#include #include #include #include "common/config.h" #include "common/flash.h" #include "common/dmacopy.h" #include "vga/vgabuf.h" #include "vga/render.h" #include "vga/vgaout.h" uint16_t text_fore; uint16_t text_back; uint16_t text_border; compat_t machinefont = MACHINE_INVALID; bool userfont = false; bool mono_rendering = false; uint16_t DELAYED_COPY_DATA(mono_colors)[14] = { _RGB(0x00, 0x00, 0x00), _RGB(0xFF, 0xFF, 0xFF), // White Normal _RGB(0xFF, 0xFF, 0xFF), _RGB(0x00, 0x00, 0x00), // White Inverse _RGB(0x00, 0x00, 0x00), _RGB(0xFE, 0x7F, 0x00), // Amber Normal _RGB(0xFE, 0x7F, 0x00), _RGB(0x00, 0x00, 0x00), // Amber Inverse _RGB(0x00, 0x00, 0x00), _RGB(0x00, 0xBF, 0x00), // Green Normal _RGB(0x00, 0xBF, 0x00), _RGB(0x00, 0x00, 0x00), // Green Inverse _RGB(0x35, 0x28, 0x79), _RGB(0x6C, 0x5E, 0xB5), // Commodore }; // Initialize the character generator ROM static void DELAYED_COPY_CODE(switch_font)() { if(romx_changed) { memcpy32(character_rom, (void*)FLASH_FONT(romx_textbank), 4096); } else if(userfont) { return; } else if(current_machine != machinefont) { switch(current_machine) { default: case MACHINE_II: memcpy32(character_rom, (void*)FLASH_FONT_APPLE_II, 4096); break; case MACHINE_IIE: memcpy32(character_rom, (void*)FLASH_FONT_APPLE_IIE, 4096); break; case MACHINE_IIGS: memcpy32(character_rom, (void*)FLASH_FONT_APPLE_IIGS, 4096); break; case MACHINE_PRAVETZ: memcpy32(character_rom, (void*)FLASH_FONT_PRAVETZ, 4096); break; } machinefont = current_machine; } } uint16_t status_timeout = 900; uint8_t status_line[81]; void DELAYED_COPY_CODE(update_status_right)(const char *str) { uint i, len; if(str != NULL) { len = strlen(str); } else { len = 0; } if(len < 80) { memset(status_line, ' ', 80 - len); } else { len = 80; } for(i = 0; i < len; i++) { status_line[(80-len) + i] = str[i]; } status_timeout = 900; } void DELAYED_COPY_CODE(update_status_left)(const char *str) { uint i, len; if(str != NULL) { len = strlen(str); } else { len = 0; } if(len < 80) { memset(status_line + len, ' ', 80 - len); } else { len = 80; } for(i = 0; i < len; i++) { status_line[i] = str[i]; } status_timeout = 900; } void DELAYED_COPY_CODE(render_init)() { int i; switch_font(); if((soft_switches & SOFTSW_MODE_MASK) == 0) internal_flags |= IFLAGS_TEST; apple_tbcolor = 0xf0; apple_border = 0x00; terminal_tbcolor = 0xf0; terminal_border = 0x00; memcpy(terminal_character_rom, (void*)FLASH_VIDEX_BASE, 4096); memset(status_line, 0, sizeof(status_line)); terminal_clear_screen(); render_test_init(); } // Skip lines to center vertically or blank the screen void DELAYED_COPY_CODE(render_border)(uint count) { struct vga_scanline *sl = vga_prepare_scanline(); uint sl_pos = 0; while(sl_pos < VGA_WIDTH/16) { sl->data[sl_pos] = (text_border|THEN_EXTEND_7) | ((text_border|THEN_EXTEND_7) << 16); // 16 pixels per word sl_pos++; } sl->length = sl_pos; sl->repeat_count = count - 1; vga_submit_scanline(sl); } uint32_t screentimeout = 0; uint32_t testdone = 0; void DELAYED_COPY_CODE(render_loop)() { for(;;) { config_handler(); #if 0 if((busactive == 0) && (screentimeout > (15 * 60))) { vga_prepare_frame(); render_border(VGA_HEIGHT); memset(status_line, 0, sizeof(status_line)); status_timeout = 0; vga_dpms_sleep(); while(busactive == 0); vga_dpms_wake(); } else { if(busactive == 0) { screentimeout++; if(screentimeout == 30) { update_status_right("Going to sleep..."); } } else { if(screentimeout >= 30) { // Clear the sleep mode message memset(status_line, 0, sizeof(status_line)); status_timeout = 0; } screentimeout = 0; } busactive = 0; #endif if(romx_changed || (machinefont != current_machine)) { switch_font(); romx_changed = 0; machinefont = current_machine; } update_text_flasher(); if(!(mono_palette & 0x8)) { if((current_machine == MACHINE_IIGS) && !(soft_switches & SOFTSW_MONOCHROME)) { text_fore = lores_palette[APPLE_FORE]; text_back = lores_palette[APPLE_BACK]; text_border = lores_palette[APPLE_BORDER]; } else { text_fore = mono_colors[1]; text_back = mono_colors[0]; text_border = mono_colors[0]; } } else if(mono_palette == 0xF) { text_fore = lores_palette[TERMINAL_FORE]; text_back = lores_palette[TERMINAL_BACK]; text_border = lores_palette[TERMINAL_BORDER]; } else { int palette = mono_palette & 0x7; text_fore = mono_colors[palette*2+1]; text_back = mono_colors[palette*2]; text_border = (palette == 0x6) ? text_fore : text_back; } mono_rendering = ((soft_switches & SOFTSW_MONOCHROME) || (mono_palette & 0x8)); if(internal_flags & IFLAGS_TEST) { render_testpattern(); // Assume the RP2040 has been hard reset and try to default to text display if(busactive && (testdone == 0)) { // was ((soft_switches & SOFTSW_MODE_MASK) != 0) soft_switches |= SOFTSW_TEXT_MODE; internal_flags &= ~IFLAGS_TEST; testdone = 1; render_about_init(); } #if defined(ANALOG_GS) } else if(soft_switches & SOFTSW_SHR) { vga_prepare_frame(); render_shr(); #endif } else if(internal_flags & IFLAGS_TERMINAL) { vga_prepare_frame(); render_terminal(); } else { vga_prepare_frame(); render_border(16); if(status_line[0] != 0) { render_status_line(); } else { render_border(32); } switch(soft_switches & SOFTSW_MODE_MASK) { case 0: if(soft_switches & SOFTSW_DGR) { render_dgr(); } else { render_lores(); } break; case SOFTSW_MIX_MODE: if((soft_switches & (SOFTSW_80COL | SOFTSW_DGR)) == (SOFTSW_80COL | SOFTSW_DGR)) { render_mixed_dgr(); } else { render_mixed_lores(); } break; case SOFTSW_HIRES_MODE: if(soft_switches & SOFTSW_DGR) { render_dhgr(); } else { render_hires(); } break; case SOFTSW_HIRES_MODE|SOFTSW_MIX_MODE: if((soft_switches & (SOFTSW_80COL | SOFTSW_DGR)) == (SOFTSW_80COL | SOFTSW_DGR)) { render_mixed_dhgr(); } else { render_mixed_hires(); } break; default: render_text(); break; } render_border(48); } #if 0 } #endif } }