-/* code for low-level debugging output */
+/* code for low-level debugging/diagnostic output */
/*
* This software is part of the SBCL system. See the README file for
/*
* FIXME:
- * 1. Ordinary users won't get much out of this code, so it shouldn't
- * be compiled into the ordinary build of the system. Probably it
- * should be made conditional on the SB-SHOW target feature.
- * 2. Some of the code in here (subtype_Names[] and the various
- * foo_slots[], at least) is deeply broken, depending on fixed
- * (and already out-of-date) values in sbcl.h.
+ * Some of the code in here (the various
+ * foo_slots[], at least) is deeply broken, depending on guessing
+ * already out-of-date values instead of getting them from sbcl.h.
*/
#include <stdio.h>
+#include <string.h>
+#include "sbcl.h"
#include "print.h"
#include "runtime.h"
-#include "sbcl.h"
+
+/* This file can be skipped if we're not supporting LDB. */
+#if defined(LISP_FEATURE_SB_LDB)
+
#include "monitor.h"
#include "vars.h"
#include "os.h"
+#include "gencgc-alloc-region.h" /* genesis/thread.h needs this */
+#include "genesis/static-symbols.h"
+#include "genesis/primitive-objects.h"
+#include "genesis/static-symbols.h"
+#include "genesis/tagnames.h"
static int max_lines = 20, cur_lines = 0;
static int max_depth = 5, brief_depth = 2, cur_depth = 0;
static int max_length = 5;
static boolean dont_descend = 0, skip_newline = 0;
-static cur_clock = 0;
+static int cur_clock = 0;
static void print_obj(char *prefix, lispobj obj);
-#define NEWLINE if (continue_p(1)) newline(NULL); else return;
-
-char *lowtag_Names[] = {
- "even fixnum",
- "function pointer",
- "other immediate [0]",
- "list pointer",
- "odd fixnum",
- "instance pointer",
- "other immediate [1]",
- "other pointer"
-};
-
-/* FIXME: Yikes! This table implicitly depends on the values in sbcl.h,
- * but doesn't actually depend on them, so if they change, it gets
- * all broken. We should either get rid of it or
- * rewrite the code so that it's cleanly initialized by gc_init_tables[]
- * in a way which varies correctly with the values in sbcl.h. */
-char *subtype_Names[] = {
- "unused 0",
- "unused 1",
- "bignum",
- "ratio",
- "single float",
- "double float",
-#ifdef type_LongFloat
- "long float",
-#endif
- "complex",
-#ifdef type_ComplexSingleFloat
- "complex single float",
-#endif
-#ifdef type_ComplexDoubleFloat
- "complex double float",
-#endif
-#ifdef type_ComplexLongFloat
- "complex long float",
-#endif
- "simple-array",
- "simple-string",
- "simple-bit-vector",
- "simple-vector",
- "(simple-array (unsigned-byte 2) (*))",
- "(simple-array (unsigned-byte 4) (*))",
- "(simple-array (unsigned-byte 8) (*))",
- "(simple-array (unsigned-byte 16) (*))",
- "(simple-array (unsigned-byte 32) (*))",
-#ifdef type_SimpleArraySignedByte8
- "(simple-array (signed-byte 8) (*))",
-#endif
-#ifdef type_SimpleArraySignedByte16
- "(simple-array (signed-byte 16) (*))",
-#endif
-#ifdef type_SimpleArraySignedByte30
- "(simple-array fixnum (*))",
-#endif
-#ifdef type_SimpleArraySignedByte32
- "(simple-array (signed-byte 32) (*))",
-#endif
- "(simple-array single-float (*))",
- "(simple-array double-float (*))",
-#ifdef type_SimpleArrayLongFloat
- "(simple-array long-float (*))",
-#endif
-#ifdef type_SimpleArrayComplexSingleFloat
- "(simple-array (complex single-float) (*))",
-#endif
-#ifdef type_SimpleArrayComplexDoubleFloat
- "(simple-array (complex double-float) (*))",
-#endif
-#ifdef type_SimpleArrayComplexLongFloat
- "(simple-array (complex long-float) (*))",
-#endif
- "complex-string",
- "complex-bit-vector",
- "(array * (*))",
- "array",
- "code header",
- "function header",
- "closure header",
- "funcallable-instance header",
- "unused function header 1",
- "unused function header 2",
- "unused function header 3",
- "closure function header",
- "return PC header",
- "value cell header",
- "symbol header",
- "character",
- "SAP",
- "unbound marker",
- "weak pointer",
- "instance header",
- "fdefn"
-};
+#define NEWLINE_OR_RETURN if (continue_p(1)) newline(NULL); else return;
static void indent(int in)
{
printf("More? [y] ");
fflush(stdout);
- fgets(buffer, sizeof(buffer), stdin);
-
- if (buffer[0] == 'n' || buffer[0] == 'N')
- throw_to_monitor();
- else
+ if (fgets(buffer, sizeof(buffer), stdin)) {
+ if (buffer[0] == 'n' || buffer[0] == 'N')
+ throw_to_monitor();
+ else
+ cur_lines = 0;
+ } else {
+ printf("\nUnable to read response, assuming y.\n");
cur_lines = 0;
+ }
}
}
}
+static void print_unknown(lispobj obj)
+{
+ printf("unknown object: %p", (void *)obj);
+}
+
static void brief_fixnum(lispobj obj)
{
-#ifndef alpha
+ /* KLUDGE: Rather than update the tables in print_obj(), we
+ declare all fixnum-or-unknown tags to be fixnums and sort it
+ out here with a guard clause. */
+ if (!fixnump(obj)) return print_unknown(obj);
+
+#ifndef LISP_FEATURE_ALPHA
printf("%ld", ((long)obj)>>2);
#else
printf("%d", ((s32)obj)>>2);
static void print_fixnum(lispobj obj)
{
-#ifndef alpha
+ /* KLUDGE: Rather than update the tables in print_obj(), we
+ declare all fixnum-or-unknown tags to be fixnums and sort it
+ out here with a guard clause. */
+ if (!fixnump(obj)) return print_unknown(obj);
+
+#ifndef LISP_FEATURE_ALPHA
printf(": %ld", ((long)obj)>>2);
#else
printf(": %d", ((s32)obj)>>2);
static void brief_otherimm(lispobj obj)
{
- int type, c, idx;
+ int type, c;
char buffer[10];
- type = TypeOf(obj);
+ type = widetag_of(obj);
switch (type) {
- case type_BaseChar:
+ case CHARACTER_WIDETAG:
c = (obj>>8)&0xff;
switch (c) {
case '\0':
}
break;
- case type_UnboundMarker:
+ case UNBOUND_MARKER_WIDETAG:
printf("<unbound marker>");
break;
default:
- idx = type >> 2;
- if (idx < (sizeof(subtype_Names) / sizeof(char *)))
- printf("%s", subtype_Names[idx]);
- else
- printf("unknown type (0x%0x)", type);
+ printf("%s", widetag_names[type >> 2]);
break;
}
}
static void print_otherimm(lispobj obj)
{
- int type, idx;
-
- type = TypeOf(obj);
- idx = type >> 2;
-
- if (idx < (sizeof(subtype_Names) / sizeof(char *)))
- printf(", %s", subtype_Names[idx]);
- else
- printf(", unknown type (0x%0x)", type);
+ printf(", %s", widetag_names[widetag_of(obj) >> 2]);
- switch (TypeOf(obj)) {
- case type_BaseChar:
+ switch (widetag_of(obj)) {
+ case CHARACTER_WIDETAG:
printf(": ");
brief_otherimm(obj);
break;
- case type_Sap:
- case type_UnboundMarker:
+ case SAP_WIDETAG:
+ case UNBOUND_MARKER_WIDETAG:
break;
default:
- printf(": data=%ld", (obj>>8)&0xffffff);
+ printf(": data=%ld", (long) (obj>>8)&0xffffff);
break;
}
}
int space = 0;
int length = 0;
- if (!is_valid_lisp_addr((os_vm_address_t)obj))
- printf("(invalid Lisp-level address)");
+ if (!is_valid_lisp_addr((os_vm_address_t)native_pointer(obj)))
+ printf("(invalid Lisp-level address)");
else if (obj == NIL)
printf("NIL");
else {
putchar('(');
- while (LowtagOf(obj) == type_ListPointer) {
- struct cons *cons = (struct cons *)PTR(obj);
+ while (lowtag_of(obj) == LIST_POINTER_LOWTAG) {
+ struct cons *cons = (struct cons *)native_pointer(obj);
if (space)
putchar(' ');
obj = NIL;
break;
}
- print_obj(NULL, cons->car);
+ print_obj("", cons->car);
obj = cons->cdr;
space = 1;
if (obj == NIL)
}
if (obj != NIL) {
printf(" . ");
- print_obj(NULL, obj);
+ print_obj("", obj);
}
putchar(')');
}
static void print_list(lispobj obj)
{
- if (!is_valid_lisp_addr((os_vm_address_t)obj)) {
- printf("(invalid address)");
+ if (!is_valid_lisp_addr((os_vm_address_t)native_pointer(obj))) {
+ printf("(invalid address)");
} else if (obj == NIL) {
printf(" (NIL)");
} else {
- struct cons *cons = (struct cons *)PTR(obj);
+ struct cons *cons = (struct cons *)native_pointer(obj);
print_obj("car: ", cons->car);
print_obj("cdr: ", cons->cdr);
static void brief_struct(lispobj obj)
{
- printf("#<ptr to 0x%08lx instance>",
- ((struct instance *)PTR(obj))->slots[0]);
+ struct instance *instance = (struct instance *)native_pointer(obj);
+ if (!is_valid_lisp_addr((os_vm_address_t)instance)) {
+ printf("(invalid address)");
+ } else {
+ printf("#<ptr to 0x%08lx instance>",
+ (unsigned long) instance->slots[0]);
+ }
}
static void print_struct(lispobj obj)
{
- struct instance *instance = (struct instance *)PTR(obj);
- int i;
+ struct instance *instance = (struct instance *)native_pointer(obj);
+ unsigned int i;
char buffer[16];
- print_obj("type: ", ((struct instance *)PTR(obj))->slots[0]);
- for (i = 1; i < HeaderValue(instance->header); i++) {
- sprintf(buffer, "slot %d: ", i);
- print_obj(buffer, instance->slots[i]);
+ if (!is_valid_lisp_addr((os_vm_address_t)instance)) {
+ printf("(invalid address)");
+ } else {
+ print_obj("type: ", ((struct instance *)native_pointer(obj))->slots[0]);
+ for (i = 1; i < HeaderValue(instance->header); i++) {
+ sprintf(buffer, "slot %d: ", i);
+ print_obj(buffer, instance->slots[i]);
+ }
}
}
struct vector *vector;
char *charptr;
- ptr = (lispobj *) PTR(obj);
+ ptr = (lispobj *) native_pointer(obj);
if (!is_valid_lisp_addr((os_vm_address_t)obj)) {
- printf("(invalid address)");
- return;
+ printf("(invalid address)");
+ return;
}
header = *ptr;
- type = TypeOf(header);
+ type = widetag_of(header);
switch (type) {
- case type_SymbolHeader:
+ case SYMBOL_HEADER_WIDETAG:
symbol = (struct symbol *)ptr;
- vector = (struct vector *)PTR(symbol->name);
+ vector = (struct vector *)native_pointer(symbol->name);
for (charptr = (char *)vector->data; *charptr != '\0'; charptr++) {
if (*charptr == '"')
putchar('\\');
}
break;
- case type_SimpleString:
+ case SIMPLE_BASE_STRING_WIDETAG:
vector = (struct vector *)ptr;
putchar('"');
for (charptr = (char *)vector->data; *charptr != '\0'; charptr++) {
print_obj(*slots++, *ptr++);
} else {
print_obj("???: ", *ptr++);
- }
+ }
}
}
-/* FIXME: Yikes again! This, like subtype_Names[], needs to depend
- * on the values in sbcl.h. */
-static char *symbol_slots[] = {"value: ", "unused: ",
- "plist: ", "name: ", "package: ", NULL};
+/* FIXME: Yikes! This needs to depend on the values in sbcl.h (or
+ * perhaps be generated automatically by GENESIS as part of
+ * sbcl.h). */
+static char *symbol_slots[] = {"value: ", "hash: ",
+ "plist: ", "name: ", "package: ",
+#ifdef LISP_FEATURE_SB_THREAD
+ "tls-index: " ,
+#endif
+ NULL};
static char *ratio_slots[] = {"numer: ", "denom: ", NULL};
static char *complex_slots[] = {"real: ", "imag: ", NULL};
static char *code_slots[] = {"words: ", "entry: ", "debug: ", NULL};
-static char *fn_slots[] = {"self: ", "next: ", "name: ", "arglist: ", "type: ", NULL};
+static char *fn_slots[] = {
+ "self: ", "next: ", "name: ", "arglist: ", "type: ", NULL};
static char *closure_slots[] = {"fn: ", NULL};
static char *funcallable_instance_slots[] = {"fn: ", "lexenv: ", "layout: ", NULL};
static char *weak_pointer_slots[] = {"value: ", NULL};
static void print_otherptr(lispobj obj)
{
if (!is_valid_lisp_addr((os_vm_address_t)obj)) {
- printf("(invalid address)");
+ printf("(invalid address)");
} else {
-#ifndef alpha
+#ifndef LISP_FEATURE_ALPHA
lispobj *ptr;
unsigned long header;
unsigned long length;
int count, type, index;
char *cptr, buffer[16];
- ptr = (lispobj*) PTR(obj);
- if (ptr == NULL) {
- printf(" (NULL Pointer)");
- return;
- }
+ ptr = (lispobj*) native_pointer(obj);
+ if (ptr == NULL) {
+ printf(" (NULL Pointer)");
+ return;
+ }
- header = *ptr++;
- length = (*ptr) >> 2;
- count = header>>8;
- type = TypeOf(header);
+ header = *ptr++;
+ length = fixnum_value(*ptr);
+ count = HeaderValue(header);
+ type = widetag_of(header);
print_obj("header: ", header);
- if (LowtagOf(header) != type_OtherImmediate0 && LowtagOf(header) != type_OtherImmediate1) {
- NEWLINE;
+ if (!other_immediate_lowtag_p(header)) {
+ NEWLINE_OR_RETURN;
printf("(invalid header object)");
return;
}
switch (type) {
- case type_Bignum:
+ case BIGNUM_WIDETAG:
ptr += count;
- NEWLINE;
+ NEWLINE_OR_RETURN;
printf("0x");
while (count-- > 0)
- printf("%08lx", *--ptr);
+ printf("%08lx", (unsigned long) *--ptr);
break;
- case type_Ratio:
+ case RATIO_WIDETAG:
print_slots(ratio_slots, count, ptr);
break;
- case type_Complex:
+ case COMPLEX_WIDETAG:
print_slots(complex_slots, count, ptr);
break;
- case type_SymbolHeader:
+ case SYMBOL_HEADER_WIDETAG:
print_slots(symbol_slots, count, ptr);
break;
- case type_SingleFloat:
- NEWLINE;
- printf("%g", ((struct single_float *)PTR(obj))->value);
+#if N_WORD_BITS == 32
+ case SINGLE_FLOAT_WIDETAG:
+ NEWLINE_OR_RETURN;
+ printf("%g", ((struct single_float *)native_pointer(obj))->value);
break;
-
- case type_DoubleFloat:
- NEWLINE;
- printf("%g", ((struct double_float *)PTR(obj))->value);
+#endif
+ case DOUBLE_FLOAT_WIDETAG:
+ NEWLINE_OR_RETURN;
+ printf("%g", ((struct double_float *)native_pointer(obj))->value);
break;
-#ifdef type_LongFloat
- case type_LongFloat:
- NEWLINE;
- printf("%Lg", ((struct long_float *)PTR(obj))->value);
+#ifdef LONG_FLOAT_WIDETAG
+ case LONG_FLOAT_WIDETAG:
+ NEWLINE_OR_RETURN;
+ printf("%Lg", ((struct long_float *)native_pointer(obj))->value);
break;
#endif
-#ifdef type_ComplexSingleFloat
- case type_ComplexSingleFloat:
- NEWLINE;
- printf("%g", ((struct complex_single_float *)PTR(obj))->real);
- NEWLINE;
- printf("%g", ((struct complex_single_float *)PTR(obj))->imag);
+#ifdef COMPLEX_SINGLE_FLOAT_WIDETAG
+ case COMPLEX_SINGLE_FLOAT_WIDETAG:
+ NEWLINE_OR_RETURN;
+#ifdef LISP_FEATURE_X86_64
+ printf("%g", ((struct complex_single_float *)native_pointer(obj))->data.data[0]);
+#else
+ printf("%g", ((struct complex_single_float *)native_pointer(obj))->real);
+#endif
+ NEWLINE_OR_RETURN;
+#ifdef LISP_FEATURE_X86_64
+ printf("%g", ((struct complex_single_float *)native_pointer(obj))->data.data[1]);
+#else
+ printf("%g", ((struct complex_single_float *)native_pointer(obj))->imag);
+#endif
break;
#endif
-#ifdef type_ComplexDoubleFloat
- case type_ComplexDoubleFloat:
- NEWLINE;
- printf("%g", ((struct complex_double_float *)PTR(obj))->real);
- NEWLINE;
- printf("%g", ((struct complex_double_float *)PTR(obj))->imag);
+#ifdef COMPLEX_DOUBLE_FLOAT_WIDETAG
+ case COMPLEX_DOUBLE_FLOAT_WIDETAG:
+ NEWLINE_OR_RETURN;
+ printf("%g", ((struct complex_double_float *)native_pointer(obj))->real);
+ NEWLINE_OR_RETURN;
+ printf("%g", ((struct complex_double_float *)native_pointer(obj))->imag);
break;
#endif
-#ifdef type_ComplexLongFloat
- case type_ComplexLongFloat:
- NEWLINE;
- printf("%Lg", ((struct complex_long_float *)PTR(obj))->real);
- NEWLINE;
- printf("%Lg", ((struct complex_long_float *)PTR(obj))->imag);
+#ifdef COMPLEX_LONG_FLOAT_WIDETAG
+ case COMPLEX_LONG_FLOAT_WIDETAG:
+ NEWLINE_OR_RETURN;
+ printf("%Lg", ((struct complex_long_float *)native_pointer(obj))->real);
+ NEWLINE_OR_RETURN;
+ printf("%Lg", ((struct complex_long_float *)native_pointer(obj))->imag);
break;
#endif
- case type_SimpleString:
- NEWLINE;
+ case SIMPLE_BASE_STRING_WIDETAG:
+#ifdef SIMPLE_CHARACTER_STRING_WIDETAG
+ case SIMPLE_CHARACTER_STRING_WIDETAG: /* FIXME */
+#endif
+ NEWLINE_OR_RETURN;
cptr = (char *)(ptr+1);
putchar('"');
while (length-- > 0)
putchar('"');
break;
- case type_SimpleVector:
- case type_InstanceHeader:
- NEWLINE;
+ case SIMPLE_VECTOR_WIDETAG:
+ NEWLINE_OR_RETURN;
printf("length = %ld", length);
ptr++;
index = 0;
}
break;
- case type_SimpleArray:
- case type_SimpleBitVector:
- case type_SimpleArrayUnsignedByte2:
- case type_SimpleArrayUnsignedByte4:
- case type_SimpleArrayUnsignedByte8:
- case type_SimpleArrayUnsignedByte16:
- case type_SimpleArrayUnsignedByte32:
-#ifdef type_SimpleArraySignedByte8
- case type_SimpleArraySignedByte8:
+ case INSTANCE_HEADER_WIDETAG:
+ NEWLINE_OR_RETURN;
+ printf("length = %ld", (long) count);
+ index = 0;
+ while (count-- > 0) {
+ sprintf(buffer, "%d: ", index++);
+ print_obj(buffer, *ptr++);
+ }
+ break;
+
+ case SIMPLE_ARRAY_WIDETAG:
+ case SIMPLE_BIT_VECTOR_WIDETAG:
+ case SIMPLE_ARRAY_UNSIGNED_BYTE_2_WIDETAG:
+ case SIMPLE_ARRAY_UNSIGNED_BYTE_4_WIDETAG:
+ case SIMPLE_ARRAY_UNSIGNED_BYTE_7_WIDETAG:
+ case SIMPLE_ARRAY_UNSIGNED_BYTE_8_WIDETAG:
+ case SIMPLE_ARRAY_UNSIGNED_BYTE_15_WIDETAG:
+ case SIMPLE_ARRAY_UNSIGNED_BYTE_16_WIDETAG:
+
+ case SIMPLE_ARRAY_UNSIGNED_FIXNUM_WIDETAG:
+
+ case SIMPLE_ARRAY_UNSIGNED_BYTE_31_WIDETAG:
+ case SIMPLE_ARRAY_UNSIGNED_BYTE_32_WIDETAG:
+#ifdef SIMPLE_ARRAY_UNSIGNED_BYTE_63_WIDETAG
+ case SIMPLE_ARRAY_UNSIGNED_BYTE_63_WIDETAG:
+#endif
+#ifdef SIMPLE_ARRAY_UNSIGNED_BYTE_64_WIDETAG
+ case SIMPLE_ARRAY_UNSIGNED_BYTE_64_WIDETAG:
+#endif
+#ifdef SIMPLE_ARRAY_SIGNED_BYTE_8_WIDETAG
+ case SIMPLE_ARRAY_SIGNED_BYTE_8_WIDETAG:
#endif
-#ifdef type_SimpleArraySignedByte16
- case type_SimpleArraySignedByte16:
+#ifdef SIMPLE_ARRAY_SIGNED_BYTE_16_WIDETAG
+ case SIMPLE_ARRAY_SIGNED_BYTE_16_WIDETAG:
#endif
-#ifdef type_SimpleArraySignedByte30
- case type_SimpleArraySignedByte30:
+
+ case SIMPLE_ARRAY_FIXNUM_WIDETAG:
+
+#ifdef SIMPLE_ARRAY_SIGNED_BYTE_32_WIDETAG
+ case SIMPLE_ARRAY_SIGNED_BYTE_32_WIDETAG:
#endif
-#ifdef type_SimpleArraySignedByte32
- case type_SimpleArraySignedByte32:
+#ifdef SIMPLE_ARRAY_SIGNED_BYTE_64_WIDETAG
+ case SIMPLE_ARRAY_SIGNED_BYTE_64_WIDETAG:
#endif
- case type_SimpleArraySingleFloat:
- case type_SimpleArrayDoubleFloat:
-#ifdef type_SimpleArrayLongFloat
- case type_SimpleArrayLongFloat:
+ case SIMPLE_ARRAY_SINGLE_FLOAT_WIDETAG:
+ case SIMPLE_ARRAY_DOUBLE_FLOAT_WIDETAG:
+#ifdef SIMPLE_ARRAY_LONG_FLOAT_WIDETAG
+ case SIMPLE_ARRAY_LONG_FLOAT_WIDETAG:
#endif
-#ifdef type_SimpleArrayComplexSingleFloat
- case type_SimpleArrayComplexSingleFloat:
+#ifdef SIMPLE_ARRAY_COMPLEX_SINGLE_FLOAT_WIDETAG
+ case SIMPLE_ARRAY_COMPLEX_SINGLE_FLOAT_WIDETAG:
#endif
-#ifdef type_SimpleArrayComplexDoubleFloat
- case type_SimpleArrayComplexDoubleFloat:
+#ifdef SIMPLE_ARRAY_COMPLEX_DOUBLE_FLOAT_WIDETAG
+ case SIMPLE_ARRAY_COMPLEX_DOUBLE_FLOAT_WIDETAG:
#endif
-#ifdef type_SimpleArrayComplexLongFloat
- case type_SimpleArrayComplexLongFloat:
+#ifdef SIMPLE_ARRAY_COMPLEX_LONG_FLOAT_WIDETAG
+ case SIMPLE_ARRAY_COMPLEX_LONG_FLOAT_WIDETAG:
#endif
- case type_ComplexString:
- case type_ComplexBitVector:
- case type_ComplexVector:
- case type_ComplexArray:
+ case COMPLEX_BASE_STRING_WIDETAG:
+#ifdef COMPLEX_CHARACTER_STRING_WIDETAG
+ case COMPLEX_CHARACTER_STRING_WIDETAG:
+#endif
+ case COMPLEX_VECTOR_NIL_WIDETAG:
+ case COMPLEX_BIT_VECTOR_WIDETAG:
+ case COMPLEX_VECTOR_WIDETAG:
+ case COMPLEX_ARRAY_WIDETAG:
break;
- case type_CodeHeader:
+ case CODE_HEADER_WIDETAG:
print_slots(code_slots, count-1, ptr);
break;
- case type_FunctionHeader:
- case type_ClosureFunctionHeader:
+ case SIMPLE_FUN_HEADER_WIDETAG:
print_slots(fn_slots, 5, ptr);
break;
- case type_ReturnPcHeader:
+ case RETURN_PC_HEADER_WIDETAG:
print_obj("code: ", obj - (count * 4));
break;
- case type_ClosureHeader:
+ case CLOSURE_HEADER_WIDETAG:
print_slots(closure_slots, count, ptr);
break;
- case type_FuncallableInstanceHeader:
+ case FUNCALLABLE_INSTANCE_HEADER_WIDETAG:
print_slots(funcallable_instance_slots, count, ptr);
break;
- case type_ValueCellHeader:
- print_slots(value_cell_slots, 1, ptr);
+ case VALUE_CELL_HEADER_WIDETAG:
+ print_slots(value_cell_slots, 1, ptr);
break;
- case type_Sap:
- NEWLINE;
-#ifndef alpha
- printf("0x%08lx", *ptr);
+ case SAP_WIDETAG:
+ NEWLINE_OR_RETURN;
+#ifndef LISP_FEATURE_ALPHA
+ printf("0x%08lx", (unsigned long) *ptr);
#else
- printf("0x%016lx", *(long*)(ptr+1));
+ printf("0x%016lx", *(lispobj*)(ptr+1));
#endif
break;
- case type_WeakPointer:
- print_slots(weak_pointer_slots, 1, ptr);
+ case WEAK_POINTER_WIDETAG:
+ print_slots(weak_pointer_slots, 1, ptr);
break;
- case type_BaseChar:
- case type_UnboundMarker:
- NEWLINE;
+ case CHARACTER_WIDETAG:
+ case UNBOUND_MARKER_WIDETAG:
+ NEWLINE_OR_RETURN;
printf("pointer to an immediate?");
break;
- case type_Fdefn:
- print_slots(fdefn_slots, count, ptr);
- break;
-
+ case FDEFN_WIDETAG:
+ print_slots(fdefn_slots, count, ptr);
+ break;
+
default:
- NEWLINE;
+ NEWLINE_OR_RETURN;
printf("Unknown header object?");
break;
}
static void print_obj(char *prefix, lispobj obj)
{
+#ifdef LISP_FEATURE_X86_64
+ static void (*verbose_fns[])(lispobj obj)
+ = {print_fixnum, print_otherimm, print_fixnum, print_struct,
+ print_fixnum, print_otherimm, print_fixnum, print_list,
+ print_fixnum, print_otherimm, print_fixnum, print_otherptr,
+ print_fixnum, print_otherimm, print_fixnum, print_otherptr};
+ static void (*brief_fns[])(lispobj obj)
+ = {brief_fixnum, brief_otherimm, brief_fixnum, brief_struct,
+ brief_fixnum, brief_otherimm, brief_fixnum, brief_list,
+ brief_fixnum, brief_otherimm, brief_fixnum, brief_otherptr,
+ brief_fixnum, brief_otherimm, brief_fixnum, brief_otherptr};
+#else
static void (*verbose_fns[])(lispobj obj)
- = {print_fixnum, print_otherptr, print_otherimm, print_list,
- print_fixnum, print_struct, print_otherimm, print_otherptr};
+ = {print_fixnum, print_struct, print_otherimm, print_list,
+ print_fixnum, print_otherptr, print_otherimm, print_otherptr};
static void (*brief_fns[])(lispobj obj)
- = {brief_fixnum, brief_otherptr, brief_otherimm, brief_list,
- brief_fixnum, brief_struct, brief_otherimm, brief_otherptr};
- int type = LowtagOf(obj);
+ = {brief_fixnum, brief_struct, brief_otherimm, brief_list,
+ brief_fixnum, brief_otherptr, brief_otherimm, brief_otherptr};
+#endif
+ int type = lowtag_of(obj);
struct var *var = lookup_by_obj(obj);
char buffer[256];
boolean verbose = cur_depth < brief_depth;
-
if (!continue_p(verbose))
return;
if (var != NULL && var_clock(var) == cur_clock)
dont_descend = 1;
- if (var == NULL && (obj & type_FunctionPointer & type_ListPointer & type_InstancePointer & type_OtherPointer) != 0)
+ if (var == NULL && is_lisp_pointer(obj))
var = define_var(NULL, obj, 0);
if (var != NULL)
}
else
newline(NULL);
- printf("%s0x%08lx: ", prefix, obj);
+ printf("%s0x%08lx: ", prefix, (unsigned long) obj);
if (cur_depth < brief_depth) {
- fputs(lowtag_Names[type], stdout);
+ fputs(lowtag_names[type], stdout);
(*verbose_fns[type])(obj);
}
else
print_obj("", obj);
putchar('\n');
}
+
+#else
+
+void
+brief_print(lispobj obj)
+{
+ printf("lispobj 0x%lx\n", (unsigned long)obj);
+}
+
+#endif /* defined(LISP_FEATURE_SB_LDB) */