6976186: integrate Shark HotSpot changes
Summary: Shark is a JIT compiler for Zero that uses the LLVM compiler infrastructure.
Reviewed-by: kvn, twisti
Contributed-by: Gary Benson <gbenson@redhat.com>
/*
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* Copyright 2008, 2009 Red Hat, Inc.
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
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* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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// Items on the stack and in local variables are tracked using
// SharkValue objects.
//
// All SharkValues are one of two core types, SharkNormalValue
// and SharkAddressValue, but no code outside this file should
// ever refer to those directly. The split is because of the
// way JSRs are handled: the typeflow pass expands them into
// multiple copies, so the return addresses pushed by jsr and
// popped by ret only exist at compile time. Having separate
// classes for these allows us to check that our jsr handling
// is correct, via assertions.
//
// There is one more type, SharkPHIValue, which is a subclass
// of SharkNormalValue with a couple of extra methods. Use of
// SharkPHIValue outside of this file is acceptable, so long
// as it is obtained via SharkValue::as_phi().
class SharkBuilder;
class SharkPHIValue;
class SharkValue : public ResourceObj {
protected:
SharkValue() {}
// Cloning
public:
virtual SharkValue* clone() const = 0;
// Casting
public:
virtual bool is_phi() const;
virtual SharkPHIValue* as_phi();
// Comparison
public:
virtual bool equal_to(SharkValue* other) const = 0;
// Type access
public:
virtual BasicType basic_type() const = 0;
virtual ciType* type() const;
virtual bool is_jint() const;
virtual bool is_jlong() const;
virtual bool is_jfloat() const;
virtual bool is_jdouble() const;
virtual bool is_jobject() const;
virtual bool is_jarray() const;
virtual bool is_address() const;
virtual int size() const = 0;
bool is_one_word() const {
return size() == 1;
}
bool is_two_word() const {
return size() == 2;
}
// Typed conversion from SharkValues
public:
virtual llvm::Value* jint_value() const;
virtual llvm::Value* jlong_value() const;
virtual llvm::Value* jfloat_value() const;
virtual llvm::Value* jdouble_value() const;
virtual llvm::Value* jobject_value() const;
virtual llvm::Value* jarray_value() const;
virtual int address_value() const;
// Typed conversion to SharkValues
public:
static SharkValue* create_jint(llvm::Value* value, bool zero_checked) {
assert(value->getType() == SharkType::jint_type(), "should be");
return create_generic(ciType::make(T_INT), value, zero_checked);
}
static SharkValue* create_jlong(llvm::Value* value, bool zero_checked) {
assert(value->getType() == SharkType::jlong_type(), "should be");
return create_generic(ciType::make(T_LONG), value, zero_checked);
}
static SharkValue* create_jfloat(llvm::Value* value) {
assert(value->getType() == SharkType::jfloat_type(), "should be");
return create_generic(ciType::make(T_FLOAT), value, false);
}
static SharkValue* create_jdouble(llvm::Value* value) {
assert(value->getType() == SharkType::jdouble_type(), "should be");
return create_generic(ciType::make(T_DOUBLE), value, false);
}
static SharkValue* create_jobject(llvm::Value* value, bool zero_checked) {
assert(value->getType() == SharkType::oop_type(), "should be");
return create_generic(ciType::make(T_OBJECT), value, zero_checked);
}
// Typed conversion from constants of various types
public:
static SharkValue* jint_constant(jint value) {
return create_jint(LLVMValue::jint_constant(value), value != 0);
}
static SharkValue* jlong_constant(jlong value) {
return create_jlong(LLVMValue::jlong_constant(value), value != 0);
}
static SharkValue* jfloat_constant(jfloat value) {
return create_jfloat(LLVMValue::jfloat_constant(value));
}
static SharkValue* jdouble_constant(jdouble value) {
return create_jdouble(LLVMValue::jdouble_constant(value));
}
static SharkValue* null() {
return create_jobject(LLVMValue::null(), false);
}
static inline SharkValue* address_constant(int bci);
// Type-losing conversions -- use with care!
public:
virtual llvm::Value* generic_value() const = 0;
virtual llvm::Value* intptr_value(SharkBuilder* builder) const;
static inline SharkValue* create_generic(ciType* type,
llvm::Value* value,
bool zero_checked);
static inline SharkValue* create_phi(ciType* type,
llvm::PHINode* phi,
const SharkPHIValue* parent = NULL);
// Phi-style stuff
public:
virtual void addIncoming(SharkValue* value, llvm::BasicBlock* block);
virtual SharkValue* merge(SharkBuilder* builder,
SharkValue* other,
llvm::BasicBlock* other_block,
llvm::BasicBlock* this_block,
const char* name) = 0;
// Repeated null and divide-by-zero check removal
public:
virtual bool zero_checked() const;
virtual void set_zero_checked(bool zero_checked);
};
class SharkNormalValue : public SharkValue {
friend class SharkValue;
protected:
SharkNormalValue(ciType* type, llvm::Value* value, bool zero_checked)
: _type(type), _llvm_value(value), _zero_checked(zero_checked) {}
private:
ciType* _type;
llvm::Value* _llvm_value;
bool _zero_checked;
private:
llvm::Value* llvm_value() const {
return _llvm_value;
}
// Cloning
public:
SharkValue* clone() const;
// Comparison
public:
bool equal_to(SharkValue* other) const;
// Type access
public:
ciType* type() const;
BasicType basic_type() const;
int size() const;
public:
bool is_jint() const;
bool is_jlong() const;
bool is_jfloat() const;
bool is_jdouble() const;
bool is_jobject() const;
bool is_jarray() const;
// Typed conversions to LLVM values
public:
llvm::Value* jint_value() const;
llvm::Value* jlong_value() const;
llvm::Value* jfloat_value() const;
llvm::Value* jdouble_value() const;
llvm::Value* jobject_value() const;
llvm::Value* jarray_value() const;
// Type-losing conversions, use with care
public:
llvm::Value* generic_value() const;
llvm::Value* intptr_value(SharkBuilder* builder) const;
// Phi-style stuff
public:
SharkValue* merge(SharkBuilder* builder,
SharkValue* other,
llvm::BasicBlock* other_block,
llvm::BasicBlock* this_block,
const char* name);
// Repeated null and divide-by-zero check removal
public:
bool zero_checked() const;
void set_zero_checked(bool zero_checked);
};
class SharkPHIValue : public SharkNormalValue {
friend class SharkValue;
protected:
SharkPHIValue(ciType* type, llvm::PHINode* phi, const SharkPHIValue *parent)
: SharkNormalValue(type, phi, parent && parent->zero_checked()),
_parent(parent),
_all_incomers_zero_checked(true) {}
private:
const SharkPHIValue* _parent;
bool _all_incomers_zero_checked;
private:
const SharkPHIValue* parent() const {
return _parent;
}
bool is_clone() const {
return parent() != NULL;
}
public:
bool all_incomers_zero_checked() const {
if (is_clone())
return parent()->all_incomers_zero_checked();
return _all_incomers_zero_checked;
}
// Cloning
public:
SharkValue* clone() const;
// Casting
public:
bool is_phi() const;
SharkPHIValue* as_phi();
// Phi-style stuff
public:
void addIncoming(SharkValue *value, llvm::BasicBlock* block);
};
class SharkAddressValue : public SharkValue {
friend class SharkValue;
protected:
SharkAddressValue(int bci)
: _bci(bci) {}
private:
int _bci;
// Cloning
public:
SharkValue* clone() const;
// Comparison
public:
bool equal_to(SharkValue* other) const;
// Type access
public:
BasicType basic_type() const;
int size() const;
bool is_address() const;
// Typed conversion from SharkValues
public:
int address_value() const;
// Type-losing conversion -- use with care!
public:
llvm::Value* generic_value() const;
// Phi-style stuff
public:
void addIncoming(SharkValue *value, llvm::BasicBlock* block);
SharkValue* merge(SharkBuilder* builder,
SharkValue* other,
llvm::BasicBlock* other_block,
llvm::BasicBlock* this_block,
const char* name);
};
// SharkValue methods that can't be declared above
inline SharkValue* SharkValue::create_generic(ciType* type,
llvm::Value* value,
bool zero_checked) {
return new SharkNormalValue(type, value, zero_checked);
}
inline SharkValue* SharkValue::create_phi(ciType* type,
llvm::PHINode* phi,
const SharkPHIValue* parent) {
return new SharkPHIValue(type, phi, parent);
}
inline SharkValue* SharkValue::address_constant(int bci) {
return new SharkAddressValue(bci);
}