#include "master.hpp"
namespace factor {
// Simple non-optimizing compiler.
// This is one of the two compilers implementing Factor; the second one is
// written in Factor and performs advanced optimizations. See
// basis/compiler/compiler.factor.
// The non-optimizing compiler compiles a quotation at a time by
// concatenating machine code chunks; prolog, epilog, call word, jump to
// word, etc. These machine code chunks are generated from Factor code in
// basis/bootstrap/assembler/.
// Calls to words and constant quotations (referenced by conditionals and
// dips) are direct jumps to machine code blocks. Literals are also
// referenced directly without going through the literal table.
// It actually does do a little bit of very simple optimization:
// 1) Tail call optimization.
// 2) If a quotation is determined to not call any other words (except for a
// few special words which are open-coded, see below), then no prolog/epilog
// is generated.
// 3) When in tail position and immediately preceded by literal arguments,
// the 'if' is generated inline, instead of as a call to the 'if' word.
// 4) When preceded by a quotation, calls to 'dip', '2dip' and '3dip' are
// open-coded as retain stack manipulation surrounding a subroutine call.
// 5) Sub-primitives are primitive words which are implemented in assembly
// and not in the VM. They are open-coded and no subroutine call is generated.
// This includes stack shufflers, some fixnum arithmetic words, and words
// such as tag, slot and eq?. A primitive call is relatively expensive
// (two subroutine calls) so this results in a big speedup for relatively
// little effort.
inline cell quotation_jit::nth(cell index) {
return array_nth(elements.untagged(), index);
}
void quotation_jit::init_quotation(cell quot) {
elements.set_value(untag<quotation>(quot)->array);
}
bool quotation_jit::fast_if_p(cell i, cell length) {
return (i + 3) == length &&
TAG(nth(i + 1)) == QUOTATION_TYPE &&
nth(i + 2) == parent->special_objects[JIT_IF_WORD];
}
bool quotation_jit::primitive_call_p(cell i, cell length) {
cell jit_primitive_word = parent->special_objects[JIT_PRIMITIVE_WORD];
return (i + 2) <= length && nth(i + 1) == jit_primitive_word;
}
bool quotation_jit::fast_dip_p(cell i, cell length) {
cell jit_dip_word = parent->special_objects[JIT_DIP_WORD];
return (i + 2) <= length && nth(i + 1) == jit_dip_word;
}
bool quotation_jit::fast_2dip_p(cell i, cell length) {
cell jit_2dip_word = parent->special_objects[JIT_2DIP_WORD];
return (i + 2) <= length && nth(i + 1) == jit_2dip_word;
}
bool quotation_jit::fast_3dip_p(cell i, cell length) {
cell jit_3dip_word = parent->special_objects[JIT_3DIP_WORD];
return (i + 2) <= length && nth(i + 1) == jit_3dip_word;
}
bool quotation_jit::declare_p(cell i, cell length) {
cell jit_declare_word = parent->special_objects[JIT_DECLARE_WORD];
return (i + 2) <= length && nth(i + 1) == jit_declare_word;
}
bool quotation_jit::mega_lookup_p(cell i, cell length) {
return (i + 4) <= length &&
TAG(nth(i + 1)) == FIXNUM_TYPE &&
TAG(nth(i + 2)) == ARRAY_TYPE &&
nth(i + 3) == parent->special_objects[MEGA_LOOKUP_WORD];
}
// Subprimitives should be flagged with whether they require a stack frame.
// See #295.
bool quotation_jit::special_subprimitive_p(cell obj) {
return obj == parent->special_objects[SIGNAL_HANDLER_WORD] ||
obj == parent->special_objects[LEAF_SIGNAL_HANDLER_WORD] ||
obj == parent->special_objects[UNWIND_NATIVE_FRAMES_WORD];
}
// All quotations wants a stack frame, except if they contain:
// 1) calls to the special subprimitives, see #295.
// 2) mega cache lookups, see #651
bool quotation_jit::stack_frame_p() {
cell length = array_capacity(elements.untagged());
for (cell i = 0; i < length; i++) {
cell obj = nth(i);
cell tag = TAG(obj);
if ((tag == WORD_TYPE && special_subprimitive_p(obj)) ||
(tag == ARRAY_TYPE && mega_lookup_p(i, length)))
return false;
}
return true;
}
static bool trivial_quotation_p(array* elements) {
return array_capacity(elements) == 1 &&
TAG(array_nth(elements, 0)) == WORD_TYPE;
}
// Allocates memory (emit)
void quotation_jit::emit_epilog(bool needed) {
if (needed) {
emit(parent->special_objects[JIT_SAFEPOINT]);
emit(parent->special_objects[JIT_EPILOG]);
}
}
// Allocates memory conditionally
void quotation_jit::emit_quotation(cell quot_) {
data_root<quotation> quot(quot_, parent);
array* elements = untag<array>(quot->array);
// If the quotation consists of a single word, compile a direct call
// to the word.
if (trivial_quotation_p(elements))
literal(array_nth(elements, 0));
else {
if (compiling)
parent->jit_compile_quotation(quot.value(), relocate);
literal(quot.value());
}
}
// Allocates memory (parameter(), literal(), emit_epilog, emit_with_literal)
void quotation_jit::iterate_quotation() {
bool stack_frame = stack_frame_p();
set_position(0);
if (stack_frame) {
emit(parent->special_objects[JIT_SAFEPOINT]);
emit(parent->special_objects[JIT_PROLOG]);
}
cell length = array_capacity(elements.untagged());
bool tail_call = false;
for (cell i = 0; i < length; i++) {
set_position(i);
data_root<object> obj(nth(i), parent);
switch (obj.type()) {
case WORD_TYPE:
// Sub-primitives
if (to_boolean(obj.as<word>()->subprimitive)) {
tail_call = emit_subprimitive(obj.value(), // word
i == length - 1, // tail_call_p
stack_frame); // stack_frame_p
} // Everything else
else if (i == length - 1) {
emit_epilog(stack_frame);
tail_call = true;
word_jump(obj.value());
} else
word_call(obj.value());
break;
case WRAPPER_TYPE:
push(obj.as<wrapper>()->object);
break;
case BYTE_ARRAY_TYPE:
// Primitive calls
if (primitive_call_p(i, length)) {
// On x86-64 and PowerPC, the VM pointer is stored in a register;
// on other platforms, the RT_VM relocation is used and it needs
// an offset parameter
#ifdef FACTOR_X86
parameter(tag_fixnum(0));
#endif
parameter(obj.value());
parameter(false_object);
#ifdef FACTOR_PPC_TOC
parameter(obj.value());
parameter(false_object);
#endif
emit(parent->special_objects[JIT_PRIMITIVE]);
i++;
} else
push(obj.value());
break;
case QUOTATION_TYPE:
// 'if' preceded by two literal quotations (this is why if and ? are
// mutually recursive in the library, but both still work)
if (fast_if_p(i, length)) {
emit_epilog(stack_frame);
tail_call = true;
emit_quotation(nth(i));
emit_quotation(nth(i + 1));
emit(parent->special_objects[JIT_IF]);
i += 2;
} // dip
else if (fast_dip_p(i, length)) {
emit_quotation(obj.value());
emit(parent->special_objects[JIT_DIP]);
i++;
} // 2dip
else if (fast_2dip_p(i, length)) {
emit_quotation(obj.value());
emit(parent->special_objects[JIT_2DIP]);
i++;
} // 3dip
else if (fast_3dip_p(i, length)) {
emit_quotation(obj.value());
emit(parent->special_objects[JIT_3DIP]);
i++;
} else
push(obj.value());
break;
case ARRAY_TYPE:
// Method dispatch
if (mega_lookup_p(i, length)) {
tail_call = true;
emit_mega_cache_lookup(nth(i), untag_fixnum(nth(i + 1)), nth(i + 2));
i += 3;
} // Non-optimizing compiler ignores declarations
else if (declare_p(i, length))
i++;
else
push(obj.value());
break;
default:
push(obj.value());
break;
}
}
if (!tail_call) {
set_position(length);
emit_epilog(stack_frame);
emit(parent->special_objects[JIT_RETURN]);
}
}
cell quotation_jit::word_stack_frame_size(cell obj) {
if (special_subprimitive_p(obj))
return SIGNAL_HANDLER_STACK_FRAME_SIZE;
return JIT_FRAME_SIZE;
}
// Allocates memory
void quotation_jit::emit_mega_cache_lookup(cell methods_, fixnum index,
cell cache_) {
data_root<array> methods(methods_, parent);
data_root<array> cache(cache_, parent);
// Load the object from the datastack.
emit_with_literal(parent->special_objects[PIC_LOAD],
tag_fixnum(-index * sizeof(cell)));
// Do a cache lookup.
emit_with_literal(parent->special_objects[MEGA_LOOKUP], cache.value());
// If we end up here, the cache missed.
emit(parent->special_objects[JIT_PROLOG]);
// Push index, method table and cache on the stack.
push(methods.value());
push(tag_fixnum(index));
push(cache.value());
word_call(parent->special_objects[MEGA_MISS_WORD]);
// Now the new method has been stored into the cache, and its on
// the stack.
emit(parent->special_objects[JIT_EPILOG]);
emit(parent->special_objects[JIT_EXECUTE]);
}
// Allocates memory
code_block* factor_vm::jit_compile_quotation(cell owner_, cell quot_,
bool relocating) {
data_root<object> owner(owner_, this);
data_root<quotation> quot(quot_, this);
quotation_jit compiler(owner.value(), true, relocating, this);
compiler.init_quotation(quot.value());
compiler.iterate_quotation();
cell frame_size = compiler.word_stack_frame_size(owner_);
code_block* compiled = compiler.to_code_block(CODE_BLOCK_UNOPTIMIZED,
frame_size);
if (relocating)
initialize_code_block(compiled);
return compiled;
}
// Allocates memory
void factor_vm::jit_compile_quotation(cell quot_, bool relocating) {
data_root<quotation> quot(quot_, this);
if (!quotation_compiled_p(quot.untagged())) {
code_block* compiled =
jit_compile_quotation(quot.value(), quot.value(), relocating);
quot.untagged()->entry_point = compiled->entry_point();
}
}
// Allocates memory
void factor_vm::primitive_jit_compile() {
jit_compile_quotation(ctx->pop(), true);
}
cell factor_vm::lazy_jit_compile_entry_point() {
return untag<word>(special_objects[LAZY_JIT_COMPILE_WORD])->entry_point;
}
// push a new quotation on the stack
// Allocates memory
void factor_vm::primitive_array_to_quotation() {
quotation* quot = allot<quotation>(sizeof(quotation));
quot->array = ctx->peek();
quot->cached_effect = false_object;
quot->cache_counter = false_object;
quot->entry_point = lazy_jit_compile_entry_point();
ctx->replace(tag<quotation>(quot));
}
// Allocates memory (from_unsigned_cell)
void factor_vm::primitive_quotation_code() {
data_root<quotation> quot(ctx->pop(), this);
ctx->push(from_unsigned_cell(quot->entry_point));
ctx->push(from_unsigned_cell((cell)quot->code() + quot->code()->size()));
}
// Allocates memory
fixnum factor_vm::quot_code_offset_to_scan(cell quot_, cell offset) {
data_root<quotation> quot(quot_, this);
data_root<array> array(quot->array, this);
quotation_jit compiler(quot.value(), false, false, this);
compiler.init_quotation(quot.value());
compiler.compute_position(offset);
compiler.iterate_quotation();
return compiler.get_position();
}
// Allocates memory
cell factor_vm::lazy_jit_compile(cell quot_) {
data_root<quotation> quot(quot_, this);
FACTOR_ASSERT(!quotation_compiled_p(quot.untagged()));
code_block* compiled =
jit_compile_quotation(quot.value(), quot.value(), true);
quot.untagged()->entry_point = compiled->entry_point();
return quot.value();
}
// Allocates memory
VM_C_API cell lazy_jit_compile(cell quot, factor_vm* parent) {
return parent->lazy_jit_compile(quot);
}
bool factor_vm::quotation_compiled_p(quotation* quot) {
return quot->entry_point != 0 &&
quot->entry_point != lazy_jit_compile_entry_point();
}
void factor_vm::primitive_quotation_compiled_p() {
quotation* quot = untag_check<quotation>(ctx->pop());
ctx->push(tag_boolean(quotation_compiled_p(quot)));
}
}