* value.h (value_available_contents_eq): Declare.
* value.c (find_first_range_overlap): New function.
(value_available_contents_eq): New function.
* valprint.c (val_print_array_elements): Use
value_available_contents_eq.
* ada-valprint.c (val_print_packed_array_elements): Use
value_available_contents_eq.
* jv-valprint.c (java_value_print): Use
value_available_contents_eq.
+2011-02-14 Pedro Alves <pedro@codesourcery.com>
+
+ * value.h (value_available_contents_eq): Declare.
+ * value.c (find_first_range_overlap): New function.
+ (value_available_contents_eq): New function.
+ * valprint.c (val_print_array_elements): Use
+ value_available_contents_eq.
+ * ada-valprint.c (val_print_packed_array_elements): Use
+ value_available_contents_eq.
+ * jv-valprint.c (java_value_print): Use
+ value_available_contents_eq.
+
2011-02-14 Pedro Alves <pedro@codesourcery.com>
* target.c (target_read_live_memory): New function.
(i * bitsize) / HOST_CHAR_BIT,
(i * bitsize) % HOST_CHAR_BIT,
bitsize, elttype);
- if (memcmp (value_contents (v0), value_contents (v1), eltlen) != 0)
+ if (!value_available_contents_eq (v0, value_embedded_offset (v0),
+ v1, value_embedded_offset (v1),
+ eltlen))
break;
}
set_value_lazy (next_v, 1);
set_value_offset (next_v, value_offset (next_v)
+ TYPE_LENGTH (el_type));
- if (memcmp (value_contents (v), value_contents (next_v),
- TYPE_LENGTH (el_type)) != 0)
+ value_fetch_lazy (next_v);
+ if (!(value_available_contents_eq
+ (v, value_embedded_offset (v),
+ next_v, value_embedded_offset (next_v),
+ TYPE_LENGTH (el_type))))
break;
}
rep1 = i + 1;
reps = 1;
while (rep1 < len
- && memcmp (valaddr + embedded_offset + i * eltlen,
- valaddr + embedded_offset + rep1 * eltlen,
- eltlen) == 0)
+ && value_available_contents_eq (val,
+ embedded_offset + i * eltlen,
+ val,
+ embedded_offset + rep1 * eltlen,
+ eltlen))
{
++reps;
++rep1;
}
}
+/* Find the first range in RANGES that overlaps the range defined by
+ OFFSET and LENGTH, starting at element POS in the RANGES vector,
+ Returns the index into RANGES where such overlapping range was
+ found, or -1 if none was found. */
+
+static int
+find_first_range_overlap (VEC(range_s) *ranges, int pos,
+ int offset, int length)
+{
+ range_s *r;
+ int i;
+
+ for (i = pos; VEC_iterate (range_s, ranges, i, r); i++)
+ if (ranges_overlap (r->offset, r->length, offset, length))
+ return i;
+
+ return -1;
+}
+
+int
+value_available_contents_eq (const struct value *val1, int offset1,
+ const struct value *val2, int offset2,
+ int length)
+{
+ int org_len = length;
+ int org_offset1 = offset1;
+ int org_offset2 = offset2;
+ int idx1 = 0, idx2 = 0;
+ int prev_avail;
+
+ /* This routine is used by printing routines, where we should
+ already have read the value. Note that we only know whether a
+ value chunk is available if we've tried to read it. */
+ gdb_assert (!val1->lazy && !val2->lazy);
+
+ /* The offset from either ORG_OFFSET1 or ORG_OFFSET2 where the
+ available contents we haven't compared yet start. */
+ prev_avail = 0;
+
+ while (length > 0)
+ {
+ range_s *r1, *r2;
+ ULONGEST l1, h1;
+ ULONGEST l2, h2;
+
+ idx1 = find_first_range_overlap (val1->unavailable, idx1,
+ offset1, length);
+ idx2 = find_first_range_overlap (val2->unavailable, idx2,
+ offset2, length);
+
+ /* The usual case is for both values to be completely available. */
+ if (idx1 == -1 && idx2 == -1)
+ return (memcmp (val1->contents + org_offset1 + prev_avail,
+ val2->contents + org_offset2 + prev_avail,
+ org_len - prev_avail) == 0);
+ /* The contents only match equal if the available set matches as
+ well. */
+ else if (idx1 == -1 || idx2 == -1)
+ return 0;
+
+ gdb_assert (idx1 != -1 && idx2 != -1);
+
+ r1 = VEC_index (range_s, val1->unavailable, idx1);
+ r2 = VEC_index (range_s, val2->unavailable, idx2);
+
+ /* Get the unavailable windows intersected by the incoming
+ ranges. The first and last ranges that overlap the argument
+ range may be wider than said incoming arguments ranges. */
+ l1 = max (offset1, r1->offset);
+ h1 = min (offset1 + length, r1->offset + r1->length);
+
+ l2 = max (offset2, r2->offset);
+ h2 = min (offset2 + length, r2->offset + r2->length);
+
+ /* Make them relative to the respective start offsets, so we can
+ compare them for equality. */
+ l1 -= offset1;
+ h1 -= offset1;
+
+ l2 -= offset2;
+ h2 -= offset2;
+
+ /* Different availability, no match. */
+ if (l1 != l2 || h1 != h2)
+ return 0;
+
+ /* Compare the _available_ contents. */
+ if (memcmp (val1->contents + org_offset1 + prev_avail,
+ val2->contents + org_offset2 + prev_avail,
+ l2 - prev_avail) != 0)
+ return 0;
+
+ prev_avail += h1;
+ length -= h1;
+ offset1 += h1;
+ offset2 += h1;
+ }
+
+ return 1;
+}
+
/* Prototypes for local functions. */
static void show_values (char *, int);
extern void mark_value_bytes_unavailable (struct value *value,
int offset, int length);
+/* Compare LENGTH bytes of VAL1's contents starting at OFFSET1 with
+ LENGTH bytes of VAL2's contents starting at OFFSET2. Returns true
+ iff the set of available contents match. Unavailable contents
+ compare equal with unavailable contents, and different with any
+ available byte. For example, if 'x's represent an unavailable
+ byte, and 'V' and 'Z' represent different available bytes, in a
+ value with length 16:
+
+ offset: 0 4 8 12 16
+ contents: xxxxVVVVxxxxVVZZ
+
+ then:
+
+ value_available_contents_eq(val, 0, val, 8, 6) => 1
+ value_available_contents_eq(val, 0, val, 4, 4) => 1
+ value_available_contents_eq(val, 0, val, 8, 8) => 0
+ value_available_contents_eq(val, 4, val, 12, 2) => 1
+ value_available_contents_eq(val, 4, val, 12, 4) => 0
+ value_available_contents_eq(val, 3, val, 4, 4) => 0
+*/
+
+extern int value_available_contents_eq (const struct value *val1, int offset1,
+ const struct value *val2, int offset2,
+ int length);
+
/* Read LENGTH bytes of memory starting at MEMADDR into BUFFER, which
is (or will be copied to) VAL's contents buffer offset by
EMBEDDED_OFFSET (that is, to &VAL->contents[EMBEDDED_OFFSET]).
projects / deliverable / binutils-gdb.git / commitdiff
