AppleWin/source/Keyboard.cpp

/*
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) 2006-2007, 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: Keyboard emulation
 *
 * Author: Various
 */

#include "StdAfx.h"
#pragma  hdrstop

static bool g_bKeybBufferEnable = false;

#define KEY_OLD

static BYTE asciicode[2][10] = {
	{0x08,0x0D,0x15,0x2F,0x00,0x00,0x00,0x00,0x00,0x00},
	{0x08,0x0B,0x15,0x0A,0x00,0x00,0x00,0x00,0x00,0x7F}
};	// Convert PC arrow keys to Apple keycodes

static bool  g_bShiftKey = false;
static bool  g_bCtrlKey  = false;
static bool  g_bAltKey   = false;
static bool  g_bCapsLock = true; //Caps lock key for Apple2 and Lat/Cyr lock for Pravets8
static bool  g_bP8CapsLock = true; //Caps lock key of Pravets 8A/C
static int   lastvirtkey     = 0;	// Current PC keycode
static BYTE  keycode         = 0;	// Current Apple keycode
static DWORD keyboardqueries = 0;

#ifdef KEY_OLD
// Original
static BOOL  keywaiting      = 0;
#else
// Buffered key input:
// - Needed on faster PCs where aliasing occurs during short/fast bursts of 6502 code.
// - Keyboard only sampled during 6502 execution, so if it's run too fast then key presses will be missed.
const int KEY_BUFFER_MIN_SIZE = 1;
const int KEY_BUFFER_MAX_SIZE = 2;
static int g_nKeyBufferSize = KEY_BUFFER_MAX_SIZE;	// Circ key buffer size
static int g_nNextInIdx = 0;
static int g_nNextOutIdx = 0;
static int g_nKeyBufferCnt = 0;

static struct
{
	int nVirtKey;
	BYTE nAppleKey;
} g_nKeyBuffer[KEY_BUFFER_MAX_SIZE];
#endif

static BYTE g_nLastKey = 0x00;

//
// ----- ALL GLOBALLY ACCESSIBLE FUNCTIONS ARE BELOW THIS LINE -----
//

//===========================================================================

void KeybReset()
{
#ifdef KEY_OLD
	keywaiting = 0;
#else
	g_nNextInIdx = 0;
	g_nNextOutIdx = 0;
	g_nKeyBufferCnt = 0;
	g_nLastKey = 0x00;

	g_nKeyBufferSize = g_bKeybBufferEnable ? KEY_BUFFER_MAX_SIZE : KEY_BUFFER_MIN_SIZE;
#endif
}

//===========================================================================

//void KeybSetBufferMode(bool bNewKeybBufferEnable)
//{
//	if(g_bKeybBufferEnable == bNewKeybBufferEnable)
//		return;
//
//	g_bKeybBufferEnable = bNewKeybBufferEnable;
//	KeybReset();
//}
//
//bool KeybGetBufferMode()
//{
//	return g_bKeybBufferEnable;
//}

//===========================================================================
bool KeybGetAltStatus ()
{
	return g_bAltKey;
}

//===========================================================================
bool KeybGetCapsStatus ()
{
	return g_bCapsLock;
}
//===========================================================================
bool KeybGetP8CapsStatus()
{
	return g_bP8CapsLock;
}
//===========================================================================
/*
bool KeybGetCapsAllowed() //For Pravets 8A/C only
{
	return g_CapsLockAllowed;
}
*/
//===========================================================================
bool KeybGetCtrlStatus ()
{
	return g_bCtrlKey;
}

//===========================================================================
bool KeybGetShiftStatus ()
{
	return g_bShiftKey;
}

//===========================================================================
void KeybUpdateCtrlShiftStatus()
{
	g_bShiftKey = (GetKeyState( VK_SHIFT  ) & KF_UP) ? true : false; // 0x8000 KF_UP
	g_bCtrlKey  = (GetKeyState( VK_CONTROL) & KF_UP) ? true : false;
	g_bAltKey   = (GetKeyState( VK_MENU   ) & KF_UP) ? true : false;
}

//===========================================================================
BYTE KeybGetKeycode ()		// Used by MemCheckPaging() & VideoCheckMode()
{
	return keycode;
}

//===========================================================================
DWORD KeybGetNumQueries ()	// Used in determining 'idleness' of Apple system
{
	DWORD result = keyboardqueries;
	keyboardqueries = 0;
	return result;
}

//===========================================================================
void KeybQueueKeypress (int key, BOOL bASCII)
{
	static bool bFreshReset = false;

	if (bASCII == ASCII)
	{
		if (bFreshReset && key == 0x03)
		{
			bFreshReset = false;
			return; // Swallow spurious CTRL-C caused by CTRL-BREAK
		}

		bFreshReset = false;
		if (key > 0x7F)
			return;

		if (!IS_APPLE2) 
		{
			P8Shift = false;
			if (g_bCapsLock && (key >= 'a') && (key <='z'))
			{
				P8Shift = true;
				keycode = key - 32;
			}
			else
			{
				keycode = key;
			}			

			//The latter line should be applied for Pravtes 8A/C only, but not for Pravets 82/M !!!			
			if ((g_bCapsLock == false) && (key >= 'A') && (key <='Z'))
			{
				P8Shift = true;
				if (g_Apple2Type == A2TYPE_PRAVETS8A) 
					keycode = key + 32;
			}

			//Remap some keys for Pravets82/M
			if (g_Apple2Type == A2TYPE_PRAVETS82)
			{
				if (key == 64) 
					keycode = 96;
				if (key == '^') 
					keycode = '~';

				if (g_bCapsLock == false) //i.e. cyrillic letters
				{
					if (key == '`') keycode = '^';
					if (key == 92) keycode = '@'; // \ to @	
					if (key == 124) keycode = 92;
				}
				else //(g_bCapsLock == true) //i.e. latin letters
				{
					if (key == 91) keycode = 123;
					if (key == 93) keycode = 125;
					if (key == 124) keycode = 92;
				}
			}
			//Remap some keys for Pravets8A/C, which has a different charset for Pravtes82/M, whose keys MUST NOT be remapped.
			if (g_Apple2Type == A2TYPE_PRAVETS8A) //&& (g_bCapsLock == false))
			{
				if (g_bCapsLock == false) //i.e. cyrillic letters
			    {
					if (key == '[') keycode = '{';
					if (key == ']') keycode = '}';
					if (key == '`') keycode = '~';
					if (key == 92) keycode = 96;
					if (GetCapsLockAllowed ()== true)
					{
						if ((key == 92) || (key == 124)) keycode = 96; //<2F> to <20>
						//This shall be rewriten, so that enabling CAPS_LOCK (i.e. F10) will not invert these keys values)
						//The same for latin letters.
						if ((key == '{') || (key == '}') || (key == '~') || (key == 124) || (key == '^') ||  (key == 95))
							P8Shift = true;					
					}
				}
				else //i.e. latin letters
				{
					if (GetCapsLockAllowed()  == false)
					{
						if (key == '{') keycode = '[';
						if (key == '}') keycode = ']';
						if (key == 124) 
							keycode = 92;
						/*if (key == 92) 
							keycode = 124;*/
					//Characters ` and ~ cannot be generated in 7bit character mode, so they are replaced with
					}
					else
					{
						if (key == '{') keycode = 91;
						if (key == '}')	keycode = 93;
						if (key == 124)	keycode = 92;					
						if ((key == '[') || (key == ']') || (key == 92) || (key == '^') || (key == 95))
							P8Shift= true; 
						if (key == 96)	 //This line shall generate sth. else i.e. ` In fact. this character is not generateable by the pravets keyboard.
						{
							keycode = '^';
							P8Shift= true;
						}
						if (key == 126)	keycode = '^';
					}
				}
			}
		}
		else
		{
			if (g_Apple2Type == A2TYPE_PRAVETS8A)
			{
			}
			else
			{
				if (key >= '`')
					keycode = key - 32;
				else
					keycode = key;
			}
		}
		lastvirtkey = LOBYTE(VkKeyScan(key));
	} 
	else //(bASCII != ASCII)
	{
		if ((key == VK_CANCEL) && (GetKeyState(VK_CONTROL) < 0))
		{
			// Ctrl+Reset
			if (!IS_APPLE2)
				MemResetPaging();

			DiskReset();
			KeybReset();
			if (!IS_APPLE2)
				VideoResetState();	// Switch Alternate char set off
			MB_Reset();

#ifndef KEY_OLD
			g_nNextInIdx = g_nNextOutIdx = g_nKeyBufferCnt = 0;
#endif

			CpuReset();
			bFreshReset = true;
			return;
		}

		if ((key == VK_INSERT) && (GetKeyState(VK_SHIFT) < 0))
		{
			// Shift+Insert
			ClipboardInitiatePaste();
			return;
		}

		if (!((key >= VK_LEFT) && (key <= VK_DELETE) && asciicode[IS_APPLE2 ? 0 : 1][key - VK_LEFT]))
			return;

		keycode = asciicode[IS_APPLE2 ? 0 : 1][key - VK_LEFT];		// Convert to Apple arrow keycode
		lastvirtkey = key;
	}
#ifdef KEY_OLD
	keywaiting = 1;
#else
	bool bOverflow = false;

	if(g_nKeyBufferCnt < g_nKeyBufferSize)
		g_nKeyBufferCnt++;
	else
		bOverflow = true;

	g_nKeyBuffer[g_nNextInIdx].nVirtKey = lastvirtkey;
	g_nKeyBuffer[g_nNextInIdx].nAppleKey = keycode;
	g_nNextInIdx = (g_nNextInIdx + 1) % g_nKeyBufferSize;

	if(bOverflow)
		g_nNextOutIdx = (g_nNextOutIdx + 1) % g_nKeyBufferSize;
#endif
}

//===========================================================================

static HGLOBAL hglb = NULL;
static LPTSTR lptstr = NULL;
static bool g_bPasteFromClipboard = false;
static bool g_bClipboardActive = false;

void ClipboardInitiatePaste()
{
	if (g_bClipboardActive)
		return;

	g_bPasteFromClipboard = true;
}

static void ClipboardDone()
{
	if (g_bClipboardActive)
	{
		g_bClipboardActive = false;
		GlobalUnlock(hglb);
		CloseClipboard();
	}
}

static void ClipboardInit()
{
	ClipboardDone();

	if (!IsClipboardFormatAvailable(CF_TEXT))
		return;
	
	if (!OpenClipboard(g_hFrameWindow))
		return;
	
	hglb = GetClipboardData(CF_TEXT);
	if (hglb == NULL)
	{	
		CloseClipboard();
		return;
	}

	lptstr = (char*) GlobalLock(hglb);
	if (lptstr == NULL)
	{	
		CloseClipboard();
		return;
	}

	g_bPasteFromClipboard = false;
	g_bClipboardActive = true;
}

static char ClipboardCurrChar(bool bIncPtr)
{
	char nKey;
	int nInc = 1;

	if((lptstr[0] == 0x0D) && (lptstr[1] == 0x0A))
	{
		nKey = 0x0D;
		nInc = 2;
	}
	else
	{
		nKey = lptstr[0];
	}

	if(bIncPtr)
		lptstr += nInc;

	return nKey;
}

//===========================================================================

BYTE __stdcall KeybReadData (WORD, WORD, BYTE, BYTE, ULONG)
{
	keyboardqueries++;

	//

	if(g_bPasteFromClipboard)
		ClipboardInit();

	if(g_bClipboardActive)
	{
		if(*lptstr == 0)
			ClipboardDone();
		else
			return 0x80 | ClipboardCurrChar(false);
	}

	//

#ifdef KEY_OLD
	return keycode | (keywaiting ? 0x80 : 0);
#else
	BYTE nKey = g_nKeyBufferCnt ? 0x80 : 0;
	if(g_nKeyBufferCnt)
	{
		nKey |= g_nKeyBuffer[g_nNextOutIdx].nAppleKey;
		g_nLastKey = g_nKeyBuffer[g_nNextOutIdx].nAppleKey;
	}
	else
	{
		nKey |= g_nLastKey;
	}
	return nKey;
#endif
}

//===========================================================================

BYTE __stdcall KeybReadFlag (WORD, WORD, BYTE, BYTE, ULONG)
{
	keyboardqueries++;

	//

	if(g_bPasteFromClipboard)
		ClipboardInit();

	if(g_bClipboardActive)
	{
		if(*lptstr == 0)
			ClipboardDone();
		else
			return 0x80 | ClipboardCurrChar(true);
	}

	//

#ifdef KEY_OLD
	keywaiting = 0;
	return keycode | ((GetKeyState(lastvirtkey) < 0) ? 0x80 : 0);
#else
	BYTE nKey = (GetKeyState(g_nKeyBuffer[g_nNextOutIdx].nVirtKey) < 0) ? 0x80 : 0;
	nKey |= g_nKeyBuffer[g_nNextOutIdx].nAppleKey;
	if(g_nKeyBufferCnt)
	{
		g_nKeyBufferCnt--;
		g_nNextOutIdx = (g_nNextOutIdx + 1) % g_nKeyBufferSize;
	}
	return nKey;
#endif
}

//===========================================================================
void KeybToggleCapsLock ()
{
	if (!IS_APPLE2)
	{
		g_bCapsLock = (GetKeyState(VK_CAPITAL) & 1);
		FrameRefreshStatus(DRAW_LEDS);
	}
}

//===========================================================================
void KeybToggleP8ACapsLock ()
{
	_ASSERT(g_Apple2Type == A2TYPE_PRAVETS8A);
	P8CAPS_ON = !P8CAPS_ON;
	FrameRefreshStatus(DRAW_LEDS);
	// g_bP8CapsLock= g_bP8CapsLock?false:true; //The same as the upper, but slower
}

//===========================================================================

DWORD KeybGetSnapshot(SS_IO_Keyboard* pSS)
{
	pSS->keyboardqueries	= keyboardqueries;
	pSS->nLastKey			= g_nLastKey;
	return 0;
}

DWORD KeybSetSnapshot(SS_IO_Keyboard* pSS)
{
	keyboardqueries	= pSS->keyboardqueries;
	g_nLastKey		= pSS->nLastKey;
	return 0;
}