8203197: C2: consider all paths in loop body for loop predication
Reviewed-by: kvn, neliasso
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#ifndef SHARE_VM_RUNTIME_JNIHANDLES_HPP
#define SHARE_VM_RUNTIME_JNIHANDLES_HPP
#include "memory/allocation.hpp"
#include "runtime/handles.hpp"
class OopStorage;
// Interface for creating and resolving local/global JNI handles
class JNIHandles : AllStatic {
friend class VMStructs;
private:
static OopStorage* _global_handles;
static OopStorage* _weak_global_handles;
inline static bool is_jweak(jobject handle);
inline static oop* jobject_ptr(jobject handle); // NOT jweak!
inline static oop* jweak_ptr(jobject handle);
template<bool external_guard> inline static oop resolve_impl(jobject handle);
static oop resolve_jweak(jweak handle);
// This method is not inlined in order to avoid circular includes between
// this header file and thread.hpp.
static bool current_thread_in_native();
public:
// Low tag bit in jobject used to distinguish a jweak. jweak is
// type equivalent to jobject, but there are places where we need to
// be able to distinguish jweak values from other jobjects, and
// is_weak_global_handle is unsuitable for performance reasons. To
// provide such a test we add weak_tag_value to the (aligned) byte
// address designated by the jobject to produce the corresponding
// jweak. Accessing the value of a jobject must account for it
// being a possibly offset jweak.
static const uintptr_t weak_tag_size = 1;
static const uintptr_t weak_tag_alignment = (1u << weak_tag_size);
static const uintptr_t weak_tag_mask = weak_tag_alignment - 1;
static const int weak_tag_value = 1;
// Resolve handle into oop
inline static oop resolve(jobject handle);
// Resolve handle into oop, result guaranteed not to be null
inline static oop resolve_non_null(jobject handle);
// Resolve externally provided handle into oop with some guards
static oop resolve_external_guard(jobject handle);
// Local handles
static jobject make_local(oop obj);
static jobject make_local(JNIEnv* env, oop obj); // Fast version when env is known
static jobject make_local(Thread* thread, oop obj); // Even faster version when current thread is known
inline static void destroy_local(jobject handle);
// Global handles
static jobject make_global(Handle obj, AllocFailType alloc_failmode = AllocFailStrategy::EXIT_OOM);
static void destroy_global(jobject handle);
// Weak global handles
static jobject make_weak_global(Handle obj, AllocFailType alloc_failmode = AllocFailStrategy::EXIT_OOM);
static void destroy_weak_global(jobject handle);
static bool is_global_weak_cleared(jweak handle); // Test jweak without resolution
// Initialization
static void initialize();
// Debugging
static void print_on(outputStream* st);
static void print() { print_on(tty); }
static void verify();
// The category predicates all require handle != NULL.
static bool is_local_handle(Thread* thread, jobject handle);
static bool is_frame_handle(JavaThread* thread, jobject handle);
static bool is_global_handle(jobject handle);
static bool is_weak_global_handle(jobject handle);
static size_t global_handle_memory_usage();
static size_t weak_global_handle_memory_usage();
#ifndef PRODUCT
// Is handle from any local block of any thread?
static bool is_local_handle(jobject handle);
#endif
// precondition: handle != NULL.
static jobjectRefType handle_type(Thread* thread, jobject handle);
// Garbage collection support(global handles only, local handles are traversed from thread)
// Traversal of regular global handles
static void oops_do(OopClosure* f);
// Traversal of weak global handles. Unreachable oops are cleared.
static void weak_oops_do(BoolObjectClosure* is_alive, OopClosure* f);
// Traversal of weak global handles.
static void weak_oops_do(OopClosure* f);
static OopStorage* global_handles();
static OopStorage* weak_global_handles();
};
// JNI handle blocks holding local/global JNI handles
class JNIHandleBlock : public CHeapObj<mtInternal> {
friend class VMStructs;
friend class CppInterpreter;
private:
enum SomeConstants {
block_size_in_oops = 32 // Number of handles per handle block
};
oop _handles[block_size_in_oops]; // The handles
int _top; // Index of next unused handle
JNIHandleBlock* _next; // Link to next block
// The following instance variables are only used by the first block in a chain.
// Having two types of blocks complicates the code and the space overhead in negligible.
JNIHandleBlock* _last; // Last block in use
JNIHandleBlock* _pop_frame_link; // Block to restore on PopLocalFrame call
oop* _free_list; // Handle free list
int _allocate_before_rebuild; // Number of blocks to allocate before rebuilding free list
// Check JNI, "planned capacity" for current frame (or push/ensure)
size_t _planned_capacity;
#ifndef PRODUCT
JNIHandleBlock* _block_list_link; // Link for list below
static JNIHandleBlock* _block_list; // List of all allocated blocks (for debugging only)
#endif
static JNIHandleBlock* _block_free_list; // Free list of currently unused blocks
static int _blocks_allocated; // For debugging/printing
// Fill block with bad_handle values
void zap() NOT_DEBUG_RETURN;
// Free list computation
void rebuild_free_list();
// No more handles in the both the current and following blocks
void clear() { _top = 0; }
public:
// Handle allocation
jobject allocate_handle(oop obj);
// Block allocation and block free list management
static JNIHandleBlock* allocate_block(Thread* thread = NULL);
static void release_block(JNIHandleBlock* block, Thread* thread = NULL);
// JNI PushLocalFrame/PopLocalFrame support
JNIHandleBlock* pop_frame_link() const { return _pop_frame_link; }
void set_pop_frame_link(JNIHandleBlock* block) { _pop_frame_link = block; }
// Stub generator support
static int top_offset_in_bytes() { return offset_of(JNIHandleBlock, _top); }
// Garbage collection support
// Traversal of handles
void oops_do(OopClosure* f);
// Checked JNI support
void set_planned_capacity(size_t planned_capacity) { _planned_capacity = planned_capacity; }
const size_t get_planned_capacity() { return _planned_capacity; }
const size_t get_number_of_live_handles();
// Debugging
bool chain_contains(jobject handle) const; // Does this block or following blocks contain handle
bool contains(jobject handle) const; // Does this block contain handle
size_t length() const; // Length of chain starting with this block
size_t memory_usage() const;
#ifndef PRODUCT
static bool any_contains(jobject handle); // Does any block currently in use contain handle
static void print_statistics();
#endif
};
#endif // SHARE_VM_RUNTIME_JNIHANDLES_HPP