See file COPYRIGHT for information on usage and disclaimer of warranties
- Enthaelt die C-Funktionen fuer alle JavaVM-Befehle, die sich nicht direkt
- auf Maschinencode "ubersetzen lassen. Im Code f"ur die Methoden steht
- dann ein Funktionsaufruf (nat"urlich mit den Aufrufskonventionen von C).
+ Contains C functions for JavaVM Instructions that cannot be translated
+ to machine language directly. Consequently, the generated machine code
+ for these instructions contains function calls instead of machine
+ instructions, using the C calling convention.
- Authors: Reinhard Grafl EMAIL: cacao@complang.tuwien.ac.at
- Andreas Krall EMAIL: cacao@complang.tuwien.ac.at
- Mark Probst EMAIL: cacao@complang.tuwien.ac.at
+ Authors: Reinhard Grafl EMAIL: cacao@complang.tuwien.ac.at
+ Andreas Krall EMAIL: cacao@complang.tuwien.ac.at
+ Mark Probst EMAIL: cacao@complang.tuwien.ac.at
- Last Change: 1996/12/03
+ Last Change: 2003/02/12
*******************************************************************************/
#include "tables.h"
#include "threads/thread.h"
-#include "threads/locks.h" /* schani */
+#include "threads/locks.h" /* schani */
#include "native-math.h"
builtin_descriptor builtin_desc[] = {
- {(functionptr) builtin_instanceof, "instanceof"},
- {(functionptr) builtin_checkcast, "checkcast"},
- {(functionptr) asm_builtin_checkcast, "checkcast"},
- {(functionptr) builtin_arrayinstanceof, "arrayinstanceof"},
- {(functionptr) builtin_checkarraycast, "checkarraycast"},
+ {(functionptr) builtin_instanceof, "instanceof"},
+ {(functionptr) builtin_checkcast, "checkcast"},
+ {(functionptr) asm_builtin_checkcast, "checkcast"},
+ {(functionptr) builtin_arrayinstanceof, "arrayinstanceof"},
+ {(functionptr) builtin_checkarraycast, "checkarraycast"},
{(functionptr) asm_builtin_checkarraycast, "checkarraycast"},
- {(functionptr) asm_builtin_aastore, "aastore"},
- {(functionptr) builtin_new, "new"},
+ {(functionptr) asm_builtin_aastore, "aastore"},
+ {(functionptr) builtin_new, "new"},
{(functionptr) builtin_anewarray, "anewarray"},
- {(functionptr) builtin_newarray_array, "newarray_array"},
+ {(functionptr) builtin_newarray_array, "newarray_array"},
+#ifdef __I386__
+ /*
+ * have 2 parameters (needs stack manipulation)
+ */
+ {(functionptr) asm_builtin_anewarray, "anewarray"},
+ {(functionptr) asm_builtin_newarray_array, "newarray_array"},
+#endif
{(functionptr) builtin_newarray_boolean, "newarray_boolean"},
- {(functionptr) builtin_newarray_char, "newarray_char"},
- {(functionptr) builtin_newarray_float, "newarray_float"},
- {(functionptr) builtin_newarray_double, "newarray_double"},
- {(functionptr) builtin_newarray_byte, "newarray_byte"},
- {(functionptr) builtin_newarray_short, "newarray_short"},
- {(functionptr) builtin_newarray_int, "newarray_int"},
- {(functionptr) builtin_newarray_long, "newarray_long"},
+ {(functionptr) builtin_newarray_char, "newarray_char"},
+ {(functionptr) builtin_newarray_float, "newarray_float"},
+ {(functionptr) builtin_newarray_double, "newarray_double"},
+ {(functionptr) builtin_newarray_byte, "newarray_byte"},
+ {(functionptr) builtin_newarray_short, "newarray_short"},
+ {(functionptr) builtin_newarray_int, "newarray_int"},
+ {(functionptr) builtin_newarray_long, "newarray_long"},
{(functionptr) builtin_displaymethodstart, "displaymethodstart"},
{(functionptr) builtin_displaymethodstop, "displaymethodstop"},
- {(functionptr) builtin_monitorenter, "monitorenter"},
+ {(functionptr) builtin_monitorenter, "monitorenter"},
{(functionptr) asm_builtin_monitorenter, "monitorenter"},
- {(functionptr) builtin_monitorexit, "monitorexit"},
- {(functionptr) asm_builtin_monitorexit, "monitorexit"},
- {(functionptr) builtin_idiv, "idiv"},
- {(functionptr) asm_builtin_idiv, "idiv"},
- {(functionptr) builtin_irem, "irem"},
- {(functionptr) asm_builtin_irem, "irem"},
- {(functionptr) builtin_ladd, "ladd"},
- {(functionptr) builtin_lsub, "lsub"},
- {(functionptr) builtin_lmul, "lmul"},
- {(functionptr) builtin_ldiv, "ldiv"},
- {(functionptr) asm_builtin_ldiv, "ldiv"},
- {(functionptr) builtin_lrem, "lrem"},
- {(functionptr) asm_builtin_lrem, "lrem"},
- {(functionptr) builtin_lshl, "lshl"},
- {(functionptr) builtin_lshr, "lshr"},
- {(functionptr) builtin_lushr, "lushr"},
- {(functionptr) builtin_land, "land"},
- {(functionptr) builtin_lor, "lor"},
- {(functionptr) builtin_lxor, "lxor"},
- {(functionptr) builtin_lneg, "lneg"},
- {(functionptr) builtin_lcmp, "lcmp"},
- {(functionptr) builtin_fadd, "fadd"},
- {(functionptr) builtin_fsub, "fsub"},
- {(functionptr) builtin_fmul, "fmul"},
- {(functionptr) builtin_fdiv, "fdiv"},
- {(functionptr) builtin_frem, "frem"},
- {(functionptr) builtin_fneg, "fneg"},
- {(functionptr) builtin_fcmpl, "fcmpl"},
- {(functionptr) builtin_fcmpg, "fcmpg"},
- {(functionptr) builtin_dadd, "dadd"},
- {(functionptr) builtin_dsub, "dsub"},
- {(functionptr) builtin_dmul, "dmul"},
- {(functionptr) builtin_ddiv, "ddiv"},
- {(functionptr) builtin_drem, "drem"},
- {(functionptr) builtin_dneg, "dneg"},
- {(functionptr) builtin_dcmpl, "dcmpl"},
- {(functionptr) builtin_dcmpg, "dcmpg"},
- {(functionptr) builtin_i2l, "i2l"},
- {(functionptr) builtin_i2f, "i2f"},
- {(functionptr) builtin_i2d, "i2d"},
- {(functionptr) builtin_l2i, "l2i"},
- {(functionptr) builtin_l2f, "l2f"},
- {(functionptr) builtin_l2d, "l2d"},
- {(functionptr) builtin_f2i, "f2i"},
- {(functionptr) builtin_f2l, "f2l"},
- {(functionptr) builtin_f2d, "f2d"},
- {(functionptr) builtin_d2i, "d2i"},
- {(functionptr) builtin_d2l, "d2l"},
- {(functionptr) builtin_d2f, "d2f"},
- {(functionptr) NULL, "unknown"}
+ {(functionptr) builtin_monitorexit, "monitorexit"},
+ {(functionptr) asm_builtin_monitorexit, "monitorexit"},
+ {(functionptr) builtin_idiv, "idiv"},
+ {(functionptr) asm_builtin_idiv, "idiv"},
+ {(functionptr) builtin_irem, "irem"},
+ {(functionptr) asm_builtin_irem, "irem"},
+ {(functionptr) builtin_ladd, "ladd"},
+ {(functionptr) builtin_lsub, "lsub"},
+ {(functionptr) builtin_lmul, "lmul"},
+ {(functionptr) builtin_ldiv, "ldiv"},
+ {(functionptr) asm_builtin_ldiv, "ldiv"},
+ {(functionptr) builtin_lrem, "lrem"},
+ {(functionptr) asm_builtin_lrem, "lrem"},
+ {(functionptr) builtin_lshl, "lshl"},
+ {(functionptr) builtin_lshr, "lshr"},
+ {(functionptr) builtin_lushr, "lushr"},
+ {(functionptr) builtin_land, "land"},
+ {(functionptr) builtin_lor, "lor"},
+ {(functionptr) builtin_lxor, "lxor"},
+ {(functionptr) builtin_lneg, "lneg"},
+ {(functionptr) builtin_lcmp, "lcmp"},
+ {(functionptr) builtin_fadd, "fadd"},
+ {(functionptr) builtin_fsub, "fsub"},
+ {(functionptr) builtin_fmul, "fmul"},
+ {(functionptr) builtin_fdiv, "fdiv"},
+ {(functionptr) builtin_frem, "frem"},
+ {(functionptr) builtin_fneg, "fneg"},
+ {(functionptr) builtin_fcmpl, "fcmpl"},
+ {(functionptr) builtin_fcmpg, "fcmpg"},
+ {(functionptr) builtin_dadd, "dadd"},
+ {(functionptr) builtin_dsub, "dsub"},
+ {(functionptr) builtin_dmul, "dmul"},
+ {(functionptr) builtin_ddiv, "ddiv"},
+ {(functionptr) builtin_drem, "drem"},
+ {(functionptr) builtin_dneg, "dneg"},
+ {(functionptr) builtin_dcmpl, "dcmpl"},
+ {(functionptr) builtin_dcmpg, "dcmpg"},
+ {(functionptr) builtin_i2l, "i2l"},
+ {(functionptr) builtin_i2f, "i2f"},
+ {(functionptr) builtin_i2d, "i2d"},
+ {(functionptr) builtin_l2i, "l2i"},
+ {(functionptr) builtin_l2f, "l2f"},
+ {(functionptr) builtin_l2d, "l2d"},
+ {(functionptr) builtin_f2i, "f2i"},
+ {(functionptr) builtin_f2l, "f2l"},
+ {(functionptr) builtin_f2d, "f2d"},
+ {(functionptr) builtin_d2i, "d2i"},
+ {(functionptr) builtin_d2l, "d2l"},
+ {(functionptr) builtin_d2f, "d2f"},
+ {(functionptr) NULL, "unknown"}
};
/*****************************************************************************
- TYPCHECKS
+ TYPE CHECKS
*****************************************************************************/
-/*************** interne Funktion: builtin_isanysubclass *********************
+/*************** internal function: builtin_isanysubclass *********************
- "uberpr"uft, ob eine Klasse eine Unterklasse einer anderen Klasse ist.
- Dabei gelten auch Interfaces, die eine Klasse implementiert, als
- deren Oberklassen.
- R"uckgabewert: 1 ... es trifft zu
- 0 ... es trifft nicht zu
-
-*****************************************************************************/
+ Checks a subclass relation between two classes. Implemented interfaces
+ are interpreted as super classes.
+ Return value: 1 ... sub is subclass of super
+ 0 ... otherwise
+
+*****************************************************************************/
s4 builtin_isanysubclass (classinfo *sub, classinfo *super)
{
if (super->flags & ACC_INTERFACE)
return (sub->vftbl->interfacetablelength > super->index) &&
- (sub->vftbl->interfacetable[-super->index] != NULL);
+ (sub->vftbl->interfacetable[-super->index] != NULL);
/*
- while (sub != 0)
+ while (sub != 0)
if (sub == super)
return 1;
else
*/
return (unsigned) (sub->vftbl->baseval - super->vftbl->baseval) <=
- (unsigned) (super->vftbl->diffval);
+ (unsigned) (super->vftbl->diffval);
}
-/****************** Funktion: builtin_instanceof *****************************
+/****************** function: builtin_instanceof *****************************
- "Uberpr"uft, ob ein Objekt eine Instanz einer Klasse (oder einer davon
- abgeleiteten Klasse) ist, oder ob die Klasse des Objekts ein Interface
- implementiert.
- Return: 1, wenn ja
- 0, wenn nicht, oder wenn Objekt ein NULL-Zeiger
-
+ Checks if an object is an instance of some given class (or subclass of
+ that class). If class is an interface, checks if the interface is
+ implemented.
+ Return value: 1 ... obj is an instance of class or implements the interface
+ 0 ... otherwise or if obj == NULL
+
*****************************************************************************/
s4 builtin_instanceof(java_objectheader *obj, classinfo *class)
-/**************** Funktion: builtin_checkcast *******************************
+/**************** function: builtin_checkcast *******************************
- "Uberpr"uft, ob ein Objekt eine Instanz einer Klasse (oder einer davon
- abgeleiteten Klasse ist).
- Unterschied zu builtin_instanceof: Ein NULL-Zeiger ist immer richtig
- Return: 1, wenn ja, oder wenn Objekt ein NULL-Zeiger
- 0, wenn nicht
-
+ The same as builtin_instanceof except that 1 is returned when
+ obj == NULL
+
****************************************************************************/
s4 builtin_checkcast(java_objectheader *obj, classinfo *class)
if (builtin_isanysubclass (obj->vftbl->class, class))
return 1;
- /* #if DEBUG */
+ #if DEBUG
printf ("#### checkcast failed ");
utf_display (obj->vftbl->class->name);
printf (" -> ");
utf_display (class->name);
printf ("\n");
- /* #endif */
+ #endif
return 0;
}
-/*********** interne Funktion: builtin_descriptorscompatible ******************
+/*********** internal function: builtin_descriptorscompatible ******************
- "uberpr"uft, ob zwei Array-Typdescriptoren compartible sind, d.h.,
- ob ein Array vom Typ 'desc' gefahrlos einer Variblen vom Typ 'target'
- zugewiesen werden kann.
- Return: 1, wenn ja
- 0, wenn nicht
-
+ Checks if two array type descriptors are assignment compatible
+ Return value: 1 ... target = desc is possible
+ 0 ... otherwise
+
******************************************************************************/
static s4 builtin_descriptorscompatible
-/******************** Funktion: builtin_checkarraycast ***********************
-
- "uberpr"uft, ob ein gegebenes Objekt tats"achlich von einem
- Untertyp des geforderten Arraytyps ist.
- Dazu muss das Objekt auf jeden Fall ein Array sein.
- Bei einfachen Arrays (int,short,double,etc.) muss der Typ genau
- "ubereinstimmen.
- Bei Arrays von Objekten muss der Elementtyp des tats"achlichen Arrays
- ein Untertyp (oder der selbe Typ) vom geforderten Elementtyp sein.
- Bei Arrays vom Arrays (die eventuell wieder Arrays von Arrays
- sein k"onnen) m"ussen die untersten Elementtypen in der entsprechenden
- Unterklassenrelation stehen.
+/******************** function: builtin_checkarraycast ***********************
- Return: 1, wenn Cast in Ordung ist
- 0, wenn es nicht geht
+ Checks if an object is really a subtype of the requested array type.
+ The object has to be an array to begin with. For simple arrays (int, short,
+ double, etc.) the types have to match exactly.
+ For arrays of objects, the type of elements in the array has to be a
+ subtype (or the same type) of the requested element type. For arrays of
+ arrays (which in turn can again be arrays of arrays), the types at the
+ lowest level have to satisfy the corresponding sub class relation.
+
+ Return value: 1 ... cast is possible
+ 0 ... otherwise
- Achtung: ein Cast mit einem NULL-Zeiger geht immer gut.
+ ATTENTION: a cast with a NULL pointer is always possible.
*****************************************************************************/
utf_sprint(logtext + strlen(logtext), local_exceptionptr->vftbl->class->name);
dolog();
}
- exceptionptr = local_exceptionptr;
+ exceptionptr = local_exceptionptr;
return local_exceptionptr;
}
-/******************* Funktion: builtin_canstore *******************************
+/******************* function: builtin_canstore *******************************
- "uberpr"uft, ob ein Objekt in einem Array gespeichert werden
- darf.
- Return: 1, wenn es geht
- 0, wenn nicht
+ Checks, if an object can be stored in an array.
+ Return value: 1 ... possible
+ 0 ... otherwise
******************************************************************************/
case ARRAYTYPE_ARRAY:
if ( ! builtin_checkarraycast
- (o, ((java_arrayarray*)a)->elementdescriptor) ) {
+ (o, ((java_arrayarray*)a)->elementdescriptor) ) {
return 0;
}
return 1;
/*****************************************************************************
- ARRAYOPERATIONEN
+ ARRAY OPERATIONS
*****************************************************************************/
-/******************** Funktion: builtin_new **********************************
+/******************** Function: builtin_new **********************************
- Legt ein neues Objekt einer Klasse am Heap an.
- Return: Der Zeiger auf das Objekt, oder NULL, wenn kein Speicher
- mehr frei ist.
+ Creates a new instance of class c on the heap.
+ Return value: pointer to the object or NULL if no memory is
+ available
*****************************************************************************/
-/******************** Funktion: builtin_anewarray ****************************
+/******************** function: builtin_anewarray ****************************
- Legt ein Array von Zeigern auf Objekte am Heap an.
- Parameter:
- size ......... Anzahl der Elemente
- elementtype .. ein Zeiger auf die classinfo-Struktur des Typs
- der Elemente
-
- Return: Zeiger auf das Array, oder NULL (wenn kein Speicher frei)
+ Creates an array of pointers to objects on the heap.
+ Parameters:
+ size ......... number of elements
+ elementtype .. pointer to the classinfo structure for the element type
+
+ Return value: pointer to the array or NULL if no memory is available
*****************************************************************************/
a = heap_allocate ( alignedsize, true, NULL );
#else
a = heap_allocate ( sizeof(java_objectarray) + (size-1) * elementsize,
- references,
+ references,
NULL);
#endif
if (!a) return NULL;
-/******************** Funktion: builtin_newarray_array ***********************
-
- Legt ein Array von Zeigern auf Arrays am Heap an.
- Paramter: size ......... Anzahl der Elemente
- elementdesc .. Zeiger auf die Arraybeschreibungs-Struktur f"ur
- die Element-Arrays.
+/******************** function: builtin_newarray_array ***********************
- Return: Zeiger auf das Array, oder NULL
+ Creates an array of pointers to arrays on the heap.
+ Parameters:
+ size ......... number of elements
+ elementdesc .. pointer to the array description structure for the
+ element arrays
+
+ Return value: pointer to the array or NULL if no memory is available
*****************************************************************************/
java_arrayarray *builtin_newarray_array
- (s4 size, constant_arraydescriptor *elementdesc)
+ (s4 size, constant_arraydescriptor *elementdesc)
{
- java_arrayarray *a;
+ java_arrayarray *a;
a = (java_arrayarray*)__builtin_newarray(sizeof(java_arrayarray),
size,
true,
}
-/******************** Funktion: builtin_newarray_boolean ************************
-
- Legt ein Array von Bytes am Heap an, das allerdings als Boolean-Array
- gekennzeichnet wird (wichtig bei Casts!)
+/******************** function: builtin_newarray_boolean ************************
- Return: Zeiger auf das Array, oder NULL
+ Creates an array of bytes on the heap. The array is designated as an array
+ of booleans (important for casts)
+
+ Return value: pointer to the array or NULL if no memory is available
*****************************************************************************/
return a;
}
-/******************** Funktion: builtin_newarray_char ************************
+/******************** function: builtin_newarray_char ************************
+
+ Creates an array of characters on the heap.
- Legt ein Array von 16-bit-Integers am Heap an.
- Return: Zeiger auf das Array, oder NULL
+ Return value: pointer to the array or NULL if no memory is available
*****************************************************************************/
}
-/******************** Funktion: builtin_newarray_float ***********************
+/******************** function: builtin_newarray_float ***********************
+
+ Creates an array of 32 bit IEEE floats on the heap.
- Legt ein Array von 32-bit-IEEE-float am Heap an.
- Return: Zeiger auf das Array, oder NULL
+ Return value: pointer to the array or NULL if no memory is available
*****************************************************************************/
java_floatarray *builtin_newarray_float (s4 size)
{
- java_floatarray *a;
+ java_floatarray *a;
a = (java_floatarray*)__builtin_newarray(sizeof(java_floatarray),
size,
false,
}
-/******************** Funktion: builtin_newarray_double ***********************
+/******************** function: builtin_newarray_double ***********************
- Legt ein Array von 64-bit-IEEE-float am Heap an.
- Return: Zeiger auf das Array, oder NULL
+ Creates an array of 64 bit IEEE floats on the heap.
+
+ Return value: pointer to the array or NULL if no memory is available
*****************************************************************************/
-/******************** Funktion: builtin_newarray_byte ***********************
+/******************** function: builtin_newarray_byte ***********************
+
+ Creates an array of 8 bit Integers on the heap.
- Legt ein Array von 8-bit-Integers am Heap an.
- Return: Zeiger auf das Array, oder NULL
+ Return value: pointer to the array or NULL if no memory is available
*****************************************************************************/
}
-/******************** Funktion: builtin_newarray_short ***********************
+/******************** function: builtin_newarray_short ***********************
- Legt ein Array von 16-bit-Integers am Heap an.
- Return: Zeiger auf das Array, oder NULL
+ Creates an array of 16 bit Integers on the heap.
+
+ Return value: pointer to the array or NULL if no memory is available
*****************************************************************************/
java_shortarray *builtin_newarray_short (s4 size)
{
- java_shortarray *a;
+ java_shortarray *a;
a = (java_shortarray*)__builtin_newarray(sizeof(java_shortarray),
size,
false,
}
-/******************** Funktion: builtin_newarray_int ***********************
+/******************** Function: builtin_newarray_int ***********************
+
+ Creates an array of 32 bit Integers on the heap.
- Legt ein Array von 32-bit-Integers am Heap an.
- Return: Zeiger auf das Array, oder NULL
+ Return value: pointer to the array or NULL if no memory is available
*****************************************************************************/
}
-/******************** Funktion: builtin_newarray_long ***********************
+/******************** Function: builtin_newarray_long ***********************
+
+ Creates an array of 64 bit Integers on the heap.
- Legt ein Array von 64-bit-Integers am Heap an.
- Return: Zeiger auf das Array, oder NULL
+ Return value: pointer to the array or NULL if no memory is available
*****************************************************************************/
-/***************** Funktion: builtin_multianewarray ***************************
+/***************** function: builtin_multianewarray ***************************
- Legt ein mehrdimensionales Array am Heap an.
- Die Gr"ossen der einzelnen Dimensionen werden in einem Integerarray
- "ubergeben. Der Typ es zu erzeugenden Arrays wird als
- Referenz auf eine constant_arraydescriptor - Struktur "ubergeben.
+ Creates a multi-dimensional array on the heap. The dimensions are passed in
+ an array of Integers. The type for the array is passed as a reference to a
+ constant_arraydescriptor structure.
- Return: Ein Zeiger auf das Array, oder NULL, wenn kein Speicher mehr
- vorhanden ist.
+ Return value: pointer to the array or NULL if no memory is available
******************************************************************************/
- /* Hilfsfunktion */
+ /* Helper functions */
static java_arrayheader *multianewarray_part (java_intarray *dims, int thisdim,
- constant_arraydescriptor *desc)
+ constant_arraydescriptor *desc)
{
u4 size,i;
java_arrayarray *a;
size = dims -> data[thisdim];
if (thisdim == (dims->header.size-1)) {
- /* letzte Dimension schon erreicht */
+ /* last dimension reached */
switch (desc -> arraytype) {
- case ARRAYTYPE_BOOLEAN:
+ case ARRAYTYPE_BOOLEAN:
return (java_arrayheader*) builtin_newarray_boolean (size);
case ARRAYTYPE_CHAR:
return (java_arrayheader*) builtin_newarray_char (size);
case ARRAYTYPE_FLOAT:
return (java_arrayheader*) builtin_newarray_float (size);
- case ARRAYTYPE_DOUBLE:
+ case ARRAYTYPE_DOUBLE:
return (java_arrayheader*) builtin_newarray_double (size);
case ARRAYTYPE_BYTE:
return (java_arrayheader*) builtin_newarray_byte (size);
case ARRAYTYPE_SHORT:
return (java_arrayheader*) builtin_newarray_short (size);
- case ARRAYTYPE_INT:
+ case ARRAYTYPE_INT:
return (java_arrayheader*) builtin_newarray_int (size);
case ARRAYTYPE_LONG:
return (java_arrayheader*) builtin_newarray_long (size);
}
}
- /* wenn letzte Dimension noch nicht erreicht wurde */
+ /* if the last dimension has not been reached yet */
if (desc->arraytype != ARRAYTYPE_ARRAY)
panic ("multianewarray with too many dimensions");
java_arrayheader *builtin_multianewarray (java_intarray *dims,
- constant_arraydescriptor *desc)
+ constant_arraydescriptor *desc)
{
return multianewarray_part (dims, 0, desc);
}
static java_arrayheader *nmultianewarray_part (int n, long *dims, int thisdim,
- constant_arraydescriptor *desc)
+ constant_arraydescriptor *desc)
{
int size, i;
java_arrayarray *a;
size = (int) dims[thisdim];
if (thisdim == (n - 1)) {
- /* letzte Dimension schon erreicht */
+ /* last dimension reached */
switch (desc -> arraytype) {
- case ARRAYTYPE_BOOLEAN:
+ case ARRAYTYPE_BOOLEAN:
return (java_arrayheader*) builtin_newarray_boolean(size);
case ARRAYTYPE_CHAR:
return (java_arrayheader*) builtin_newarray_char(size);
case ARRAYTYPE_FLOAT:
return (java_arrayheader*) builtin_newarray_float(size);
- case ARRAYTYPE_DOUBLE:
+ case ARRAYTYPE_DOUBLE:
return (java_arrayheader*) builtin_newarray_double(size);
case ARRAYTYPE_BYTE:
return (java_arrayheader*) builtin_newarray_byte(size);
case ARRAYTYPE_SHORT:
return (java_arrayheader*) builtin_newarray_short(size);
- case ARRAYTYPE_INT:
+ case ARRAYTYPE_INT:
return (java_arrayheader*) builtin_newarray_int(size);
case ARRAYTYPE_LONG:
return (java_arrayheader*) builtin_newarray_long(size);
case ARRAYTYPE_OBJECT:
return (java_arrayheader*) builtin_anewarray(size,
- desc->objectclass);
+ desc->objectclass);
case ARRAYTYPE_ARRAY:
return (java_arrayheader*) builtin_newarray_array(size,
- desc->elementdescriptor);
+ desc->elementdescriptor);
default: panic ("Invalid arraytype in multianewarray");
}
}
- /* wenn letzte Dimension noch nicht erreicht wurde */
+ /* if the last dimension has not been reached yet */
if (desc->arraytype != ARRAYTYPE_ARRAY)
panic ("multianewarray with too many dimensions");
java_arrayheader *builtin_nmultianewarray (int size,
- constant_arraydescriptor *desc, long *dims)
+ constant_arraydescriptor *desc, long *dims)
{
(void) builtin_newarray_int(size); /* for compatibility with -old */
return nmultianewarray_part (size, dims, 0, desc);
-/************************* Funktion: builtin_aastore *************************
+/************************* function: builtin_aastore *************************
- speichert eine Referenz auf ein Objekt in einem Object-Array oder
- in einem Array-Array.
- Dabei wird allerdings vorher "uberpr"uft, ob diese Operation
- zul"assig ist.
+ Stores a reference to an object into an object array or into an array
+ array. Before any action is performed, the validity of the operation is
+ checked.
- Return: 1, wenn alles OK ist
- 0, wenn dieses Objekt nicht in dieses Array gespeichert werden
- darf
+ Return value: 1 ... ok
+ 0 ... this object cannot be stored into this array
*****************************************************************************/
/*****************************************************************************
- METHODEN-PROTOKOLLIERUNG
-
- Verschiedene Funktionen, mit denen eine Meldung ausgegeben werden
- kann, wann immer Methoden aufgerufen oder beendet werden.
- (f"ur Debug-Zwecke)
+ METHOD LOGGING
+ Various functions for printing a message at method entry or exit (for
+ debugging)
+
*****************************************************************************/
u4 methodindent=0;
java_objectheader *builtin_trace_exception (java_objectheader *exceptionptr,
- methodinfo *method, int *pos, int noindent) {
+ methodinfo *method, int *pos, int noindent) {
if (!noindent)
methodindent--;
}
-void builtin_trace_args(long a0, long a1, long a2, long a3, long a4, long a5,
- methodinfo *method)
+#ifdef TRACE_ARGS_NUM
+void builtin_trace_args(s8 a0, s8 a1, s8 a2, s8 a3, s8 a4, s8 a5,
+#if TRACE_ARGS_NUM > 6
+ s8 a6, s8 a7,
+#endif
+ methodinfo *method)
{
- sprintf (logtext, " ");
+ int i;
+ for (i=0; i<methodindent; i++)
+ logtext[i] = '\t';
sprintf (logtext+methodindent, "called: ");
utf_sprint (logtext+strlen(logtext), method->class->name);
sprintf (logtext+strlen(logtext), ".");
utf_sprint (logtext+strlen(logtext), method->descriptor);
sprintf (logtext+strlen(logtext), "(");
switch (method->paramcount) {
+#if TRACE_ARGS_NUM > 6
+ case 8:
+ sprintf(logtext+strlen(logtext), "%llx, %llx, %llx, %llx, %llx, %llx, %llx, %llx",
+ a0, a1, a2, a3, a4, a5, a6, a7);
+ break;
+ case 7:
+ sprintf(logtext+strlen(logtext), "%llx, %llx, %llx, %llx, %llx, %llx, %llx",
+ a0, a1, a2, a3, a4, a5, a6);
+ break;
+#endif
case 6:
- sprintf(logtext+strlen(logtext), "%lx, %lx, %lx, %lx, %lx, %lx",
- a0, a1, a2, a3, a4, a5);
+ sprintf(logtext+strlen(logtext), "%llx, %llx, %llx, %llx, %llx, %llx",
+ a0, a1, a2, a3, a4, a5);
break;
case 5:
- sprintf(logtext+strlen(logtext), "%lx, %lx, %lx, %lx, %lx",
- a0, a1, a2, a3, a4);
+ sprintf(logtext+strlen(logtext), "%llx, %llx, %llx, %llx, %llx",
+ a0, a1, a2, a3, a4);
break;
case 4:
- sprintf(logtext+strlen(logtext), "%lx, %lx, %lx, %lx",
- a0, a1, a2, a3);
+ sprintf(logtext+strlen(logtext), "%llx, %llx, %llx, %llx",
+ a0, a1, a2, a3);
break;
case 3:
- sprintf(logtext+strlen(logtext), "%lx, %lx, %lx", a0, a1, a2);
+ sprintf(logtext+strlen(logtext), "%llx, %llx, %llx", a0, a1, a2);
break;
case 2:
- sprintf(logtext+strlen(logtext), "%lx, %lx", a0, a1);
+ sprintf(logtext+strlen(logtext), "%llx, %llx", a0, a1);
break;
case 1:
- sprintf(logtext+strlen(logtext), "%lx", a0);
+ sprintf(logtext+strlen(logtext), "%llx", a0);
break;
}
sprintf (logtext+strlen(logtext), ")");
dolog ();
methodindent++;
}
+#endif
void builtin_displaymethodstart(methodinfo *method)
{
- sprintf (logtext, " ");
+ sprintf (logtext, " ");
sprintf (logtext+methodindent, "called: ");
utf_sprint (logtext+strlen(logtext), method->class->name);
sprintf (logtext+strlen(logtext), ".");
methodindent++;
}
-void builtin_displaymethodstop(methodinfo *method, long l, double d)
+void builtin_displaymethodstop(methodinfo *method, s8 l, double d, float f)
{
+ int i;
+ for (i=0; i<methodindent; i++)
+ logtext[i] = '\t';
methodindent--;
- sprintf (logtext, " ");
sprintf (logtext+methodindent, "finished: ");
utf_sprint (logtext+strlen(logtext), method->class->name);
sprintf (logtext+strlen(logtext), ".");
sprintf (logtext+strlen(logtext), "->%ld", l);
break;
case TYPE_FLOAT:
+ sprintf (logtext+strlen(logtext), "->%g", f);
+ break;
case TYPE_DOUBLE:
sprintf (logtext+strlen(logtext), "->%g", d);
break;
void builtin_displaymethodexception(methodinfo *method)
{
- sprintf (logtext, " ");
+ int i;
+ for (i=0; i<methodindent; i++)
+ logtext[i] = '\t';
sprintf (logtext+methodindent, "exception abort: ");
utf_sprint (logtext+strlen(logtext), method->class->name);
sprintf (logtext+strlen(logtext), ".");
/****************************************************************************
- SYNCHRONIZATION FUNCTIONS
+ SYNCHRONIZATION FUNCTIONS
*****************************************************************************/
/*
void
internal_lock_mutex_for_object (java_objectheader *object)
{
- mutexHashEntry *entry;
- int hashValue;
+ mutexHashEntry *entry;
+ int hashValue;
- assert(object != 0);
+ assert(object != 0);
- hashValue = MUTEX_HASH_VALUE(object);
- entry = &mutexHashTable[hashValue];
+ hashValue = MUTEX_HASH_VALUE(object);
+ entry = &mutexHashTable[hashValue];
- if (entry->object != 0)
- {
+ if (entry->object != 0)
+ {
if (entry->mutex.count == 0 && entry->conditionCount == 0)
{
entry->object = 0;
}
else
{
- while (entry->next != 0 && entry->object != object)
+ while (entry->next != 0 && entry->object != object)
entry = entry->next;
- if (entry->object != object)
- {
+ if (entry->object != object)
+ {
entry->next = firstFreeOverflowEntry;
firstFreeOverflowEntry = firstFreeOverflowEntry->next;
entry->object = 0;
entry->next = 0;
assert(entry->conditionCount == 0);
- }
+ }
}
- }
- else
- {
+ }
+ else
+ {
entry->mutex.holder = 0;
entry->mutex.count = 0;
entry->mutex.muxWaiters = 0;
- }
+ }
- if (entry->object == 0)
- entry->object = object;
-
- internal_lock_mutex(&entry->mutex);
+ if (entry->object == 0)
+ entry->object = object;
+
+ internal_lock_mutex(&entry->mutex);
}
#endif
void
internal_unlock_mutex_for_object (java_objectheader *object)
{
- int hashValue;
- mutexHashEntry *entry;
+ int hashValue;
+ mutexHashEntry *entry;
- hashValue = MUTEX_HASH_VALUE(object);
- entry = &mutexHashTable[hashValue];
+ hashValue = MUTEX_HASH_VALUE(object);
+ entry = &mutexHashTable[hashValue];
- if (entry->object == object)
+ if (entry->object == object)
internal_unlock_mutex(&entry->mutex);
- else
- {
+ else
+ {
while (entry->next != 0 && entry->next->object != object)
entry = entry->next;
unlinked->next = firstFreeOverflowEntry;
firstFreeOverflowEntry = unlinked;
}
- }
+ }
}
#endif
builtin_monitorenter (java_objectheader *o)
{
#ifdef USE_THREADS
- int hashValue;
+ int hashValue;
assert(blockInts == 0);
- ++blockInts;
+ ++blockInts;
- hashValue = MUTEX_HASH_VALUE(o);
- if (mutexHashTable[hashValue].object == o
+ hashValue = MUTEX_HASH_VALUE(o);
+ if (mutexHashTable[hashValue].object == o
&& mutexHashTable[hashValue].mutex.holder == currentThread)
++mutexHashTable[hashValue].mutex.count;
- else
+ else
internal_lock_mutex_for_object(o);
--blockInts;
void builtin_monitorexit (java_objectheader *o)
{
#ifdef USE_THREADS
- int hashValue;
+ int hashValue;
assert(blockInts == 0);
- ++blockInts;
+ ++blockInts;
- hashValue = MUTEX_HASH_VALUE(o);
- if (mutexHashTable[hashValue].object == o)
- {
+ hashValue = MUTEX_HASH_VALUE(o);
+ if (mutexHashTable[hashValue].object == o)
+ {
if (mutexHashTable[hashValue].mutex.count == 1
&& mutexHashTable[hashValue].mutex.muxWaiters != 0)
internal_unlock_mutex_for_object(o);
else
--mutexHashTable[hashValue].mutex.count;
- }
- else
+ }
+ else
internal_unlock_mutex_for_object(o);
--blockInts;
/*****************************************************************************
- DIVERSE HILFSFUNKTIONEN
+ MISCELLANEOUS HELPER FUNCTIONS
*****************************************************************************/
-/*********** Funktionen f"ur die Integerdivision *****************************
+/*********** Functions for integer divisions *****************************
- Auf manchen Systemen (z.B. DEC ALPHA) wird durch die CPU keine Integer-
- division unterst"utzt.
- Daf"ur gibt es dann diese Hilfsfunktionen
+ On some systems (eg. DEC ALPHA), integer division is not supported by the
+ CPU. These helper functions implement the missing functionality.
******************************************************************************/
s4 builtin_irem (s4 a, s4 b) { return a%b; }
-/************** Funktionen f"ur Long-Arithmetik *******************************
+/************** Functions for long arithmetics *******************************
- Auf Systemen, auf denen die CPU keine 64-Bit-Integers unterst"utzt,
- werden diese Funktionen gebraucht
+ On systems where 64 bit Integers are not supported by the CPU, these
+ functions are needed.
******************************************************************************/
-/*********** Funktionen f"ur die Floating-Point-Operationen ******************/
+/*********** Functions for floating point operations *************************/
float builtin_fadd (float a, float b)
{
if (finitef(b)) return a*b;
else {
if (a==0) return FLT_NAN;
- else return copysignf(b, copysignf(1.0, b)*a);
+ else return copysignf(b, copysignf(1.0, b)*a);
}
}
else {
if (finitef(b)) {
if (b==0) return FLT_NAN;
- else return copysignf(a, copysignf(1.0, a)*b);
+ else return copysignf(a, copysignf(1.0, a)*b);
}
else {
return copysignf(a, copysignf(1.0, a)*copysignf(1.0, b));
if (isnanf(a)) return a;
else {
if (finitef(a)) return -a;
- else return copysignf(a,-copysignf(1.0, a));
+ else return copysignf(a,-copysignf(1.0, a));
}
}
if (isnanf(a)) return -1;
if (isnanf(b)) return -1;
if (!finitef(a) || !finitef(b)) {
- a = finitef(a) ? 0 : copysignf(1.0, a);
+ a = finitef(a) ? 0 : copysignf(1.0, a);
b = finitef(b) ? 0 : copysignf(1.0, b);
}
if (a>b) return 1;
-/*********** Funktionen f"ur doppelt genaue Fliesskommazahlen ***************/
+/************************* Functions for doubles ****************************/
double builtin_dadd (double a, double b)
{
if (finite(b)) return a*b;
else {
if (a==0) return DBL_NAN;
- else return copysign(b, copysign(1.0, b)*a);
+ else return copysign(b, copysign(1.0, b)*a);
}
}
else {
if (finite(b)) {
if (b==0) return DBL_NAN;
- else return copysign(a, copysign(1.0, a)*b);
+ else return copysign(a, copysign(1.0, a)*b);
}
else {
return copysign(a, copysign(1.0, a)*copysign(1.0, b));
if (isnan(a)) return a;
else {
if (finite(a)) return -a;
- else return copysign(a,-copysign(1.0, a));
+ else return copysign(a,-copysign(1.0, a));
}
}
}
-/*********************** Umwandlungsoperationen ****************************/
+/*********************** Conversion operations ****************************/
s8 builtin_i2l (s4 i)
{
if (finitef(a)) return (double) a;
else {
if (isnanf(a)) return DBL_NAN;
- else return copysign(DBL_POSINF, (double) copysignf(1.0, a) );
+ else return copysign(DBL_POSINF, (double) copysignf(1.0, a) );
}
}
if (finite(a)) return (float) a;
else {
if (isnan(a)) return FLT_NAN;
- else return copysignf (FLT_POSINF, (float) copysign(1.0, a));
+ else return copysignf (FLT_POSINF, (float) copysign(1.0, a));
}
}