From 639808a092001cf621921311c6665554b9235bb6 Mon Sep 17 00:00:00 2001 From: Aryadev Chavali Date: Sun, 15 Oct 2023 21:41:16 +0100 Subject: Moved vm_* code to its own file (runtime.(h|c)) --- src/runtime.c | 195 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 195 insertions(+) create mode 100644 src/runtime.c (limited to 'src/runtime.c') diff --git a/src/runtime.c b/src/runtime.c new file mode 100644 index 0000000..b9870de --- /dev/null +++ b/src/runtime.c @@ -0,0 +1,195 @@ +/* Copyright (C) 2023 Aryadev Chavali + + * You may distribute and modify this code under the terms of the + * GPLv2 license. You should have received a copy of the GPLv2 + * license with this file. If not, please write to: + * aryadev@aryadevchavali.com. + + * Created: 2023-10-15 + * Author: Aryadev Chavali + * Description: Virtual machine implementation + */ + +#include +#include + +#include "./runtime.h" + +void vm_execute(vm_t *vm) +{ + struct Program *prog = &vm->program; + if (prog->ptr >= prog->max) + // TODO: Error (Went past end of program) + return; + inst_t instruction = prog->instructions[prog->ptr]; + + if (OPCODE_IS_PUSH(instruction.opcode)) + { + PUSH_ROUTINES[instruction.opcode](vm, instruction.operand); + vm->registers.ret = instruction.operand.as_word; + prog->ptr++; + } + else if (OPCODE_IS_PUSH_REG(instruction.opcode)) + { + PUSH_REG_ROUTINES[instruction.opcode](vm, instruction.reg); + vm->registers.ret = instruction.operand.as_word; + prog->ptr++; + } + else if (OPCODE_IS_POP(instruction.opcode)) + { + // NOTE: We use the `ret` register for the result of this pop + data_t d = POP_ROUTINES[instruction.opcode](vm); + vm->registers.ret = d.as_word; + prog->ptr++; + } + else if (OPCODE_IS_MOV(instruction.opcode)) + { + MOV_ROUTINES[instruction.opcode](vm, instruction.operand, instruction.reg); + vm->registers.ret = instruction.operand.as_word; + prog->ptr++; + } + else + { + // TODO: Error (Unknown opcode) + return; + } +} + +void vm_load_stack(vm_t *vm, byte *bytes, size_t size) +{ + vm->stack.data = bytes; + vm->stack.max = size; + vm->stack.ptr = 0; +} + +void vm_load_program(vm_t *vm, inst_t *instructions, size_t size) +{ + vm->program.instructions = instructions; + vm->program.max = size; + vm->program.ptr = 0; +} + +void vm_push_byte(vm_t *vm, data_t b) +{ + if (vm->stack.ptr >= vm->stack.max) + // TODO: Error STACK_OVERFLOW + return; + vm->stack.data[vm->stack.ptr++] = b.as_byte; +} + +void vm_push_word(vm_t *vm, data_t w) +{ + if (vm->stack.ptr + WORD_SIZE >= vm->stack.max) + // TODO: Error STACK_OVERFLOW + return; + // By default store in big endian + for (size_t i = 64; i > 0; i -= 8) + { + const word mask = ((word)0b11111111) << (i - 8); + byte b = (w.as_word & mask) >> (i - 8); + vm_push_byte(vm, DBYTE(b)); + } +} + +void vm_push_float(vm_t *vm, data_t f) +{ + if (vm->stack.ptr + FLOAT_SIZE >= vm->stack.max) + // TODO: Error STACK_OVERFLOW + return; + // TODO: Make this machine independent (encode IEEE754 floats + // yourself?) + memcpy(vm->stack.data + vm->stack.ptr, &f.as_float, FLOAT_SIZE); + vm->stack.ptr += FLOAT_SIZE; +} + +void vm_push_byte_register(vm_t *vm, word reg) +{ + if (reg >= VM_BYTE_REGISTERS) + // TODO: Error (reg is not a valid byte register) + return; + else if (vm->stack.ptr >= vm->stack.max) + // TODO: Error STACK_OVERFLOW + return; + vm_push_byte(vm, DBYTE(vm->registers.b[reg])); +} + +void vm_push_word_register(vm_t *vm, word reg) +{ + if (reg >= VM_WORD_REGISTERS) + // TODO: Error (reg is not a valid word register) + return; + else if (vm->stack.ptr >= vm->stack.max) + // TODO: Error STACK_OVERFLOW + return; + vm_push_word(vm, DWORD(vm->registers.w[reg])); +} + +void vm_push_float_register(vm_t *vm, word reg) +{ + if (reg >= VM_FLOAT_REGISTERS) + // TODO: Error (reg is not a valid float register) + return; + else if (vm->stack.ptr >= vm->stack.max) + // TODO: Error STACK_OVERFLOW + return; + vm_push_float(vm, DFLOAT(vm->registers.f[reg])); +} + +void vm_mov_byte(vm_t *vm, data_t b, word reg) +{ + if (reg >= VM_BYTE_REGISTERS) + // TODO: Error (reg is not a valid byte register) + return; + vm->registers.b[reg] = b.as_byte; +} + +void vm_mov_word(vm_t *vm, data_t w, word reg) +{ + if (reg >= VM_WORD_REGISTERS) + // TODO: Error (reg is not a valid word register) + return; + vm->registers.w[reg] = w.as_word; +} + +void vm_mov_float(vm_t *vm, data_t f, word reg) +{ + if (reg >= VM_FLOAT_REGISTERS) + // TODO: Error (reg is not a valid float register) + return; + vm->registers.f[reg] = f.as_float; +} + +data_t vm_pop_byte(vm_t *vm) +{ + if (vm->stack.ptr == 0) + // TODO: Error STACK_UNDERFLOW + return DBYTE(0); + return DBYTE(vm->stack.data[--vm->stack.ptr]); +} + +data_t vm_pop_word(vm_t *vm) +{ + if (vm->stack.ptr < WORD_SIZE) + // TODO: Error STACK_UNDERFLOW + return DWORD(0); + word w = 0; + for (size_t i = 0; i < WORD_SIZE; ++i) + { + data_t b = vm_pop_byte(vm); + w = w | ((word)(b.as_byte) << (i * 8)); + } + return DWORD(w); +} + +data_t vm_pop_float(vm_t *vm) +{ + if (vm->stack.ptr < FLOAT_SIZE) + // TODO: Error STACK_UNDERFLOW + return DFLOAT(0); + f64 f = 0; + // TODO: Make this machine independent (encode IEEE754 floats + // yourself?) + memcpy(&f, vm->stack.data + vm->stack.ptr - FLOAT_SIZE, FLOAT_SIZE); + vm->stack.ptr -= FLOAT_SIZE; + return DFLOAT(f); +} -- cgit v1.2.3-13-gbd6f