#ifndef _APPLE2_H_ #define _APPLE2_H_ #include "apple2.dd.h" #include "mos6502.h" #include "vm_bitfont.h" #include "vm_screen.h" /* * This is the size of the bitmap font we use for the apple2 */ #define APPLE2_SYSFONT_SIZE 21558 /* * The reset vector is the address where the apple will consult to * figure out where control should go after a reset. Think of this as * something like a pointer to a main() function in C. That is: where's * the main function? Let's ask the reset vector! */ #define APPLE2_RESET_VECTOR 0x03F2 /* * This is the address of the validity-check byte, aka the power-up * byte. The Apple II will use this to see if the reset vector is valid. */ #define APPLE2_POWERUP_BYTE 0x03F4 /* * I'm not _exactly_ clear on where the applesoft interpreter lives in * ROM, after spending possibly too-much time researching how this * works. My guess is I'm missing something that's obvious to others. * $E000 seems to be the original spot that Integer BASIC was contained, * and I'm going to guess Applesoft BASIC is in the same spot. Here's * hoping! */ #define APPLE2_APPLESOFT_MAIN 0xE000 enum video_modes { VIDEO_40COL_TEXT, VIDEO_LORES, VIDEO_HIRES, VIDEO_80COL_TEXT, VIDEO_DOUBLE_LORES, VIDEO_DOUBLE_HIRES, }; enum color_modes { COLOR_GREEN, COLOR_AMBER, COLOR_GRAY, COLOR_FULL, }; enum lores_colors { LORES_BLACK, LORES_MAGENTA, LORES_DARKBLUE, LORES_PURPLE, LORES_DARKGREEN, LORES_GRAY1, LORES_MEDBLUE, LORES_LIGHTBLUE, LORES_BROWN, LORES_ORANGE, LORES_GRAY2, LORES_PINK, LORES_LIGHTGREEN, LORES_YELLOW, LORES_AQUAMARINE, LORES_WHITE, }; // Write-protect on/off. // Read target = ROM or RAM. // Write target = RAM. // Set mode of $Dxxx hexapage bank1 or bank2 ram. // 0 - 0=off 1=on // 1 - 0=ROM 1=RAM // 2 - 0=BANK1 1=BANK2 /* * An Apple II has bank-switched memory beginning with $D000 extending * through $FFFF. The enums below define bit flag names to determine * what is accessible through those addresses. * * Note that it _is_ possible to write while reading ROM, but your * writes will not go to ROM; they'll go to _RAM_. Any write to $E000 - * $FFFF may only be sent to bank 1 RAM. Writes to $D000-$DFFF may * either be sent to bank 1 RAM or bank 2 RAM based upon the RAM2 bit * flag below. */ enum memory_mode { MEMORY_ROM = 1, // on = read ROM; off = read RAM MEMORY_WRITE = 2, // on = allow writes to RAM; off = disallow writes MEMORY_RAM2 = 4, // on = use bank 2 for $D000-$DFFF; off = use bank 1 }; typedef struct { /* * The apple 2 hardware used an MOS-6502 processor. */ mos6502 *cpu; /* * This is the main memory bank of the computer. Conventionally, it * contains not only the first contiguous 48k of RAM, but it also * contains the last 12k of bank 1 RAM. */ vm_segment *main; /* * The Apple II used a system of bank-switched memory to enable * software to address a separate block of ROM. */ vm_segment *rom; /* * The Apple II may have an auxiliary RAM bank; this was possible by * installing a card there. If you had the 80-column text card (and * you likely did), then you got an extra kilobyte of RAM to work * with; it was either used for the extra columns or you could take * advantage of it for extra storage otherwise. */ vm_segment *aux; /* * The screen wherein we shall render all of our graphics. */ vm_screen *screen; /* * This is the system font (the only font the Apple II knows about, * really); anywhere we render text, we have to use this font. */ vm_bitfont *sysfont; /* * This is the mode in which we must interpret graphics. This will * tell us not only if we're in lo- or hi-res, but also if we are in * single or double view mode. */ int video_mode; /* * This is the color mode we want to emulate. You can have a few * different styles of monochromatic displays: green, amber, and * light gray on black; you can also emulate a full color display, * in which text mode tends to look like light gray. */ int color_mode; /* * This describes the behavior of our bank-switching scheme. We need * our read/write mappers to know where writes into the * bank-switched area of memory should target. */ vm_8bit bank_switch; /* * Our two disk drives. */ apple2dd *drive1; apple2dd *drive2; } apple2; extern apple2 *apple2_create(int, int); extern bool apple2_is_double_video(apple2 *); extern int apple2_boot(apple2 *); extern void apple2_clear_strobe(apple2 *); extern void apple2_free(apple2 *); extern void apple2_press_key(apple2 *, vm_8bit); extern void apple2_release_key(apple2 *); extern void apple2_reset(apple2 *); extern void apple2_run_loop(apple2 *); extern void apple2_set_color(apple2 *, int); extern void apple2_set_bank_switch(apple2 *, vm_8bit); extern void apple2_set_video(apple2 *, int); #endif