AppleWin/source/Video.cpp
Andrea 7ca547479b
Move Windows related functions to Interface.h (PR #882)
This is not complete as header files from Windows/.. are still included in:

Keyboard.cpp
SerialComms.cpp
Joystick.cpp

But probably these are arch specific and will have to be completely reimplemented elsewhere.
2020-11-29 17:30:06 +00:00

864 lines
26 KiB
C++

/*
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) 2006-2010, Tom Charlesworth, Michael Pohoreski, Nick Westgate
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: Emulation of video modes
*
* Author: Various
*/
#include "StdAfx.h"
#include "Video.h"
#include "Core.h"
#include "CPU.h"
#include "Frame.h"
#include "Interface.h"
#include "Log.h"
#include "Memory.h"
#include "Registry.h"
#include "NTSC.h"
#include "RGBMonitor.h"
#include "YamlHelper.h"
#define SW_80COL (g_uVideoMode & VF_80COL)
#define SW_DHIRES (g_uVideoMode & VF_DHIRES)
#define SW_HIRES (g_uVideoMode & VF_HIRES)
#define SW_80STORE (g_uVideoMode & VF_80STORE)
#define SW_MIXED (g_uVideoMode & VF_MIXED)
#define SW_PAGE2 (g_uVideoMode & VF_PAGE2)
#define SW_TEXT (g_uVideoMode & VF_TEXT)
// Globals (Public)
uint8_t *g_pFramebufferbits = NULL; // last drawn frame (initialized in WinVideoInitialize)
int g_nAltCharSetOffset = 0; // alternate character set
// Globals (Private)
// video scanner constants
int const kHBurstClock = 53; // clock when Color Burst starts
int const kHBurstClocks = 4; // clocks per Color Burst duration
int const kHClock0State = 0x18; // H[543210] = 011000
int const kHClocks = 65; // clocks per horizontal scan (including HBL)
int const kHPEClock = 40; // clock when HPE (horizontal preset enable) goes low
int const kHPresetClock = 41; // clock when H state presets
int const kHSyncClock = 49; // clock when HSync starts
int const kHSyncClocks = 4; // clocks per HSync duration
int const kNTSCScanLines = 262; // total scan lines including VBL (NTSC)
int const kNTSCVSyncLine = 224; // line when VSync starts (NTSC)
int const kPALScanLines = 312; // total scan lines including VBL (PAL)
int const kPALVSyncLine = 264; // line when VSync starts (PAL)
int const kVLine0State = 0x100; // V[543210CBA] = 100000000
int const kVPresetLine = 256; // line when V state presets
int const kVSyncLines = 4; // lines per VSync duration
int const kVDisplayableScanLines = 192; // max displayable scanlines
COLORREF g_nMonochromeRGB = RGB(0xC0,0xC0,0xC0);
uint32_t g_uVideoMode = VF_TEXT; // Current Video Mode (this is the last set one as it may change mid-scan line!)
DWORD g_eVideoType = VT_DEFAULT;
static VideoStyle_e g_eVideoStyle = VS_HALF_SCANLINES;
static bool g_bVideoScannerNTSC = true; // NTSC video scanning (or PAL)
//-------------------------------------
// NOTE: KEEP IN SYNC: VideoType_e g_aVideoChoices g_apVideoModeDesc
TCHAR g_aVideoChoices[] =
TEXT("Monochrome (Custom)\0")
TEXT("Color (Composite Idealized)\0") // newly added
TEXT("Color (RGB Card/Monitor)\0") // was "Color (RGB Monitor)"
TEXT("Color (Composite Monitor)\0") // was "Color (NTSC Monitor)"
TEXT("Color TV\0")
TEXT("B&W TV\0")
TEXT("Monochrome (Amber)\0")
TEXT("Monochrome (Green)\0")
TEXT("Monochrome (White)\0")
;
// NOTE: KEEP IN SYNC: VideoType_e g_aVideoChoices g_apVideoModeDesc
// The window title will be set to this.
static const char *g_apVideoModeDesc[ NUM_VIDEO_MODES ] =
{
"Monochrome (Custom)"
, "Color (Composite Idealized)"
, "Color (RGB Card/Monitor)"
, "Color (Composite Monitor)"
, "Color TV"
, "B&W TV"
, "Monochrome (Amber)"
, "Monochrome (Green)"
, "Monochrome (White)"
};
// Prototypes (Private) _____________________________________________
bool g_bDisplayPrintScreenFileName = false;
bool g_bShowPrintScreenWarningDialog = true;
static void Util_MakeScreenShotFileName( TCHAR *pFinalFileName_, DWORD chars );
static bool Util_TestScreenShotFileName( const TCHAR *pFileName );
static void Video_MakeScreenShot( FILE *pFile, const VideoScreenShot_e ScreenShotType );
static void videoCreateDIBSection();
//===========================================================================
//
// ----- ALL GLOBALLY ACCESSIBLE FUNCTIONS ARE BELOW THIS LINE -----
//
//===========================================================================
void VideoReinitialize (bool bInitVideoScannerAddress /*= true*/)
{
NTSC_VideoReinitialize( g_dwCyclesThisFrame, bInitVideoScannerAddress );
NTSC_VideoInitAppleType();
NTSC_SetVideoStyle();
NTSC_SetVideoTextMode( g_uVideoMode & VF_80COL ? 80 : 40 );
NTSC_SetVideoMode( g_uVideoMode ); // Pre-condition: g_nVideoClockHorz (derived from g_dwCyclesThisFrame)
VideoSwitchVideocardPalette(RGB_GetVideocard(), GetVideoType());
}
//===========================================================================
void VideoResetState ()
{
g_nAltCharSetOffset = 0;
g_uVideoMode = VF_TEXT;
NTSC_SetVideoTextMode( 40 );
NTSC_SetVideoMode( g_uVideoMode );
RGB_ResetState();
}
//===========================================================================
BYTE VideoSetMode(WORD, WORD address, BYTE write, BYTE, ULONG uExecutedCycles)
{
address &= 0xFF;
const uint32_t oldVideoMode = g_uVideoMode;
switch (address)
{
case 0x00: g_uVideoMode &= ~VF_80STORE; break;
case 0x01: g_uVideoMode |= VF_80STORE; break;
case 0x0C: if (!IS_APPLE2){g_uVideoMode &= ~VF_80COL; NTSC_SetVideoTextMode(40);}; break;
case 0x0D: if (!IS_APPLE2){g_uVideoMode |= VF_80COL; NTSC_SetVideoTextMode(80);}; break;
case 0x0E: if (!IS_APPLE2) g_nAltCharSetOffset = 0; break; // Alternate char set off
case 0x0F: if (!IS_APPLE2) g_nAltCharSetOffset = 256; break; // Alternate char set on
case 0x50: g_uVideoMode &= ~VF_TEXT; break;
case 0x51: g_uVideoMode |= VF_TEXT; break;
case 0x52: g_uVideoMode &= ~VF_MIXED; break;
case 0x53: g_uVideoMode |= VF_MIXED; break;
case 0x54: g_uVideoMode &= ~VF_PAGE2; break;
case 0x55: g_uVideoMode |= VF_PAGE2; break;
case 0x56: g_uVideoMode &= ~VF_HIRES; break;
case 0x57: g_uVideoMode |= VF_HIRES; break;
case 0x5E: if (!IS_APPLE2) g_uVideoMode |= VF_DHIRES; break;
case 0x5F: if (!IS_APPLE2) g_uVideoMode &= ~VF_DHIRES; break;
}
if (!IS_APPLE2)
RGB_SetVideoMode(address);
// Only 1-cycle delay for VF_TEXT & VF_MIXED mode changes (GH#656)
bool delay = false;
if ((oldVideoMode ^ g_uVideoMode) & (VF_TEXT|VF_MIXED))
delay = true;
NTSC_SetVideoMode( g_uVideoMode, delay );
return MemReadFloatingBus(uExecutedCycles);
}
//===========================================================================
bool VideoGetSW80COL(void)
{
return SW_80COL ? true : false;
}
bool VideoGetSWDHIRES(void)
{
return SW_DHIRES ? true : false;
}
bool VideoGetSWHIRES(void)
{
return SW_HIRES ? true : false;
}
bool VideoGetSW80STORE(void)
{
return SW_80STORE ? true : false;
}
bool VideoGetSWMIXED(void)
{
return SW_MIXED ? true : false;
}
bool VideoGetSWPAGE2(void)
{
return SW_PAGE2 ? true : false;
}
bool VideoGetSWTEXT(void)
{
return SW_TEXT ? true : false;
}
bool VideoGetSWAltCharSet(void)
{
return g_nAltCharSetOffset != 0;
}
//===========================================================================
#define SS_YAML_KEY_ALT_CHARSET "Alt Char Set"
#define SS_YAML_KEY_VIDEO_MODE "Video Mode"
#define SS_YAML_KEY_CYCLES_THIS_FRAME "Cycles This Frame"
#define SS_YAML_KEY_VIDEO_REFRESH_RATE "Video Refresh Rate"
static std::string VideoGetSnapshotStructName(void)
{
static const std::string name("Video");
return name;
}
void VideoSaveSnapshot(YamlSaveHelper& yamlSaveHelper)
{
YamlSaveHelper::Label state(yamlSaveHelper, "%s:\n", VideoGetSnapshotStructName().c_str());
yamlSaveHelper.SaveBool(SS_YAML_KEY_ALT_CHARSET, g_nAltCharSetOffset ? true : false);
yamlSaveHelper.SaveHexUint32(SS_YAML_KEY_VIDEO_MODE, g_uVideoMode);
yamlSaveHelper.SaveUint(SS_YAML_KEY_CYCLES_THIS_FRAME, g_dwCyclesThisFrame);
yamlSaveHelper.SaveUint(SS_YAML_KEY_VIDEO_REFRESH_RATE, (UINT)GetVideoRefreshRate());
}
void VideoLoadSnapshot(YamlLoadHelper& yamlLoadHelper, UINT version)
{
if (!yamlLoadHelper.GetSubMap(VideoGetSnapshotStructName()))
return;
if (version >= 4)
{
VideoRefreshRate_e rate = (VideoRefreshRate_e)yamlLoadHelper.LoadUint(SS_YAML_KEY_VIDEO_REFRESH_RATE);
SetVideoRefreshRate(rate); // Trashes: g_dwCyclesThisFrame
SetCurrentCLK6502();
}
g_nAltCharSetOffset = yamlLoadHelper.LoadBool(SS_YAML_KEY_ALT_CHARSET) ? 256 : 0;
g_uVideoMode = yamlLoadHelper.LoadUint(SS_YAML_KEY_VIDEO_MODE);
g_dwCyclesThisFrame = yamlLoadHelper.LoadUint(SS_YAML_KEY_CYCLES_THIS_FRAME);
yamlLoadHelper.PopMap();
}
//===========================================================================
//
// References to Jim Sather's books are given as eg:
// UTAIIe:5-7,P3 (Understanding the Apple IIe, chapter 5, page 7, Paragraph 3)
//
WORD VideoGetScannerAddress(DWORD nCycles, VideoScanner_e videoScannerAddr /*= VS_FullAddr*/)
{
// machine state switches
//
bool bHires = VideoGetSWHIRES() && !VideoGetSWTEXT();
bool bPage2 = VideoGetSWPAGE2();
bool b80Store = VideoGetSW80STORE();
// calculate video parameters according to display standard
//
const int kScanLines = g_bVideoScannerNTSC ? kNTSCScanLines : kPALScanLines;
const int kScanCycles = kScanLines * kHClocks;
_ASSERT(nCycles < (UINT)kScanCycles);
nCycles %= kScanCycles;
// calculate horizontal scanning state
//
int nHClock = (nCycles + kHPEClock) % kHClocks; // which horizontal scanning clock
int nHState = kHClock0State + nHClock; // H state bits
if (nHClock >= kHPresetClock) // check for horizontal preset
{
nHState -= 1; // correct for state preset (two 0 states)
}
int h_0 = (nHState >> 0) & 1; // get horizontal state bits
int h_1 = (nHState >> 1) & 1;
int h_2 = (nHState >> 2) & 1;
int h_3 = (nHState >> 3) & 1;
int h_4 = (nHState >> 4) & 1;
int h_5 = (nHState >> 5) & 1;
// calculate vertical scanning state (UTAIIe:3-15,T3.2)
//
int nVLine = nCycles / kHClocks; // which vertical scanning line
int nVState = kVLine0State + nVLine; // V state bits
if (nVLine >= kVPresetLine) // check for previous vertical state preset
{
nVState -= kScanLines; // compensate for preset
}
int v_A = (nVState >> 0) & 1; // get vertical state bits
int v_B = (nVState >> 1) & 1;
int v_C = (nVState >> 2) & 1;
int v_0 = (nVState >> 3) & 1;
int v_1 = (nVState >> 4) & 1;
int v_2 = (nVState >> 5) & 1;
int v_3 = (nVState >> 6) & 1;
int v_4 = (nVState >> 7) & 1;
int v_5 = (nVState >> 8) & 1;
// calculate scanning memory address
//
if (bHires && SW_MIXED && v_4 && v_2) // HIRES TIME signal (UTAIIe:5-7,P3)
{
bHires = false; // address is in text memory for mixed hires
}
int nAddend0 = 0x0D; // 1 1 0 1
int nAddend1 = (h_5 << 2) | (h_4 << 1) | (h_3 << 0);
int nAddend2 = (v_4 << 3) | (v_3 << 2) | (v_4 << 1) | (v_3 << 0);
int nSum = (nAddend0 + nAddend1 + nAddend2) & 0x0F; // SUM (UTAIIe:5-9)
WORD nAddressH = 0; // build address from video scanner equations (UTAIIe:5-8,T5.1)
nAddressH |= h_0 << 0; // a0
nAddressH |= h_1 << 1; // a1
nAddressH |= h_2 << 2; // a2
nAddressH |= nSum << 3; // a3 - a6
if (!bHires)
{
// Apple ][ (not //e) and HBL?
//
if (IS_APPLE2 && // Apple II only (UTAIIe:I-4,#5)
!h_5 && (!h_4 || !h_3)) // HBL (UTAIIe:8-10,F8.5)
{
nAddressH |= 1 << 12; // Y: a12 (add $1000 to address!)
}
}
WORD nAddressV = 0;
nAddressV |= v_0 << 7; // a7
nAddressV |= v_1 << 8; // a8
nAddressV |= v_2 << 9; // a9
int p2a = !(bPage2 && !b80Store) ? 1 : 0;
int p2b = (bPage2 && !b80Store) ? 1 : 0;
WORD nAddressP = 0; // Page bits
if (bHires) // hires?
{
// Y: insert hires-only address bits
//
nAddressV |= v_A << 10; // a10
nAddressV |= v_B << 11; // a11
nAddressV |= v_C << 12; // a12
nAddressP |= p2a << 13; // a13
nAddressP |= p2b << 14; // a14
}
else
{
// N: insert text-only address bits
//
nAddressP |= p2a << 10; // a10
nAddressP |= p2b << 11; // a11
}
// VBL' = v_4' | v_3' = (v_4 & v_3)' (UTAIIe:5-10,#3), (UTAIIe:3-15,T3.2)
if (videoScannerAddr == VS_PartialAddrH)
return nAddressH;
if (videoScannerAddr == VS_PartialAddrV)
return nAddressV;
return nAddressP | nAddressV | nAddressH;
}
//===========================================================================
// Called when *outside* of CpuExecute()
bool VideoGetVblBarEx(const DWORD dwCyclesThisFrame)
{
if (g_bFullSpeed)
{
// Ensure that NTSC video-scanner gets updated during full-speed, so video screen can be redrawn during Apple II VBL
NTSC_VideoClockResync(dwCyclesThisFrame);
}
return g_nVideoClockVert < kVDisplayableScanLines;
}
// Called when *inside* CpuExecute()
bool VideoGetVblBar(const DWORD uExecutedCycles)
{
if (g_bFullSpeed)
{
// Ensure that NTSC video-scanner gets updated during full-speed, so video-dependent Apple II code doesn't hang
NTSC_VideoClockResync(CpuGetCyclesThisVideoFrame(uExecutedCycles));
}
return g_nVideoClockVert < kVDisplayableScanLines;
}
//===========================================================================
#define SCREENSHOT_BMP 1
#define SCREENSHOT_TGA 0
static int g_nLastScreenShot = 0;
const int nMaxScreenShot = 999999999;
static std::string g_pLastDiskImageName;
//===========================================================================
void Video_ResetScreenshotCounter( const std::string & pImageName )
{
g_nLastScreenShot = 0;
g_pLastDiskImageName = pImageName;
}
//===========================================================================
void Util_MakeScreenShotFileName( TCHAR *pFinalFileName_, DWORD chars )
{
const std::string sPrefixScreenShotFileName = "AppleWin_ScreenShot";
// TODO: g_sScreenshotDir
const std::string pPrefixFileName = !g_pLastDiskImageName.empty() ? g_pLastDiskImageName : sPrefixScreenShotFileName;
#if SCREENSHOT_BMP
StringCbPrintf( pFinalFileName_, chars, TEXT("%s_%09d.bmp"), pPrefixFileName.c_str(), g_nLastScreenShot );
#endif
#if SCREENSHOT_TGA
StringCbPrintf( pFinalFileName_, chars, TEXT("%s%09d.tga"), pPrefixFileName.c_str(), g_nLastScreenShot );
#endif
}
// Returns TRUE if file exists, else FALSE
//===========================================================================
bool Util_TestScreenShotFileName( const TCHAR *pFileName )
{
bool bFileExists = false;
FILE *pFile = fopen( pFileName, "rt" );
if (pFile)
{
fclose( pFile );
bFileExists = true;
}
return bFileExists;
}
//===========================================================================
void Video_TakeScreenShot( const VideoScreenShot_e ScreenShotType )
{
TCHAR sScreenShotFileName[ MAX_PATH ];
// find last screenshot filename so we don't overwrite the existing user ones
bool bExists = true;
while( bExists )
{
if (g_nLastScreenShot > nMaxScreenShot) // Holy Crap! User has maxed the number of screenshots!?
{
TCHAR msg[512];
StringCbPrintf( msg, 512, "You have more then %d screenshot filenames! They will no longer be saved.\n\nEither move some of your screenshots or increase the maximum in video.cpp\n", nMaxScreenShot );
MessageBox( g_hFrameWindow, msg, "Warning", MB_OK );
g_nLastScreenShot = 0;
return;
}
Util_MakeScreenShotFileName( sScreenShotFileName, MAX_PATH );
bExists = Util_TestScreenShotFileName( sScreenShotFileName );
if( !bExists )
{
break;
}
g_nLastScreenShot++;
}
Video_SaveScreenShot( ScreenShotType, sScreenShotFileName );
g_nLastScreenShot++;
}
WinBmpHeader_t g_tBmpHeader;
#if SCREENSHOT_TGA
enum TargaImageType_e
{
TARGA_RGB = 2
};
struct TargaHeader_t
{ // Addr Bytes
u8 nIdBytes ; // 00 01 size of ID field that follows 18 byte header (0 usually)
u8 bHasPalette ; // 01 01
u8 iImageType ; // 02 01 type of image 0=none,1=indexed,2=rgb,3=grey,+8=rle packed
s16 iPaletteFirstColor ; // 03 02
s16 nPaletteColors ; // 05 02
u8 nPaletteBitsPerEntry ; // 07 01 number of bits per palette entry 15,16,24,32
s16 nOriginX ; // 08 02 image x origin
s16 nOriginY ; // 0A 02 image y origin
s16 nWidthPixels ; // 0C 02
s16 nHeightPixels ; // 0E 02
u8 nBitsPerPixel ; // 10 01 image bits per pixel 8,16,24,32
u8 iDescriptor ; // 11 01 image descriptor bits (vh flip bits)
// pixel data...
u8 aPixelData[1] ; // rgb
};
TargaHeader_t g_tTargaHeader;
#endif // SCREENSHOT_TGA
void Video_SetBitmapHeader( WinBmpHeader_t *pBmp, int nWidth, int nHeight, int nBitsPerPixel )
{
#if SCREENSHOT_BMP
pBmp->nCookie[ 0 ] = 'B'; // 0x42
pBmp->nCookie[ 1 ] = 'M'; // 0x4d
pBmp->nSizeFile = 0;
pBmp->nReserved1 = 0;
pBmp->nReserved2 = 0;
#if VIDEO_SCREENSHOT_PALETTE
pBmp->nOffsetData = sizeof(WinBmpHeader_t) + (256 * sizeof(bgra_t));
#else
pBmp->nOffsetData = sizeof(WinBmpHeader_t);
#endif
pBmp->nStructSize = 0x28; // sizeof( WinBmpHeader_t );
pBmp->nWidthPixels = nWidth;
pBmp->nHeightPixels = nHeight;
pBmp->nPlanes = 1;
#if VIDEO_SCREENSHOT_PALETTE
pBmp->nBitsPerPixel = 8;
#else
pBmp->nBitsPerPixel = nBitsPerPixel;
#endif
pBmp->nCompression = BI_RGB; // none
pBmp->nSizeImage = 0;
pBmp->nXPelsPerMeter = 0;
pBmp->nYPelsPerMeter = 0;
#if VIDEO_SCREENSHOT_PALETTE
pBmp->nPaletteColors = 256;
#else
pBmp->nPaletteColors = 0;
#endif
pBmp->nImportantColors = 0;
}
//===========================================================================
static void Video_MakeScreenShot(FILE *pFile, const VideoScreenShot_e ScreenShotType)
{
WinBmpHeader_t *pBmp = &g_tBmpHeader;
Video_SetBitmapHeader(
pBmp,
ScreenShotType == SCREENSHOT_280x192 ? GetFrameBufferBorderlessWidth()/2 : GetFrameBufferBorderlessWidth(),
ScreenShotType == SCREENSHOT_280x192 ? GetFrameBufferBorderlessHeight()/2 : GetFrameBufferBorderlessHeight(),
32
);
// char sText[256];
// sprintf( sText, "sizeof: BITMAPFILEHEADER = %d\n", sizeof(BITMAPFILEHEADER) ); // = 14
// MessageBox( g_hFrameWindow, sText, "Info 1", MB_OK );
// sprintf( sText, "sizeof: BITMAPINFOHEADER = %d\n", sizeof(BITMAPINFOHEADER) ); // = 40
// MessageBox( g_hFrameWindow, sText, "Info 2", MB_OK );
char sIfSizeZeroOrUnknown_BadWinBmpHeaderPackingSize54[ sizeof( WinBmpHeader_t ) == (14 + 40) ];
/**/ sIfSizeZeroOrUnknown_BadWinBmpHeaderPackingSize54[0]=0;
// Write Header
fwrite( pBmp, sizeof( WinBmpHeader_t ), 1, pFile );
uint32_t *pSrc;
#if VIDEO_SCREENSHOT_PALETTE
// Write Palette Data
pSrc = ((uint8_t*)g_pFramebufferinfo) + sizeof(BITMAPINFOHEADER);
int nLen = g_tBmpHeader.nPaletteColors * sizeof(bgra_t); // RGBQUAD
fwrite( pSrc, nLen, 1, pFile );
pSrc += nLen;
#endif
// Write Pixel Data
// No need to use GetDibBits() since we already have http://msdn.microsoft.com/en-us/library/ms532334.aspx
// @reference: "Storing an Image" http://msdn.microsoft.com/en-us/library/ms532340(VS.85).aspx
pSrc = (uint32_t*) g_pFramebufferbits;
int xSrc = GetFrameBufferBorderWidth();
int ySrc = GetFrameBufferBorderHeight();
pSrc += xSrc; // Skip left border
pSrc += ySrc * GetFrameBufferWidth(); // Skip top border
if( ScreenShotType == SCREENSHOT_280x192 )
{
pSrc += GetFrameBufferWidth(); // Start on odd scanline (otherwise for 50% scanline mode get an all black image!)
uint32_t aScanLine[ 280 ];
uint32_t *pDst;
// 50% Half Scan Line clears every odd scanline.
// SHIFT+PrintScreen saves only the even rows.
// NOTE: Keep in sync with _Video_RedrawScreen() & Video_MakeScreenShot()
for( UINT y = 0; y < GetFrameBufferBorderlessHeight()/2; y++ )
{
pDst = aScanLine;
for( UINT x = 0; x < GetFrameBufferBorderlessWidth()/2; x++ )
{
*pDst++ = pSrc[1]; // correction for left edge loss of scaled scanline [Bill Buckel, B#18928]
pSrc += 2; // skip odd pixels
}
fwrite( aScanLine, sizeof(uint32_t), GetFrameBufferBorderlessWidth()/2, pFile );
pSrc += GetFrameBufferWidth(); // scan lines doubled - skip odd ones
pSrc += GetFrameBufferBorderWidth()*2; // Skip right border & next line's left border
}
}
else
{
for( UINT y = 0; y < GetFrameBufferBorderlessHeight(); y++ )
{
fwrite( pSrc, sizeof(uint32_t), GetFrameBufferBorderlessWidth(), pFile );
pSrc += GetFrameBufferWidth();
}
}
#endif // SCREENSHOT_BMP
#if SCREENSHOT_TGA
TargaHeader_t *pHeader = &g_tTargaHeader;
memset( (void*)pHeader, 0, sizeof( TargaHeader_t ) );
pHeader->iImageType = TARGA_RGB;
pHeader->nWidthPixels = FRAMEBUFFER_W;
pHeader->nHeightPixels = FRAMEBUFFER_H;
pHeader->nBitsPerPixel = 24;
#endif // SCREENSHOT_TGA
}
//===========================================================================
void Video_SaveScreenShot( const VideoScreenShot_e ScreenShotType, const TCHAR *pScreenShotFileName )
{
FILE *pFile = fopen( pScreenShotFileName, "wb" );
if( pFile )
{
Video_MakeScreenShot( pFile, ScreenShotType );
fclose( pFile );
}
if( g_bDisplayPrintScreenFileName )
{
MessageBox( g_hFrameWindow, pScreenShotFileName, "Screen Captured", MB_OK );
}
}
//===========================================================================
static const UINT kVideoRomSize8K = kVideoRomSize4K*2;
static const UINT kVideoRomSize16K = kVideoRomSize8K*2;
static const UINT kVideoRomSizeMax = kVideoRomSize16K;
static BYTE g_videoRom[kVideoRomSizeMax];
static UINT g_videoRomSize = 0;
static bool g_videoRomRockerSwitch = false;
bool ReadVideoRomFile(const TCHAR* pRomFile)
{
g_videoRomSize = 0;
HANDLE h = CreateFile(pRomFile, GENERIC_READ, 0, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_READONLY, NULL);
if (h == INVALID_HANDLE_VALUE)
return false;
const ULONG size = GetFileSize(h, NULL);
if (size == kVideoRomSize2K || size == kVideoRomSize4K || size == kVideoRomSize8K || size == kVideoRomSize16K)
{
DWORD bytesRead;
if (ReadFile(h, g_videoRom, size, &bytesRead, NULL) && bytesRead == size)
g_videoRomSize = size;
}
if (g_videoRomSize == kVideoRomSize16K)
{
// Use top 8K (assume bottom 8K is all 0xFF's)
memcpy(&g_videoRom[0], &g_videoRom[kVideoRomSize8K], kVideoRomSize8K);
g_videoRomSize = kVideoRomSize8K;
}
CloseHandle(h);
return g_videoRomSize != 0;
}
UINT GetVideoRom(const BYTE*& pVideoRom)
{
pVideoRom = &g_videoRom[0];
return g_videoRomSize;
}
bool GetVideoRomRockerSwitch(void)
{
return g_videoRomRockerSwitch;
}
void SetVideoRomRockerSwitch(bool state)
{
g_videoRomRockerSwitch = state;
}
bool IsVideoRom4K(void)
{
return g_videoRomSize <= kVideoRomSize4K;
}
//===========================================================================
enum VideoType127_e
{
VT127_MONO_CUSTOM
, VT127_COLOR_MONITOR_NTSC
, VT127_MONO_TV
, VT127_COLOR_TV
, VT127_MONO_AMBER
, VT127_MONO_GREEN
, VT127_MONO_WHITE
, VT127_NUM_VIDEO_MODES
};
void Config_Load_Video()
{
DWORD dwTmp;
REGLOAD_DEFAULT(TEXT(REGVALUE_VIDEO_MODE), &dwTmp, (DWORD)VT_DEFAULT);
g_eVideoType = dwTmp;
REGLOAD_DEFAULT(TEXT(REGVALUE_VIDEO_STYLE), &dwTmp, (DWORD)VS_HALF_SCANLINES);
g_eVideoStyle = (VideoStyle_e)dwTmp;
REGLOAD_DEFAULT(TEXT(REGVALUE_VIDEO_MONO_COLOR), &dwTmp, (DWORD)RGB(0xC0, 0xC0, 0xC0));
g_nMonochromeRGB = (COLORREF)dwTmp;
REGLOAD_DEFAULT(TEXT(REGVALUE_VIDEO_REFRESH_RATE), &dwTmp, (DWORD)VR_60HZ);
SetVideoRefreshRate((VideoRefreshRate_e)dwTmp);
//
const UINT16* pOldVersion = GetOldAppleWinVersion();
if (pOldVersion[0] == 1 && pOldVersion[1] <= 28 && pOldVersion[2] <= 1)
{
DWORD dwHalfScanLines;
REGLOAD_DEFAULT(TEXT(REGVALUE_VIDEO_HALF_SCAN_LINES), &dwHalfScanLines, 0);
if (dwHalfScanLines)
g_eVideoStyle = (VideoStyle_e) ((DWORD)g_eVideoStyle | VS_HALF_SCANLINES);
else
g_eVideoStyle = (VideoStyle_e) ((DWORD)g_eVideoStyle & ~VS_HALF_SCANLINES);
REGSAVE(TEXT(REGVALUE_VIDEO_STYLE), g_eVideoStyle);
}
//
if (pOldVersion[0] == 1 && pOldVersion[1] <= 27 && pOldVersion[2] <= 13)
{
switch (g_eVideoType)
{
case VT127_MONO_CUSTOM: g_eVideoType = VT_MONO_CUSTOM; break;
case VT127_COLOR_MONITOR_NTSC: g_eVideoType = VT_COLOR_MONITOR_NTSC; break;
case VT127_MONO_TV: g_eVideoType = VT_MONO_TV; break;
case VT127_COLOR_TV: g_eVideoType = VT_COLOR_TV; break;
case VT127_MONO_AMBER: g_eVideoType = VT_MONO_AMBER; break;
case VT127_MONO_GREEN: g_eVideoType = VT_MONO_GREEN; break;
case VT127_MONO_WHITE: g_eVideoType = VT_MONO_WHITE; break;
default: g_eVideoType = VT_DEFAULT; break;
}
REGSAVE(TEXT(REGVALUE_VIDEO_MODE), g_eVideoType);
}
if (g_eVideoType >= NUM_VIDEO_MODES)
g_eVideoType = VT_DEFAULT;
}
void Config_Save_Video()
{
REGSAVE(TEXT(REGVALUE_VIDEO_MODE) ,g_eVideoType);
REGSAVE(TEXT(REGVALUE_VIDEO_STYLE) ,g_eVideoStyle);
REGSAVE(TEXT(REGVALUE_VIDEO_MONO_COLOR),g_nMonochromeRGB);
REGSAVE(TEXT(REGVALUE_VIDEO_REFRESH_RATE), GetVideoRefreshRate());
}
//===========================================================================
VideoType_e GetVideoType(void)
{
return (VideoType_e) g_eVideoType;
}
// TODO: Can only do this at start-up (mid-emulation requires a more heavy-weight video reinit)
void SetVideoType(VideoType_e newVideoType)
{
g_eVideoType = newVideoType;
}
VideoStyle_e GetVideoStyle(void)
{
return g_eVideoStyle;
}
void SetVideoStyle(VideoStyle_e newVideoStyle)
{
g_eVideoStyle = newVideoStyle;
}
bool IsVideoStyle(VideoStyle_e mask)
{
return (g_eVideoStyle & mask) != 0;
}
//===========================================================================
VideoRefreshRate_e GetVideoRefreshRate(void)
{
return (g_bVideoScannerNTSC == false) ? VR_50HZ : VR_60HZ;
}
void SetVideoRefreshRate(VideoRefreshRate_e rate)
{
if (rate != VR_50HZ)
rate = VR_60HZ;
g_bVideoScannerNTSC = (rate == VR_60HZ);
NTSC_SetRefreshRate(rate);
}
//===========================================================================
const char* VideoGetAppWindowTitle(void)
{
static const char *apVideoMonitorModeDesc[ 2 ] =
{
"Color (NTSC Monitor)",
"Color (PAL Monitor)"
};
const VideoType_e videoType = GetVideoType();
if ( videoType != VT_COLOR_MONITOR_NTSC)
return g_apVideoModeDesc[ videoType ];
else
return apVideoMonitorModeDesc[ GetVideoRefreshRate() == VR_60HZ ? 0 : 1 ]; // NTSC or PAL
}