270 lines
9.4 KiB
C++
270 lines
9.4 KiB
C++
#include "vm.h"
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#include <stdio.h>
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#include <stdlib.h>
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#include "parser.h"
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#include "error.h"
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#define MAX_EXTERNAL_CALLS 256
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#define MAX_DATA_STACK 256
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#define MAX_CALL_STACK 256
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typedef unsigned char byte;
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typedef unsigned short word;
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/*enum OPS {
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OP_NOP = 0,
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OP_PUSH,
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OP_POP,
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OP_DUP,
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OP_SWAP,
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OP_LOAD,
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OP_LOADI,
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OP_STORE,
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OP_STOREI,
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OP_LOADXY,
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OP_STOREXY,
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OP_SETX,
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OP_SETY,
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OP_SETZ,
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OP_GETY,
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OP_GETZ,
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OP_INCX,
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OP_DECX,
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OP_INCY,
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OP_DECY,
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OP_INCZ,
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OP_DECZ,
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OP_JMP,
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OP_JNT,
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OP_JTR,
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OP_JSR,
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OP_RET,
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OP_CALL,
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OP_RJ,
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OP_RB,
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OP_RJZ,
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OP_RJN,
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OP_RBZ,
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OP_RBN,
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OP_RJYZ,
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OP_RJYN,
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OP_RBYZ,
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OP_RBYN,
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OP_RJZZ,
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OP_RJZN,
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OP_RBZZ,
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OP_RBZN,
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OP_ADD,
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OP_SUB,
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OP_MUL,
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OP_DIV,
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OP_MOD,
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OP_AND,
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OP_OR,
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OP_NOT,
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OP_NEG,
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OP_INC,
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OP_DEC,
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OP_CONCAT,
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OP_EQ,
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OP_NEQ,
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OP_LT,
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OP_GT,
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OP_LEQ,
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OP_GEQ,
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OP_IN,
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OP_OUT,
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OP_SLEEP,
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};*/
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typedef void(*t_extcall)(t_stack&);
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t_extcall external_calls[MAX_EXTERNAL_CALLS];
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int numcallbacks = 0;
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typedef void(*t_out_port)(const byte&);
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typedef byte(*t_in_port)();
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t_out_port out_ports[256];
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t_in_port in_ports[256];
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unsigned char mem[65536];
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const unsigned char* vm_program = mem;
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int vm_pc = 2;
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int vm_cycles = 0;
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t_stack vm_datastack;
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t_stack vm_callstack;
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unsigned short rX = 0;
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unsigned char rY = 0;
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unsigned char rZ = 0;
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bool sleeping = false;
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static void load_rom() {
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FILE *f = fopen("rom.bin", "rb");
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fseek(f, 0, SEEK_END);
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long fsize = ftell(f);
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fseek(f, 0, SEEK_SET);
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fread(&mem[0x8000], fsize, 1, f);
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fclose(f);
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}
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static void load_program(const char* filename) {
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/* FILE *f = fopen(filename, "rb");
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fseek(f, 0, SEEK_END);
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long fsize = ftell(f);
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fseek(f, 0, SEEK_SET);
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fread(mem, fsize, 1, f);
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fclose(f);*/
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FILE *f = fopen(filename, "rb");
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fseek(f, 0, SEEK_END);
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long fsize = ftell(f);
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fseek(f, 0, SEEK_SET); //same as rewind(f);
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char *program = (char*)malloc(fsize + 1);
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fread(program, fsize, 1, f);
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fclose(f);
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program[fsize] = 0;
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//unsigned char* rawCode =
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parser_parse(program, mem);
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free(program);
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if (error_raised()) {
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error_print();
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//getchar();
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}
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else {
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printf("Compilation complete!\nProgram size: %d bytes\nMemory usage: %d bytes\n", parser_get_codesize(), parser_get_memory_usage());
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/*FILE *f = fopen("test.bin", "wb");
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if (f == nullptr) perror("Error");// printf("Error: %d (%s)\n", errno, strerror(errno));
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fwrite(rawCode, parser_get_codesize(), 1, f);
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fclose(f);*/
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}
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}
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void vm_init(const char* filename) {
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vm_pc = 2; rX = rY = rZ = 0;
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vm_datastack.data = &mem[0x8800];
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vm_callstack.data = &mem[0x8900];
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vm_datastack.top = vm_callstack.top = 0;
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vm_datastack.max = MAX_DATA_STACK;
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vm_callstack.max = MAX_CALL_STACK;
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load_rom();
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load_program(filename);
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}
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inline unsigned short WORD() { vm_pc += 2; return vm_program[vm_pc - 2] + (vm_program[vm_pc - 1] << 8); }
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const int vm_step() {
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if (sleeping) return vm_cycles;
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char val, val2;
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OPS opcode = (OPS)vm_program[vm_pc++];
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switch (opcode) {
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case OP_NOP: vm_cycles++; break;
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case OP_PUSH: stack_push(vm_datastack, vm_program[vm_pc++]); vm_cycles++; break;
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case OP_POP: stack_pop(vm_datastack); vm_cycles++; break;
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case OP_DUP: stack_push(vm_datastack, stack_peek(vm_datastack)); vm_cycles++; break;
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case OP_SWAP: val = stack_pop(vm_datastack); val2 = stack_pop(vm_datastack); stack_push(vm_datastack, val); stack_push(vm_datastack, val2); vm_cycles++; break;
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case OP_LOAD: stack_push(vm_datastack, mem[WORD()]); vm_cycles++; break;
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case OP_LOADI: stack_push(vm_datastack, mem[WORD() + rY]); vm_cycles++; break;
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case OP_STORE: mem[WORD()] = stack_pop(vm_datastack); vm_cycles++; break;
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case OP_STOREI: val = stack_pop(vm_datastack); mem[WORD() + rY] = val; vm_cycles++; break;
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case OP_LOADXY: stack_push(vm_datastack, mem[rX + rY]); vm_cycles++; break;
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case OP_STOREXY: mem[rX + rY] = stack_pop(vm_datastack); vm_cycles++; break;
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case OP_SETX: rX = WORD(); vm_cycles++; break;
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case OP_SETY: rY = stack_pop(vm_datastack); vm_cycles++; break;
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case OP_SETZ: rZ = stack_pop(vm_datastack); vm_cycles++; break;
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case OP_GETY: stack_push(vm_datastack, rY); vm_cycles++; break;
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case OP_GETZ: stack_push(vm_datastack, rZ); vm_cycles++; break;
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case OP_INCX: rX++; vm_cycles++; break;
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case OP_DECX: rX--; vm_cycles++; break;
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case OP_INCY: rY++; vm_cycles++; break;
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case OP_DECY: rY--; vm_cycles++; break;
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case OP_INCZ: rZ++; vm_cycles++; break;
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case OP_DECZ: rZ--; vm_cycles++; break;
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case OP_JMP: vm_pc = WORD(); vm_cycles++; break;
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case OP_JNT: if (stack_pop(vm_datastack) == 0) { vm_pc = WORD(); } else vm_pc+=2; vm_cycles++; break;
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case OP_JTR: if (stack_pop(vm_datastack) != 0) { vm_pc = WORD(); } else vm_pc+=2; vm_cycles++; break;
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case OP_JSR: stack_push(vm_callstack, vm_pc + 2); stack_push(vm_callstack, rX & 255); stack_push(vm_callstack, rX >> 8); stack_push(vm_callstack, rY); stack_push(vm_callstack, rZ); vm_pc = WORD(); vm_cycles++; break;
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case OP_RET: rZ = stack_pop(vm_callstack); rY = stack_pop(vm_callstack); rX = (stack_pop(vm_callstack) << 8) + stack_pop(vm_callstack); vm_pc = stack_pop(vm_callstack); vm_cycles++; break;
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case OP_CALL: external_calls[vm_program[vm_pc++]](vm_datastack); vm_cycles++; break;
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case OP_RJ: vm_pc += vm_program[vm_pc]; vm_cycles++; break;
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case OP_RB: vm_pc -= vm_program[vm_pc]+1; vm_cycles++; break;
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case OP_RJZ: if (stack_pop(vm_datastack) == 0) vm_pc += vm_program[vm_pc]; else vm_pc++; vm_cycles++; break;
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case OP_RJN: if (stack_pop(vm_datastack) != 0) vm_pc += vm_program[vm_pc]; else vm_pc++; vm_cycles++; break;
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case OP_RBZ: if (stack_pop(vm_datastack) == 0) vm_pc -= vm_program[vm_pc] + 1; else vm_pc++; vm_cycles++; break;
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case OP_RBN: if (stack_pop(vm_datastack) != 0) vm_pc -= vm_program[vm_pc] + 1; else vm_pc++; vm_cycles++; break;
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case OP_RJYZ: if (rY == 0) vm_pc += vm_program[vm_pc]; else vm_pc++; vm_cycles++; break;
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case OP_RJYN: if (rY != 0) vm_pc += vm_program[vm_pc]; else vm_pc++; vm_cycles++; break;
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case OP_RBYZ: if (rY == 0) vm_pc -= vm_program[vm_pc] + 1; else vm_pc++; vm_cycles++; break;
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case OP_RBYN: if (rY != 0) vm_pc -= vm_program[vm_pc] + 1; else vm_pc++; vm_cycles++; break;
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case OP_RJZZ: if (rZ == 0) vm_pc += vm_program[vm_pc]; else vm_pc++; vm_cycles++; break;
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case OP_RJZN: if (rZ != 0) vm_pc += vm_program[vm_pc]; else vm_pc++; vm_cycles++; break;
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case OP_RBZZ: if (rZ == 0) vm_pc -= vm_program[vm_pc] + 1; else vm_pc++; vm_cycles++; break;
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case OP_RBZN: if (rZ != 0) vm_pc -= vm_program[vm_pc] + 1; else vm_pc++; vm_cycles++; break;
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case OP_ADD: stack_push(vm_datastack, stack_pop(vm_datastack) + stack_pop(vm_datastack)); vm_cycles++; break;
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case OP_SUB: stack_push(vm_datastack, stack_pop(vm_datastack) - stack_pop(vm_datastack)); vm_cycles++; break;
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case OP_MUL: stack_push(vm_datastack, stack_pop(vm_datastack) * stack_pop(vm_datastack)); vm_cycles++; break;
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case OP_DIV: stack_push(vm_datastack, stack_pop(vm_datastack) / stack_pop(vm_datastack)); vm_cycles++; break;
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case OP_MOD: stack_push(vm_datastack, stack_pop(vm_datastack) % stack_pop(vm_datastack)); vm_cycles++; break;
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case OP_AND: stack_push(vm_datastack, stack_pop(vm_datastack) & stack_pop(vm_datastack)); vm_cycles++; break;
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case OP_OR: stack_push(vm_datastack, stack_pop(vm_datastack) | stack_pop(vm_datastack)); vm_cycles++; break;
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case OP_NOT: stack_push(vm_datastack, !stack_pop(vm_datastack)); vm_cycles++; break;
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case OP_NEG: stack_push(vm_datastack, -stack_pop(vm_datastack)); vm_cycles++; break;
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case OP_INC: stack_push(vm_datastack, stack_pop(vm_datastack)+1); vm_cycles++; break;
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case OP_DEC: stack_push(vm_datastack, stack_pop(vm_datastack) - 1); vm_cycles++; break;
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case OP_CONCAT:
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val = stack_pop(vm_datastack);
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for (int i = 0; i < val; i++) stack_push(vm_callstack, stack_pop(vm_datastack));
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val2 = stack_pop(vm_datastack);
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for (int i = 0; i < val; i++) stack_push(vm_datastack, stack_pop(vm_callstack));
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stack_push(vm_datastack, val + val2);
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vm_cycles++; break;
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case OP_EQ: stack_push(vm_datastack, stack_pop(vm_datastack) == stack_pop(vm_datastack)); vm_cycles++; break;
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case OP_NEQ: stack_push(vm_datastack, stack_pop(vm_datastack) != stack_pop(vm_datastack)); vm_cycles++; break;
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case OP_LT: stack_push(vm_datastack, stack_pop(vm_datastack) < stack_pop(vm_datastack)); vm_cycles++; break;
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case OP_GT: stack_push(vm_datastack, stack_pop(vm_datastack) > stack_pop(vm_datastack)); vm_cycles++; break;
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case OP_LEQ: stack_push(vm_datastack, stack_pop(vm_datastack) <= stack_pop(vm_datastack)); vm_cycles++; break;
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case OP_GEQ: stack_push(vm_datastack, stack_pop(vm_datastack) >= stack_pop(vm_datastack)); vm_cycles++; break;
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case OP_IN: stack_push(vm_datastack, in_ports[vm_program[vm_pc++]]()); vm_cycles++; break;
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case OP_OUT: out_ports[vm_program[vm_pc++]](stack_pop(vm_datastack)); vm_cycles++; break;
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case OP_SLEEP: sleeping = true; vm_cycles++; break;
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}
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return vm_cycles;
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}
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void vm_register_call(void(*callback)(t_stack&)) {
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external_calls[numcallbacks++] = callback;
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}
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void vm_register_in_port(const byte port, t_in_port callback) {
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in_ports[port] = callback;
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}
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void vm_register_out_port(const byte port, t_out_port callback) {
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out_ports[port] = callback;
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}
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void vm_call_interrupt(const char num) {
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sleeping = false;
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stack_push(vm_callstack, vm_pc);
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stack_push(vm_callstack, rX & 255);
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stack_push(vm_callstack, rX >> 8);
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stack_push(vm_callstack, rY);
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stack_push(vm_callstack, rZ);
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vm_pc = num == 0 ? 0xFFFA : 0xFFFD;
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vm_cycles++;
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}
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