| blob | c088e9f010db3baadfbc83307a204c2019c1a8b2 |
1 // java-interp.h - Header file for the bytecode interpreter. -*- c++ -*-
3 /* Copyright (C) 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007 Free Software Foundation
5 This file is part of libgcj.
7 This software is copyrighted work licensed under the terms of the
8 Libgcj License. Please consult the file "LIBGCJ_LICENSE" for
9 details. */
11 #ifndef __JAVA_INTERP_H__
12 #define __JAVA_INTERP_H__
14 #include <jvm.h>
15 #include <java-cpool.h>
16 #include <gnu/gcj/runtime/NameFinder.h>
18 enum _Jv_FrameType
19 {
20 frame_native,
21 frame_interpreter,
22 frame_proxy
23 };
25 #ifdef INTERPRETER
27 #pragma interface
29 #include <java/lang/Class.h>
30 #include <java/lang/ClassLoader.h>
31 #include <java/lang/reflect/Modifier.h>
32 #include <java/lang/Thread.h>
33 #include <gnu/gcj/RawData.h>
35 // Define this to get the direct-threaded interpreter. If undefined,
36 // we revert to a basic bytecode interpreter. The former is faster
37 // but uses more memory.
38 #define DIRECT_THREADED
40 #include <ffi.h>
47 _Jv_Utf8Const **);
57 jboolean staticp,
62 /* the interpreter is written in C++, primarily because it makes it easy for
63 * the entire thing to be "friend" with class Class. */
68 // Before a method is "compiled" we store values as the bytecode PC,
69 // an int. Afterwards we store them as pointers into the prepared
70 // code itself.
71 union _Jv_InterpPC
72 {
75 };
77 class _Jv_InterpException
78 {
79 _Jv_InterpPC start_pc;
80 _Jv_InterpPC end_pc;
81 _Jv_InterpPC handler_pc;
82 _Jv_InterpPC handler_type;
87 };
89 // Base class for method representations. Subclasses are interpreted
90 // and JNI methods.
91 class _Jv_MethodBase
92 {
94 // The class which defined this method.
95 jclass defining_class;
97 // The method description.
100 // Size of raw arguments.
101 _Jv_ushort args_raw_size;
107 {
109 }
110 };
112 // The type of the PC depends on whether we're doing direct threading
113 // or a more ordinary bytecode interpreter.
114 #ifdef DIRECT_THREADED
115 // Slot in the "compiled" form of the bytecode.
116 union insn_slot
117 {
118 // Address of code.
120 // An integer value used by an instruction.
121 jint int_val;
122 // A pointer value used by an instruction.
124 };
127 #else
129 #endif
132 // This structure holds the bytecode pc and corresponding source code
133 // line number. An array (plus length field) of this structure is put
134 // in each _Jv_InterpMethod and used to resolve the (internal) program
135 // counter of the interpreted method to an actual java source file
136 // line.
137 struct _Jv_LineTableEntry
138 {
139 union
140 {
141 pc_t pc;
143 };
145 };
147 // This structure holds local variable information.
148 // Like _Jv_LineTableEntry above, it is remapped when the method is
149 // compiled for direct threading.
150 struct _Jv_LocalVarTableEntry
151 {
152 // First PC value at which variable is live
153 union
154 {
155 pc_t pc;
157 };
159 // length of visibility of variable
162 // variable name
165 // type description
168 // stack slot number (long and double occupy slot and slot + 1)
170 };
173 {
174 // Breakpoint instruction
176 #ifdef DIRECT_THREADED
180 // Mutex to prevent a data race between threads when rewriting
181 // instructions. See interpret-run.cc for an explanation of its use.
184 // The count of threads executing this method.
189 #else
191 #endif
193 _Jv_ushort max_stack;
194 _Jv_ushort max_locals;
197 _Jv_ushort exc_count;
200 // Length of the line_table - when this is zero then line_table is NULL.
204 // The local variable table length and the table itself
208 pc_t prepared;
212 {
213 return
217 }
220 {
222 }
225 {
226 return
230 }
232 // return the method's invocation pointer (a stub).
236 #if FFI_NATIVE_RAW_API
237 # define INTERP_FFI_RAW_TYPE ffi_raw
238 #else
239 # define INTERP_FFI_RAW_TYPE ffi_java_raw
240 #endif
259 // Returns source file line number for given PC value, or -1 if line
260 // number info is unavailable.
265 // Convenience function for indexing bytecode PC/insn slots in
266 // line tables for JDWP
269 // Helper function used to check if there is a handler for an exception
270 // present at this code index
274 /* Get the line table for this method.
275 * start is the lowest index in the method
276 * end is the highest index in the method
277 * line_numbers is an array to hold the list of source line numbers
278 * code_indices is an array to hold the corresponding list of code indices
279 */
284 {
286 }
288 /* Get info for a local variable of this method.
289 * If there is no loca_var_table for this method it will return -1.
290 * table_slot indicates which slot in the local_var_table to get, if there is
291 * no variable at this location it will return 0.
292 * Otherwise, it will return the number of table slots after the selected
293 * slot, indexed from 0.
294 *
295 * Example: there are 5 slots in the table, you request slot 0 so it will
296 * return 4.
297 */
302 /* Installs a break instruction at the given code index. Returns
303 the pc_t of the breakpoint or NULL if index is invalid. */
306 // Gets the instruction at the given index
309 /* Writes the given instruction at the given code index. Returns
310 the insn or NULL if index is invalid. */
313 // Is the given location in this method a breakpoint?
316 #ifdef DIRECT_THREADED
318 #endif
325 #ifdef JV_MARKOBJ_DECL
327 #endif
328 };
330 class _Jv_InterpClass
331 {
334 jstring source_file_name;
343 #ifdef JV_MARKOBJ_DECL
345 #endif
349 };
353 {
355 }
357 struct _Jv_ResolvedMethod
358 {
359 jint stack_item_count;
360 jclass klass;
363 // a resolved method holds the cif in-line, so that _Jv_MarkObj just needs
364 // to mark the resolved method to hold on to the cif. Some memory could be
365 // saved by keeping a cache of cif's, since many will be the same.
366 ffi_cif cif;
368 };
371 {
372 // The underlying function. If NULL we have to look for the
373 // function.
376 // This is the CIF used by the JNI function.
377 ffi_cif jni_cif;
379 // These are the argument types used by the JNI function.
382 // This function is used when making a JNI call from the interpreter.
390 #ifdef JV_MARKOBJ_DECL
392 #endif
395 // FIXME: this is ugly.
397 {
399 }
400 };
402 // The composite call stack as represented by a linked list of frames
403 class _Jv_Frame
404 {
408 union
409 {
413 };
415 //The full list of frames, JNI and interpreted
417 _Jv_FrameType frame_type;
420 {
426 }
429 {
431 }
434 {
441 }
442 };
444 // An interpreted frame in the call stack
446 {
449 // Keep the purely interpreted list around so as not to break backtraces
452 union
453 {
454 pc_t pc;
455 jclass proxyClass;
456 };
458 // Pointer to the actual pc value.
461 //Debug info for local variables.
465 // Object pointer for this frame ("this")
466 jobject obj_ptr;
472 frame_type)
473 {
479 }
482 {
484 }
487 {
489 }
492 {
493 pc_t pc;
495 // If the PC_PTR is NULL, we are not debugging.
498 else
502 }
503 };
505 // A native frame in the call stack really just a placeholder
507 {
512 {
513 }
514 };
516 #ifdef DIRECT_THREADED
517 // This class increments and decrements the thread_count field in an
518 // interpreted method. On entry to the interpreter a
519 // ThreadCountAdjuster is created when increments the thread_count in
520 // the current method and uses the next_interp field in the frame to
521 // find the previous method and decrement its thread_count.
522 class ThreadCountAdjuster
523 {
525 // A class used to handle the rewrite_insn_mutex while we're
526 // adjusting the thread_count in a method. Unlocking the mutex in a
527 // destructor ensures that it's unlocked even if (for example) a
528 // segfault occurs in the critical section.
529 class MutexLock
530 {
535 {
538 }
540 {
542 }
543 };
551 {
559 // Record the fact that we're executing this method and that
560 // we're no longer executing the method that called us.
564 {
565 next_method
568 }
569 }
572 {
575 // We're going to return to the method that called us, so bump its
576 // thread_count and decrement our own.
582 }
583 };