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authorTom Tromey <tom@tromey.com>2017-10-07 18:23:36 -0600
committerTom Tromey <tom@tromey.com>2017-10-12 15:39:24 -0600
commitf7b7ed97a23e2bf4a2ec27bef0fe0af55a080a94 (patch)
treeacc18cc6b1f6d80ac75fa05c72204683b2940b03 /gdb
parent04ec7890fccfa5ddd9cc92961a4df58957ca181b (diff)
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C++-ify prologue-value's pv_area
This patch is an initial C++-ification of pv_area, from prologue-value. It turns pv_area into a class with a constructor and destructor; renames the data members; and changes various functions to be member functions. This allows the removal of make_cleanup_free_pv_area. gdb/ChangeLog 2017-10-12 Tom Tromey <tom@tromey.com> * s390-linux-tdep.c (s390_store, s390_load) (s390_check_for_saved, s390_analyze_prologue): Update. * rx-tdep.c (check_for_saved, rx_analyze_prologue): Update. * rl78-tdep.c (rl78_analyze_prologue, check_for_saved): Update. * prologue-value.h (class pv_area): Move from prologue-value.c. Change names of members. Add constructor, destructor, member functions. (make_pv_area, free_pv_area, make_cleanup_free_pv_area) (pv_area_store, pv_area_fetch, pv_area_store_would_trash) (pv_area_fetch, pv_area_scan): Don't declare. * prologue-value.c (struct pv_area::area_entry): Now member of pv_area. (struct pv_area): Move to prologue-value.h. (pv_area::pv_area): Rename from make_pv_area. (pv_area::~pv_area): Rename from free_pv_area. (do_free_pv_area_cleanup, make_cleanup_free_pv_area): Remove. (clear_entries, find_entry, overlaps, store_would_trash, store) (fetch, find_reg, scan): Now member of pv_area. Remove "area" argument. Update. * msp430-tdep.c (check_for_saved, msp430_analyze_prologue): Update. * mn10300-tdep.c (push_reg, check_for_saved) (mn10300_analyze_prologue): Update. * mep-tdep.c (is_arg_spill, check_for_saved) (mep_analyze_prologue): Update. * m32c-tdep.c (m32c_pv_push, m32c_srcdest_fetch) (m32c_srcdest_store, m32c_pv_enter, m32c_is_arg_spill) (m32c_is_struct_return, m32c_analyze_prologue): Update. * arm-tdep.c (thumb_analyze_prologue, arm_analyze_prologue): Update. * arc-tdep.c (arc_is_in_prologue, arc_analyze_prologue): Update. * aarch64-tdep.c (aarch64_analyze_prologue): Update.
Diffstat (limited to 'gdb')
-rw-r--r--gdb/ChangeLog35
-rw-r--r--gdb/aarch64-tdep.c41
-rw-r--r--gdb/arc-tdep.c32
-rw-r--r--gdb/arm-tdep.c73
-rw-r--r--gdb/m32c-tdep.c27
-rw-r--r--gdb/mep-tdep.c33
-rw-r--r--gdb/mn10300-tdep.c128
-rw-r--r--gdb/msp430-tdep.c17
-rw-r--r--gdb/prologue-value.c180
-rw-r--r--gdb/prologue-value.h183
-rw-r--r--gdb/rl78-tdep.c19
-rw-r--r--gdb/rx-tdep.c19
-rw-r--r--gdb/s390-linux-tdep.c18
13 files changed, 381 insertions, 424 deletions
diff --git a/gdb/ChangeLog b/gdb/ChangeLog
index 2126c33..31a9a26 100644
--- a/gdb/ChangeLog
+++ b/gdb/ChangeLog
@@ -1,3 +1,38 @@
+2017-10-12 Tom Tromey <tom@tromey.com>
+
+ * s390-linux-tdep.c (s390_store, s390_load)
+ (s390_check_for_saved, s390_analyze_prologue): Update.
+ * rx-tdep.c (check_for_saved, rx_analyze_prologue): Update.
+ * rl78-tdep.c (rl78_analyze_prologue, check_for_saved): Update.
+ * prologue-value.h (class pv_area): Move from prologue-value.c.
+ Change names of members. Add constructor, destructor, member
+ functions.
+ (make_pv_area, free_pv_area, make_cleanup_free_pv_area)
+ (pv_area_store, pv_area_fetch, pv_area_store_would_trash)
+ (pv_area_fetch, pv_area_scan): Don't declare.
+ * prologue-value.c (struct pv_area::area_entry): Now member of
+ pv_area.
+ (struct pv_area): Move to prologue-value.h.
+ (pv_area::pv_area): Rename from make_pv_area.
+ (pv_area::~pv_area): Rename from free_pv_area.
+ (do_free_pv_area_cleanup, make_cleanup_free_pv_area): Remove.
+ (clear_entries, find_entry, overlaps, store_would_trash, store)
+ (fetch, find_reg, scan): Now member of pv_area.
+ Remove "area" argument. Update.
+ * msp430-tdep.c (check_for_saved, msp430_analyze_prologue):
+ Update.
+ * mn10300-tdep.c (push_reg, check_for_saved)
+ (mn10300_analyze_prologue): Update.
+ * mep-tdep.c (is_arg_spill, check_for_saved)
+ (mep_analyze_prologue): Update.
+ * m32c-tdep.c (m32c_pv_push, m32c_srcdest_fetch)
+ (m32c_srcdest_store, m32c_pv_enter, m32c_is_arg_spill)
+ (m32c_is_struct_return, m32c_analyze_prologue): Update.
+ * arm-tdep.c (thumb_analyze_prologue, arm_analyze_prologue):
+ Update.
+ * arc-tdep.c (arc_is_in_prologue, arc_analyze_prologue): Update.
+ * aarch64-tdep.c (aarch64_analyze_prologue): Update.
+
2017-10-12 Simon Marchi <simon.marchi@ericsson.com>
* linux-nat.h (linux_nat_set_delete_thread): New declaration.
diff --git a/gdb/aarch64-tdep.c b/gdb/aarch64-tdep.c
index e74b7cd..a40dc69 100644
--- a/gdb/aarch64-tdep.c
+++ b/gdb/aarch64-tdep.c
@@ -234,13 +234,10 @@ aarch64_analyze_prologue (struct gdbarch *gdbarch,
int i;
/* Track X registers and D registers in prologue. */
pv_t regs[AARCH64_X_REGISTER_COUNT + AARCH64_D_REGISTER_COUNT];
- struct pv_area *stack;
- struct cleanup *back_to;
for (i = 0; i < AARCH64_X_REGISTER_COUNT + AARCH64_D_REGISTER_COUNT; i++)
regs[i] = pv_register (i, 0);
- stack = make_pv_area (AARCH64_SP_REGNUM, gdbarch_addr_bit (gdbarch));
- back_to = make_cleanup_free_pv_area (stack);
+ pv_area stack (AARCH64_SP_REGNUM, gdbarch_addr_bit (gdbarch));
for (; start < limit; start += 4)
{
@@ -345,9 +342,9 @@ aarch64_analyze_prologue (struct gdbarch *gdbarch,
gdb_assert (inst.operands[1].type == AARCH64_OPND_ADDR_SIMM9);
gdb_assert (!inst.operands[1].addr.offset.is_reg);
- pv_area_store (stack, pv_add_constant (regs[rn],
- inst.operands[1].addr.offset.imm),
- is64 ? 8 : 4, regs[rt]);
+ stack.store (pv_add_constant (regs[rn],
+ inst.operands[1].addr.offset.imm),
+ is64 ? 8 : 4, regs[rt]);
}
else if ((inst.opcode->iclass == ldstpair_off
|| (inst.opcode->iclass == ldstpair_indexed
@@ -370,12 +367,10 @@ aarch64_analyze_prologue (struct gdbarch *gdbarch,
/* If recording this store would invalidate the store area
(perhaps because rn is not known) then we should abandon
further prologue analysis. */
- if (pv_area_store_would_trash (stack,
- pv_add_constant (regs[rn], imm)))
+ if (stack.store_would_trash (pv_add_constant (regs[rn], imm)))
break;
- if (pv_area_store_would_trash (stack,
- pv_add_constant (regs[rn], imm + 8)))
+ if (stack.store_would_trash (pv_add_constant (regs[rn], imm + 8)))
break;
rt1 = inst.operands[0].reg.regno;
@@ -389,10 +384,10 @@ aarch64_analyze_prologue (struct gdbarch *gdbarch,
rt2 += AARCH64_X_REGISTER_COUNT;
}
- pv_area_store (stack, pv_add_constant (regs[rn], imm), 8,
- regs[rt1]);
- pv_area_store (stack, pv_add_constant (regs[rn], imm + 8), 8,
- regs[rt2]);
+ stack.store (pv_add_constant (regs[rn], imm), 8,
+ regs[rt1]);
+ stack.store (pv_add_constant (regs[rn], imm + 8), 8,
+ regs[rt2]);
if (inst.operands[2].addr.writeback)
regs[rn] = pv_add_constant (regs[rn], imm);
@@ -422,8 +417,8 @@ aarch64_analyze_prologue (struct gdbarch *gdbarch,
rt += AARCH64_X_REGISTER_COUNT;
}
- pv_area_store (stack, pv_add_constant (regs[rn], imm),
- is64 ? 8 : 4, regs[rt]);
+ stack.store (pv_add_constant (regs[rn], imm),
+ is64 ? 8 : 4, regs[rt]);
if (inst.operands[1].addr.writeback)
regs[rn] = pv_add_constant (regs[rn], imm);
}
@@ -445,10 +440,7 @@ aarch64_analyze_prologue (struct gdbarch *gdbarch,
}
if (cache == NULL)
- {
- do_cleanups (back_to);
- return start;
- }
+ return start;
if (pv_is_register (regs[AARCH64_FP_REGNUM], AARCH64_SP_REGNUM))
{
@@ -473,7 +465,7 @@ aarch64_analyze_prologue (struct gdbarch *gdbarch,
{
CORE_ADDR offset;
- if (pv_area_find_reg (stack, gdbarch, i, &offset))
+ if (stack.find_reg (gdbarch, i, &offset))
cache->saved_regs[i].addr = offset;
}
@@ -482,12 +474,11 @@ aarch64_analyze_prologue (struct gdbarch *gdbarch,
int regnum = gdbarch_num_regs (gdbarch);
CORE_ADDR offset;
- if (pv_area_find_reg (stack, gdbarch, i + AARCH64_X_REGISTER_COUNT,
- &offset))
+ if (stack.find_reg (gdbarch, i + AARCH64_X_REGISTER_COUNT,
+ &offset))
cache->saved_regs[i + regnum + AARCH64_D0_REGNUM].addr = offset;
}
- do_cleanups (back_to);
return start;
}
diff --git a/gdb/arc-tdep.c b/gdb/arc-tdep.c
index 6ff6ba3..9927910 100644
--- a/gdb/arc-tdep.c
+++ b/gdb/arc-tdep.c
@@ -1014,7 +1014,7 @@ arc_is_in_prologue (struct gdbarch *gdbarch, const struct arc_instruction &insn,
addr = pv_add_constant (regs[base_reg],
arc_insn_get_memory_offset (insn));
- if (pv_area_store_would_trash (stack, addr))
+ if (stack->store_would_trash (addr))
return false;
if (insn.data_size_mode != ARC_SCALING_D)
@@ -1031,7 +1031,7 @@ arc_is_in_prologue (struct gdbarch *gdbarch, const struct arc_instruction &insn,
else
size = ARC_REGISTER_SIZE;
- pv_area_store (stack, addr, size, store_value);
+ stack->store (addr, size, store_value);
}
else
{
@@ -1040,16 +1040,15 @@ arc_is_in_prologue (struct gdbarch *gdbarch, const struct arc_instruction &insn,
/* If this is a double store, than write N+1 register as well. */
pv_t store_value1 = regs[insn.operands[0].value];
pv_t store_value2 = regs[insn.operands[0].value + 1];
- pv_area_store (stack, addr, ARC_REGISTER_SIZE, store_value1);
- pv_area_store (stack,
- pv_add_constant (addr, ARC_REGISTER_SIZE),
- ARC_REGISTER_SIZE, store_value2);
+ stack->store (addr, ARC_REGISTER_SIZE, store_value1);
+ stack->store (pv_add_constant (addr, ARC_REGISTER_SIZE),
+ ARC_REGISTER_SIZE, store_value2);
}
else
{
pv_t store_value
= pv_constant (arc_insn_get_operand_value (insn, 0));
- pv_area_store (stack, addr, ARC_REGISTER_SIZE * 2, store_value);
+ stack->store (addr, ARC_REGISTER_SIZE * 2, store_value);
}
}
@@ -1136,7 +1135,7 @@ arc_is_in_prologue (struct gdbarch *gdbarch, const struct arc_instruction &insn,
/* Assume that if the last register (closest to new SP) can be written,
then it is possible to write all of them. */
- if (pv_area_store_would_trash (stack, new_sp))
+ if (stack->store_would_trash (new_sp))
return false;
/* Current store address. */
@@ -1145,21 +1144,21 @@ arc_is_in_prologue (struct gdbarch *gdbarch, const struct arc_instruction &insn,
if (is_fp_saved)
{
addr = pv_add_constant (addr, -ARC_REGISTER_SIZE);
- pv_area_store (stack, addr, ARC_REGISTER_SIZE, regs[ARC_FP_REGNUM]);
+ stack->store (addr, ARC_REGISTER_SIZE, regs[ARC_FP_REGNUM]);
}
/* Registers are stored in backward order: from GP (R26) to R13. */
for (int i = ARC_R13_REGNUM + regs_saved - 1; i >= ARC_R13_REGNUM; i--)
{
addr = pv_add_constant (addr, -ARC_REGISTER_SIZE);
- pv_area_store (stack, addr, ARC_REGISTER_SIZE, regs[i]);
+ stack->store (addr, ARC_REGISTER_SIZE, regs[i]);
}
if (is_blink_saved)
{
addr = pv_add_constant (addr, -ARC_REGISTER_SIZE);
- pv_area_store (stack, addr, ARC_REGISTER_SIZE,
- regs[ARC_BLINK_REGNUM]);
+ stack->store (addr, ARC_REGISTER_SIZE,
+ regs[ARC_BLINK_REGNUM]);
}
gdb_assert (pv_is_identical (addr, new_sp));
@@ -1271,9 +1270,7 @@ arc_analyze_prologue (struct gdbarch *gdbarch, const CORE_ADDR entrypoint,
pv_t regs[ARC_LAST_CORE_REGNUM + 1];
for (int i = 0; i <= ARC_LAST_CORE_REGNUM; i++)
regs[i] = pv_register (i, 0);
- struct pv_area *stack = make_pv_area (ARC_SP_REGNUM,
- gdbarch_addr_bit (gdbarch));
- struct cleanup *back_to = make_cleanup_free_pv_area (stack);
+ pv_area stack (ARC_SP_REGNUM, gdbarch_addr_bit (gdbarch));
CORE_ADDR current_prologue_end = entrypoint;
@@ -1290,7 +1287,7 @@ arc_analyze_prologue (struct gdbarch *gdbarch, const CORE_ADDR entrypoint,
/* If this instruction is in the prologue, fields in the cache will be
updated, and the saved registers mask may be updated. */
- if (!arc_is_in_prologue (gdbarch, insn, regs, stack))
+ if (!arc_is_in_prologue (gdbarch, insn, regs, &stack))
{
/* Found an instruction that is not in the prologue. */
if (arc_debug)
@@ -1320,12 +1317,11 @@ arc_analyze_prologue (struct gdbarch *gdbarch, const CORE_ADDR entrypoint,
for (int i = 0; i <= ARC_LAST_CORE_REGNUM; i++)
{
CORE_ADDR offset;
- if (pv_area_find_reg (stack, gdbarch, i, &offset))
+ if (stack.find_reg (gdbarch, i, &offset))
cache->saved_regs[i].addr = offset;
}
}
- do_cleanups (back_to);
return current_prologue_end;
}
diff --git a/gdb/arm-tdep.c b/gdb/arm-tdep.c
index f760b61..960696d 100644
--- a/gdb/arm-tdep.c
+++ b/gdb/arm-tdep.c
@@ -647,15 +647,12 @@ thumb_analyze_prologue (struct gdbarch *gdbarch,
enum bfd_endian byte_order_for_code = gdbarch_byte_order_for_code (gdbarch);
int i;
pv_t regs[16];
- struct pv_area *stack;
- struct cleanup *back_to;
CORE_ADDR offset;
CORE_ADDR unrecognized_pc = 0;
for (i = 0; i < 16; i++)
regs[i] = pv_register (i, 0);
- stack = make_pv_area (ARM_SP_REGNUM, gdbarch_addr_bit (gdbarch));
- back_to = make_cleanup_free_pv_area (stack);
+ pv_area stack (ARM_SP_REGNUM, gdbarch_addr_bit (gdbarch));
while (start < limit)
{
@@ -668,7 +665,7 @@ thumb_analyze_prologue (struct gdbarch *gdbarch,
int regno;
int mask;
- if (pv_area_store_would_trash (stack, regs[ARM_SP_REGNUM]))
+ if (stack.store_would_trash (regs[ARM_SP_REGNUM]))
break;
/* Bits 0-7 contain a mask for registers R0-R7. Bit 8 says
@@ -681,7 +678,7 @@ thumb_analyze_prologue (struct gdbarch *gdbarch,
{
regs[ARM_SP_REGNUM] = pv_add_constant (regs[ARM_SP_REGNUM],
-4);
- pv_area_store (stack, regs[ARM_SP_REGNUM], 4, regs[regno]);
+ stack.store (regs[ARM_SP_REGNUM], 4, regs[regno]);
}
}
else if ((insn & 0xff80) == 0xb080) /* sub sp, #imm */
@@ -735,10 +732,10 @@ thumb_analyze_prologue (struct gdbarch *gdbarch,
offset = (insn & 0xff) << 2;
addr = pv_add_constant (regs[ARM_SP_REGNUM], offset);
- if (pv_area_store_would_trash (stack, addr))
+ if (stack.store_would_trash (addr))
break;
- pv_area_store (stack, addr, 4, regs[regno]);
+ stack.store (addr, 4, regs[regno]);
}
else if ((insn & 0xf800) == 0x6000) /* str rd, [rn, #off] */
{
@@ -749,10 +746,10 @@ thumb_analyze_prologue (struct gdbarch *gdbarch,
offset = bits (insn, 6, 10) << 2;
addr = pv_add_constant (regs[rn], offset);
- if (pv_area_store_would_trash (stack, addr))
+ if (stack.store_would_trash (addr))
break;
- pv_area_store (stack, addr, 4, regs[rd]);
+ stack.store (addr, 4, regs[rd]);
}
else if (((insn & 0xf800) == 0x7000 /* strb Rd, [Rn, #off] */
|| (insn & 0xf800) == 0x8000) /* strh Rd, [Rn, #off] */
@@ -828,7 +825,7 @@ thumb_analyze_prologue (struct gdbarch *gdbarch,
pv_t addr = regs[bits (insn, 0, 3)];
int regno;
- if (pv_area_store_would_trash (stack, addr))
+ if (stack.store_would_trash (addr))
break;
/* Calculate offsets of saved registers. */
@@ -836,7 +833,7 @@ thumb_analyze_prologue (struct gdbarch *gdbarch,
if (inst2 & (1 << regno))
{
addr = pv_add_constant (addr, -4);
- pv_area_store (stack, addr, 4, regs[regno]);
+ stack.store (addr, 4, regs[regno]);
}
if (insn & 0x0020)
@@ -857,12 +854,12 @@ thumb_analyze_prologue (struct gdbarch *gdbarch,
else
addr = pv_add_constant (addr, -offset);
- if (pv_area_store_would_trash (stack, addr))
+ if (stack.store_would_trash (addr))
break;
- pv_area_store (stack, addr, 4, regs[regno1]);
- pv_area_store (stack, pv_add_constant (addr, 4),
- 4, regs[regno2]);
+ stack.store (addr, 4, regs[regno1]);
+ stack.store (pv_add_constant (addr, 4),
+ 4, regs[regno2]);
if (insn & 0x0020)
regs[bits (insn, 0, 3)] = addr;
@@ -881,10 +878,10 @@ thumb_analyze_prologue (struct gdbarch *gdbarch,
else
addr = pv_add_constant (addr, -offset);
- if (pv_area_store_would_trash (stack, addr))
+ if (stack.store_would_trash (addr))
break;
- pv_area_store (stack, addr, 4, regs[regno]);
+ stack.store (addr, 4, regs[regno]);
if (inst2 & 0x0100)
regs[bits (insn, 0, 3)] = addr;
@@ -899,10 +896,10 @@ thumb_analyze_prologue (struct gdbarch *gdbarch,
offset = inst2 & 0xfff;
addr = pv_add_constant (regs[bits (insn, 0, 3)], offset);
- if (pv_area_store_would_trash (stack, addr))
+ if (stack.store_would_trash (addr))
break;
- pv_area_store (stack, addr, 4, regs[regno]);
+ stack.store (addr, 4, regs[regno]);
}
else if ((insn & 0xffd0) == 0xf880 /* str{bh}.w Rt,[Rn,#imm] */
@@ -1085,10 +1082,7 @@ thumb_analyze_prologue (struct gdbarch *gdbarch,
unrecognized_pc = start;
if (cache == NULL)
- {
- do_cleanups (back_to);
- return unrecognized_pc;
- }
+ return unrecognized_pc;
if (pv_is_register (regs[ARM_FP_REGNUM], ARM_SP_REGNUM))
{
@@ -1110,10 +1104,9 @@ thumb_analyze_prologue (struct gdbarch *gdbarch,
}
for (i = 0; i < 16; i++)
- if (pv_area_find_reg (stack, gdbarch, i, &offset))
+ if (stack.find_reg (gdbarch, i, &offset))
cache->saved_regs[i].addr = offset;
- do_cleanups (back_to);
return unrecognized_pc;
}
@@ -1489,8 +1482,6 @@ arm_analyze_prologue (struct gdbarch *gdbarch,
int regno;
CORE_ADDR offset, current_pc;
pv_t regs[ARM_FPS_REGNUM];
- struct pv_area *stack;
- struct cleanup *back_to;
CORE_ADDR unrecognized_pc = 0;
/* Search the prologue looking for instructions that set up the
@@ -1505,8 +1496,7 @@ arm_analyze_prologue (struct gdbarch *gdbarch,
for (regno = 0; regno < ARM_FPS_REGNUM; regno++)
regs[regno] = pv_register (regno, 0);
- stack = make_pv_area (ARM_SP_REGNUM, gdbarch_addr_bit (gdbarch));
- back_to = make_cleanup_free_pv_area (stack);
+ pv_area stack (ARM_SP_REGNUM, gdbarch_addr_bit (gdbarch));
for (current_pc = prologue_start;
current_pc < prologue_end;
@@ -1543,11 +1533,11 @@ arm_analyze_prologue (struct gdbarch *gdbarch,
else if ((insn & 0xffff0fff) == 0xe52d0004) /* str Rd,
[sp, #-4]! */
{
- if (pv_area_store_would_trash (stack, regs[ARM_SP_REGNUM]))
+ if (stack.store_would_trash (regs[ARM_SP_REGNUM]))
break;
regs[ARM_SP_REGNUM] = pv_add_constant (regs[ARM_SP_REGNUM], -4);
- pv_area_store (stack, regs[ARM_SP_REGNUM], 4,
- regs[bits (insn, 12, 15)]);
+ stack.store (regs[ARM_SP_REGNUM], 4,
+ regs[bits (insn, 12, 15)]);
continue;
}
else if ((insn & 0xffff0000) == 0xe92d0000)
@@ -1557,7 +1547,7 @@ arm_analyze_prologue (struct gdbarch *gdbarch,
{
int mask = insn & 0xffff;
- if (pv_area_store_would_trash (stack, regs[ARM_SP_REGNUM]))
+ if (stack.store_would_trash (regs[ARM_SP_REGNUM]))
break;
/* Calculate offsets of saved registers. */
@@ -1566,7 +1556,7 @@ arm_analyze_prologue (struct gdbarch *gdbarch,
{
regs[ARM_SP_REGNUM]
= pv_add_constant (regs[ARM_SP_REGNUM], -4);
- pv_area_store (stack, regs[ARM_SP_REGNUM], 4, regs[regno]);
+ stack.store (regs[ARM_SP_REGNUM], 4, regs[regno]);
}
}
else if ((insn & 0xffff0000) == 0xe54b0000 /* strb rx,[r11,#-n] */
@@ -1608,12 +1598,12 @@ arm_analyze_prologue (struct gdbarch *gdbarch,
[sp, -#c]! */
&& gdbarch_tdep (gdbarch)->have_fpa_registers)
{
- if (pv_area_store_would_trash (stack, regs[ARM_SP_REGNUM]))
+ if (stack.store_would_trash (regs[ARM_SP_REGNUM]))
break;
regs[ARM_SP_REGNUM] = pv_add_constant (regs[ARM_SP_REGNUM], -12);
regno = ARM_F0_REGNUM + ((insn >> 12) & 0x07);
- pv_area_store (stack, regs[ARM_SP_REGNUM], 12, regs[regno]);
+ stack.store (regs[ARM_SP_REGNUM], 12, regs[regno]);
}
else if ((insn & 0xffbf0fff) == 0xec2d0200 /* sfmfd f0, 4,
[sp!] */
@@ -1622,7 +1612,7 @@ arm_analyze_prologue (struct gdbarch *gdbarch,
int n_saved_fp_regs;
unsigned int fp_start_reg, fp_bound_reg;
- if (pv_area_store_would_trash (stack, regs[ARM_SP_REGNUM]))
+ if (stack.store_would_trash (regs[ARM_SP_REGNUM]))
break;
if ((insn & 0x800) == 0x800) /* N0 is set */
@@ -1645,8 +1635,8 @@ arm_analyze_prologue (struct gdbarch *gdbarch,
for (; fp_start_reg < fp_bound_reg; fp_start_reg++)
{
regs[ARM_SP_REGNUM] = pv_add_constant (regs[ARM_SP_REGNUM], -12);
- pv_area_store (stack, regs[ARM_SP_REGNUM], 12,
- regs[fp_start_reg++]);
+ stack.store (regs[ARM_SP_REGNUM], 12,
+ regs[fp_start_reg++]);
}
}
else if ((insn & 0xff000000) == 0xeb000000 && cache == NULL) /* bl */
@@ -1726,7 +1716,7 @@ arm_analyze_prologue (struct gdbarch *gdbarch,
cache->framesize = framesize;
for (regno = 0; regno < ARM_FPS_REGNUM; regno++)
- if (pv_area_find_reg (stack, gdbarch, regno, &offset))
+ if (stack.find_reg (gdbarch, regno, &offset))
cache->saved_regs[regno].addr = offset;
}
@@ -1734,7 +1724,6 @@ arm_analyze_prologue (struct gdbarch *gdbarch,
fprintf_unfiltered (gdb_stdlog, "Prologue scan stopped at %s\n",
paddress (gdbarch, unrecognized_pc));
- do_cleanups (back_to);
return unrecognized_pc;
}
diff --git a/gdb/m32c-tdep.c b/gdb/m32c-tdep.c
index 3a4dbda..39f9ec0 100644
--- a/gdb/m32c-tdep.c
+++ b/gdb/m32c-tdep.c
@@ -1079,11 +1079,11 @@ struct m32c_pv_state
static int
m32c_pv_push (struct m32c_pv_state *state, pv_t value, int size)
{
- if (pv_area_store_would_trash (state->stack, state->sp))
+ if (state->stack->store_would_trash (state->sp))
return 1;
state->sp = pv_add_constant (state->sp, -size);
- pv_area_store (state->stack, state->sp, size, value);
+ state->stack->store (state->sp, size, value);
return 0;
}
@@ -1114,7 +1114,7 @@ static pv_t
m32c_srcdest_fetch (struct m32c_pv_state *state, struct srcdest loc, int size)
{
if (loc.kind == srcdest_mem)
- return pv_area_fetch (state->stack, loc.addr, size);
+ return state->stack->fetch (loc.addr, size);
else if (loc.kind == srcdest_partial_reg)
return pv_unknown ();
else
@@ -1131,9 +1131,9 @@ m32c_srcdest_store (struct m32c_pv_state *state, struct srcdest loc,
{
if (loc.kind == srcdest_mem)
{
- if (pv_area_store_would_trash (state->stack, loc.addr))
+ if (state->stack->store_would_trash (loc.addr))
return 1;
- pv_area_store (state->stack, loc.addr, size, value);
+ state->stack->store (loc.addr, size, value);
}
else if (loc.kind == srcdest_partial_reg)
*loc.reg = pv_unknown ();
@@ -1350,7 +1350,7 @@ m32c_pv_enter (struct m32c_pv_state *state, int size)
/* If simulating this store would require us to forget
everything we know about the stack frame in the name of
accuracy, it would be better to just quit now. */
- if (pv_area_store_would_trash (state->stack, state->sp))
+ if (state->stack->store_would_trash (state->sp))
return 1;
if (m32c_pv_push (state, state->fb, tdep->push_addr_bytes))
@@ -1441,7 +1441,7 @@ m32c_is_arg_spill (struct m32c_pv_state *st,
return (m32c_is_arg_reg (st, value)
&& loc.kind == srcdest_mem
&& pv_is_register (loc.addr, tdep->sp->num)
- && ! pv_area_find_reg (st->stack, st->arch, value.reg, 0));
+ && ! st->stack->find_reg (st->arch, value.reg, 0));
}
/* Return non-zero if a store of VALUE to LOC is probably
@@ -1462,7 +1462,7 @@ m32c_is_struct_return (struct m32c_pv_state *st,
struct gdbarch_tdep *tdep = gdbarch_tdep (st->arch);
return (m32c_is_1st_arg_reg (st, value)
- && !pv_area_find_reg (st->stack, st->arch, value.reg, 0)
+ && !st->stack->find_reg (st->arch, value.reg, 0)
&& loc.kind == srcdest_reg
&& (pv_is_register (*loc.reg, tdep->a0->num)
|| pv_is_register (*loc.reg, tdep->a1->num)));
@@ -1493,7 +1493,7 @@ m32c_pushm_is_reg_save (struct m32c_pv_state *st, int src)
/* Function for finding saved registers in a 'struct pv_area'; we pass
- this to pv_area_scan.
+ this to pv_area::scan.
If VALUE is a saved register, ADDR says it was saved at a constant
offset from the frame base, and SIZE indicates that the whole
@@ -1546,7 +1546,6 @@ m32c_analyze_prologue (struct gdbarch *arch,
struct gdbarch_tdep *tdep = gdbarch_tdep (arch);
unsigned long mach = gdbarch_bfd_arch_info (arch)->mach;
CORE_ADDR after_last_frame_related_insn;
- struct cleanup *back_to;
struct m32c_pv_state st;
st.arch = arch;
@@ -1560,8 +1559,8 @@ m32c_analyze_prologue (struct gdbarch *arch,
st.fb = pv_register (tdep->fb->num, 0);
st.sp = pv_register (tdep->sp->num, 0);
st.pc = pv_register (tdep->pc->num, 0);
- st.stack = make_pv_area (tdep->sp->num, gdbarch_addr_bit (arch));
- back_to = make_cleanup_free_pv_area (st.stack);
+ pv_area stack (tdep->sp->num, gdbarch_addr_bit (arch));
+ st.stack = &stack;
/* Record that the call instruction has saved the return address on
the stack. */
@@ -1812,11 +1811,9 @@ m32c_analyze_prologue (struct gdbarch *arch,
prologue->kind = prologue_first_frame;
/* Record where all the registers were saved. */
- pv_area_scan (st.stack, check_for_saved, (void *) prologue);
+ st.stack->scan (check_for_saved, (void *) prologue);
prologue->prologue_end = after_last_frame_related_insn;
-
- do_cleanups (back_to);
}
diff --git a/gdb/mep-tdep.c b/gdb/mep-tdep.c
index 623ab7f..bf08ca1 100644
--- a/gdb/mep-tdep.c
+++ b/gdb/mep-tdep.c
@@ -1640,12 +1640,12 @@ is_arg_spill (struct gdbarch *gdbarch, pv_t value, pv_t addr,
{
return (is_arg_reg (value)
&& pv_is_register (addr, MEP_SP_REGNUM)
- && ! pv_area_find_reg (stack, gdbarch, value.reg, 0));
+ && ! stack->find_reg (gdbarch, value.reg, 0));
}
/* Function for finding saved registers in a 'struct pv_area'; we pass
- this to pv_area_scan.
+ this to pv_area::scan.
If VALUE is a saved register, ADDR says it was saved at a constant
offset from the frame base, and SIZE indicates that the whole
@@ -1675,8 +1675,6 @@ mep_analyze_prologue (struct gdbarch *gdbarch,
int rn;
int found_lp = 0;
pv_t reg[MEP_NUM_REGS];
- struct pv_area *stack;
- struct cleanup *back_to;
CORE_ADDR after_last_frame_setup_insn = start_pc;
memset (result, 0, sizeof (*result));
@@ -1688,8 +1686,7 @@ mep_analyze_prologue (struct gdbarch *gdbarch,
result->reg_offset[rn] = 1;
}
- stack = make_pv_area (MEP_SP_REGNUM, gdbarch_addr_bit (gdbarch));
- back_to = make_cleanup_free_pv_area (stack);
+ pv_area stack (MEP_SP_REGNUM, gdbarch_addr_bit (gdbarch));
pc = start_pc;
while (pc < limit_pc)
@@ -1741,13 +1738,13 @@ mep_analyze_prologue (struct gdbarch *gdbarch,
/* If simulating this store would require us to forget
everything we know about the stack frame in the name of
accuracy, it would be better to just quit now. */
- if (pv_area_store_would_trash (stack, reg[rm]))
+ if (stack.store_would_trash (reg[rm]))
break;
- if (is_arg_spill (gdbarch, reg[rn], reg[rm], stack))
+ if (is_arg_spill (gdbarch, reg[rn], reg[rm], &stack))
after_last_frame_setup_insn = next_pc;
- pv_area_store (stack, reg[rm], 4, reg[rn]);
+ stack.store (reg[rm], 4, reg[rn]);
}
else if (IS_SW_IMMD (insn))
{
@@ -1758,13 +1755,13 @@ mep_analyze_prologue (struct gdbarch *gdbarch,
/* If simulating this store would require us to forget
everything we know about the stack frame in the name of
accuracy, it would be better to just quit now. */
- if (pv_area_store_would_trash (stack, addr))
+ if (stack.store_would_trash (addr))
break;
- if (is_arg_spill (gdbarch, reg[rn], addr, stack))
+ if (is_arg_spill (gdbarch, reg[rn], addr, &stack))
after_last_frame_setup_insn = next_pc;
- pv_area_store (stack, addr, 4, reg[rn]);
+ stack.store (addr, 4, reg[rn]);
}
else if (IS_MOV (insn))
{
@@ -1786,13 +1783,13 @@ mep_analyze_prologue (struct gdbarch *gdbarch,
: (gdb_assert (IS_SW (insn)), 4));
pv_t addr = pv_add_constant (reg[rm], disp);
- if (pv_area_store_would_trash (stack, addr))
+ if (stack.store_would_trash (addr))
break;
- if (is_arg_spill (gdbarch, reg[rn], addr, stack))
+ if (is_arg_spill (gdbarch, reg[rn], addr, &stack))
after_last_frame_setup_insn = next_pc;
- pv_area_store (stack, addr, size, reg[rn]);
+ stack.store (addr, size, reg[rn]);
}
else if (IS_LDC (insn))
{
@@ -1808,7 +1805,7 @@ mep_analyze_prologue (struct gdbarch *gdbarch,
int offset = LW_OFFSET (insn);
pv_t addr = pv_add_constant (reg[rm], offset);
- reg[rn] = pv_area_fetch (stack, addr, 4);
+ reg[rn] = stack.fetch (addr, 4);
}
else if (IS_BRA (insn) && BRA_DISP (insn) > 0)
{
@@ -1887,11 +1884,9 @@ mep_analyze_prologue (struct gdbarch *gdbarch,
}
/* Record where all the registers were saved. */
- pv_area_scan (stack, check_for_saved, (void *) result);
+ stack.scan (check_for_saved, (void *) result);
result->prologue_end = after_last_frame_setup_insn;
-
- do_cleanups (back_to);
}
diff --git a/gdb/mn10300-tdep.c b/gdb/mn10300-tdep.c
index 7b21e4f..eadbbb3 100644
--- a/gdb/mn10300-tdep.c
+++ b/gdb/mn10300-tdep.c
@@ -337,7 +337,7 @@ static void
push_reg (pv_t *regs, struct pv_area *stack, int regnum)
{
regs[E_SP_REGNUM] = pv_add_constant (regs[E_SP_REGNUM], -4);
- pv_area_store (stack, regs[E_SP_REGNUM], 4, regs[regnum]);
+ stack->store (regs[E_SP_REGNUM], 4, regs[regnum]);
}
/* Translate an "r" register number extracted from an instruction encoding
@@ -356,7 +356,7 @@ translate_rreg (int rreg)
return E_E0_REGNUM + rreg;
}
-/* Find saved registers in a 'struct pv_area'; we pass this to pv_area_scan.
+/* Find saved registers in a 'struct pv_area'; we pass this to pv_area::scan.
If VALUE is a saved register, ADDR says it was saved at a constant
offset from the frame base, and SIZE indicates that the whole
@@ -386,8 +386,6 @@ mn10300_analyze_prologue (struct gdbarch *gdbarch,
CORE_ADDR pc;
int rn;
pv_t regs[MN10300_MAX_NUM_REGS];
- struct pv_area *stack;
- struct cleanup *back_to;
CORE_ADDR after_last_frame_setup_insn = start_pc;
int am33_mode = AM33_MODE (gdbarch);
@@ -399,16 +397,15 @@ mn10300_analyze_prologue (struct gdbarch *gdbarch,
regs[rn] = pv_register (rn, 0);
result->reg_offset[rn] = 1;
}
- stack = make_pv_area (E_SP_REGNUM, gdbarch_addr_bit (gdbarch));
- back_to = make_cleanup_free_pv_area (stack);
+ pv_area stack (E_SP_REGNUM, gdbarch_addr_bit (gdbarch));
- /* The typical call instruction will have saved the return address on the
- stack. Space for the return address has already been preallocated in
- the caller's frame. It's possible, such as when using -mrelax with gcc
- that other registers were saved as well. If this happens, we really
- have no chance of deciphering the frame. DWARF info can save the day
- when this happens. */
- pv_area_store (stack, regs[E_SP_REGNUM], 4, regs[E_PC_REGNUM]);
+ /* The typical call instruction will have saved the return address on the
+ stack. Space for the return address has already been preallocated in
+ the caller's frame. It's possible, such as when using -mrelax with gcc
+ that other registers were saved as well. If this happens, we really
+ have no chance of deciphering the frame. DWARF info can save the day
+ when this happens. */
+ stack.store (regs[E_SP_REGNUM], 4, regs[E_PC_REGNUM]);
pc = start_pc;
while (pc < limit_pc)
@@ -432,42 +429,42 @@ mn10300_analyze_prologue (struct gdbarch *gdbarch,
if ((save_mask & movm_exreg0_bit) && am33_mode)
{
- push_reg (regs, stack, E_E2_REGNUM);
- push_reg (regs, stack, E_E3_REGNUM);
+ push_reg (regs, &stack, E_E2_REGNUM);
+ push_reg (regs, &stack, E_E3_REGNUM);
}
if ((save_mask & movm_exreg1_bit) && am33_mode)
{
- push_reg (regs, stack, E_E4_REGNUM);
- push_reg (regs, stack, E_E5_REGNUM);
- push_reg (regs, stack, E_E6_REGNUM);
- push_reg (regs, stack, E_E7_REGNUM);
+ push_reg (regs, &stack, E_E4_REGNUM);
+ push_reg (regs, &stack, E_E5_REGNUM);
+ push_reg (regs, &stack, E_E6_REGNUM);
+ push_reg (regs, &stack, E_E7_REGNUM);
}
if ((save_mask & movm_exother_bit) && am33_mode)
{
- push_reg (regs, stack, E_E0_REGNUM);
- push_reg (regs, stack, E_E1_REGNUM);
- push_reg (regs, stack, E_MDRQ_REGNUM);
- push_reg (regs, stack, E_MCRH_REGNUM);
- push_reg (regs, stack, E_MCRL_REGNUM);
- push_reg (regs, stack, E_MCVF_REGNUM);
+ push_reg (regs, &stack, E_E0_REGNUM);
+ push_reg (regs, &stack, E_E1_REGNUM);
+ push_reg (regs, &stack, E_MDRQ_REGNUM);
+ push_reg (regs, &stack, E_MCRH_REGNUM);
+ push_reg (regs, &stack, E_MCRL_REGNUM);
+ push_reg (regs, &stack, E_MCVF_REGNUM);
}
if (save_mask & movm_d2_bit)
- push_reg (regs, stack, E_D2_REGNUM);
+ push_reg (regs, &stack, E_D2_REGNUM);
if (save_mask & movm_d3_bit)
- push_reg (regs, stack, E_D3_REGNUM);
+ push_reg (regs, &stack, E_D3_REGNUM);
if (save_mask & movm_a2_bit)
- push_reg (regs, stack, E_A2_REGNUM);
+ push_reg (regs, &stack, E_A2_REGNUM);
if (save_mask & movm_a3_bit)
- push_reg (regs, stack, E_A3_REGNUM);
+ push_reg (regs, &stack, E_A3_REGNUM);
if (save_mask & movm_other_bit)
{
- push_reg (regs, stack, E_D0_REGNUM);
- push_reg (regs, stack, E_D1_REGNUM);
- push_reg (regs, stack, E_A0_REGNUM);
- push_reg (regs, stack, E_A1_REGNUM);
- push_reg (regs, stack, E_MDR_REGNUM);
- push_reg (regs, stack, E_LIR_REGNUM);
- push_reg (regs, stack, E_LAR_REGNUM);
+ push_reg (regs, &stack, E_D0_REGNUM);
+ push_reg (regs, &stack, E_D1_REGNUM);
+ push_reg (regs, &stack, E_A0_REGNUM);
+ push_reg (regs, &stack, E_A1_REGNUM);
+ push_reg (regs, &stack, E_MDR_REGNUM);
+ push_reg (regs, &stack, E_LIR_REGNUM);
+ push_reg (regs, &stack, E_LAR_REGNUM);
/* The `other' bit leaves a blank area of four bytes at
the beginning of its block of saved registers, making
it 32 bytes long in total. */
@@ -653,8 +650,8 @@ mn10300_analyze_prologue (struct gdbarch *gdbarch,
rN = buf[0] & 0x0f;
fsM = (Y << 4) | sM;
- pv_area_store (stack, regs[translate_rreg (rN)], 4,
- regs[E_FS0_REGNUM + fsM]);
+ stack.store (regs[translate_rreg (rN)], 4,
+ regs[E_FS0_REGNUM + fsM]);
pc += 3;
}
@@ -673,8 +670,8 @@ mn10300_analyze_prologue (struct gdbarch *gdbarch,
sM = (buf[0] & 0xf0) >> 4;
fsM = (Y << 4) | sM;
- pv_area_store (stack, regs[E_SP_REGNUM], 4,
- regs[E_FS0_REGNUM + fsM]);
+ stack.store (regs[E_SP_REGNUM], 4,
+ regs[E_FS0_REGNUM + fsM]);
pc += 3;
}
@@ -695,10 +692,9 @@ mn10300_analyze_prologue (struct gdbarch *gdbarch,
Z = (buf[1] & 0x02) >> 1;
fsM = (Z << 4) | sM;
- pv_area_store (stack,
- pv_add (regs[translate_rreg (rN)],
- regs[translate_rreg (rI)]),
- 4, regs[E_FS0_REGNUM + fsM]);
+ stack.store (pv_add (regs[translate_rreg (rN)],
+ regs[translate_rreg (rI)]),
+ 4, regs[E_FS0_REGNUM + fsM]);
pc += 4;
}
@@ -720,9 +716,8 @@ mn10300_analyze_prologue (struct gdbarch *gdbarch,
fsM = (Y << 4) | sM;
d8 = extract_signed_integer (&buf[1], 1, byte_order);
- pv_area_store (stack,
- pv_add_constant (regs[translate_rreg (rN)], d8),
- 4, regs[E_FS0_REGNUM + fsM]);
+ stack.store (pv_add_constant (regs[translate_rreg (rN)], d8),
+ 4, regs[E_FS0_REGNUM + fsM]);
pc += 4;
}
@@ -744,9 +739,8 @@ mn10300_analyze_prologue (struct gdbarch *gdbarch,
fsM = (Y << 4) | sM;
d24 = extract_signed_integer (&buf[1], 3, byte_order);
- pv_area_store (stack,
- pv_add_constant (regs[translate_rreg (rN)], d24),
- 4, regs[E_FS0_REGNUM + fsM]);
+ stack.store (pv_add_constant (regs[translate_rreg (rN)], d24),
+ 4, regs[E_FS0_REGNUM + fsM]);
pc += 6;
}
@@ -768,9 +762,8 @@ mn10300_analyze_prologue (struct gdbarch *gdbarch,
fsM = (Y << 4) | sM;
d32 = extract_signed_integer (&buf[1], 4, byte_order);
- pv_area_store (stack,
- pv_add_constant (regs[translate_rreg (rN)], d32),
- 4, regs[E_FS0_REGNUM + fsM]);
+ stack.store (pv_add_constant (regs[translate_rreg (rN)], d32),
+ 4, regs[E_FS0_REGNUM + fsM]);
pc += 7;
}
@@ -791,9 +784,8 @@ mn10300_analyze_prologue (struct gdbarch *gdbarch,
fsM = (Y << 4) | sM;
d8 = extract_signed_integer (&buf[1], 1, byte_order);
- pv_area_store (stack,
- pv_add_constant (regs[E_SP_REGNUM], d8),
- 4, regs[E_FS0_REGNUM + fsM]);
+ stack.store (pv_add_constant (regs[E_SP_REGNUM], d8),
+ 4, regs[E_FS0_REGNUM + fsM]);
pc += 4;
}
@@ -814,9 +806,8 @@ mn10300_analyze_prologue (struct gdbarch *gdbarch,
fsM = (Y << 4) | sM;
d24 = extract_signed_integer (&buf[1], 3, byte_order);
- pv_area_store (stack,
- pv_add_constant (regs[E_SP_REGNUM], d24),
- 4, regs[E_FS0_REGNUM + fsM]);
+ stack.store (pv_add_constant (regs[E_SP_REGNUM], d24),
+ 4, regs[E_FS0_REGNUM + fsM]);
pc += 6;
}
@@ -837,9 +828,8 @@ mn10300_analyze_prologue (struct gdbarch *gdbarch,
fsM = (Y << 4) | sM;
d32 = extract_signed_integer (&buf[1], 4, byte_order);
- pv_area_store (stack,
- pv_add_constant (regs[E_SP_REGNUM], d32),
- 4, regs[E_FS0_REGNUM + fsM]);
+ stack.store (pv_add_constant (regs[E_SP_REGNUM], d32),
+ 4, regs[E_FS0_REGNUM + fsM]);
pc += 7;
}
@@ -861,8 +851,8 @@ mn10300_analyze_prologue (struct gdbarch *gdbarch,
rN_regnum = translate_rreg (rN);
- pv_area_store (stack, regs[rN_regnum], 4,
- regs[E_FS0_REGNUM + fsM]);
+ stack.store (regs[rN_regnum], 4,
+ regs[E_FS0_REGNUM + fsM]);
regs[rN_regnum] = pv_add_constant (regs[rN_regnum], 4);
pc += 3;
@@ -887,7 +877,7 @@ mn10300_analyze_prologue (struct gdbarch *gdbarch,
rN_regnum = translate_rreg (rN);
- pv_area_store (stack, regs[rN_regnum], 4, regs[E_FS0_REGNUM + fsM]);
+ stack.store (regs[rN_regnum], 4, regs[E_FS0_REGNUM + fsM]);
regs[rN_regnum] = pv_add_constant (regs[rN_regnum], imm8);
pc += 4;
@@ -912,7 +902,7 @@ mn10300_analyze_prologue (struct gdbarch *gdbarch,
rN_regnum = translate_rreg (rN);
- pv_area_store (stack, regs[rN_regnum], 4, regs[E_FS0_REGNUM + fsM]);
+ stack.store (regs[rN_regnum], 4, regs[E_FS0_REGNUM + fsM]);
regs[rN_regnum] = pv_add_constant (regs[rN_regnum], imm24);
pc += 6;
@@ -937,7 +927,7 @@ mn10300_analyze_prologue (struct gdbarch *gdbarch,
rN_regnum = translate_rreg (rN);
- pv_area_store (stack, regs[rN_regnum], 4, regs[E_FS0_REGNUM + fsM]);
+ stack.store (regs[rN_regnum], 4, regs[E_FS0_REGNUM + fsM]);
regs[rN_regnum] = pv_add_constant (regs[rN_regnum], imm32);
pc += 7;
@@ -1044,11 +1034,9 @@ mn10300_analyze_prologue (struct gdbarch *gdbarch,
}
/* Record where all the registers were saved. */
- pv_area_scan (stack, check_for_saved, (void *) result);
+ stack.scan (check_for_saved, (void *) result);
result->prologue_end = after_last_frame_setup_insn;
-
- do_cleanups (back_to);
}
/* Function: skip_prologue
diff --git a/gdb/msp430-tdep.c b/gdb/msp430-tdep.c
index d74be1d..771ac9c 100644
--- a/gdb/msp430-tdep.c
+++ b/gdb/msp430-tdep.c
@@ -311,7 +311,7 @@ msp430_get_opcode_byte (void *handle)
}
/* Function for finding saved registers in a 'struct pv_area'; this
- function is passed to pv_area_scan.
+ function is passed to pv_area::scan.
If VALUE is a saved register, ADDR says it was saved at a constant
offset from the frame base, and SIZE indicates that the whole
@@ -339,8 +339,6 @@ msp430_analyze_prologue (struct gdbarch *gdbarch, CORE_ADDR start_pc,
CORE_ADDR pc, next_pc;
int rn;
pv_t reg[MSP430_NUM_TOTAL_REGS];
- struct pv_area *stack;
- struct cleanup *back_to;
CORE_ADDR after_last_frame_setup_insn = start_pc;
int code_model = gdbarch_tdep (gdbarch)->code_model;
int sz;
@@ -353,13 +351,12 @@ msp430_analyze_prologue (struct gdbarch *gdbarch, CORE_ADDR start_pc,
result->reg_offset[rn] = 1;
}
- stack = make_pv_area (MSP430_SP_REGNUM, gdbarch_addr_bit (gdbarch));
- back_to = make_cleanup_free_pv_area (stack);
+ pv_area stack (MSP430_SP_REGNUM, gdbarch_addr_bit (gdbarch));
/* The call instruction has saved the return address on the stack. */
sz = code_model == MSP_LARGE_CODE_MODEL ? 4 : 2;
reg[MSP430_SP_REGNUM] = pv_add_constant (reg[MSP430_SP_REGNUM], -sz);
- pv_area_store (stack, reg[MSP430_SP_REGNUM], sz, reg[MSP430_PC_REGNUM]);
+ stack.store (reg[MSP430_SP_REGNUM], sz, reg[MSP430_PC_REGNUM]);
pc = start_pc;
while (pc < limit_pc)
@@ -378,7 +375,7 @@ msp430_analyze_prologue (struct gdbarch *gdbarch, CORE_ADDR start_pc,
int rsrc = opc.op[0].reg;
reg[MSP430_SP_REGNUM] = pv_add_constant (reg[MSP430_SP_REGNUM], -2);
- pv_area_store (stack, reg[MSP430_SP_REGNUM], 2, reg[rsrc]);
+ stack.store (reg[MSP430_SP_REGNUM], 2, reg[rsrc]);
after_last_frame_setup_insn = next_pc;
}
else if (opc.id == MSO_push /* PUSHM */
@@ -393,7 +390,7 @@ msp430_analyze_prologue (struct gdbarch *gdbarch, CORE_ADDR start_pc,
{
reg[MSP430_SP_REGNUM]
= pv_add_constant (reg[MSP430_SP_REGNUM], -size);
- pv_area_store (stack, reg[MSP430_SP_REGNUM], size, reg[rsrc]);
+ stack.store (reg[MSP430_SP_REGNUM], size, reg[rsrc]);
rsrc--;
count--;
}
@@ -428,11 +425,9 @@ msp430_analyze_prologue (struct gdbarch *gdbarch, CORE_ADDR start_pc,
result->frame_size = reg[MSP430_SP_REGNUM].k;
/* Record where all the registers were saved. */
- pv_area_scan (stack, check_for_saved, result);
+ stack.scan (check_for_saved, result);
result->prologue_end = after_last_frame_setup_insn;
-
- do_cleanups (back_to);
}
/* Implement the "skip_prologue" gdbarch method. */
diff --git a/gdb/prologue-value.c b/gdb/prologue-value.c
index 5263f13..c602fe1 100644
--- a/gdb/prologue-value.c
+++ b/gdb/prologue-value.c
@@ -278,7 +278,7 @@ pv_is_array_ref (pv_t addr, CORE_ADDR size,
The entry with the lowest offset simply follows the entry with the
highest offset. Entries may abut, but never overlap. The area's
'entry' pointer points to an arbitrary node in the ring. */
-struct area_entry
+struct pv_area::area_entry
{
/* Links in the doubly-linked ring. */
struct area_entry *prev, *next;
@@ -296,44 +296,23 @@ struct area_entry
};
-struct pv_area
-{
- /* This area's base register. */
- int base_reg;
-
- /* The mask to apply to addresses, to make the wrap-around happen at
- the right place. */
- CORE_ADDR addr_mask;
-
- /* An element of the doubly-linked ring of entries, or zero if we
- have none. */
- struct area_entry *entry;
-};
+/* See prologue-value.h. */
-
-struct pv_area *
-make_pv_area (int base_reg, int addr_bit)
+pv_area::pv_area (int base_reg, int addr_bit)
+ : m_base_reg (base_reg),
+ /* Remember that shift amounts equal to the type's width are
+ undefined. */
+ m_addr_mask (((((CORE_ADDR) 1 << (addr_bit - 1)) - 1) << 1) | 1),
+ m_entry (nullptr)
{
- struct pv_area *a = XNEW (struct pv_area);
-
- memset (a, 0, sizeof (*a));
-
- a->base_reg = base_reg;
- a->entry = 0;
-
- /* Remember that shift amounts equal to the type's width are
- undefined. */
- a->addr_mask = ((((CORE_ADDR) 1 << (addr_bit - 1)) - 1) << 1) | 1;
-
- return a;
}
+/* See prologue-value.h. */
-/* Delete all entries from AREA. */
-static void
-clear_entries (struct pv_area *area)
+void
+pv_area::clear_entries ()
{
- struct area_entry *e = area->entry;
+ struct area_entry *e = m_entry;
if (e)
{
@@ -347,37 +326,23 @@ clear_entries (struct pv_area *area)
xfree (e);
e = next;
}
- while (e != area->entry);
+ while (e != m_entry);
- area->entry = 0;
+ m_entry = 0;
}
}
-void
-free_pv_area (struct pv_area *area)
+pv_area::~pv_area ()
{
- clear_entries (area);
- xfree (area);
+ clear_entries ();
}
-static void
-do_free_pv_area_cleanup (void *arg)
-{
- free_pv_area ((struct pv_area *) arg);
-}
-
-
-struct cleanup *
-make_cleanup_free_pv_area (struct pv_area *area)
-{
- return make_cleanup (do_free_pv_area_cleanup, (void *) area);
-}
-
+/* See prologue-value.h. */
int
-pv_area_store_would_trash (struct pv_area *area, pv_t addr)
+pv_area::store_would_trash (pv_t addr)
{
/* It may seem odd that pvk_constant appears here --- after all,
that's the case where we know the most about the address! But
@@ -386,23 +351,16 @@ pv_area_store_would_trash (struct pv_area *area, pv_t addr)
constants. */
return (addr.kind == pvk_unknown
|| addr.kind == pvk_constant
- || (addr.kind == pvk_register && addr.reg != area->base_reg));
+ || (addr.kind == pvk_register && addr.reg != m_base_reg));
}
-/* Return a pointer to the first entry we hit in AREA starting at
- OFFSET and going forward.
-
- This may return zero, if AREA has no entries.
+/* See prologue-value.h. */
- And since the entries are a ring, this may return an entry that
- entirely precedes OFFSET. This is the correct behavior: depending
- on the sizes involved, we could still overlap such an area, with
- wrap-around. */
-static struct area_entry *
-find_entry (struct pv_area *area, CORE_ADDR offset)
+struct pv_area::area_entry *
+pv_area::find_entry (CORE_ADDR offset)
{
- struct area_entry *e = area->entry;
+ struct area_entry *e = m_entry;
if (! e)
return 0;
@@ -416,54 +374,50 @@ find_entry (struct pv_area *area, CORE_ADDR offset)
with wrap-around. We have to subtract offset from both sides to
make sure both things we're comparing are on the same side of the
discontinuity. */
- while (((e->next->offset - offset) & area->addr_mask)
- < ((e->offset - offset) & area->addr_mask))
+ while (((e->next->offset - offset) & m_addr_mask)
+ < ((e->offset - offset) & m_addr_mask))
e = e->next;
/* If the previous entry would be better than the current one, then
scan backwards. */
- while (((e->prev->offset - offset) & area->addr_mask)
- < ((e->offset - offset) & area->addr_mask))
+ while (((e->prev->offset - offset) & m_addr_mask)
+ < ((e->offset - offset) & m_addr_mask))
e = e->prev;
/* In case there's some locality to the searches, set the area's
pointer to the entry we've found. */
- area->entry = e;
+ m_entry = e;
return e;
}
-/* Return non-zero if the SIZE bytes at OFFSET would overlap ENTRY;
- return zero otherwise. AREA is the area to which ENTRY belongs. */
-static int
-overlaps (struct pv_area *area,
- struct area_entry *entry,
- CORE_ADDR offset,
- CORE_ADDR size)
+/* See prologue-value.h. */
+
+int
+pv_area::overlaps (struct area_entry *entry, CORE_ADDR offset, CORE_ADDR size)
{
/* Think carefully about wrap-around before simplifying this. */
- return (((entry->offset - offset) & area->addr_mask) < size
- || ((offset - entry->offset) & area->addr_mask) < entry->size);
+ return (((entry->offset - offset) & m_addr_mask) < size
+ || ((offset - entry->offset) & m_addr_mask) < entry->size);
}
+/* See prologue-value.h. */
+
void
-pv_area_store (struct pv_area *area,
- pv_t addr,
- CORE_ADDR size,
- pv_t value)
+pv_area::store (pv_t addr, CORE_ADDR size, pv_t value)
{
/* Remove any (potentially) overlapping entries. */
- if (pv_area_store_would_trash (area, addr))
- clear_entries (area);
+ if (store_would_trash (addr))
+ clear_entries ();
else
{
CORE_ADDR offset = addr.k;
- struct area_entry *e = find_entry (area, offset);
+ struct area_entry *e = find_entry (offset);
/* Delete all entries that we would overlap. */
- while (e && overlaps (area, e, offset, size))
+ while (e && overlaps (e, offset, size))
{
struct area_entry *next = (e->next == e) ? 0 : e->next;
@@ -476,10 +430,10 @@ pv_area_store (struct pv_area *area,
/* Move the area's pointer to the next remaining entry. This
will also zero the pointer if we've deleted all the entries. */
- area->entry = e;
+ m_entry = e;
}
- /* Now, there are no entries overlapping us, and area->entry is
+ /* Now, there are no entries overlapping us, and m_entry is
either zero or pointing at the closest entry after us. We can
just insert ourselves before that.
@@ -496,33 +450,35 @@ pv_area_store (struct pv_area *area,
e->size = size;
e->value = value;
- if (area->entry)
+ if (m_entry)
{
- e->prev = area->entry->prev;
- e->next = area->entry;
+ e->prev = m_entry->prev;
+ e->next = m_entry;
e->prev->next = e->next->prev = e;
}
else
{
e->prev = e->next = e;
- area->entry = e;
+ m_entry = e;
}
}
}
+/* See prologue-value.h. */
+
pv_t
-pv_area_fetch (struct pv_area *area, pv_t addr, CORE_ADDR size)
+pv_area::fetch (pv_t addr, CORE_ADDR size)
{
/* If we have no entries, or we can't decide how ADDR relates to the
entries we do have, then the value is unknown. */
- if (! area->entry
- || pv_area_store_would_trash (area, addr))
+ if (! m_entry
+ || store_would_trash (addr))
return pv_unknown ();
else
{
CORE_ADDR offset = addr.k;
- struct area_entry *e = find_entry (area, offset);
+ struct area_entry *e = find_entry (offset);
/* If this entry exactly matches what we're looking for, then
we're set. Otherwise, say it's unknown. */
@@ -534,13 +490,12 @@ pv_area_fetch (struct pv_area *area, pv_t addr, CORE_ADDR size)
}
+/* See prologue-value.h. */
+
int
-pv_area_find_reg (struct pv_area *area,
- struct gdbarch *gdbarch,
- int reg,
- CORE_ADDR *offset_p)
+pv_area::find_reg (struct gdbarch *gdbarch, int reg, CORE_ADDR *offset_p)
{
- struct area_entry *e = area->entry;
+ struct area_entry *e = m_entry;
if (e)
do
@@ -557,25 +512,26 @@ pv_area_find_reg (struct pv_area *area,
e = e->next;
}
- while (e != area->entry);
+ while (e != m_entry);
return 0;
}
+/* See prologue-value.h. */
+
void
-pv_area_scan (struct pv_area *area,
- void (*func) (void *closure,
- pv_t addr,
- CORE_ADDR size,
- pv_t value),
- void *closure)
+pv_area::scan (void (*func) (void *closure,
+ pv_t addr,
+ CORE_ADDR size,
+ pv_t value),
+ void *closure)
{
- struct area_entry *e = area->entry;
+ struct area_entry *e = m_entry;
pv_t addr;
addr.kind = pvk_register;
- addr.reg = area->base_reg;
+ addr.reg = m_base_reg;
if (e)
do
@@ -584,5 +540,5 @@ pv_area_scan (struct pv_area *area,
func (closure, addr, e->size, e->value);
e = e->next;
}
- while (e != area->entry);
+ while (e != m_entry);
}
diff --git a/gdb/prologue-value.h b/gdb/prologue-value.h
index e09c886..e3004aa 100644
--- a/gdb/prologue-value.h
+++ b/gdb/prologue-value.h
@@ -221,83 +221,110 @@ enum pv_boolean pv_is_array_ref (pv_t addr, CORE_ADDR size,
int *i);
-/* A 'struct pv_area' keeps track of values stored in a particular
- region of memory. */
-struct pv_area;
-
-/* Create a new area, tracking stores relative to the original value
- of BASE_REG. If BASE_REG is SP, then this effectively records the
- contents of the stack frame: the original value of the SP is the
- frame's CFA, or some constant offset from it.
-
- Stores to constant addresses, unknown addresses, or to addresses
- relative to registers other than BASE_REG will trash this area; see
- pv_area_store_would_trash.
-
- To check whether a pointer refers to this area, only the low
- ADDR_BIT bits will be compared. */
-struct pv_area *make_pv_area (int base_reg, int addr_bit);
-
-/* Free AREA. */
-void free_pv_area (struct pv_area *area);
-
-
-/* Register a cleanup to free AREA. */
-struct cleanup *make_cleanup_free_pv_area (struct pv_area *area);
-
-
-/* Store the SIZE-byte value VALUE at ADDR in AREA.
-
- If ADDR is not relative to the same base register we used in
- creating AREA, then we can't tell which values here the stored
- value might overlap, and we'll have to mark everything as
- unknown. */
-void pv_area_store (struct pv_area *area,
- pv_t addr,
- CORE_ADDR size,
- pv_t value);
-
-/* Return the SIZE-byte value at ADDR in AREA. This may return
- pv_unknown (). */
-pv_t pv_area_fetch (struct pv_area *area, pv_t addr, CORE_ADDR size);
-
-/* Return true if storing to address ADDR in AREA would force us to
- mark the contents of the entire area as unknown. This could happen
- if, say, ADDR is unknown, since we could be storing anywhere. Or,
- it could happen if ADDR is relative to a different register than
- the other stores base register, since we don't know the relative
- values of the two registers.
-
- If you've reached such a store, it may be better to simply stop the
- prologue analysis, and return the information you've gathered,
- instead of losing all that information, most of which is probably
- okay. */
-int pv_area_store_would_trash (struct pv_area *area, pv_t addr);
-
-
-/* Search AREA for the original value of REGISTER. If we can't find
- it, return zero; if we can find it, return a non-zero value, and if
- OFFSET_P is non-zero, set *OFFSET_P to the register's offset within
- AREA. GDBARCH is the architecture of which REGISTER is a member.
-
- In the worst case, this takes time proportional to the number of
- items stored in AREA. If you plan to gather a lot of information
- about registers saved in AREA, consider calling pv_area_scan
- instead, and collecting all your information in one pass. */
-int pv_area_find_reg (struct pv_area *area,
- struct gdbarch *gdbarch,
- int reg,
- CORE_ADDR *offset_p);
-
-
-/* For every part of AREA whose value we know, apply FUNC to CLOSURE,
- the value's address, its size, and the value itself. */
-void pv_area_scan (struct pv_area *area,
- void (*func) (void *closure,
- pv_t addr,
- CORE_ADDR size,
- pv_t value),
- void *closure);
-
+/* A 'pv_area' keeps track of values stored in a particular region of
+ memory. */
+class pv_area
+{
+public:
+
+ /* Create a new area, tracking stores relative to the original value
+ of BASE_REG. If BASE_REG is SP, then this effectively records the
+ contents of the stack frame: the original value of the SP is the
+ frame's CFA, or some constant offset from it.
+
+ Stores to constant addresses, unknown addresses, or to addresses
+ relative to registers other than BASE_REG will trash this area; see
+ pv_area::store_would_trash.
+
+ To check whether a pointer refers to this area, only the low
+ ADDR_BIT bits will be compared. */
+ pv_area (int base_reg, int addr_bit);
+
+ ~pv_area ();
+
+ DISABLE_COPY_AND_ASSIGN (pv_area);
+
+ /* Store the SIZE-byte value VALUE at ADDR in AREA.
+
+ If ADDR is not relative to the same base register we used in
+ creating AREA, then we can't tell which values here the stored
+ value might overlap, and we'll have to mark everything as
+ unknown. */
+ void store (pv_t addr,
+ CORE_ADDR size,
+ pv_t value);
+
+ /* Return the SIZE-byte value at ADDR in AREA. This may return
+ pv_unknown (). */
+ pv_t fetch (pv_t addr, CORE_ADDR size);
+
+ /* Return true if storing to address ADDR in AREA would force us to
+ mark the contents of the entire area as unknown. This could happen
+ if, say, ADDR is unknown, since we could be storing anywhere. Or,
+ it could happen if ADDR is relative to a different register than
+ the other stores base register, since we don't know the relative
+ values of the two registers.
+
+ If you've reached such a store, it may be better to simply stop the
+ prologue analysis, and return the information you've gathered,
+ instead of losing all that information, most of which is probably
+ okay. */
+ int store_would_trash (pv_t addr);
+
+ /* Search AREA for the original value of REGISTER. If we can't find
+ it, return zero; if we can find it, return a non-zero value, and if
+ OFFSET_P is non-zero, set *OFFSET_P to the register's offset within
+ AREA. GDBARCH is the architecture of which REGISTER is a member.
+
+ In the worst case, this takes time proportional to the number of
+ items stored in AREA. If you plan to gather a lot of information
+ about registers saved in AREA, consider calling pv_area::scan
+ instead, and collecting all your information in one pass. */
+ int find_reg (struct gdbarch *gdbarch, int reg, CORE_ADDR *offset_p);
+
+
+ /* For every part of AREA whose value we know, apply FUNC to CLOSURE,
+ the value's address, its size, and the value itself. */
+ void scan (void (*func) (void *closure,
+ pv_t addr,
+ CORE_ADDR size,
+ pv_t value),
+ void *closure);
+
+private:
+
+ struct area_entry;
+
+ /* Delete all entries from AREA. */
+ void clear_entries ();
+
+ /* Return a pointer to the first entry we hit in AREA starting at
+ OFFSET and going forward.
+
+ This may return zero, if AREA has no entries.
+
+ And since the entries are a ring, this may return an entry that
+ entirely precedes OFFSET. This is the correct behavior: depending
+ on the sizes involved, we could still overlap such an area, with
+ wrap-around. */
+ struct area_entry *find_entry (CORE_ADDR offset);
+
+ /* Return non-zero if the SIZE bytes at OFFSET would overlap ENTRY;
+ return zero otherwise. AREA is the area to which ENTRY belongs. */
+ int overlaps (struct area_entry *entry,
+ CORE_ADDR offset,
+ CORE_ADDR size);
+
+ /* This area's base register. */
+ int m_base_reg;
+
+ /* The mask to apply to addresses, to make the wrap-around happen at
+ the right place. */
+ CORE_ADDR m_addr_mask;
+
+ /* An element of the doubly-linked ring of entries, or zero if we
+ have none. */
+ struct area_entry *m_entry;
+};
#endif /* PROLOGUE_VALUE_H */
diff --git a/gdb/rl78-tdep.c b/gdb/rl78-tdep.c
index c3d5352..19f8098 100644
--- a/gdb/rl78-tdep.c
+++ b/gdb/rl78-tdep.c
@@ -883,7 +883,7 @@ rl78_get_opcode_byte (void *handle)
}
/* Function for finding saved registers in a 'struct pv_area'; this
- function is passed to pv_area_scan.
+ function is passed to pv_area::scan.
If VALUE is a saved register, ADDR says it was saved at a constant
offset from the frame base, and SIZE indicates that the whole
@@ -912,8 +912,6 @@ rl78_analyze_prologue (CORE_ADDR start_pc,
CORE_ADDR pc, next_pc;
int rn;
pv_t reg[RL78_NUM_TOTAL_REGS];
- struct pv_area *stack;
- struct cleanup *back_to;
CORE_ADDR after_last_frame_setup_insn = start_pc;
int bank = 0;
@@ -925,12 +923,11 @@ rl78_analyze_prologue (CORE_ADDR start_pc,
result->reg_offset[rn] = 1;
}
- stack = make_pv_area (RL78_SP_REGNUM, gdbarch_addr_bit (target_gdbarch ()));
- back_to = make_cleanup_free_pv_area (stack);
+ pv_area stack (RL78_SP_REGNUM, gdbarch_addr_bit (target_gdbarch ()));
/* The call instruction has saved the return address on the stack. */
reg[RL78_SP_REGNUM] = pv_add_constant (reg[RL78_SP_REGNUM], -4);
- pv_area_store (stack, reg[RL78_SP_REGNUM], 4, reg[RL78_PC_REGNUM]);
+ stack.store (reg[RL78_SP_REGNUM], 4, reg[RL78_PC_REGNUM]);
pc = start_pc;
while (pc < limit_pc)
@@ -954,12 +951,12 @@ rl78_analyze_prologue (CORE_ADDR start_pc,
&& opc.op[1].type == RL78_Operand_Register)
{
int rsrc = (bank * RL78_REGS_PER_BANK)
- + 2 * (opc.op[1].reg - RL78_Reg_AX);
+ + 2 * (opc.op[1].reg - RL78_Reg_AX);
reg[RL78_SP_REGNUM] = pv_add_constant (reg[RL78_SP_REGNUM], -1);
- pv_area_store (stack, reg[RL78_SP_REGNUM], 1, reg[rsrc]);
+ stack.store (reg[RL78_SP_REGNUM], 1, reg[rsrc]);
reg[RL78_SP_REGNUM] = pv_add_constant (reg[RL78_SP_REGNUM], -1);
- pv_area_store (stack, reg[RL78_SP_REGNUM], 1, reg[rsrc + 1]);
+ stack.store (reg[RL78_SP_REGNUM], 1, reg[rsrc + 1]);
after_last_frame_setup_insn = next_pc;
}
else if (opc.id == RLO_sub
@@ -1016,11 +1013,9 @@ rl78_analyze_prologue (CORE_ADDR start_pc,
result->frame_size = reg[RL78_SP_REGNUM].k;
/* Record where all the registers were saved. */
- pv_area_scan (stack, check_for_saved, (void *) result);
+ stack.scan (check_for_saved, (void *) result);
result->prologue_end = after_last_frame_setup_insn;
-
- do_cleanups (back_to);
}
/* Implement the "addr_bits_remove" gdbarch method. */
diff --git a/gdb/rx-tdep.c b/gdb/rx-tdep.c
index ac2b68f..7d0436c 100644
--- a/gdb/rx-tdep.c
+++ b/gdb/rx-tdep.c
@@ -230,7 +230,7 @@ rx_register_type (struct gdbarch *gdbarch, int reg_nr)
/* Function for finding saved registers in a 'struct pv_area'; this
- function is passed to pv_area_scan.
+ function is passed to pv_area::scan.
If VALUE is a saved register, ADDR says it was saved at a constant
offset from the frame base, and SIZE indicates that the whole
@@ -287,8 +287,6 @@ rx_analyze_prologue (CORE_ADDR start_pc, CORE_ADDR limit_pc,
CORE_ADDR pc, next_pc;
int rn;
pv_t reg[RX_NUM_REGS];
- struct pv_area *stack;
- struct cleanup *back_to;
CORE_ADDR after_last_frame_setup_insn = start_pc;
memset (result, 0, sizeof (*result));
@@ -301,8 +299,7 @@ rx_analyze_prologue (CORE_ADDR start_pc, CORE_ADDR limit_pc,
result->reg_offset[rn] = 1;
}
- stack = make_pv_area (RX_SP_REGNUM, gdbarch_addr_bit (target_gdbarch ()));
- back_to = make_cleanup_free_pv_area (stack);
+ pv_area stack (RX_SP_REGNUM, gdbarch_addr_bit (target_gdbarch ()));
if (frame_type == RX_FRAME_TYPE_FAST_INTERRUPT)
{
@@ -318,13 +315,13 @@ rx_analyze_prologue (CORE_ADDR start_pc, CORE_ADDR limit_pc,
if (frame_type == RX_FRAME_TYPE_EXCEPTION)
{
reg[RX_SP_REGNUM] = pv_add_constant (reg[RX_SP_REGNUM], -4);
- pv_area_store (stack, reg[RX_SP_REGNUM], 4, reg[RX_PSW_REGNUM]);
+ stack.store (reg[RX_SP_REGNUM], 4, reg[RX_PSW_REGNUM]);
}
/* The call instruction (or an exception/interrupt) has saved the return
address on the stack. */
reg[RX_SP_REGNUM] = pv_add_constant (reg[RX_SP_REGNUM], -4);
- pv_area_store (stack, reg[RX_SP_REGNUM], 4, reg[RX_PC_REGNUM]);
+ stack.store (reg[RX_SP_REGNUM], 4, reg[RX_PC_REGNUM]);
}
@@ -353,7 +350,7 @@ rx_analyze_prologue (CORE_ADDR start_pc, CORE_ADDR limit_pc,
for (r = r2; r >= r1; r--)
{
reg[RX_SP_REGNUM] = pv_add_constant (reg[RX_SP_REGNUM], -4);
- pv_area_store (stack, reg[RX_SP_REGNUM], 4, reg[r]);
+ stack.store (reg[RX_SP_REGNUM], 4, reg[r]);
}
after_last_frame_setup_insn = next_pc;
}
@@ -380,7 +377,7 @@ rx_analyze_prologue (CORE_ADDR start_pc, CORE_ADDR limit_pc,
rsrc = opc.op[1].reg;
reg[RX_SP_REGNUM] = pv_add_constant (reg[RX_SP_REGNUM], -4);
- pv_area_store (stack, reg[RX_SP_REGNUM], 4, reg[rsrc]);
+ stack.store (reg[RX_SP_REGNUM], 4, reg[rsrc]);
after_last_frame_setup_insn = next_pc;
}
else if (opc.id == RXO_add /* add #const, rsrc, rdst */
@@ -456,11 +453,9 @@ rx_analyze_prologue (CORE_ADDR start_pc, CORE_ADDR limit_pc,
}
/* Record where all the registers were saved. */
- pv_area_scan (stack, check_for_saved, (void *) result);
+ stack.scan (check_for_saved, (void *) result);
result->prologue_end = after_last_frame_setup_insn;
-
- do_cleanups (back_to);
}
diff --git a/gdb/s390-linux-tdep.c b/gdb/s390-linux-tdep.c
index dfc7404..d48364b 100644
--- a/gdb/s390-linux-tdep.c
+++ b/gdb/s390-linux-tdep.c
@@ -1375,8 +1375,8 @@ s390_store (struct s390_prologue_data *data,
/* Check whether we are storing a register into the stack. */
- if (!pv_area_store_would_trash (data->stack, addr))
- pv_area_store (data->stack, addr, size, value);
+ if (!data->stack->store_would_trash (addr))
+ data->stack->store (addr, size, value);
/* Note: If this is some store we cannot identify, you might think we
@@ -1413,11 +1413,11 @@ s390_load (struct s390_prologue_data *data,
}
/* Check whether we are accessing one of our save slots. */
- return pv_area_fetch (data->stack, addr, size);
+ return data->stack->fetch (addr, size);
}
/* Function for finding saved registers in a 'struct pv_area'; we pass
- this to pv_area_scan.
+ this to pv_area::scan.
If VALUE is a saved register, ADDR says it was saved at a constant
offset from the frame base, and SIZE indicates that the whole
@@ -1486,12 +1486,13 @@ s390_analyze_prologue (struct gdbarch *gdbarch,
/* The address of the next instruction after that. */
CORE_ADDR next_pc;
+ pv_area stack (S390_SP_REGNUM, gdbarch_addr_bit (gdbarch));
+ scoped_restore restore_stack = make_scoped_restore (&data->stack, &stack);
+
/* Set up everything's initial value. */
{
int i;
- data->stack = make_pv_area (S390_SP_REGNUM, gdbarch_addr_bit (gdbarch));
-
/* For the purpose of prologue tracking, we consider the GPR size to
be equal to the ABI word size, even if it is actually larger
(i.e. when running a 32-bit binary under a 64-bit kernel). */
@@ -1730,10 +1731,7 @@ s390_analyze_prologue (struct gdbarch *gdbarch,
}
/* Record where all the registers were saved. */
- pv_area_scan (data->stack, s390_check_for_saved, data);
-
- free_pv_area (data->stack);
- data->stack = NULL;
+ data->stack->scan (s390_check_for_saved, data);
return result;
}