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c8a6db0e4e6ffea1db733540736a74216ad122c5
tyche/lib/code.c
Andre Wagner c8a6db0e4e .
2026-05-15 07:22:58 -05:00

163 lines
4.2 KiB
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#include "priv.h"
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#if __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__
# error Sorry, big endian architectures are not supported at this time.
#endif
#define MAGIC 0xa7d6e9b1
#define VERSION_ADDR 0x04
#define CODE_START_ADDR 0x08
#define N_CONST_ADDR 0x0c
#define CONST_START 0x10
#define OP_8BIT_OPERAND 0xa0
#define OP_16BIT_OPERAND 0xc0
#define OP_32BIT_OPERAND 0xe0
struct Code {
uint8_t const* bytecode;
size_t bytecode_sz;
uint32_t* const_addr;
uint32_t fn_count;
uint32_t* fn_addr;
};
Code* code_new(void)
{
Code* code = xcalloc(1, sizeof(Code));
return code;
}
void code_destroy(Code* code)
{
free(code->const_addr);
free(code->fn_addr);
free(code);
}
TYC_RESULT code_load_bytecode(Code* code, uint8_t* bytecode, size_t bytecode_sz)
{
// TODO - linking
if (bytecode_sz < 24)
return T_ERR_BYTECODE_TOO_SMALL;
uint32_t magic = *(uint32_t*) &bytecode[0];
if (magic != MAGIC)
return T_ERR_BYTECODE_INVALID_MAGIC;
code->bytecode = bytecode;
code->bytecode_sz = bytecode_sz;
/*
for (size_t i = 0; i < bytecode_sz; ++i) {
if (i % 16 == 0)
printf("%04X: ", i);
printf("%02x ", bytecode[i]);
if (i % 16 == 15)
printf("\n");
}
printf("\n");
*/
uint32_t n_consts = code_n_consts(code);
code->const_addr = calloc(n_consts, sizeof(uint32_t));
uint32_t addr = CONST_START;
for (size_t i = 0; i < n_consts; ++i) {
code->const_addr[i] = addr;
switch (code_const_type(code, i)) {
case TC_STRING: {
uint32_t sz = (uint32_t) strlen((const char*) &bytecode[code->const_addr[i] + 1]);
addr += sz + 2; // 2 = constant type + NULL terminator
break;
}
case TC_REAL:
addr += 5; // 5 = constant type + float
break;
case TC_INVALID_TYPE:
default:
__builtin_unreachable();
}
}
addr += 4; // skip debug start address
memcpy(&code->fn_count, &bytecode[addr], sizeof(uint32_t)); // number of functions
addr += 4;
code->fn_addr = calloc(code->fn_count, sizeof(uint32_t));
code->fn_addr[0] = addr;
for (size_t i = 1; i < code->fn_count; ++i) {
uint32_t addr_next;
memcpy(&addr_next, &bytecode[addr], sizeof(uint32_t));
addr = code->fn_addr[i] = addr_next;
}
return T_OK;
}
uint32_t code_n_consts(Code const* code)
{
uint32_t n_consts; memcpy(&n_consts, &code->bytecode[N_CONST_ADDR], sizeof(uint32_t));
return n_consts;
}
TYC_CONST_TYPE code_const_type(Code const* code, size_t n)
{
uint8_t t = code->bytecode[code->const_addr[n]];
if (t >= TC_INVALID_TYPE)
return TC_INVALID_TYPE;
return t;
}
T_REAL code_const_real(Code const* code, size_t n)
{
float f;
memcpy(&f, &code->bytecode[code->const_addr[n] + 1], sizeof(float));
return f;
}
const char* code_const_string(Code const* code, size_t n)
{
return (const char*) &code->bytecode[code->const_addr[n] + 1];
}
uint32_t code_n_functions(Code const* code)
{
return code->fn_count;
}
Instruction code_next_instruction(Code const* code, uint32_t function_id, uint32_t pc)
{
uint32_t addr = code->fn_addr[function_id] + 4 + pc;
uint8_t opcode = code->bytecode[addr];
int32_t operand = 0;
uint8_t sz = 1;
if (opcode >= OP_8BIT_OPERAND && opcode < OP_16BIT_OPERAND) {
operand = code->bytecode[addr + 1];
sz = 2;
} else if (opcode >= OP_16BIT_OPERAND && opcode < OP_32BIT_OPERAND) {
opcode -= 0x20;
operand = (uint16_t) code->bytecode[addr + 1] |
(uint16_t) (code->bytecode[addr + 2] << 8);
sz = 3;
} else if (opcode >= OP_32BIT_OPERAND) {
opcode -= 0x40;
operand = (uint32_t) code->bytecode[addr + 1] |
(uint32_t) (code->bytecode[addr + 2] << 8) |
(uint32_t) (code->bytecode[addr + 3] << 16) |
(uint32_t) (code->bytecode[addr + 4] << 24);
sz = 5;
}
return (Instruction) {
.operator = (TYC_INST) opcode,
.operand = operand,
.sz = sz,
};
}
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