/* * Display_Be.h - C64 graphics display, emulator window handling, * Be specific stuff * * Frodo (C) 1994-1997,2002-2004 Christian Bauer * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program 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 this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include #include #include #include #include "C64.h" #include "main.h" #ifndef BIT_BANG #define BIT_BANG 0 #endif #ifndef MGA_HACK #define MGA_HACK 0 #endif // Window thread messages const uint32 MSG_REDRAW = 1; // C64 display and window frame const BRect DisplayFrame = BRect(0, 0, DISPLAY_X-1, DISPLAY_Y-1); const BRect WindowFrame = BRect(0, 0, DISPLAY_X-1, DISPLAY_Y-1 + 16); // Background color const rgb_color fill_gray = {208, 208, 208, 0}; const rgb_color shine_gray = {232, 232, 232, 0}; const rgb_color shadow_gray = {152, 152, 152, 0}; /* C64 keyboard matrix: Bit 7 6 5 4 3 2 1 0 0 CUD F5 F3 F1 F7 CLR RET DEL 1 SHL E S Z 4 A W 3 2 X T F C 6 D R 5 3 V U H B 8 G Y 7 4 N O K M 0 J I 9 5 , @ : . - L P + 6 / ^ = SHR HOM ; * £ 7 R/S Q C= SPC 2 CTL <- 1 */ /* Tables for key translation Bit 0..2: row/column in C64 keyboard matrix Bit 3 : implicit shift Bit 5 : joystick emulation (bit 0..4: mask) */ const int key_byte[128] = { -1, 7, 0,8+0, 0,8+0, 0, 8+0, 0, 8+0, -1, -1, -1, -1, -1, -1, 7, 7, 7, 7, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 0, 8+0, 6, 6, -1, -1, -1, -1, -1, 7, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 0, 6, 6,0x25, 0x21,0x29, -1, 1, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 0, 0x24,0x30,0x28, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6, 8+0, 0x26,0x22,0x2a, 0, 7, -1, 7, -1, 0x30, 8+0, 0, 0,0x30, -1, 7, 7, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1 }; const int key_bit[128] = { -1, 7, 4, 4, 5, 5, 6, 6, 3, 3, -1, -1, -1, -1, -1, -1, 7, 1, 0, 3, 0, 3, 0, 3, 0, 3, 0, 3, 0, 3, 0, 0, 3, 0, -1, -1, -1, -1, -1, 6, 1, 6, 1, 6, 1, 6, 1, 6, 1, 6, 1, 6, 0, 0, 5, -1, -1, -1, -1, 7, 2, 5, 2, 5, 2, 5, 2, 5, 2, 5, 2, 1, -1, -1, -1, 7, 4, 7, 4, 7, 4, 7, 4, 7, 4, 7, 4, 7, -1, -1, -1, 1, 2, -1, 4, -1, 5, 2, 7, 2, -1, -1, 5, 5, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1 }; /* * A simple view class for blitting a bitmap on the screen */ class BitmapView : public BView { public: BitmapView(BRect frame, BBitmap *bitmap); virtual void Draw(BRect update); virtual void KeyDown(const char *bytes, int32 numBytes); void ChangeBitmap(BBitmap *bitmap); private: BBitmap *the_bitmap; }; /* * Class for the main C64 display window */ class SpeedoView; class LEDView; class C64Window : public BDirectWindow { public: C64Window(); virtual bool QuitRequested(void); virtual void MessageReceived(BMessage *msg); virtual void DirectConnected(direct_buffer_info *info); BBitmap *TheBitmap[2]; SpeedoView *Speedometer; LEDView *LED[4]; #if BIT_BANG uint8 *bits; int bytes_per_row; #endif private: BitmapView *main_view; }; /* * Class for the main C64 display using the GameKit */ class C64Screen : public BWindowScreen { public: C64Screen(C64Display *display) : BWindowScreen("Frodo", B_8_BIT_640x480, &error), the_display(display) { Lock(); TheBitmap = new BBitmap(DisplayFrame, B_COLOR_8_BIT); main_view = new BitmapView(Bounds(), TheBitmap); AddChild(main_view); main_view->MakeFocus(); Connected = false; first_connected = true; #if MGA_HACK mga_ready = false; #endif Unlock(); } ~C64Screen() { delete TheBitmap; } virtual void ScreenConnected(bool active); virtual void DispatchMessage(BMessage *msg, BHandler *handler); void DrawLED(int i, int state); void DrawSpeedometer(void); void FillRect(int x1, int y1, int x2, int y2, int color); bool Connected; // Flag: screen connected int Speed; char SpeedoStr[16]; // Speedometer value converted to a string BBitmap *TheBitmap; private: C64Display *the_display; BitmapView *main_view; bool first_connected; status_t error; #if MGA_HACK area_id mga_clone_area; volatile uint8 *isa_io; bool mga_ready; void CRTC_out(int reg, uint8 val) {isa_io[0x3d4] = reg; __eieio(); isa_io[0x3d5] = val; __eieio();} uint8 CRTC_in(int reg) {isa_io[0x3d4] = reg; __eieio(); return isa_io[0x3d5];} void SEQ_out(int reg, uint8 val) {isa_io[0x3c4] = reg; __eieio(); isa_io[0x3c5] = val; __eieio();} uint8 SEQ_in(int reg) {isa_io[0x3c4] = reg; __eieio(); return isa_io[0x3c5];} void GDC_out(int reg, uint8 val) {isa_io[0x3ce] = reg; __eieio(); isa_io[0x3cf] = val; __eieio();} uint8 GDC_in(int reg) {isa_io[0x3ce] = reg; __eieio(); return isa_io[0x3cf];} void ATC_out(int reg, uint8 val) {isa_io[0x3c0] = reg; __eieio(); isa_io[0x3c0] = val; __eieio();} #endif }; /* * Class for speedometer */ class SpeedoView : public BView { public: SpeedoView(BRect frame); virtual void Draw(BRect update); virtual void Pulse(void); void SetValue(int percent); private: char speedostr[16]; // Speedometer value converted to a string BRect bounds; }; /* * Class for drive LED */ class LEDView : public BView { public: LEDView(BRect frame, const char *label); virtual void Draw(BRect update); virtual void Pulse(void); void DrawLED(void); void SetState(int state); private: int current_state; const char *the_label; BRect bounds; }; /* * Display constructor: Create window/screen */ C64Display::C64Display(C64 *the_c64) : TheC64(the_c64) { // LEDs off for (int i=0; i<4; i++) led_state[i] = old_led_state[i] = LED_OFF; // Open window/screen draw_bitmap = 1; if (ThePrefs.DisplayType == DISPTYPE_SCREEN) { using_screen = true; the_screen = new C64Screen(this); the_screen->Show(); while (!the_screen->Connected) snooze(20000); } else { using_screen = false; the_window = new C64Window(); the_window->Show(); } // Prepare key_info buffer get_key_info(&old_key_info); } /* * Display destructor */ C64Display::~C64Display() { if (using_screen) { the_screen->Lock(); the_screen->Quit(); } else { the_window->Lock(); the_window->Quit(); } } /* * Prefs may have changed */ void C64Display::NewPrefs(Prefs *prefs) { if (prefs->DisplayType == DISPTYPE_SCREEN) { if (!using_screen) { // Switch to full screen display using_screen = true; the_window->Lock(); the_window->Quit(); the_screen = new C64Screen(this); the_screen->Show(); while (!the_screen->Connected) snooze(20000); } } else { if (using_screen) { // Switch to window display using_screen = false; the_screen->Lock(); the_screen->Quit(); the_window = new C64Window(); the_window->Show(); } } } /* * Redraw bitmap (let the window thread do it) */ void C64Display::Update(void) { if (using_screen) { // Update LEDs/speedometer for (int i=0; i<4; i++) the_screen->DrawLED(i, led_state[i]); the_screen->DrawSpeedometer(); // Update C64 display in dobule scan mode if (ThePrefs.DoubleScan) { uint8 *src = (uint8 *)the_screen->TheBitmap->Bits(); uint32 src_xmod = the_screen->TheBitmap->BytesPerRow(); src += src_xmod * 16 + 32; uint8 *dest = (uint8 *)the_screen->CardInfo()->frame_buffer; uint32 dest_xmod = the_screen->CardInfo()->bytes_per_row; #ifdef __POWERPC__ double tmp[1]; for (int y=0; y<240; y++) { uint32 *p = (uint32 *)src - 1; double *q1 = (double *)dest - 1; double *q2 = q1 + dest_xmod / sizeof(double); for (int x=0; x<80; x++) { uint32 val = *(++p); uint8 *r = (uint8 *)&tmp[1]; *(--r) = val; *(--r) = val; val >>= 8; *(--r) = val; *(--r) = val; val >>= 8; *(--r) = val; *(--r) = val; val >>= 8; *(--r) = val; *(--r) = val; double tmp2 = tmp[0]; *(++q1) = tmp2; *(++q2) = tmp2; } src += src_xmod; dest += dest_xmod * 2; } #else for (int y=0; y<240; y++) { uint32 *p = (uint32 *)src; uint32 *q1 = (uint32 *)dest; uint32 *q2 = q1 + dest_xmod / sizeof(uint32); for (int x=0; x<80; x++) { uint32 val = *p++; uint32 tmp = val & 0x000000ff; tmp |= (val << 8) & 0x0000ff00; tmp |= (val << 8) & 0x00ff0000; tmp |= (val << 16) & 0xff000000; *q1++ = tmp; *q2++ = tmp; tmp = (val >> 16) & 0x000000ff; tmp |= (val >> 8) & 0x0000ff00; tmp |= (val >> 8) & 0x00ff0000; tmp |= val & 0xff000000; *q1++ = tmp; *q2++ = tmp; } src += src_xmod; dest += dest_xmod * 2; } #endif } } else { #if !BIT_BANG // Update C64 display BMessage msg(MSG_REDRAW); msg.AddInt32("bitmap", draw_bitmap); the_window->PostMessage(&msg); draw_bitmap ^= 1; #endif // Update LEDs for (int i=0; i<4; i++) if (led_state[i] != old_led_state[i]) { the_window->LED[i]->SetState(led_state[i]); old_led_state[i] = led_state[i]; } } } /* * Set value displayed by the speedometer */ void C64Display::Speedometer(int speed) { if (using_screen) { the_screen->Speed = speed; sprintf(the_screen->SpeedoStr, "%3d%%", speed); } else the_window->Speedometer->SetValue(speed); } /* * Return pointer to bitmap data */ uint8 *C64Display::BitmapBase(void) { if (using_screen) { if (ThePrefs.DoubleScan) return (uint8 *)the_screen->TheBitmap->Bits(); else return (uint8 *)the_screen->CardInfo()->frame_buffer; } else #if BIT_BANG return (uint8 *)the_window->bits; #else return (uint8 *)the_window->TheBitmap[draw_bitmap]->Bits(); #endif } /* * Return number of bytes per row */ int C64Display::BitmapXMod(void) { if (using_screen) { if (ThePrefs.DoubleScan) return the_screen->TheBitmap->BytesPerRow(); else return the_screen->CardInfo()->bytes_per_row; } else #if BIT_BANG return the_window->bytes_per_row; #else return the_window->TheBitmap[draw_bitmap]->BytesPerRow(); #endif } /* * Poll the keyboard */ void C64Display::PollKeyboard(uint8 *key_matrix, uint8 *rev_matrix, uint8 *joystick) { key_info the_key_info; int be_code, be_byte, be_bit, c64_byte, c64_bit; bool shifted; // Window must be active, command key must be up if (using_screen) { if (!the_screen->Connected) return; } else if (!the_window->IsActive()) return; if (!(modifiers() & B_COMMAND_KEY)) { // Read the state of all keys get_key_info(&the_key_info); // Did anything change at all? if (!memcmp(&old_key_info, &the_key_info, sizeof(key_info))) return; // Loop to convert BeOS keymap to C64 keymap for (be_code=0; be_code<0x68; be_code++) { be_byte = be_code >> 3; be_bit = 1 << (~be_code & 7); // Key state changed? if ((the_key_info.key_states[be_byte] & be_bit) != (old_key_info.key_states[be_byte] & be_bit)) { c64_byte = key_byte[be_code]; c64_bit = key_bit[be_code]; if (c64_byte != -1) { if (!(c64_byte & 0x20)) { // Normal keys shifted = c64_byte & 8; c64_byte &= 7; if (the_key_info.key_states[be_byte] & be_bit) { // Key pressed if (shifted) { key_matrix[6] &= 0xef; rev_matrix[4] &= 0xbf; } key_matrix[c64_byte] &= ~(1 << c64_bit); rev_matrix[c64_bit] &= ~(1 << c64_byte); } else { // Key released if (shifted) { key_matrix[6] |= 0x10; rev_matrix[4] |= 0x40; } key_matrix[c64_byte] |= (1 << c64_bit); rev_matrix[c64_bit] |= (1 << c64_byte); } } else { // Joystick emulation c64_byte &= 0x1f; if (the_key_info.key_states[be_byte] & be_bit) *joystick &= ~c64_byte; else *joystick |= c64_byte; } } } } old_key_info = the_key_info; } } /* * Check if NumLock is down (for switching the joystick keyboard emulation) */ bool C64Display::NumLock(void) { return modifiers() & B_NUM_LOCK; } /* * Allocate C64 colors */ void C64Display::InitColors(uint8 *colors) { BScreen scr(using_screen ? (BWindow *)the_screen : the_window); for (int i=0; i<256; i++) colors[i] = scr.IndexForColor(palette_red[i & 0x0f], palette_green[i & 0x0f], palette_blue[i & 0x0f]); } /* * Pause display (GameKit only) */ void C64Display::Pause(void) { if (using_screen) the_screen->Hide(); } /* * Resume display (GameKit only) */ void C64Display::Resume(void) { if (using_screen) the_screen->Show(); } /* * Window constructor */ C64Window::C64Window() : BDirectWindow(WindowFrame, "Frodo", B_TITLED_WINDOW, B_NOT_RESIZABLE | B_NOT_ZOOMABLE) { // Move window to right position Lock(); MoveTo(80, 60); // Set up menus BMenuBar *bar = new BMenuBar(Bounds(), ""); BMenu *menu = new BMenu("Frodo"); menu->AddItem(new BMenuItem("About Frodo" B_UTF8_ELLIPSIS, new BMessage(B_ABOUT_REQUESTED))); menu->AddItem(new BSeparatorItem); menu->AddItem(new BMenuItem("Preferences" B_UTF8_ELLIPSIS, new BMessage(MSG_PREFS), 'P')); menu->AddItem(new BSeparatorItem); menu->AddItem(new BMenuItem("Reset C64", new BMessage(MSG_RESET))); menu->AddItem(new BMenuItem("Insert next disk", new BMessage(MSG_NEXTDISK), 'D')); menu->AddItem(new BMenuItem("SAM" B_UTF8_ELLIPSIS, new BMessage(MSG_SAM), 'M')); menu->AddItem(new BSeparatorItem); menu->AddItem(new BMenuItem("Load snapshot" B_UTF8_ELLIPSIS, new BMessage(MSG_OPEN_SNAPSHOT), 'O')); menu->AddItem(new BMenuItem("Save snapshot" B_UTF8_ELLIPSIS, new BMessage(MSG_SAVE_SNAPSHOT), 'S')); menu->AddItem(new BSeparatorItem); menu->AddItem(new BMenuItem("Quit Frodo", new BMessage(B_QUIT_REQUESTED), 'Q')); menu->SetTargetForItems(be_app); bar->AddItem(menu); AddChild(bar); SetKeyMenuBar(bar); int mbar_height = int(bar->Frame().bottom) + 1; // Resize window to fit menu bar ResizeBy(0, mbar_height); // Allocate bitmaps TheBitmap[0] = new BBitmap(DisplayFrame, B_COLOR_8_BIT); TheBitmap[1] = new BBitmap(DisplayFrame, B_COLOR_8_BIT); // Create top view BRect b = Bounds(); BView *top = new BView(BRect(0, mbar_height, b.right, b.bottom), "top", B_FOLLOW_NONE, 0); AddChild(top); // Create bitmap view main_view = new BitmapView(DisplayFrame, TheBitmap[0]); top->AddChild(main_view); main_view->MakeFocus(); // Create speedometer Speedometer = new SpeedoView(BRect(0, DISPLAY_Y, DISPLAY_X/5-1, DISPLAY_Y+15)); top->AddChild(Speedometer); // Create drive LEDs LED[0] = new LEDView(BRect(DISPLAY_X/5, DISPLAY_Y, DISPLAY_X*2/5-1, DISPLAY_Y+15), "Drive 8"); top->AddChild(LED[0]); LED[1] = new LEDView(BRect(DISPLAY_X*2/5, DISPLAY_Y, DISPLAY_X*3/5-1, DISPLAY_Y+15), "Drive 9"); top->AddChild(LED[1]); LED[2] = new LEDView(BRect(DISPLAY_X*3/5, DISPLAY_Y, DISPLAY_X*4/5-1, DISPLAY_Y+15), "Drive 10"); top->AddChild(LED[2]); LED[3] = new LEDView(BRect(DISPLAY_X*4/5, DISPLAY_Y, DISPLAY_X-1, DISPLAY_Y+15), "Drive 11"); top->AddChild(LED[3]); // Set pulse rate to 0.4 seconds for blinking drive LEDs SetPulseRate(400000); Unlock(); } /* * Closing the window quits Frodo */ bool C64Window::QuitRequested(void) { be_app->PostMessage(B_QUIT_REQUESTED); return false; } /* * Handles redraw messages */ void C64Window::MessageReceived(BMessage *msg) { BMessage *msg2; switch (msg->what) { case MSG_REDRAW: // Redraw bitmap MessageQueue()->Lock(); while ((msg2 = MessageQueue()->FindMessage(MSG_REDRAW, 0)) != NULL) { MessageQueue()->RemoveMessage(msg2); delete msg2; } MessageQueue()->Unlock(); main_view->ChangeBitmap(TheBitmap[msg->FindInt32("bitmap")]); Lock(); main_view->Draw(DisplayFrame); Unlock(); break; default: BWindow::MessageReceived(msg); } } /* * Window connected/disconnected */ void C64Window::DirectConnected(direct_buffer_info *info) { #if BIT_BANG switch (info->buffer_state & B_DIRECT_MODE_MASK) { case B_DIRECT_STOP: // acquire_sem(drawing_sem); break; case B_DIRECT_MODIFY: // acquire_sem(drawing_sem); case B_DIRECT_START: bits = ((uint8 *)info->bits + info->window_bounds.top * info->bytes_per_row + info->window_bounds.left * info->bits_per_pixel / 8); bytes_per_row = info->bytes_per_row; // release_sem(drawing_sem); break; } #endif } /* * Workspace activated/deactivated */ void C64Screen::ScreenConnected(bool active) { if (active) { if (first_connected) { first_connected = false; #if MGA_HACK mga_clone_area = -1; // Construct register area name char mga_area_name[64]; int bus = 0, device = 13, function = 0; sprintf(mga_area_name, "102B_0519_%02X%02X%02X regs", bus, device, function); // Find MGA register area area_id mga_area = find_area(mga_area_name); if (mga_area > 0) { // Clone area, remove write protection volatile uint8 *mga_io; mga_clone_area = clone_area("mga registers", (void **)&mga_io, B_ANY_ADDRESS, B_READ_AREA | B_WRITE_AREA, mga_area); if (mga_clone_area > 0) { isa_io = mga_io + 0x1c00; mga_ready = true; } } #endif } #if MGA_HACK if (mga_ready) { CRTC_out(0x09, 1); // Enable double scan int a = 4 * 640; CRTC_out(0x0c, a >> 8); // Center screen vertically CRTC_out(0x0d, a); // defaults: // total 0x67 // display end 0x4f // blank start 0x4f // blank end 2b // sync start 0x53 // sync end 1f CRTC_out(0x00, 0x3f); // Horizontal timing CRTC_out(0x01, 0x2f); CRTC_out(0x02, 0x2f); CRTC_out(0x03, 0x83); CRTC_out(0x04, 0x32); CRTC_out(0x05, 0x1a); } #endif FillRect(0, 0, 639, 479, 0); // Clear screen the_display->TheC64->Resume(); Connected = true; } else { the_display->TheC64->Pause(); Connected = false; } BWindowScreen::ScreenConnected(active); } /* * Simulate menu commands */ void C64Screen::DispatchMessage(BMessage *msg, BHandler *handler) { switch (msg->what) { case B_KEY_DOWN: { uint32 mods = msg->FindInt32("modifiers"); if (mods & B_COMMAND_KEY) { uint32 key = msg->FindInt32("raw_char"); switch (key) { case 'p': be_app->PostMessage(MSG_PREFS); break; case 'd': be_app->PostMessage(MSG_NEXTDISK); break; case 'm': be_app->PostMessage(MSG_SAM); break; } } BWindowScreen::DispatchMessage(msg, handler); break; } default: BWindowScreen::DispatchMessage(msg, handler); } } /* * Draw drive LEDs */ void C64Screen::DrawLED(int i, int state) { int maxy; if (ThePrefs.DoubleScan) maxy = 480; else maxy = DISPLAY_Y; switch (state) { case LED_ON: FillRect(10+i*20, maxy-20, 20+i*20, maxy-12, 54); break; case LED_ERROR_ON: FillRect(10+i*20, maxy-20, 20+i*20, maxy-12, 44); break; } } /* * Draw speedometer */ static const int8 Digits[11][8] = { // Digit images {0x3c, 0x66, 0x6e, 0x76, 0x66, 0x66, 0x3c, 0x00}, {0x18, 0x18, 0x38, 0x18, 0x18, 0x18, 0x7e, 0x00}, {0x3c, 0x66, 0x06, 0x0c, 0x30, 0x60, 0x7e, 0x00}, {0x3c, 0x66, 0x06, 0x1c, 0x06, 0x66, 0x3c, 0x00}, {0x06, 0x0e, 0x1e, 0x66, 0x7f, 0x06, 0x06, 0x00}, {0x7e, 0x60, 0x7c, 0x06, 0x06, 0x66, 0x3c, 0x00}, {0x3c, 0x66, 0x60, 0x7c, 0x66, 0x66, 0x3c, 0x00}, {0x7e, 0x66, 0x0c, 0x18, 0x18, 0x18, 0x18, 0x00}, {0x3c, 0x66, 0x66, 0x3c, 0x66, 0x66, 0x3c, 0x00}, {0x3c, 0x66, 0x66, 0x3e, 0x06, 0x66, 0x3c, 0x00}, {0x62, 0x66, 0x0c, 0x18, 0x30, 0x66, 0x46, 0x00}, }; void C64Screen::DrawSpeedometer() { // Don't display speedometer if we're running at about 100% if (Speed >= 50 && Speed <= 101) return; int maxx, maxy; if (ThePrefs.DoubleScan) { maxx = 640; maxy = 480; } else { maxx = DISPLAY_X; maxy = DISPLAY_Y; } char *s = SpeedoStr; char c; long xmod = CardInfo()->bytes_per_row; uint8 *p = (uint8 *)CardInfo()->frame_buffer + maxx - 8*8 + (maxy-20) * xmod; while ((c = *s++) != 0) { if (c == ' ') continue; if (c == '%') c = 10; else c -= '0'; uint8 *q = p; for (int y=0; y<8; y++) { uint8 data = Digits[c][y]; for (int x=0; x<8; x++) { if (data & (1 << (7-x))) q[x] = 255; else q[x] = 0; } q += xmod; } p += 8; } } /* * Fill rectangle */ void C64Screen::FillRect(int x1, int y1, int x2, int y2, int color) { long xmod = CardInfo()->bytes_per_row; uint8 *p = (uint8 *)CardInfo()->frame_buffer + y1 * xmod + x1; int n = x2 - x1 + 1; for(int y=y1; y<=y2; y++) { #ifdef __POWERPC__ memset_nc(p, color, n); #else memset(p, color, n); #endif p += xmod; } } /* * Bitmap view constructor */ BitmapView::BitmapView(BRect frame, BBitmap *bitmap) : BView(frame, "", B_FOLLOW_NONE, B_WILL_DRAW) { ChangeBitmap(bitmap); } /* * Blit the bitmap */ void BitmapView::Draw(BRect update) { if (the_bitmap != NULL) DrawBitmapAsync(the_bitmap, update, update); } /* * Receive special key-down events (main C64 keyboard handling is done in PollKeyboard) */ void BitmapView::KeyDown(const char *bytes, int32 numBytes) { if (bytes[0] == B_FUNCTION_KEY || bytes[0] == '+' || bytes[0] == '-' || bytes[0] == '*' || bytes[0] == '/') { BMessage *msg = Window()->CurrentMessage(); long key; if (msg->FindInt32("key", &key) == B_NO_ERROR) { switch (key) { case B_F11_KEY: // F11: NMI (Restore) be_app->PostMessage(MSG_NMI); break; case B_F12_KEY: // F12: Reset be_app->PostMessage(MSG_RESET); break; case 0x3a: // '+' on keypad: Increase SkipFrames ThePrefs.SkipFrames++; break; case 0x25: // '-' on keypad: Decrease SkipFrames if (ThePrefs.SkipFrames > 1) ThePrefs.SkipFrames--; break; case 0x24: // '*' on keypad: Toggle speed limiter ThePrefs.LimitSpeed = !ThePrefs.LimitSpeed; break; case 0x23: // '/' on keypad: Toggle processor-level 1541 emulation be_app->PostMessage(MSG_TOGGLE_1541); break; } } } } /* * Change view bitmap */ void BitmapView::ChangeBitmap(BBitmap *bitmap) { the_bitmap = bitmap; } /* * Speedometer constructor */ SpeedoView::SpeedoView(BRect frame) : BView(frame, "", B_FOLLOW_NONE, B_WILL_DRAW | B_PULSE_NEEDED) { speedostr[0] = 0; bounds = Bounds(); SetViewColor(fill_gray); SetLowColor(fill_gray); SetFont(be_plain_font); } /* * Draw speedometer */ void SpeedoView::Draw(BRect update) { // Draw bevelled border SetHighColor(shine_gray); StrokeLine(BPoint(0, bounds.bottom), BPoint(0, 0)); StrokeLine(BPoint(bounds.right, 0)); SetHighColor(shadow_gray); StrokeLine(BPoint(bounds.right, bounds.bottom), BPoint(bounds.right, 1)); // Draw text SetHighColor(0, 0, 0); DrawString(speedostr, BPoint(24, 12)); } /* * Update speedometer at regular intervals */ void SpeedoView::Pulse(void) { Invalidate(BRect(1, 1, bounds.right-1, 15)); } /* * Set new speedometer value */ void SpeedoView::SetValue(int speed) { sprintf(speedostr, "%d%%", speed); } /* * LED view constructor */ LEDView::LEDView(BRect frame, const char *label) : BView(frame, "", B_FOLLOW_NONE, B_WILL_DRAW | B_PULSE_NEEDED) { current_state = 0; the_label = label; bounds = Bounds(); SetViewColor(fill_gray); SetFont(be_plain_font); } /* * Draw drive LED */ void LEDView::Draw(BRect update) { // Draw bevelled border SetHighColor(shine_gray); StrokeLine(BPoint(0, bounds.bottom), BPoint(0, 0)); StrokeLine(BPoint(bounds.right, 0)); SetHighColor(shadow_gray); StrokeLine(BPoint(bounds.right, bounds.bottom), BPoint(bounds.right, 1)); // Draw label SetHighColor(0, 0, 0); SetLowColor(fill_gray); DrawString(the_label, BPoint(8, 12)); // Draw LED SetHighColor(shadow_gray); StrokeLine(BPoint(bounds.right-24, 12), BPoint(bounds.right-24, 4)); StrokeLine(BPoint(bounds.right-8, 4)); SetHighColor(shine_gray); StrokeLine(BPoint(bounds.right-23, 12), BPoint(bounds.right-8, 12)); StrokeLine(BPoint(bounds.right-8, 5)); DrawLED(); } /* * Redraw just the LED */ void LEDView::DrawLED(void) { Window()->Lock(); switch (current_state) { case LED_OFF: case LED_ERROR_OFF: SetHighColor(32, 32, 32); break; case LED_ON: SetHighColor(0, 240, 0); break; case LED_ERROR_ON: SetHighColor(240, 0, 0); break; } FillRect(BRect(bounds.right-23, 5, bounds.right-9, 11)); Window()->Unlock(); } /* * Set LED state */ void LEDView::SetState(int state) { if (state != current_state) { current_state = state; DrawLED(); } } /* * Toggle red error LED */ void LEDView::Pulse(void) { switch (current_state) { case LED_ERROR_ON: current_state = LED_ERROR_OFF; DrawLED(); break; case LED_ERROR_OFF: current_state = LED_ERROR_ON; DrawLED(); break; } } /* * Show a requester */ long ShowRequester(char *str, char *button1, char *button2) { BAlert *the_alert; the_alert = new BAlert("", str, button1, button2, NULL, B_WIDTH_AS_USUAL, B_STOP_ALERT); return the_alert->Go(); }