iWindowThis == WINDOW_CODE)
{
// Display_AssemblyLine -- need Tabs
if( g_bConfigDisasmAddressView )
{
// HACK: hard-coded from DrawDisassemblyLine::aTabs[] !!!
if( cx < 4) // ####
{
g_bConfigDisasmAddressView ^= true;
DebugDisplay();
}
else
if (cx == 4) // :
{
g_bConfigDisasmAddressColon ^= true;
DebugDisplay();
}
else // AD 00 00
if ((cx > 4) && (cx <= 13))
{
g_bConfigDisasmOpcodesView ^= true;
DebugDisplay();
}
} else
{
if( cx == 0 ) // :
{
// Three-way state
// "addr:"
// ":"
// " "
g_bConfigDisasmAddressColon ^= true;
if( g_bConfigDisasmAddressColon )
{
g_bConfigDisasmAddressView ^= true;
}
DebugDisplay();
}
else
if ((cx > 0) & (cx <= 13))
{
g_bConfigDisasmOpcodesView ^= true;
DebugDisplay();
}
}
// Click on PC inside reg window?
if ((cx >= 51) && (cx <= 60))
{
if (cy == 3)
{
CmdCursorJumpPC( CURSOR_ALIGN_CENTER );
DebugDisplay();
}
2017-08-25 16:29:30 +00:00
else
if (cy == 4 || cy == 5)
{
int iFlag = -1;
int nFlag = _6502_NUM_FLAGS;
while( nFlag --> 0 )
{
// TODO: magic number instead of DrawFlags() DISPLAY_FLAG_COLUMN, rect.left += ((2 + _6502_NUM_FLAGS) * nSpacerWidth);
// BP_SRC_FLAG_C is 6, cx 60 --> 0
// ...
// BP_SRC_FLAG_N is 13, cx 53 --> 7
if (cx == (53 + nFlag))
{
iFlag = 7 - nFlag;
break;
}
}
if (iFlag >= 0)
{
regs.ps ^= (1 << iFlag);
DebugDisplay();
}
}
else // Click on stack
if( cy > 3)
{
}
}
}
}
//===========================================================================
bool IsDebugSteppingAtFullSpeed(void)
{
return (g_nAppMode == MODE_STEPPING) && g_bDebugFullSpeed;
}