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Machinery to implement deferred compilation

This commit is contained in:
Maxime Chevalier-Boisvert 2021-03-05 15:45:44 -05:00 committed by Alan Wu
parent f8b4082be4
commit 7f4000b1f4
5 changed files with 96 additions and 51 deletions

View file

@ -190,6 +190,28 @@ assert_normal_exit %q{
end
}
# Test getinstancevariable and inline caches
assert_equal '6', %q{
class Foo
def initialize
@x1 = 1
@x2 = 1
@x2 = 1
@x3 = 1
@x4 = 3
end
def bar
x = 1
@x4 + @x4
end
end
f = Foo.new
f.bar
f.bar
}
# Test that getinstancevariable codegen checks for extended table size
assert_equal "nil\n", %q{
class A

View file

@ -82,17 +82,17 @@ jit_mov_gc_ptr(jitstate_t* jit, codeblock_t* cb, x86opnd_t reg, VALUE ptr)
// Check if we are compiling the instruction at the stub PC
// Meaning we are compiling the instruction that is next to execute
static bool
jit_at_current_insn(jitstate_t* jit, ctx_t* ctx)
jit_at_current_insn(jitstate_t* jit)
{
const VALUE* stub_pc = jit->ec->cfp->pc;
return (stub_pc == jit->pc);
const VALUE* ec_pc = jit->ec->cfp->pc;
return (ec_pc == jit->pc);
}
// Peek at the topmost value on the Ruby stack
static VALUE
jit_peek_at_stack(jitstate_t* jit, ctx_t* ctx)
{
RUBY_ASSERT(jit_at_current_insn(jit, ctx));
RUBY_ASSERT(jit_at_current_insn(jit));
VALUE* sp = jit->ec->cfp->sp + ctx->sp_offset;
@ -317,7 +317,13 @@ ujit_gen_block(ctx_t* ctx, block_t* block, rb_execution_context_t* ec)
// Call the code generation function
bool continue_generating = p_desc->gen_fn(&jit, ctx);
if (!continue_generating) {
// For now, reset the chain depth after each instruction
ctx->chain_depth = 0;
// If we can't compile this instruction
// exit to the interpreter and stop compiling
if (status == UJIT_CANT_COMPILE) {
ujit_gen_exit(&jit, ctx, cb, jit.pc);
break;
}
@ -572,33 +578,21 @@ gen_getinstancevariable(jitstate_t* jit, ctx_t* ctx)
return UJIT_CANT_COMPILE;
}
// Defer compilation so we can peek at the topmost object
if (!jit_at_current_insn(jit))
{
defer_compilation(jit->block, jit->insn_idx, ctx);
return UJIT_END_BLOCK;
}
// Peek at the topmost value on the stack at compilation time
VALUE top_val = jit_peek_at_stack(jit, ctx);
// TODO: play with deferred compilation and sidechains! :)
/*
num_versions = count_block_versions(this_instruction);
if (num_versions > N)
return JIT_CANT_COMPILE;
if (defer_compilation(this_instruction, ctx))
return JIT_END_BLOCK;
VALUE top_val = jit_peek_at_stack();
class = get_ruby_class(top_val);
guard_object_class(class, current_instr);
*/
@ -1452,7 +1446,6 @@ gen_oswb_iseq(jitstate_t* jit, ctx_t* ctx, struct rb_call_data * cd, const rb_ca
cmp(cb, klass_opnd, REG1);
jne_ptr(cb, COUNTED_EXIT(side_exit, oswb_se_cc_klass_differ));
if (METHOD_ENTRY_VISI(cme) == METHOD_VISI_PROTECTED) {
// Generate ancestry guard for protected callee.
jit_protected_guard(jit, cb, cme, side_exit);

View file

@ -113,6 +113,15 @@ Returns INT_MAX if incompatible
*/
int ctx_diff(const ctx_t* src, const ctx_t* dst)
{
// Can only lookup the first version in the chain
if (dst->chain_depth != 0)
return INT_MAX;
// Blocks with depth > 0 always produce new versions
// Sidechains cannot overlap
if (src->chain_depth != 0)
return INT_MAX;
if (dst->stack_size != src->stack_size)
return INT_MAX;
@ -353,6 +362,7 @@ uint8_t* branch_stub_hit(uint32_t branch_idx, uint32_t target_idx, rb_execution_
//fprintf(stderr, "\nstub hit, branch idx: %d, target idx: %d\n", branch_idx, target_idx);
//fprintf(stderr, "blockid.iseq=%p, blockid.idx=%d\n", target.iseq, target.idx);
//fprintf(stderr, "chain_depth=%d\n", target_ctx->chain_depth);
// Update the PC in the current CFP, because it
// may be out of sync in JITted code
@ -376,7 +386,7 @@ uint8_t* branch_stub_hit(uint32_t branch_idx, uint32_t target_idx, rb_execution_
generic_ctx.sp_offset = target_ctx->sp_offset;
if (get_num_versions(target) >= MAX_VERSIONS - 1)
{
fprintf(stderr, "version limit hit in branch_stub_hit\n");
//fprintf(stderr, "version limit hit in branch_stub_hit\n");
target_ctx = &generic_ctx;
}
@ -542,7 +552,7 @@ void gen_direct_jump(
generic_ctx.sp_offset = ctx->sp_offset;
if (get_num_versions(target0) >= MAX_VERSIONS - 1)
{
fprintf(stderr, "version limit hit in gen_direct_jump\n");
//fprintf(stderr, "version limit hit in gen_direct_jump\n");
ctx = &generic_ctx;
}
@ -588,42 +598,50 @@ void gen_direct_jump(
// Create a stub to force the code up to this point to be executed
void defer_compilation(
block_t* block,
ctx_t* cur_ctx,
uint32_t insn_idx
uint32_t insn_idx,
ctx_t* cur_ctx
)
{
//fprintf(stderr, "defer compilation at (%p, %d) depth=%d\n", block->blockid.iseq, insn_idx, cur_ctx->chain_depth);
if (cur_ctx->chain_depth != 0) {
rb_backtrace();
exit(1);
}
ctx_t next_ctx = *cur_ctx;
if (next_ctx.chain_depth >= UINT8_MAX) {
rb_bug("max block version chain depth reached");
}
next_ctx.chain_depth += 1;
/*
RUBY_ASSERT(num_branches < MAX_BRANCHES);
uint32_t branch_idx = num_branches++;
// Get the branch targets or stubs
blockid_t target0 = (blockid_t){ block->blockid.iseq, insn_idx };
uint8_t* dst_addr0 = get_branch_target(target0, &next_ctx, branch_idx, 0);
// Call the branch generation function
uint32_t start_pos = cb->write_pos;
gen_jump_branch(cb, dst_addr0, NULL, SHAPE_DEFAULT);
uint32_t end_pos = cb->write_pos;
// Register this branch entry
branch_t branch_entry = {
start_pos,
end_pos,
*ctx,
*cur_ctx,
{ target0, BLOCKID_NULL },
{ *ctx, *ctx },
{ next_ctx, next_ctx },
{ dst_addr0, NULL },
gen_jump_branch,
branch_shape
SHAPE_DEFAULT
};
branch_entries[branch_idx] = branch_entry;
*/
}
// Remove all references to a block then free it.

View file

@ -20,12 +20,18 @@
// Maximum number of temp value types we keep track of
#define MAX_TEMP_TYPES 8
// Default versioning context (no type information)
#define DEFAULT_CTX ( (ctx_t){ 0 } )
/**
Code generation context
Contains information we can use to optimize code
*/
typedef struct CtxStruct
{
// Depth of this block in the sidechain (eg: inline-cache chain)
int8_t chain_depth;
// Temporary variable types we keep track of
// Values are `ruby_value_type`
// T_NONE==0 is the unknown type
@ -58,12 +64,12 @@ typedef struct BlockId
static const blockid_t BLOCKID_NULL = { 0, 0 };
/// Branch code shape enumeration
enum uint8_t
typedef enum : int8_t
{
SHAPE_NEXT0, // Target 0 is next
SHAPE_NEXT1, // Target 1 is next
SHAPE_DEFAULT // Neither target is next
};
} branch_shape_t;
// Branch code generation function signature
typedef void (*branchgen_fn)(codeblock_t* cb, uint8_t* target0, uint8_t* target1, uint8_t shape);
@ -92,7 +98,7 @@ typedef struct BranchEntry
branchgen_fn gen_fn;
// Shape of the branch
uint8_t shape;
branch_shape_t shape;
} branch_t;
@ -159,6 +165,12 @@ void gen_direct_jump(
blockid_t target0
);
void defer_compilation(
block_t* block,
uint32_t insn_idx,
ctx_t* cur_ctx
);
void invalidate_block_version(block_t* block);
void ujit_init_core(void);

View file

@ -126,7 +126,7 @@ ruby_show_version(void)
}
if (rb_ujit_enabled_p()) {
fputs("uJIT is enabled\n", stdout);
fputs("YJIT is enabled\n", stdout);
}
#ifdef RUBY_LAST_COMMIT_TITLE
fputs("last_commit=" RUBY_LAST_COMMIT_TITLE, stdout);