clox/debug.c
pjht c5b12fe8c9 Finish base features of arrays and hashes
Fix single-valued arrays and single-pair hashes, add support for
indexing variables, and add support for assigning to arrays and hashes
in variables
2019-06-03 14:38:44 -05:00

147 lines
4.9 KiB
C

#include "debug.h"
#include "chunk.h"
#include "common.h"
#include "value.h"
#include <stdio.h>
void disassembleChunk(Chunk* chunk, const char* name) {
printf("== %s ==\n", name);
for (int offset = 0; offset < chunk->count;) {
offset = disassembleInstruction(chunk, offset);
}
}
static int constantInstruction(const char* name, Chunk* chunk, int offset) {
uint8_t constant = chunk->code[offset + 1];
printf("%-16s %4d '", name, constant);
printValue(chunk->constants.values[constant]);
printf("'\n");
return offset + 2;
}
static int longConstantInstruction(const char* name, Chunk* chunk, int offset) {
uint8_t constant_lo = chunk->code[offset + 3];
uint8_t constant_mid = chunk->code[offset + 2];
uint8_t constant_hi = chunk->code[offset + 1];
int constant = constant_lo | (constant_mid << 8) | constant_hi << 16;
printf("%-16s %9d '", name, constant);
// printValue(chunk->constants.values[constant]);
printf("'\n");
return offset + 4;
}
static int simpleInstruction(const char* name, int offset) {
printf("%s\n", name);
return offset + 1;
}
static int byteInstruction(const char* name, Chunk* chunk, int offset) {
uint8_t slot = chunk->code[offset + 1];
printf("%-16s %4d\n", name, slot);
return offset + 2;
}
static int threeByteInstruction(const char* name, Chunk* chunk, int offset) {
uint8_t slot_lo = chunk->code[offset + 3];
uint8_t slot_mid = chunk->code[offset + 2];
uint8_t slot_hi = chunk->code[offset + 1];
int slot = slot_lo | (slot_mid << 8) | slot_hi << 16;
printf("%-16s %9d\n", name, slot);
return offset + 2;
}
static int jumpInstruction(const char* name, int sign, Chunk* chunk, int offset) {
uint16_t jump = (uint16_t) (chunk->code[offset + 2] << 8);
jump |= chunk->code[offset + 1];
printf("%-16s %4d -> %d\n", name, offset, offset + 3 + sign * jump);
return offset + 3;
}
int disassembleInstruction(Chunk* chunk, int offset) {
printf("%04d ", offset);
if (offset > 0 && chunk->lines[offset] == chunk->lines[offset - 1]) {
printf(" | ");
} else {
printf("%4d ", chunk->lines[offset]);
}
uint8_t instruction = chunk->code[offset];
switch (instruction) {
case OP_ARRAY:
return byteInstruction("OP_ARRAY", chunk, offset);
case OP_CONSTANT:
return constantInstruction("OP_CONSTANT", chunk, offset);
case OP_CONSTANT_LONG:
return longConstantInstruction("OP_CONSTANT_LONG", chunk, offset);
case OP_HASH:
return byteInstruction("OP_HASH", chunk, offset);
case OP_NIL:
return simpleInstruction("OP_NIL", offset);
case OP_TRUE:
return simpleInstruction("OP_TRUE", offset);
case OP_FALSE:
return simpleInstruction("OP_FALSE", offset);
case OP_POP:
return simpleInstruction("OP_POP", offset);
case OP_INDEX:
return simpleInstruction("OP_INDEX", offset);
case OP_INDEX_FLIPPED:
return simpleInstruction("OP_INDEX_FLIPPED", offset);
case OP_SET_INDEX:
return simpleInstruction("OP_SET_INDEX", offset);
case OP_GET_LOCAL:
return byteInstruction("OP_GET_LOCAL", chunk, offset);
case OP_SET_LOCAL:
return byteInstruction("OP_SET_LOCAL", chunk, offset);
case OP_GET_LOCAL_LONG:
return threeByteInstruction("OP_GET_LOCAL_LONG", chunk, offset);
case OP_SET_LOCAL_LONG:
return threeByteInstruction("OP_SET_LOCAL_LONG", chunk, offset);
case OP_GET_GLOBAL:
return constantInstruction("OP_GET_GLOBAL", chunk, offset);
case OP_GET_GLOBAL_LONG:
return longConstantInstruction("OP_GET_GLOBAL_LONG", chunk, offset);
case OP_DEFINE_GLOBAL:
return constantInstruction("OP_DEFINE_GLOBAL", chunk, offset);
case OP_DEFINE_GLOBAL_LONG:
return longConstantInstruction("OP_DEFINE_GLOBAL_LONG", chunk, offset);
case OP_SET_GLOBAL:
return constantInstruction("OP_SET_GLOBAL", chunk, offset);
case OP_SET_GLOBAL_LONG:
return longConstantInstruction("OP_SET_GLOBAL_LONG", chunk, offset);
case OP_EQUAL:
return simpleInstruction("OP_EQUAL", offset);
case OP_GREATER:
return simpleInstruction("OP_GREATER", offset);
case OP_LESS:
return simpleInstruction("OP_LESS", offset);
case OP_ADD:
return simpleInstruction("OP_ADD", offset);
case OP_SUBTRACT:
return simpleInstruction("OP_SUBTRACT", offset);
case OP_MULTIPLY:
return simpleInstruction("OP_MULTIPLY", offset);
case OP_DIVIDE:
return simpleInstruction("OP_DIVIDE", offset);
case OP_NOT:
return simpleInstruction("OP_NOT", offset);
case OP_NEGATE:
return simpleInstruction("OP_NEGATE", offset);
case OP_PRINT:
return simpleInstruction("OP_PRINT", offset);
case OP_JUMP:
return jumpInstruction("OP_JUMP", 1, chunk, offset);
case OP_JUMP_IF_FALSE:
return jumpInstruction("OP_JUMP_IF_FALSE", 1, chunk, offset);
case OP_LOOP:
return jumpInstruction("OP_LOOP", -1, chunk, offset);
case OP_RETURN:
return simpleInstruction("OP_RETURN", offset);
default:
printf("Unknown opcode %d\n", instruction);
return offset + 1;
}
}