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| | /*
* Copyright (C) 2024 olang maintainers
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
#include <assert.h>
#include <stdint.h>
#include <stdio.h>
#include "codegen_linux_x86_64.h"
#include "list.h"
#include "map.h"
#include "scope.h"
#define SYS_exit (60)
#define PTR_HEX_CSTR_SIZE (18 + 1)
// The call instruction pushes EIP into stack so the first 8 bytes from stack
// must be preserved else the ret instruction will jump to nowere.
#define X86_CALL_EIP_STACK_OFFSET (8)
#define X86_CALL_ARG_SIZE 6
typedef enum x86_64_register_type
{
REG_ACCUMULATOR,
REG_BASE,
REG_COUNTER,
REG_DATA,
REG_SRC_IDX,
REG_DEST_IDX,
REG_STACK_PTR,
REG_BASE_PTR,
REG_R8,
REG_R9,
REG_R10,
REG_R11,
REG_R12,
REG_R13,
REG_R14,
REG_R15
} x86_64_register_type_t;
/**
* Arch/ABI arg1 arg2 arg3 arg4 arg5 arg6 arg7 Notes
* ──────────────────────────────────────────────────────────────
* x86-64 rdi rsi rdx r10 r8 r9 -
*/
static int x86_call_args[X86_CALL_ARG_SIZE] = { REG_DEST_IDX, REG_SRC_IDX, REG_DATA, REG_R10, REG_R8, REG_R9 };
static void
codegen_linux_x86_64_emit_start_entrypoint(codegen_x86_64_t *codegen);
static void
codegen_linux_x86_64_emit_function(codegen_x86_64_t *codegen, ast_fn_definition_t *fn);
static size_t
type_to_bytes(type_t *type);
static char *
get_reg_for(x86_64_register_type_t type, size_t bytes);
void
codegen_linux_x86_64_init(codegen_x86_64_t *codegen, arena_t *arena, FILE *out)
{
assert(codegen);
assert(arena);
assert(codegen);
codegen->base_offset = 0;
codegen->symbols_stack_offset = map_new(arena);
codegen->out = out;
codegen->arena = arena;
}
void
codegen_linux_x86_64_emit_translation_unit(codegen_x86_64_t *codegen, ast_node_t *node)
{
codegen->label_index = 0;
codegen_linux_x86_64_emit_start_entrypoint(codegen);
assert(node->kind == AST_NODE_TRANSLATION_UNIT);
ast_translation_unit_t translation_unit = node->as_translation_unit;
list_item_t *item = list_head(translation_unit.decls);
bool main_found = false;
while (item != NULL) {
ast_node_t *decl = (ast_node_t *)item->value;
if (decl->kind == AST_NODE_FN_DEF) {
ast_fn_definition_t fn = decl->as_fn_def;
codegen_linux_x86_64_emit_function(codegen, &fn);
main_found = main_found || string_view_eq_to_cstr(fn.id, "main");
} else {
assert(0 && "translation unit only supports function declarations");
}
item = list_next(item);
}
assert(main_found && "main function is required.");
}
static void
codegen_linux_x86_64_emit_start_entrypoint(codegen_x86_64_t *codegen)
{
fprintf(codegen->out, ".text\n");
fprintf(codegen->out, ".globl _start\n\n");
fprintf(codegen->out, "_start:\n");
fprintf(codegen->out, " call main\n");
fprintf(codegen->out, " mov %%eax, %%edi\n");
fprintf(codegen->out, " mov $%d, %%eax\n", SYS_exit);
fprintf(codegen->out, " syscall\n");
}
static size_t
codegen_linux_x86_64_get_next_label(codegen_x86_64_t *codegen)
{
return ++codegen->label_index;
}
static void
codegen_linux_x86_64_emit_expression(codegen_x86_64_t *codegen, ast_node_t *expr_node)
{
switch (expr_node->kind) {
case AST_NODE_LITERAL: {
ast_literal_t literal_u32 = expr_node->as_literal;
assert(literal_u32.kind == AST_LITERAL_U32);
uint32_t n = literal_u32.as_u32;
fprintf(codegen->out, " mov $%d, %%rax\n", n);
return;
}
case AST_NODE_REF: {
ast_ref_t ref = expr_node->as_ref;
symbol_t *symbol = scope_lookup(ref.scope, ref.id);
assert(symbol);
char symbol_ptr[PTR_HEX_CSTR_SIZE];
sprintf(symbol_ptr, "%p", (void *)symbol);
size_t *offset = (size_t *)map_get(codegen->symbols_stack_offset, symbol_ptr);
assert(offset);
fprintf(codegen->out,
" mov -%ld(%%rbp), %s\n",
*offset,
get_reg_for(REG_ACCUMULATOR, type_to_bytes(&symbol->type)));
return;
}
case AST_NODE_FN_CALL: {
ast_fn_call_t fn_call = expr_node->as_fn_call;
size_t i = 0;
for (list_item_t *item = list_head(fn_call.args); item != NULL; item = list_next(item)) {
// FIXME: add support for more args than X86_CALL_ARG_SIZE
assert(i < X86_CALL_ARG_SIZE);
ast_node_t *arg_node = (ast_node_t *)item->value;
codegen_linux_x86_64_emit_expression(codegen, arg_node);
// FIXME: should get the correct size according to the ast node
fprintf(codegen->out, " push %s\n", get_reg_for(REG_ACCUMULATOR, 8));
++i;
}
for (; i > 0; --i) {
fprintf(codegen->out, " pop %s\n", get_reg_for(x86_call_args[i - 1], 8));
}
fprintf(codegen->out, " call " SV_FMT "\n", SV_ARG(fn_call.id));
return;
}
case AST_NODE_BINARY_OP: {
ast_binary_op_t bin_op = expr_node->as_bin_op;
switch (bin_op.kind) {
case AST_BINOP_ADDITION: {
codegen_linux_x86_64_emit_expression(codegen, bin_op.rhs);
fprintf(codegen->out, " push %%rax\n");
codegen_linux_x86_64_emit_expression(codegen, bin_op.lhs);
fprintf(codegen->out, " pop %%rcx\n");
fprintf(codegen->out, " add %%rcx, %%rax\n");
return;
}
case AST_BINOP_MULTIPLICATION: {
codegen_linux_x86_64_emit_expression(codegen, bin_op.rhs);
fprintf(codegen->out, " push %%rax\n");
codegen_linux_x86_64_emit_expression(codegen, bin_op.lhs);
fprintf(codegen->out, " pop %%rcx\n");
fprintf(codegen->out, " mul %%rcx\n");
return;
}
case AST_BINOP_DIVISION: {
codegen_linux_x86_64_emit_expression(codegen, bin_op.rhs);
fprintf(codegen->out, " push %%rax\n");
codegen_linux_x86_64_emit_expression(codegen, bin_op.lhs);
fprintf(codegen->out, " pop %%rcx\n");
fprintf(codegen->out, " xor %%rdx, %%rdx\n");
fprintf(codegen->out, " div %%rcx\n");
return;
}
case AST_BINOP_REMINDER: {
codegen_linux_x86_64_emit_expression(codegen, bin_op.rhs);
fprintf(codegen->out, " push %%rax\n");
fprintf(codegen->out, " xor %%edx, %%edx\n");
codegen_linux_x86_64_emit_expression(codegen, bin_op.lhs);
fprintf(codegen->out, " pop %%rcx\n");
fprintf(codegen->out, " xor %%rdx, %%rdx\n");
fprintf(codegen->out, " div %%rcx\n");
fprintf(codegen->out, " mov %%edx, %%eax\n");
return;
}
case AST_BINOP_SUBTRACTION: {
codegen_linux_x86_64_emit_expression(codegen, bin_op.rhs);
fprintf(codegen->out, " push %%rax\n");
codegen_linux_x86_64_emit_expression(codegen, bin_op.lhs);
fprintf(codegen->out, " pop %%rcx\n");
fprintf(codegen->out, " sub %%rcx, %%rax\n");
return;
}
case AST_BINOP_CMP_EQ: {
codegen_linux_x86_64_emit_expression(codegen, bin_op.rhs);
fprintf(codegen->out, " push %%rax\n");
codegen_linux_x86_64_emit_expression(codegen, bin_op.lhs);
fprintf(codegen->out, " pop %%rcx\n");
fprintf(codegen->out, " cmp %%rcx, %%rax\n");
fprintf(codegen->out, " sete %%al\n");
fprintf(codegen->out, " movzb %%al, %%rax\n");
return;
}
case AST_BINOP_CMP_LT: {
codegen_linux_x86_64_emit_expression(codegen, bin_op.rhs);
fprintf(codegen->out, " push %%rax\n");
codegen_linux_x86_64_emit_expression(codegen, bin_op.lhs);
fprintf(codegen->out, " pop %%rcx\n");
fprintf(codegen->out, " cmp %%rcx, %%rax\n");
fprintf(codegen->out, " setl %%al\n");
fprintf(codegen->out, " movzb %%al, %%rax\n");
return;
}
case AST_BINOP_CMP_GT: {
codegen_linux_x86_64_emit_expression(codegen, bin_op.rhs);
fprintf(codegen->out, " push %%rax\n");
codegen_linux_x86_64_emit_expression(codegen, bin_op.lhs);
fprintf(codegen->out, " pop %%rcx\n");
fprintf(codegen->out, " cmp %%rcx, %%rax\n");
fprintf(codegen->out, " setg %%al\n");
fprintf(codegen->out, " movzb %%al, %%rax\n");
return;
}
case AST_BINOP_CMP_NEQ: {
codegen_linux_x86_64_emit_expression(codegen, bin_op.rhs);
fprintf(codegen->out, " push %%rax\n");
codegen_linux_x86_64_emit_expression(codegen, bin_op.lhs);
fprintf(codegen->out, " pop %%rcx\n");
fprintf(codegen->out, " cmp %%rcx, %%rax\n");
fprintf(codegen->out, " setne %%al\n");
fprintf(codegen->out, " movzb %%al, %%rax\n");
return;
}
case AST_BINOP_CMP_LEQ: {
codegen_linux_x86_64_emit_expression(codegen, bin_op.rhs);
fprintf(codegen->out, " push %%rax\n");
codegen_linux_x86_64_emit_expression(codegen, bin_op.lhs);
fprintf(codegen->out, " pop %%rcx\n");
fprintf(codegen->out, " cmp %%rcx, %%rax\n");
fprintf(codegen->out, " setle %%al\n");
fprintf(codegen->out, " movzb %%al, %%rax\n");
return;
}
case AST_BINOP_CMP_GEQ: {
codegen_linux_x86_64_emit_expression(codegen, bin_op.rhs);
fprintf(codegen->out, " push %%rax\n");
codegen_linux_x86_64_emit_expression(codegen, bin_op.lhs);
fprintf(codegen->out, " pop %%rcx\n");
fprintf(codegen->out, " cmp %%rcx, %%rax\n");
fprintf(codegen->out, " setge %%al\n");
fprintf(codegen->out, " movzb %%al, %%rax\n");
return;
}
case AST_BINOP_BITWISE_LSHIFT: {
codegen_linux_x86_64_emit_expression(codegen, bin_op.rhs);
fprintf(codegen->out, " push %%rax\n");
codegen_linux_x86_64_emit_expression(codegen, bin_op.lhs);
fprintf(codegen->out, " pop %%rcx\n");
fprintf(codegen->out, " shl %%cl, %%rax\n");
return;
}
case AST_BINOP_BITWISE_RSHIFT: {
codegen_linux_x86_64_emit_expression(codegen, bin_op.rhs);
fprintf(codegen->out, " push %%rax\n");
codegen_linux_x86_64_emit_expression(codegen, bin_op.lhs);
fprintf(codegen->out, " pop %%rcx\n");
fprintf(codegen->out, " shr %%cl, %%rax\n");
return;
}
case AST_BINOP_BITWISE_XOR: {
codegen_linux_x86_64_emit_expression(codegen, bin_op.rhs);
fprintf(codegen->out, " push %%rax\n");
codegen_linux_x86_64_emit_expression(codegen, bin_op.lhs);
fprintf(codegen->out, " pop %%rcx\n");
fprintf(codegen->out, " xor %%ecx, %%eax\n");
return;
}
case AST_BINOP_BITWISE_AND: {
codegen_linux_x86_64_emit_expression(codegen, bin_op.rhs);
fprintf(codegen->out, " push %%rax\n");
codegen_linux_x86_64_emit_expression(codegen, bin_op.lhs);
fprintf(codegen->out, " pop %%rcx\n");
fprintf(codegen->out, " and %%ecx, %%eax\n");
return;
}
case AST_BINOP_BITWISE_OR: {
codegen_linux_x86_64_emit_expression(codegen, bin_op.rhs);
fprintf(codegen->out, " push %%rax\n");
codegen_linux_x86_64_emit_expression(codegen, bin_op.lhs);
fprintf(codegen->out, " pop %%rcx\n");
fprintf(codegen->out, " or %%ecx, %%eax\n");
return;
}
case AST_BINOP_LOGICAL_AND: {
size_t label_exit = codegen_linux_x86_64_get_next_label(codegen);
codegen_linux_x86_64_emit_expression(codegen, bin_op.lhs);
fprintf(codegen->out, " cmp $0, %%rax\n");
fprintf(codegen->out, " je .L%ld\n", label_exit);
codegen_linux_x86_64_emit_expression(codegen, bin_op.rhs);
fprintf(codegen->out, " cmp $0, %%rax\n");
fprintf(codegen->out, " je .L%ld\n", label_exit);
fprintf(codegen->out, " mov $1, %%rax\n");
fprintf(codegen->out, ".L%ld:\n", label_exit);
return;
}
case AST_BINOP_LOGICAL_OR: {
size_t label_t = codegen_linux_x86_64_get_next_label(codegen);
size_t label_f = codegen_linux_x86_64_get_next_label(codegen);
codegen_linux_x86_64_emit_expression(codegen, bin_op.lhs);
fprintf(codegen->out, " cmp $0, %%rax\n");
fprintf(codegen->out, " jne .L%ld\n", label_t);
codegen_linux_x86_64_emit_expression(codegen, bin_op.rhs);
fprintf(codegen->out, " cmp $0, %%rax\n");
fprintf(codegen->out, " je .L%ld\n", label_f);
fprintf(codegen->out, ".L%ld:\n", label_t);
fprintf(codegen->out, " mov $1, %%rax\n");
fprintf(codegen->out, ".L%ld:\n", label_f);
return;
}
default: {
assert(0 && "unsupported binary operation");
return;
}
}
}
default:
assert(0 && "unsupported expression");
}
}
static void
codegen_linux_x86_64_emit_block(codegen_x86_64_t *codegen, ast_block_t *block)
{
size_t block_offset = codegen->base_offset;
size_t nodes_len = list_size(block->nodes);
for (size_t i = 0; i < nodes_len; ++i) {
ast_node_t *node = list_get(block->nodes, i)->value;
switch (node->kind) {
case AST_NODE_RETURN_STMT: {
ast_return_stmt_t return_stmt = node->as_return_stmt;
ast_node_t *expr = return_stmt.expr;
codegen_linux_x86_64_emit_expression(codegen, expr);
fprintf(codegen->out, " mov %%rbp, %%rsp\n");
fprintf(codegen->out, " pop %%rbp\n");
fprintf(codegen->out, " ret\n");
break;
}
case AST_NODE_VAR_DEF: {
ast_var_definition_t var_def = node->as_var_def;
scope_t *scope = var_def.scope;
symbol_t *symbol = scope_lookup(scope, var_def.id);
assert(symbol);
char symbol_ptr[PTR_HEX_CSTR_SIZE];
sprintf(symbol_ptr, "%p", (void *)symbol);
if (var_def.value) {
codegen_linux_x86_64_emit_expression(codegen, var_def.value);
}
size_t *offset = arena_alloc(codegen->arena, sizeof(size_t));
*offset = codegen->base_offset;
map_put(codegen->symbols_stack_offset, symbol_ptr, offset);
size_t type_size = type_to_bytes(&symbol->type);
fprintf(codegen->out,
" mov %s, -%ld(%%rbp)\n",
get_reg_for(REG_ACCUMULATOR, type_size),
codegen->base_offset);
codegen->base_offset += type_size;
break;
}
case AST_NODE_IF_STMT: {
ast_if_stmt_t if_stmt = node->as_if_stmt;
ast_node_t *cond = if_stmt.cond;
ast_node_t *then = if_stmt.then;
ast_node_t *_else = if_stmt._else;
size_t end_if_label = codegen_linux_x86_64_get_next_label(codegen);
size_t end_else_label = codegen_linux_x86_64_get_next_label(codegen);
codegen_linux_x86_64_emit_expression(codegen, cond);
fprintf(codegen->out, " cmp $1, %%rax\n");
fprintf(codegen->out, " jnz .L%ld\n", end_if_label);
assert(then->kind == AST_NODE_BLOCK && "invalid if-then block");
ast_block_t then_block = then->as_block;
codegen_linux_x86_64_emit_block(codegen, &then_block);
fprintf(codegen->out, " jmp .L%ld\n", end_else_label);
fprintf(codegen->out, ".L%ld:\n", end_if_label);
if (_else != NULL) {
ast_block_t else_block = _else->as_block;
codegen_linux_x86_64_emit_block(codegen, &else_block);
}
fprintf(codegen->out, ".L%ld:\n", end_else_label);
break;
}
default: {
// FIXME: improve error: replace the node->kind to a string representation
fprintf(stderr, "node kind %d not supported\n", node->kind);
assert(0 && "unsupported block statement");
break;
}
}
}
codegen->base_offset = block_offset;
}
static size_t
type_to_bytes(type_t *type)
{
switch (type->kind) {
case TYPE_PRIMITIVE: {
return type->as_primitive.size;
}
}
assert(0 && "unreachable");
}
static size_t
calculate_fn_local_size(scope_t *scope)
{
assert(scope);
size_t local_size = 0;
map_kv_t *kvs[scope->symbols->size];
map_get_kvs(scope->symbols, kvs);
for (size_t i = 0; i < scope->symbols->size; ++i) {
symbol_t *symbol = (symbol_t *)kvs[i]->value;
local_size += type_to_bytes(&symbol->type);
}
size_t max_child_local_size = 0;
list_item_t *item = list_head(scope->children);
while (item != NULL) {
size_t child_local_size = calculate_fn_local_size((scope_t *)item->value);
if (child_local_size > max_child_local_size) {
max_child_local_size = child_local_size;
}
item = list_next(item);
}
return local_size + max_child_local_size;
}
static void
codegen_linux_x86_64_emit_function(codegen_x86_64_t *codegen, ast_fn_definition_t *fn_def)
{
codegen->base_offset = X86_CALL_EIP_STACK_OFFSET;
ast_node_t *block_node = fn_def->block;
fprintf(codegen->out, "" SV_FMT ":\n", SV_ARG(fn_def->id));
fprintf(codegen->out, " push %%rbp\n");
fprintf(codegen->out, " mov %%rsp, %%rbp\n");
size_t i = 0;
for (list_item_t *item = list_head(fn_def->params); item != NULL; item = list_next(item)) {
assert(i < X86_CALL_ARG_SIZE);
ast_fn_param_t *param = item->value;
size_t *offset = arena_alloc(codegen->arena, sizeof(size_t));
*offset = codegen->base_offset;
symbol_t *symbol = scope_lookup(fn_def->scope, param->id);
assert(symbol);
char symbol_ptr[PTR_HEX_CSTR_SIZE];
sprintf(symbol_ptr, "%p", (void *)symbol);
map_put(codegen->symbols_stack_offset, symbol_ptr, offset);
fprintf(codegen->out,
" mov %s, -%ld(%s)\n",
get_reg_for(x86_call_args[i], 8),
*offset,
get_reg_for(REG_BASE_PTR, 8));
// FIXME: add offset according to the param size
codegen->base_offset += 8;
++i;
}
size_t local_size = calculate_fn_local_size(fn_def->scope);
if (local_size != 0) {
fprintf(codegen->out, " sub $%ld, %%rsp\n", local_size);
}
assert(block_node->kind == AST_NODE_BLOCK);
ast_block_t block = block_node->as_block;
codegen_linux_x86_64_emit_block(codegen, &block);
}
static char *
get_reg_for(x86_64_register_type_t type, size_t bytes)
{
switch (type) {
case REG_ACCUMULATOR: {
if (bytes <= 1) {
return "%ah";
} else if (bytes <= 2) {
return "%ax";
} else if (bytes <= 4) {
return "%eax";
}
return "%rax";
}
case REG_BASE: {
if (bytes <= 1) {
return "%bh";
} else if (bytes <= 2) {
return "%bx";
} else if (bytes <= 4) {
return "%ebx";
}
return "%rbx";
}
case REG_COUNTER: {
if (bytes <= 1) {
return "%ch";
} else if (bytes <= 2) {
return "%cx";
} else if (bytes <= 4) {
return "%ecx";
}
return "%rcx";
}
case REG_DATA: {
if (bytes <= 1) {
return "%dh";
} else if (bytes <= 2) {
return "%dx";
} else if (bytes <= 4) {
return "%edx";
}
return "%rdx";
}
case REG_SRC_IDX: {
if (bytes <= 1) {
return "%sil";
} else if (bytes <= 2) {
return "%si";
} else if (bytes <= 4) {
return "%esi";
}
return "%rsi";
}
case REG_DEST_IDX: {
if (bytes <= 1) {
return "%sil";
} else if (bytes <= 2) {
return "%di";
} else if (bytes <= 4) {
return "%edi";
}
return "%rdi";
}
case REG_STACK_PTR: {
if (bytes <= 1) {
return "%spl";
} else if (bytes <= 2) {
return "%sp";
} else if (bytes <= 4) {
return "%esp";
}
return "%rsp";
}
case REG_BASE_PTR: {
if (bytes <= 1) {
return "%bpl";
} else if (bytes <= 2) {
return "%bp";
} else if (bytes <= 4) {
return "%ebp";
}
return "%rbp";
}
case REG_R8: {
if (bytes <= 1) {
return "%r8b";
} else if (bytes <= 2) {
return "%r8w";
} else if (bytes <= 4) {
return "%r8d";
}
return "%r8";
}
case REG_R9: {
if (bytes <= 1) {
return "%r9b";
} else if (bytes <= 2) {
return "%r9w";
} else if (bytes <= 4) {
return "%r9d";
}
return "%r9";
}
case REG_R10: {
if (bytes <= 1) {
return "%r10b";
} else if (bytes <= 2) {
return "%r10w";
} else if (bytes <= 4) {
return "%r10d";
}
return "%r10";
}
case REG_R11: {
if (bytes <= 1) {
return "%r11b";
} else if (bytes <= 2) {
return "%r11w";
} else if (bytes <= 4) {
return "%r11d";
}
return "%r11";
}
case REG_R12: {
if (bytes <= 1) {
return "%r12b";
} else if (bytes <= 2) {
return "%r12w";
} else if (bytes <= 4) {
return "%r12d";
}
return "%r12";
}
case REG_R13: {
if (bytes <= 1) {
return "%r13b";
} else if (bytes <= 2) {
return "%r13w";
} else if (bytes <= 4) {
return "%r13d";
}
return "%r13";
}
case REG_R14: {
if (bytes <= 1) {
return "%r14b";
} else if (bytes <= 2) {
return "%r14w";
} else if (bytes <= 4) {
return "%r14d";
}
return "%r14";
}
case REG_R15: {
if (bytes <= 1) {
return "%r15b";
} else if (bytes <= 2) {
return "%r15w";
} else if (bytes <= 4) {
return "%r15d";
}
return "%r15";
}
}
assert(0 && "invalid register");
return NULL;
}
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