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dart / sdk.git / refs/tags/0.6.20.1 / . / runtime / vm / il_printer.cc
blob: 715b69559f8f239db158ae140aa4bf6c3b4cb11d [file] [log] [blame]
// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
#include "vm/il_printer.h"
#include "vm/intermediate_language.h"
#include "vm/os.h"
#include "vm/parser.h"
namespace dart {
DEFINE_FLAG(bool, print_environments, false, "Print SSA environments.");
void BufferFormatter::Print(const char* format, ...) {
va_list args;
va_start(args, format);
VPrint(format, args);
va_end(args);
}
void BufferFormatter::VPrint(const char* format, va_list args) {
intptr_t available = size_ - position_;
if (available <= 0) return;
intptr_t written =
OS::VSNPrint(buffer_ + position_, available, format, args);
if (written >= 0) {
position_ += (available <= written) ? available : written;
}
}
void FlowGraphPrinter::PrintGraph(const char* phase, FlowGraph* flow_graph) {
OS::Print("*** BEGIN CFG\n%s\n", phase);
FlowGraphPrinter printer(*flow_graph);
printer.PrintBlocks();
OS::Print("*** END CFG\n");
fflush(stdout);
}
void FlowGraphPrinter::PrintBlock(BlockEntryInstr* block,
bool print_locations) {
// Print the block entry.
PrintOneInstruction(block, print_locations);
OS::Print("\n");
// And all the successors in the block.
for (ForwardInstructionIterator it(block); !it.Done(); it.Advance()) {
Instruction* current = it.Current();
PrintOneInstruction(current, print_locations);
OS::Print("\n");
}
}
void FlowGraphPrinter::PrintBlocks() {
if (!function_.IsNull()) {
OS::Print("==== %s\n", function_.ToFullyQualifiedCString());
}
for (intptr_t i = 0; i < block_order_.length(); ++i) {
PrintBlock(block_order_[i], print_locations_);
}
}
void FlowGraphPrinter::PrintInstruction(Instruction* instr) {
PrintOneInstruction(instr, print_locations_);
}
void FlowGraphPrinter::PrintOneInstruction(Instruction* instr,
bool print_locations) {
char str[1000];
BufferFormatter f(str, sizeof(str));
instr->PrintTo(&f);
if (FLAG_print_environments && (instr->env() != NULL)) {
instr->env()->PrintTo(&f);
}
if (print_locations && (instr->locs() != NULL)) {
instr->locs()->PrintTo(&f);
}
if (instr->lifetime_position() != -1) {
OS::Print("%3" Pd ": ", instr->lifetime_position());
}
if (!instr->IsBlockEntry()) OS::Print(" ");
OS::Print("%s", str);
}
void FlowGraphPrinter::PrintTypeCheck(const ParsedFunction& parsed_function,
intptr_t token_pos,
Value* value,
const AbstractType& dst_type,
const String& dst_name,
bool eliminated) {
const char* compile_type_name = "unknown";
if (value != NULL) {
compile_type_name = value->Type()->ToCString();
}
OS::Print("%s type check: compile type %s is %s specific than "
"type '%s' of '%s'.\n",
eliminated ? "Eliminated" : "Generated",
compile_type_name,
eliminated ? "more" : "not more",
String::Handle(dst_type.Name()).ToCString(),
dst_name.ToCString());
}
void CompileType::PrintTo(BufferFormatter* f) const {
f->Print("T{");
f->Print("%s, ", is_nullable_ ? "null" : "not-null");
if (cid_ != kIllegalCid) {
const Class& cls =
Class::Handle(Isolate::Current()->class_table()->At(cid_));
f->Print("%s, ", String::Handle(cls.Name()).ToCString());
} else {
f->Print("?, ");
}
f->Print("%s}", (type_ != NULL) ? type_->ToCString() : "?");
}
const char* CompileType::ToCString() const {
char buffer[1024];
BufferFormatter f(buffer, sizeof(buffer));
PrintTo(&f);
return Isolate::Current()->current_zone()->MakeCopyOfString(buffer);
}
static void PrintICData(BufferFormatter* f, const ICData& ic_data) {
f->Print(" IC[%" Pd ": ", ic_data.NumberOfChecks());
Function& target = Function::Handle();
for (intptr_t i = 0; i < ic_data.NumberOfChecks(); i++) {
GrowableArray<intptr_t> class_ids;
ic_data.GetCheckAt(i, &class_ids, &target);
const intptr_t count = ic_data.GetCountAt(i);
if (i > 0) {
f->Print(" | ");
}
for (intptr_t k = 0; k < class_ids.length(); k++) {
if (k > 0) {
f->Print(", ");
}
const Class& cls =
Class::Handle(Isolate::Current()->class_table()->At(class_ids[k]));
f->Print("%s", String::Handle(cls.Name()).ToCString());
}
if (count > 0) {
f->Print(" #%" Pd, count);
}
f->Print(" <%p>", static_cast<void*>(target.raw()));
}
f->Print("]");
}
static void PrintUse(BufferFormatter* f, const Definition& definition) {
if (definition.is_used()) {
if (definition.HasSSATemp()) {
f->Print("v%" Pd, definition.ssa_temp_index());
} else if (definition.temp_index() != -1) {
f->Print("t%" Pd, definition.temp_index());
}
}
}
const char* Instruction::ToCString() const {
char buffer[1024];
BufferFormatter f(buffer, sizeof(buffer));
PrintTo(&f);
return Isolate::Current()->current_zone()->MakeCopyOfString(buffer);
}
void Instruction::PrintTo(BufferFormatter* f) const {
if (GetDeoptId() != Isolate::kNoDeoptId) {
f->Print("%s:%" Pd "(", DebugName(), GetDeoptId());
} else {
f->Print("%s(", DebugName());
}
PrintOperandsTo(f);
f->Print(")");
}
void Instruction::PrintOperandsTo(BufferFormatter* f) const {
for (int i = 0; i < InputCount(); ++i) {
if (i > 0) f->Print(", ");
if (InputAt(i) != NULL) InputAt(i)->PrintTo(f);
}
}
void Definition::PrintTo(BufferFormatter* f) const {
PrintUse(f, *this);
if (is_used()) {
if (HasSSATemp() || (temp_index() != -1)) f->Print(" <- ");
}
if (GetDeoptId() != Isolate::kNoDeoptId) {
f->Print("%s:%" Pd "(", DebugName(), GetDeoptId());
} else {
f->Print("%s(", DebugName());
}
PrintOperandsTo(f);
f->Print(")");
if (range_ != NULL) {
f->Print(" ");
range_->PrintTo(f);
}
if (type_ != NULL) {
f->Print(" ");
type_->PrintTo(f);
}
}
void Definition::PrintOperandsTo(BufferFormatter* f) const {
for (int i = 0; i < InputCount(); ++i) {
if (i > 0) f->Print(", ");
if (InputAt(i) != NULL) InputAt(i)->PrintTo(f);
}
}
void Value::PrintTo(BufferFormatter* f) const {
PrintUse(f, *definition());
if ((reaching_type_ != NULL) &&
(reaching_type_ != definition()->Type())) {
f->Print(" ");
reaching_type_->PrintTo(f);
}
}
void ConstantInstr::PrintOperandsTo(BufferFormatter* f) const {
const char* cstr = value().ToCString();
const char* new_line = strchr(cstr, '\n');
if (new_line == NULL) {
f->Print("#%s", cstr);
} else {
const intptr_t pos = new_line - cstr;
char* buffer = Isolate::Current()->current_zone()->Alloc<char>(pos + 1);
strncpy(buffer, cstr, pos);
buffer[pos] = '\0';
f->Print("#%s\\n...", buffer);
}
}
void ConstraintInstr::PrintOperandsTo(BufferFormatter* f) const {
value()->PrintTo(f);
f->Print(" ^ ");
constraint()->PrintTo(f);
}
void Range::PrintTo(BufferFormatter* f) const {
f->Print("[");
min_.PrintTo(f);
f->Print(", ");
max_.PrintTo(f);
f->Print("]");
}
const char* Range::ToCString(Range* range) {
if (range == NULL) return "[_|_, _|_]";
char buffer[256];
BufferFormatter f(buffer, sizeof(buffer));
range->PrintTo(&f);
return Isolate::Current()->current_zone()->MakeCopyOfString(buffer);
}
void RangeBoundary::PrintTo(BufferFormatter* f) const {
switch (kind_) {
case kSymbol:
f->Print("v%" Pd,
reinterpret_cast<Definition*>(value_)->ssa_temp_index());
if (offset_ != 0) f->Print("%+" Pd, offset_);
break;
case kConstant:
if (value_ == kMinusInfinity) {
f->Print("-inf");
} else if (value_ == kPlusInfinity) {
f->Print("+inf");
} else {
f->Print("%" Pd, value_);
}
break;
case kUnknown:
f->Print("_|_");
break;
}
}
const char* RangeBoundary::ToCString() const {
char buffer[256];
BufferFormatter f(buffer, sizeof(buffer));
PrintTo(&f);
return Isolate::Current()->current_zone()->MakeCopyOfString(buffer);
}
void AssertAssignableInstr::PrintOperandsTo(BufferFormatter* f) const {
value()->PrintTo(f);
f->Print(", %s, '%s'",
dst_type().ToCString(),
dst_name().ToCString());
f->Print(" instantiator(");
instantiator()->PrintTo(f);
f->Print(")");
f->Print(" instantiator_type_arguments(");
instantiator_type_arguments()->PrintTo(f);
f->Print(")");
}
void AssertBooleanInstr::PrintOperandsTo(BufferFormatter* f) const {
value()->PrintTo(f);
}
void ClosureCallInstr::PrintOperandsTo(BufferFormatter* f) const {
for (intptr_t i = 0; i < ArgumentCount(); ++i) {
if (i > 0) f->Print(", ");
PushArgumentAt(i)->value()->PrintTo(f);
}
}
void InstanceCallInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s", function_name().ToCString());
for (intptr_t i = 0; i < ArgumentCount(); ++i) {
f->Print(", ");
PushArgumentAt(i)->value()->PrintTo(f);
}
if (HasICData()) {
PrintICData(f, *ic_data());
}
}
void PolymorphicInstanceCallInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s", instance_call()->function_name().ToCString());
for (intptr_t i = 0; i < ArgumentCount(); ++i) {
f->Print(", ");
PushArgumentAt(i)->value()->PrintTo(f);
}
PrintICData(f, ic_data());
}
void StrictCompareInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s, ", Token::Str(kind()));
left()->PrintTo(f);
f->Print(", ");
right()->PrintTo(f);
}
void EqualityCompareInstr::PrintOperandsTo(BufferFormatter* f) const {
left()->PrintTo(f);
f->Print(" %s ", Token::Str(kind()));
right()->PrintTo(f);
if (HasICData()) {
PrintICData(f, *ic_data());
}
}
void StaticCallInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s ", String::Handle(function().name()).ToCString());
for (intptr_t i = 0; i < ArgumentCount(); ++i) {
if (i > 0) f->Print(", ");
PushArgumentAt(i)->value()->PrintTo(f);
}
}
void LoadLocalInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s", local().name().ToCString());
}
void StoreLocalInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s, ", local().name().ToCString());
value()->PrintTo(f);
}
void NativeCallInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s", native_name().ToCString());
}
void GuardFieldInstr::PrintOperandsTo(BufferFormatter* f) const {
const char* expected = "?";
if (field().guarded_cid() != kIllegalCid) {
const Class& cls = Class::Handle(
Isolate::Current()->class_table()->At(field().guarded_cid()));
expected = String::Handle(cls.Name()).ToCString();
}
f->Print("%s [%s %s], ",
String::Handle(field().name()).ToCString(),
field().is_nullable() ? "nullable" : "non-nullable",
expected);
value()->PrintTo(f);
}
void StoreInstanceFieldInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s {%" Pd "}, ",
String::Handle(field().name()).ToCString(),
field().Offset());
instance()->PrintTo(f);
f->Print(", ");
value()->PrintTo(f);
}
void IfThenElseInstr::PrintOperandsTo(BufferFormatter* f) const {
left()->PrintTo(f);
f->Print(" %s ", Token::Str(kind_));
right()->PrintTo(f);
f->Print(" ? %" Pd " : %" Pd,
if_true_,
if_false_);
}
void LoadStaticFieldInstr::PrintOperandsTo(BufferFormatter* f) const {
field_value()->PrintTo(f);
}
void StoreStaticFieldInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s, ", String::Handle(field().name()).ToCString());
value()->PrintTo(f);
}
void InstanceOfInstr::PrintOperandsTo(BufferFormatter* f) const {
value()->PrintTo(f);
f->Print(" %s %s",
negate_result() ? "ISNOT" : "IS",
String::Handle(type().Name()).ToCString());
f->Print(" instantiator(");
instantiator()->PrintTo(f);
f->Print(")");
f->Print(" type-arg(");
instantiator_type_arguments()->PrintTo(f);
f->Print(")");
}
void RelationalOpInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s, ", Token::Str(kind()));
left()->PrintTo(f);
f->Print(", ");
right()->PrintTo(f);
if (HasICData()) {
PrintICData(f, *ic_data());
}
}
void AllocateObjectInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s", cls().ToCString());
for (intptr_t i = 0; i < ArgumentCount(); i++) {
f->Print(", ");
PushArgumentAt(i)->value()->PrintTo(f);
}
}
void AllocateObjectWithBoundsCheckInstr::PrintOperandsTo(
BufferFormatter* f) const {
f->Print("%s", Class::Handle(constructor().Owner()).ToCString());
for (intptr_t i = 0; i < InputCount(); i++) {
f->Print(", ");
InputAt(i)->PrintTo(f);
}
}
void MaterializeObjectInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s", String::Handle(cls_.Name()).ToCString());
for (intptr_t i = 0; i < InputCount(); i++) {
f->Print(", ");
f->Print("%s: ", String::Handle(fields_[i]->name()).ToCString());
InputAt(i)->PrintTo(f);
}
}
void CreateArrayInstr::PrintOperandsTo(BufferFormatter* f) const {
for (int i = 0; i < ArgumentCount(); ++i) {
if (i != 0) f->Print(", ");
PushArgumentAt(i)->value()->PrintTo(f);
}
if (ArgumentCount() > 0) f->Print(", ");
element_type()->PrintTo(f);
}
void CreateClosureInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s", function().ToCString());
for (intptr_t i = 0; i < ArgumentCount(); ++i) {
if (i > 0) f->Print(", ");
PushArgumentAt(i)->value()->PrintTo(f);
}
}
void LoadFieldInstr::PrintOperandsTo(BufferFormatter* f) const {
instance()->PrintTo(f);
f->Print(", %" Pd, offset_in_bytes());
if (field() != NULL) {
f->Print(" {%s}", String::Handle(field()->name()).ToCString());
const char* expected = "?";
if (field()->guarded_cid() != kIllegalCid) {
const Class& cls = Class::Handle(
Isolate::Current()->class_table()->At(field()->guarded_cid()));
expected = String::Handle(cls.Name()).ToCString();
}
f->Print(" [%s %s]",
field()->is_nullable() ? "nullable" : "non-nullable",
expected);
}
f->Print(", immutable=%d", immutable_);
}
void StoreVMFieldInstr::PrintOperandsTo(BufferFormatter* f) const {
dest()->PrintTo(f);
f->Print(", %" Pd ", ", offset_in_bytes());
value()->PrintTo(f);
}
void InstantiateTypeInstr::PrintOperandsTo(BufferFormatter* f) const {
const String& type_name = String::Handle(type().Name());
f->Print("%s, ", type_name.ToCString());
instantiator()->PrintTo(f);
}
void InstantiateTypeArgumentsInstr::PrintOperandsTo(BufferFormatter* f) const {
const String& type_args = String::Handle(type_arguments().Name());
f->Print("%s, ", type_args.ToCString());
instantiator()->PrintTo(f);
}
void ExtractConstructorTypeArgumentsInstr::PrintOperandsTo(
BufferFormatter* f) const {
const String& type_args = String::Handle(type_arguments().Name());
f->Print("%s, ", type_args.ToCString());
instantiator()->PrintTo(f);
}
void AllocateContextInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%" Pd "", num_context_variables());
}
void BinarySmiOpInstr::PrintTo(BufferFormatter* f) const {
Definition::PrintTo(f);
f->Print(" %co", overflow_ ? '+' : '-');
f->Print(" %ct", is_truncating() ? '+' : '-');
}
void BinarySmiOpInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s, ", Token::Str(op_kind()));
left()->PrintTo(f);
f->Print(", ");
right()->PrintTo(f);
}
void BinaryDoubleOpInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s, ", Token::Str(op_kind()));
left()->PrintTo(f);
f->Print(", ");
right()->PrintTo(f);
}
void BinaryFloat32x4OpInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s, ", Token::Str(op_kind()));
left()->PrintTo(f);
f->Print(", ");
right()->PrintTo(f);
}
void Float32x4ShuffleInstr::PrintOperandsTo(BufferFormatter* f) const {
// TODO(johnmccutchan): Add proper string enumeration of shuffle.
f->Print("SHUFFLE ");
value()->PrintTo(f);
}
void Simd32x4GetSignMaskInstr::PrintOperandsTo(BufferFormatter* f) const {
if (op_kind() == MethodRecognizer::kFloat32x4GetSignMask) {
f->Print("Float32x4.getSignMask ");
} else {
ASSERT(op_kind() == MethodRecognizer::kUint32x4GetSignMask);
f->Print("Uint32x4.getSignMask ");
}
value()->PrintTo(f);
}
void Float32x4ZeroInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("ZERO ");
}
void Float32x4SplatInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("SPLAT ");
value()->PrintTo(f);
}
void Float32x4ConstructorInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("Float32x4(");
value0()->PrintTo(f);
f->Print(", ");
value1()->PrintTo(f);
f->Print(", ");
value2()->PrintTo(f);
f->Print(", ");
value3()->PrintTo(f);
f->Print(")");
}
void Float32x4ComparisonInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("Float32x4 Comparison %d", op_kind());
left()->PrintTo(f);
f->Print(", ");
right()->PrintTo(f);
}
void Float32x4MinMaxInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s, ", MethodRecognizer::KindToCString(op_kind()));
left()->PrintTo(f);
f->Print(", ");
right()->PrintTo(f);
}
void Float32x4SqrtInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s, ", MethodRecognizer::KindToCString(op_kind()));
left()->PrintTo(f);
}
void Float32x4ScaleInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s, ", MethodRecognizer::KindToCString(op_kind()));
left()->PrintTo(f);
f->Print(", ");
right()->PrintTo(f);
}
void Float32x4ZeroArgInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s, ", MethodRecognizer::KindToCString(op_kind()));
left()->PrintTo(f);
}
void Float32x4ClampInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("Float32x4.clamp, ");
left()->PrintTo(f);
}
void Float32x4WithInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s, ", MethodRecognizer::KindToCString(op_kind()));
left()->PrintTo(f);
f->Print(", ");
replacement()->PrintTo(f);
}
void Float32x4ToUint32x4Instr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("Float32x4.toUint32x4 ");
left()->PrintTo(f);
}
void Float32x4TwoArgShuffleInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s, ", MethodRecognizer::KindToCString(op_kind()));
left()->PrintTo(f);
f->Print(", ");
right()->PrintTo(f);
}
void Uint32x4BoolConstructorInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("Uint32x4.bool(");
value0()->PrintTo(f);
f->Print(", ");
value1()->PrintTo(f);
f->Print(", ");
value2()->PrintTo(f);
f->Print(", ");
value3()->PrintTo(f);
f->Print(")");
}
void Uint32x4GetFlagInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("Uint32x4.%s ", MethodRecognizer::KindToCString(op_kind()));
value()->PrintTo(f);
}
void Uint32x4SetFlagInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("Uint32x4.%s ", MethodRecognizer::KindToCString(op_kind()));
value()->PrintTo(f);
f->Print(", ");
flagValue()->PrintTo(f);
}
void Uint32x4SelectInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("Uint32x4.select ");
mask()->PrintTo(f);
f->Print(", ");
trueValue()->PrintTo(f);
f->Print(", ");
falseValue()->PrintTo(f);
}
void Uint32x4ToFloat32x4Instr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("Uint32x4.toFloat32x4 ");
left()->PrintTo(f);
}
void BinaryUint32x4OpInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s, ", Token::Str(op_kind()));
left()->PrintTo(f);
f->Print(", ");
right()->PrintTo(f);
}
void BinaryMintOpInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s, ", Token::Str(op_kind()));
left()->PrintTo(f);
f->Print(", ");
right()->PrintTo(f);
}
void ShiftMintOpInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s, ", Token::Str(op_kind()));
left()->PrintTo(f);
f->Print(", ");
right()->PrintTo(f);
}
void UnaryMintOpInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s, ", Token::Str(op_kind()));
value()->PrintTo(f);
}
void UnarySmiOpInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s, ", Token::Str(op_kind()));
value()->PrintTo(f);
}
void UnaryDoubleOpInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s, ", Token::Str(op_kind()));
value()->PrintTo(f);
}
void CheckClassInstr::PrintOperandsTo(BufferFormatter* f) const {
value()->PrintTo(f);
PrintICData(f, unary_checks());
if (IsNullCheck()) {
f->Print(" nullcheck");
}
}
void InvokeMathCFunctionInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%s, ", MethodRecognizer::KindToCString(recognized_kind_));
Definition::PrintOperandsTo(f);
}
void GraphEntryInstr::PrintTo(BufferFormatter* f) const {
const GrowableArray<Definition*>& defns = initial_definitions_;
f->Print("B%" Pd "[graph]:%" Pd, block_id(), GetDeoptId());
if (defns.length() > 0) {
f->Print(" {");
for (intptr_t i = 0; i < defns.length(); ++i) {
Definition* def = defns[i];
f->Print("\n ");
def->PrintTo(f);
}
f->Print("\n}");
}
}
void JoinEntryInstr::PrintTo(BufferFormatter* f) const {
if (try_index() != CatchClauseNode::kInvalidTryIndex) {
f->Print("B%" Pd "[join try_idx %" Pd "]:%" Pd " pred(",
block_id(), try_index(), GetDeoptId());
} else {
f->Print("B%" Pd "[join]:%" Pd " pred(", block_id(), GetDeoptId());
}
for (intptr_t i = 0; i < predecessors_.length(); ++i) {
if (i > 0) f->Print(", ");
f->Print("B%" Pd, predecessors_[i]->block_id());
}
f->Print(")");
if (phis_ != NULL) {
f->Print(" {");
for (intptr_t i = 0; i < phis_->length(); ++i) {
if ((*phis_)[i] == NULL) continue;
f->Print("\n ");
(*phis_)[i]->PrintTo(f);
}
f->Print("\n}");
}
if (HasParallelMove()) {
f->Print(" ");
parallel_move()->PrintTo(f);
}
}
void PhiInstr::PrintTo(BufferFormatter* f) const {
f->Print("v%" Pd " <- phi(", ssa_temp_index());
for (intptr_t i = 0; i < inputs_.length(); ++i) {
if (inputs_[i] != NULL) inputs_[i]->PrintTo(f);
if (i < inputs_.length() - 1) f->Print(", ");
}
f->Print(")");
if (is_alive()) {
f->Print(" alive");
} else {
f->Print(" dead");
}
if (range_ != NULL) {
f->Print(" ");
range_->PrintTo(f);
}
if (type_ != NULL) {
f->Print(" ");
type_->PrintTo(f);
}
}
void ParameterInstr::PrintOperandsTo(BufferFormatter* f) const {
f->Print("%" Pd, index());
}
void CheckStackOverflowInstr::PrintOperandsTo(BufferFormatter* f) const {
if (in_loop()) f->Print("depth %" Pd, loop_depth());
}
void TargetEntryInstr::PrintTo(BufferFormatter* f) const {
if (try_index() != CatchClauseNode::kInvalidTryIndex) {
f->Print("B%" Pd "[target try_idx %" Pd "]:%" Pd,
block_id(), try_index(), GetDeoptId());
} else {
f->Print("B%" Pd "[target]:%" Pd, block_id(), GetDeoptId());
}
if (HasParallelMove()) {
f->Print(" ");
parallel_move()->PrintTo(f);
}
}
void CatchBlockEntryInstr::PrintTo(BufferFormatter* f) const {
f->Print("B%" Pd "[target catch try_idx %" Pd " catch_try_idx %" Pd "]",
block_id(), try_index(), catch_try_index());
if (HasParallelMove()) {
f->Print("\n");
parallel_move()->PrintTo(f);
}
const GrowableArray<Definition*>& defns = initial_definitions_;
if (defns.length() > 0) {
f->Print(" {");
for (intptr_t i = 0; i < defns.length(); ++i) {
Definition* def = defns[i];
f->Print("\n ");
def->PrintTo(f);
}
f->Print("\n}");
}
}
void PushArgumentInstr::PrintOperandsTo(BufferFormatter* f) const {
value()->PrintTo(f);
}
void GotoInstr::PrintTo(BufferFormatter* f) const {
if (HasParallelMove()) {
parallel_move()->PrintTo(f);
f->Print(" ");
}
if (GetDeoptId() != Isolate::kNoDeoptId) {
f->Print("goto:%" Pd " %" Pd "", GetDeoptId(), successor()->block_id());
} else {
f->Print("goto: %" Pd "", successor()->block_id());
}
}
void BranchInstr::PrintTo(BufferFormatter* f) const {
f->Print("%s ", DebugName());
f->Print("if ");
comparison()->PrintTo(f);
f->Print(" goto (%" Pd ", %" Pd ")",
true_successor()->block_id(),
false_successor()->block_id());
}
void ParallelMoveInstr::PrintTo(BufferFormatter* f) const {
f->Print("%s ", DebugName());
for (intptr_t i = 0; i < moves_.length(); i++) {
if (i != 0) f->Print(", ");
moves_[i]->dest().PrintTo(f);
f->Print(" <- ");
moves_[i]->src().PrintTo(f);
}
}
void Environment::PrintTo(BufferFormatter* f) const {
f->Print(" env={ ");
int arg_count = 0;
for (intptr_t i = 0; i < values_.length(); ++i) {
if (i > 0) f->Print(", ");
if (values_[i]->definition()->IsPushArgument()) {
f->Print("a%d", arg_count++);
} else {
values_[i]->PrintTo(f);
}
if ((locations_ != NULL) && !locations_[i].IsInvalid()) {
f->Print(" [");
locations_[i].PrintTo(f);
f->Print("]");
}
}
f->Print(" }");
if (outer_ != NULL) outer_->PrintTo(f);
}
} // namespace dart