http://sourceware.org/ml/gdb-cvs/2010-05/msg00191.html ### src/gdb/ChangeLog 2010/05/21 21:01:46 1.11832 ### src/gdb/ChangeLog 2010/05/21 21:13:10 1.11833 ## -1,5 +1,20 @@ 2010-05-21 Tom Tromey + * dwarf2loc.c (extract_bits_primitive): New function. + (extract_bits): Likewise. + (insert_bits): Likewise. + (copy_bitwise): Likewise. + (read_pieced_value): Do all operations in bits. + (write_pieced_value): Likewise. + * dwarf2expr.h (struct dwarf_expr_piece) : New field. + * dwarf2expr.c (add_piece): New arguments bit_piece, offset. + Always use xrealloc to resize piece array. + (execute_stack_op) : Handle DW_OP_bit_piece. + : Update. + : New case. + ### src/gdb/testsuite/ChangeLog 2010/05/21 21:01:46 1.2275 ### src/gdb/testsuite/ChangeLog 2010/05/21 21:13:13 1.2276 ## -1,5 +1,12 @@ 2010-05-21 Tom Tromey + * gdb.dwarf2/pieces.exp (pieces_test_f3): New proc. + Call it. + * gdb.dwarf2/pieces.S: Update. + * gdb.dwarf2/pieces.c (struct B): Remove initial field. + --- src/gdb/dwarf2expr.c 2010/05/21 21:01:46 1.43 +++ src/gdb/dwarf2expr.c 2010/05/21 21:13:10 1.44 @@ -153,23 +153,21 @@ /* Add a new piece to CTX's piece list. */ static void -add_piece (struct dwarf_expr_context *ctx, ULONGEST size) +add_piece (struct dwarf_expr_context *ctx, ULONGEST size, ULONGEST offset) { struct dwarf_expr_piece *p; ctx->num_pieces++; - if (ctx->pieces) - ctx->pieces = xrealloc (ctx->pieces, - (ctx->num_pieces - * sizeof (struct dwarf_expr_piece))); - else - ctx->pieces = xmalloc (ctx->num_pieces - * sizeof (struct dwarf_expr_piece)); + ctx->pieces = xrealloc (ctx->pieces, + (ctx->num_pieces + * sizeof (struct dwarf_expr_piece))); p = &ctx->pieces[ctx->num_pieces - 1]; p->location = ctx->location; p->size = size; + p->offset = offset; + if (p->location == DWARF_VALUE_LITERAL) { p->v.literal.data = ctx->data; @@ -499,9 +497,11 @@ case DW_OP_reg31: if (op_ptr != op_end && *op_ptr != DW_OP_piece + && *op_ptr != DW_OP_bit_piece && *op_ptr != DW_OP_GNU_uninit) error (_("DWARF-2 expression error: DW_OP_reg operations must be " - "used either alone or in conjuction with DW_OP_piece.")); + "used either alone or in conjuction with DW_OP_piece " + "or DW_OP_bit_piece.")); result = op - DW_OP_reg0; ctx->location = DWARF_VALUE_REGISTER; @@ -872,7 +872,7 @@ /* Record the piece. */ op_ptr = read_uleb128 (op_ptr, op_end, &size); - add_piece (ctx, size); + add_piece (ctx, 8 * size, 0); /* Pop off the address/regnum, and reset the location type. */ @@ -883,6 +883,24 @@ } goto no_push; + case DW_OP_bit_piece: + { + ULONGEST size, offset; + + /* Record the piece. */ + op_ptr = read_uleb128 (op_ptr, op_end, &size); + op_ptr = read_uleb128 (op_ptr, op_end, &offset); + add_piece (ctx, size, offset); + + /* Pop off the address/regnum, and reset the location + type. */ + if (ctx->location != DWARF_VALUE_LITERAL + && ctx->location != DWARF_VALUE_OPTIMIZED_OUT) + dwarf_expr_pop (ctx); + ctx->location = DWARF_VALUE_MEMORY; + } + goto no_push; + case DW_OP_GNU_uninit: if (op_ptr != op_end) error (_("DWARF-2 expression error: DW_OP_GNU_uninit must always " --- src/gdb/dwarf2expr.h 2010/05/21 21:01:46 1.21 +++ src/gdb/dwarf2expr.h 2010/05/21 21:13:11 1.22 @@ -155,7 +155,7 @@ }; -/* A piece of an object, as recorded by DW_OP_piece. */ +/* A piece of an object, as recorded by DW_OP_piece or DW_OP_bit_piece. */ struct dwarf_expr_piece { enum dwarf_value_location location; @@ -181,8 +181,10 @@ } literal; } v; - /* The length of the piece, in bytes. */ + /* The length of the piece, in bits. */ ULONGEST size; + /* The piece offset, in bits. */ + ULONGEST offset; }; struct dwarf_expr_context *new_dwarf_expr_context (void); --- src/gdb/dwarf2loc.c 2010/05/21 21:01:46 1.80 +++ src/gdb/dwarf2loc.c 2010/05/21 21:13:11 1.81 @@ -259,52 +259,245 @@ return c; } +/* The lowest-level function to extract bits from a byte buffer. + SOURCE is the buffer. It is updated if we read to the end of a + byte. + SOURCE_OFFSET_BITS is the offset of the first bit to read. It is + updated to reflect the number of bits actually read. + NBITS is the number of bits we want to read. It is updated to + reflect the number of bits actually read. This function may read + fewer bits. + BITS_BIG_ENDIAN is taken directly from gdbarch. + This function returns the extracted bits. */ + +static unsigned int +extract_bits_primitive (const gdb_byte **source, + unsigned int *source_offset_bits, + int *nbits, int bits_big_endian) +{ + unsigned int avail, mask, datum; + + gdb_assert (*source_offset_bits < 8); + + avail = 8 - *source_offset_bits; + if (avail > *nbits) + avail = *nbits; + + mask = (1 << avail) - 1; + datum = **source; + if (bits_big_endian) + datum >>= 8 - (*source_offset_bits + *nbits); + else + datum >>= *source_offset_bits; + datum &= mask; + + *nbits -= avail; + *source_offset_bits += avail; + if (*source_offset_bits >= 8) + { + *source_offset_bits -= 8; + ++*source; + } + + return datum; +} + +/* Extract some bits from a source buffer and move forward in the + buffer. + + SOURCE is the source buffer. It is updated as bytes are read. + SOURCE_OFFSET_BITS is the offset into SOURCE. It is updated as + bits are read. + NBITS is the number of bits to read. + BITS_BIG_ENDIAN is taken directly from gdbarch. + + This function returns the bits that were read. */ + +static unsigned int +extract_bits (const gdb_byte **source, unsigned int *source_offset_bits, + int nbits, int bits_big_endian) +{ + unsigned int datum; + + gdb_assert (nbits > 0 && nbits <= 8); + + datum = extract_bits_primitive (source, source_offset_bits, &nbits, + bits_big_endian); + if (nbits > 0) + { + unsigned int more; + + more = extract_bits_primitive (source, source_offset_bits, &nbits, + bits_big_endian); + if (bits_big_endian) + datum <<= nbits; + else + more <<= nbits; + datum |= more; + } + + return datum; +} + +/* Write some bits into a buffer and move forward in the buffer. + + DATUM is the bits to write. The low-order bits of DATUM are used. + DEST is the destination buffer. It is updated as bytes are + written. + DEST_OFFSET_BITS is the bit offset in DEST at which writing is + done. + NBITS is the number of valid bits in DATUM. + BITS_BIG_ENDIAN is taken directly from gdbarch. */ + +static void +insert_bits (unsigned int datum, + gdb_byte *dest, unsigned int dest_offset_bits, + int nbits, int bits_big_endian) +{ + unsigned int mask; + + gdb_assert (dest_offset_bits >= 0 && dest_offset_bits + nbits <= 8); + + mask = (1 << nbits) - 1; + if (bits_big_endian) + { + datum <<= 8 - (dest_offset_bits + nbits); + mask <<= 8 - (dest_offset_bits + nbits); + } + else + { + datum <<= dest_offset_bits; + mask <<= dest_offset_bits; + } + + gdb_assert ((datum & ~mask) == 0); + + *dest = (*dest & ~mask) | datum; +} + +/* Copy bits from a source to a destination. + + DEST is where the bits should be written. + DEST_OFFSET_BITS is the bit offset into DEST. + SOURCE is the source of bits. + SOURCE_OFFSET_BITS is the bit offset into SOURCE. + BIT_COUNT is the number of bits to copy. + BITS_BIG_ENDIAN is taken directly from gdbarch. */ + +static void +copy_bitwise (gdb_byte *dest, unsigned int dest_offset_bits, + const gdb_byte *source, unsigned int source_offset_bits, + unsigned int bit_count, + int bits_big_endian) +{ + unsigned int dest_avail; + int datum; + + /* Reduce everything to byte-size pieces. */ + dest += dest_offset_bits / 8; + dest_offset_bits %= 8; + source += source_offset_bits / 8; + source_offset_bits %= 8; + + dest_avail = 8 - dest_offset_bits % 8; + + /* See if we can fill the first destination byte. */ + if (dest_avail < bit_count) + { + datum = extract_bits (&source, &source_offset_bits, dest_avail, + bits_big_endian); + insert_bits (datum, dest, dest_offset_bits, dest_avail, bits_big_endian); + ++dest; + dest_offset_bits = 0; + bit_count -= dest_avail; + } + + /* Now, either DEST_OFFSET_BITS is byte-aligned, or we have fewer + than 8 bits remaining. */ + gdb_assert (dest_offset_bits % 8 == 0 || bit_count < 8); + for (; bit_count >= 8; bit_count -= 8) + { + datum = extract_bits (&source, &source_offset_bits, 8, bits_big_endian); + *dest++ = (gdb_byte) datum; + } + + /* Finally, we may have a few leftover bits. */ + gdb_assert (bit_count <= 8 - dest_offset_bits % 8); + if (bit_count > 0) + { + datum = extract_bits (&source, &source_offset_bits, bit_count, + bits_big_endian); + insert_bits (datum, dest, dest_offset_bits, bit_count, bits_big_endian); + } +} + static void read_pieced_value (struct value *v) { int i; long offset = 0; - ULONGEST bytes_to_skip; + ULONGEST bits_to_skip; gdb_byte *contents; struct piece_closure *c = (struct piece_closure *) value_computed_closure (v); struct frame_info *frame = frame_find_by_id (VALUE_FRAME_ID (v)); size_t type_len; + size_t buffer_size = 0; + char *buffer = NULL; + struct cleanup *cleanup; + int bits_big_endian + = gdbarch_bits_big_endian (get_type_arch (value_type (v))); if (value_type (v) != value_enclosing_type (v)) internal_error (__FILE__, __LINE__, _("Should not be able to create a lazy value with " "an enclosing type")); + cleanup = make_cleanup (free_current_contents, &buffer); + contents = value_contents_raw (v); - bytes_to_skip = value_offset (v); - type_len = TYPE_LENGTH (value_type (v)); + bits_to_skip = 8 * value_offset (v); + type_len = 8 * TYPE_LENGTH (value_type (v)); + for (i = 0; i < c->n_pieces && offset < type_len; i++) { struct dwarf_expr_piece *p = &c->pieces[i]; - size_t this_size; - long dest_offset, source_offset; - - if (bytes_to_skip > 0 && bytes_to_skip >= p->size) + size_t this_size, this_size_bits; + long dest_offset_bits, source_offset_bits, source_offset; + gdb_byte *intermediate_buffer; + + /* Compute size, source, and destination offsets for copying, in + bits. */ + this_size_bits = p->size; + if (bits_to_skip > 0 && bits_to_skip >= this_size_bits) { - bytes_to_skip -= p->size; + bits_to_skip -= this_size_bits; continue; } - this_size = p->size; - if (this_size > type_len - offset) - this_size = type_len - offset; - if (bytes_to_skip > 0) - { - dest_offset = 0; - source_offset = bytes_to_skip; - this_size -= bytes_to_skip; - bytes_to_skip = 0; + if (this_size_bits > type_len - offset) + this_size_bits = type_len - offset; + if (bits_to_skip > 0) + { + dest_offset_bits = 0; + source_offset_bits = bits_to_skip; + this_size_bits -= bits_to_skip; + bits_to_skip = 0; } else { - dest_offset = offset; - source_offset = 0; + dest_offset_bits = offset; + source_offset_bits = 0; + } + + this_size = (this_size_bits + source_offset_bits % 8 + 7) / 8; + source_offset = source_offset_bits / 8; + if (buffer_size < this_size) + { + buffer_size = this_size; + buffer = xrealloc (buffer, buffer_size); } + intermediate_buffer = buffer; + /* Copy from the source to DEST_BUFFER. */ switch (p->location) { case DWARF_VALUE_REGISTER: @@ -316,13 +509,18 @@ if (gdbarch_byte_order (arch) == BFD_ENDIAN_BIG && this_size < register_size (arch, gdb_regnum)) - /* Big-endian, and we want less than full size. */ - reg_offset = register_size (arch, gdb_regnum) - this_size; + { + /* Big-endian, and we want less than full size. */ + reg_offset = register_size (arch, gdb_regnum) - this_size; + /* We want the lower-order THIS_SIZE_BITS of the bytes + we extract from the register. */ + source_offset_bits += 8 * this_size - this_size_bits; + } if (gdb_regnum != -1) { get_frame_register_bytes (frame, gdb_regnum, reg_offset, - this_size, contents + dest_offset); + this_size, buffer); } else { @@ -334,11 +532,9 @@ case DWARF_VALUE_MEMORY: if (p->v.expr.in_stack_memory) - read_stack (p->v.expr.value + source_offset, - contents + dest_offset, this_size); + read_stack (p->v.expr.value + source_offset, buffer, this_size); else - read_memory (p->v.expr.value + source_offset, - contents + dest_offset, this_size); + read_memory (p->v.expr.value + source_offset, buffer, this_size); break; case DWARF_VALUE_STACK: @@ -355,7 +551,7 @@ /* Nothing. */ } else if (source_offset == 0) - store_unsigned_integer (contents + dest_offset, n, + store_unsigned_integer (buffer, n, gdbarch_byte_order (gdbarch), p->v.expr.value); else @@ -365,7 +561,7 @@ store_unsigned_integer (bytes, n + source_offset, gdbarch_byte_order (gdbarch), p->v.expr.value); - memcpy (contents + dest_offset, bytes + source_offset, n); + memcpy (buffer, bytes + source_offset, n); } } break; @@ -379,8 +575,7 @@ ? p->v.literal.length - source_offset : 0); if (n != 0) - memcpy (contents + dest_offset, - p->v.literal.data + source_offset, n); + intermediate_buffer = p->v.literal.data + source_offset; } break; @@ -388,17 +583,25 @@ /* We just leave the bits empty for now. This is not ideal but gdb currently does not have a nice way to represent optimized-out pieces. */ - warning (_("bytes %ld-%ld in computed object were optimized out; " + warning (_("bits %ld-%ld in computed object were optimized out; " "replacing with zeroes"), offset, - offset + (long) this_size); + offset + (long) this_size_bits); break; default: internal_error (__FILE__, __LINE__, _("invalid location type")); } - offset += this_size; + + if (p->location != DWARF_VALUE_OPTIMIZED_OUT) + copy_bitwise (contents, dest_offset_bits, + intermediate_buffer, source_offset_bits % 8, + this_size_bits, bits_big_endian); + + offset += this_size_bits; } + + do_cleanups (cleanup); } static void @@ -406,11 +609,16 @@ { int i; long offset = 0; - ULONGEST bytes_to_skip; + ULONGEST bits_to_skip; const gdb_byte *contents; struct piece_closure *c = (struct piece_closure *) value_computed_closure (to); struct frame_info *frame = frame_find_by_id (VALUE_FRAME_ID (to)); size_t type_len; + size_t buffer_size = 0; + char *buffer = NULL; + struct cleanup *cleanup; + int bits_big_endian + = gdbarch_bits_big_endian (get_type_arch (value_type (to))); if (frame == NULL) { @@ -418,34 +626,57 @@ return; } + cleanup = make_cleanup (free_current_contents, &buffer); + contents = value_contents (from); - bytes_to_skip = value_offset (to); - type_len = TYPE_LENGTH (value_type (to)); + bits_to_skip = 8 * value_offset (to); + type_len = 8 * TYPE_LENGTH (value_type (to)); for (i = 0; i < c->n_pieces && offset < type_len; i++) { struct dwarf_expr_piece *p = &c->pieces[i]; - size_t this_size; - long dest_offset, source_offset; + size_t this_size_bits, this_size; + long dest_offset_bits, source_offset_bits, dest_offset, source_offset; + int need_bitwise; + const gdb_byte *source_buffer; - if (bytes_to_skip > 0 && bytes_to_skip >= p->size) + this_size_bits = p->size; + if (bits_to_skip > 0 && bits_to_skip >= this_size_bits) { - bytes_to_skip -= p->size; + bits_to_skip -= this_size_bits; continue; } - this_size = p->size; - if (this_size > type_len - offset) - this_size = type_len - offset; - if (bytes_to_skip > 0) - { - dest_offset = bytes_to_skip; - source_offset = 0; - this_size -= bytes_to_skip; - bytes_to_skip = 0; + if (this_size_bits > type_len - offset) + this_size_bits = type_len - offset; + if (bits_to_skip > 0) + { + dest_offset_bits = bits_to_skip; + source_offset_bits = 0; + this_size_bits -= bits_to_skip; + bits_to_skip = 0; + } + else + { + dest_offset_bits = 0; + source_offset_bits = offset; + } + + this_size = (this_size_bits + source_offset_bits % 8 + 7) / 8; + source_offset = source_offset_bits / 8; + dest_offset = dest_offset_bits / 8; + if (dest_offset_bits % 8 == 0 && source_offset_bits % 8 == 0) + { + source_buffer = contents + source_offset; + need_bitwise = 0; } else { - dest_offset = 0; - source_offset = offset; + if (buffer_size < this_size) + { + buffer_size = this_size; + buffer = xrealloc (buffer, buffer_size); + } + source_buffer = buffer; + need_bitwise = 1; } switch (p->location) @@ -463,8 +694,18 @@ if (gdb_regnum != -1) { + if (need_bitwise) + { + get_frame_register_bytes (frame, gdb_regnum, reg_offset, + this_size, buffer); + copy_bitwise (buffer, dest_offset_bits, + contents, source_offset_bits, + this_size_bits, + bits_big_endian); + } + put_frame_register_bytes (frame, gdb_regnum, reg_offset, - this_size, contents + source_offset); + this_size, source_buffer); } else { @@ -474,15 +715,31 @@ } break; case DWARF_VALUE_MEMORY: + if (need_bitwise) + { + /* Only the first and last bytes can possibly have any + bits reused. */ + read_memory (p->v.expr.value + dest_offset, buffer, 1); + read_memory (p->v.expr.value + dest_offset + this_size - 1, + buffer + this_size - 1, 1); + copy_bitwise (buffer, dest_offset_bits, + contents, source_offset_bits, + this_size_bits, + bits_big_endian); + } + write_memory (p->v.expr.value + dest_offset, - contents + source_offset, this_size); + source_buffer, this_size); break; default: set_value_optimized_out (to, 1); - return; + goto done; } - offset += this_size; + offset += this_size_bits; } + + done: + do_cleanups (cleanup); } static void * --- src/gdb/testsuite/gdb.dwarf2/pieces.S 2010/05/21 21:01:46 1.2 +++ src/gdb/testsuite/gdb.dwarf2/pieces.S 2010/05/21 21:13:13 1.3 @@ -989,23 +989,18 @@ .LLST6: .long .LVL13-.Ltext0 # Location list begin address (*.LLST6) .long .LVL14-.Ltext0 # Location list end address (*.LLST6) - .value 0xa # Location expression size - .byte 0x9d # DW_OP_bit_piece - .uleb128 0x4 - .uleb128 0 + .value 0x8 # Location expression size .byte 0x34 # DW_OP_lit4 .byte 0x9f # DW_OP_stack_value .byte 0x9d # DW_OP_bit_piece .uleb128 0xc .uleb128 0 - .byte 0x93 # DW_OP_piece - .uleb128 0x2 - .long .LVL14-.Ltext0 # Location list begin address (*.LLST6) - .long .LVL15-.Ltext0 # Location list end address (*.LLST6) - .value 0x15 # Location expression size .byte 0x9d # DW_OP_bit_piece - .uleb128 0x4 + .uleb128 0x14 .uleb128 0 + .long .LVL14-.Ltext0 # Location list begin address (*.LLST6) + .long .LVL15-.Ltext0 # Location list end address (*.LLST6) + .value 0x11 # Location expression size .byte 0x34 # DW_OP_lit4 .byte 0x9f # DW_OP_stack_value .byte 0x9d # DW_OP_bit_piece @@ -1021,15 +1016,11 @@ .byte 0x9d # DW_OP_bit_piece .uleb128 0xc .uleb128 0 - .byte 0x9d # DW_OP_bit_piece - .uleb128 0x4 - .uleb128 0 + .byte 0x93 # DW_OP_piece + .uleb128 0x1 .long .LVL15-.Ltext0 # Location list begin address (*.LLST6) .long .LVL16-1-.Ltext0 # Location list end address (*.LLST6) - .value 0x14 # Location expression size - .byte 0x9d # DW_OP_bit_piece - .uleb128 0x4 - .uleb128 0 + .value 0x10 # Location expression size .byte 0x52 # DW_OP_reg2 .byte 0x9d # DW_OP_bit_piece .uleb128 0xc @@ -1044,15 +1035,11 @@ .byte 0x9d # DW_OP_bit_piece .uleb128 0xc .uleb128 0 - .byte 0x9d # DW_OP_bit_piece - .uleb128 0x4 - .uleb128 0 + .byte 0x93 # DW_OP_piece + .uleb128 0x1 .long .LVL16-1-.Ltext0 # Location list begin address (*.LLST6) .long .LVL17-.Ltext0 # Location list end address (*.LLST6) - .value 0x14 # Location expression size - .byte 0x9d # DW_OP_bit_piece - .uleb128 0x4 - .uleb128 0 + .value 0x10 # Location expression size .byte 0x56 # DW_OP_reg6 .byte 0x9d # DW_OP_bit_piece .uleb128 0xc @@ -1067,14 +1054,14 @@ .byte 0x9d # DW_OP_bit_piece .uleb128 0xc .uleb128 0 - .byte 0x9d # DW_OP_bit_piece - .uleb128 0x4 - .uleb128 0 + .byte 0x93 # DW_OP_piece + .uleb128 0x1 .long .LVL17-.Ltext0 # Location list begin address (*.LLST6) .long .LFE3-.Ltext0 # Location list end address (*.LLST6) .value 0xf # Location expression size - .byte 0x93 # DW_OP_piece - .uleb128 0x2 + .byte 0x9d # DW_OP_bit_piece + .uleb128 0xc + .uleb128 0 .byte 0x91 # DW_OP_fbreg .sleb128 0 .byte 0x94 # DW_OP_deref_size @@ -1085,9 +1072,8 @@ .byte 0x9d # DW_OP_bit_piece .uleb128 0xc .uleb128 0 - .byte 0x9d # DW_OP_bit_piece - .uleb128 0x4 - .uleb128 0 + .byte 0x93 # DW_OP_piece + .uleb128 0x1 .long 0 # Location list terminator begin (*.LLST6) .long 0 # Location list terminator end (*.LLST6) .LLST7: @@ -1356,7 +1342,7 @@ .long 0x48 # DW_AT_type .byte 0x4 # DW_AT_byte_size .byte 0xc # DW_AT_bit_size - .byte 0x10 # DW_AT_bit_offset + .byte 0x14 # DW_AT_bit_offset .byte 0x2 # DW_AT_data_member_location .byte 0x23 # DW_OP_plus_uconst .uleb128 0 @@ -1367,7 +1353,7 @@ .long 0x48 # DW_AT_type .byte 0x4 # DW_AT_byte_size .byte 0xc # DW_AT_bit_size - .byte 0x4 # DW_AT_bit_offset + .byte 0x8 # DW_AT_bit_offset .byte 0x2 # DW_AT_data_member_location .byte 0x23 # DW_OP_plus_uconst .uleb128 0 --- src/gdb/testsuite/gdb.dwarf2/pieces.c 2010/05/21 21:01:46 1.2 +++ src/gdb/testsuite/gdb.dwarf2/pieces.c 2010/05/21 21:13:13 1.3 @@ -21,7 +21,7 @@ However, it is used to extract breakpoint line numbers. */ struct A { int i; int j; }; -struct B { int : 4; int i : 12; int j : 12; int : 4; }; +struct B { int i : 12; int j : 12; int : 4; }; struct C { int i; int j; int q; }; __attribute__((noinline)) void @@ -89,7 +89,7 @@ f6 (int k) { int z = 23; - struct C a = { k, k, z}; + struct C a = { k, k, z }; asm ("" : "+r" (a.i)); a.j++; bar (a.i); --- src/gdb/testsuite/gdb.dwarf2/pieces.exp 2010/05/21 21:01:46 1.3 +++ src/gdb/testsuite/gdb.dwarf2/pieces.exp 2010/05/21 21:13:13 1.4 @@ -67,15 +67,30 @@ gdb_test "print a\[1\]" " = 14" "print a\[1\] in pieces:f2" } +# Function f3 tests DW_OP_bit_piece. +proc pieces_test_f3 {} { + global csrcfile + set line [gdb_get_line_number "f3 breakpoint" $csrcfile] + gdb_test "break pieces.c:$line" "Breakpoint 4.*" \ + "set f3 breakpoint for pieces" + gdb_continue_to_breakpoint "continue to f3 breakpoint for pieces" + gdb_test "print a.i" " = 4" "print a.i in pieces:f3" + gdb_test "print a.j" " = 14" "print a.j in pieces:f3" + # Right now gdb says "value optimized out" here, but that is wrong. + setup_kfail "no bug yet" *-*-* + gdb_test "print a.i = 7" " = 7" "set a.i in pieces:f3" + gdb_test "print a.i" " = 7" "print new a.i in pieces:f3" +} + # Function f6 tests for an empty DW_OP_piece. proc pieces_test_f6 {} { global csrcfile set line [gdb_get_line_number "f6 breakpoint" $csrcfile] - gdb_test "break pieces.c:$line" "Breakpoint 4.*" \ + gdb_test "break pieces.c:$line" "Breakpoint 5.*" \ "set f6 breakpoint for pieces" gdb_continue_to_breakpoint "continue to f6 breakpoint for pieces" gdb_test "print a" \ - "warning: bytes .* in computed object were.* = {i = 7, j = 8, q = 0}" \ + "warning: bits .* in computed object were.* = {i = 7, j = 8, q = 0}" \ "print a with optimized out piece" # Note: no warning for this case. gdb_test_multiple "print a.i" \ @@ -91,4 +106,5 @@ pieces_test_f1 pieces_test_f2 +pieces_test_f3 pieces_test_f6