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collapseos/cvm/vm.h

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C
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#include <stdint.h>
#include <stdbool.h>
#define SP_ADDR 0xffff
#define RS_ADDR 0xff00
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#define SYSVARS RS_ADDR-0x80
typedef uint8_t byte;
typedef uint16_t word;
// Native words in this C Forth VMs are indexed in an array. The word in memory
// is the typical 0x00 to indicate native, followed by an index byte. The
// Execute routine will then know which native word to execute.
typedef void (*NativeWord) ();
typedef byte (*IORD) ();
typedef void (*IOWR) (byte data);
typedef struct {
byte mem[0x10000];
word SP; // parameter Stack Pointer
word RS; // Return Stack pointer
word IP; // Interpreter Pointer
// A list of native words' code. This is filled in VM_init() by calls to
// native(). The order is very important because we refer to these elements
// by index. For example, "0x42 CODE FOO" in Forth creates the native word
// FOO which, when executed, will call the code at index 0x42 in this array.
NativeWord nativew[0x100];
byte nativew_count;
// Array of 0x100 function pointers to IO read and write routines. Leave to
// NULL when IO port is unhandled.
IORD iord[0x100];
IOWR iowr[0x100];
// Used for keeping track of max RS and min SP during the lifetime of the
// program. Useful for debugging.
word maxRS;
word minSP;
bool running;
// Whether we're in stack underflow situation. Alters the behavior of some
// core action, notably popping. Doesn't stay set for more than a single
// execute cycle. The goal is to avoid over-popping in native words that
// pop more than once and thus corrupt memory.
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bool uflw;
// Same as uflw, but for stack overflow. However, we behave differently with
// oflw than with uflw. We can't prevent push() and pushRS() because it
// would prevent us from calling (oflw). Instead, we clear both stacks on
// oflw conditions, which gives us the room to maneuver.
bool oflw;
} VM;
VM* VM_init(char *blkfs_path);
void VM_deinit();
bool VM_steps(int n);
void VM_memdump();
void VM_debugstr(char *s);
void VM_printdbg();