return 0;
/* Now go back to our caller's stack frame. If our caller's CFA was
- saved in a register in this stack frame or a previous one,
- restore it; otherwise, assume CFA register was saved in SP and
- restore it to our CFA value. */
+ saved in a register in this stack frame or a previous one, restore it;
+ otherwise, assume CFA register is SP and restore it to our CFA value
+ (which is defined to be the value of SP in the caller's frame). */
p = saved_regs->reg[caller_udata->cfa_reg];
if (p)
On the SPARC, this means flushing the register windows. */
__builtin_unwind_init ();
- /* Now reset pc to the right throw point. */
+ /* Now reset pc to the right throw point. The return address points to
+ the instruction after the call to __throw; we subtract 1 so that pc
+ points into the call insn itself. Since we work with PC ranges (as
+ opposed to specific call sites), it isn't important for it to point to
+ the very beginning of the call insn, and making it do so would be
+ hard on targets with variable length call insns. */
pc = __builtin_extract_return_addr (__builtin_return_address (0)) - 1;
handler = throw_helper (eh, pc, my_udata, &offset);
On the SPARC, this means flushing the register windows. */
__builtin_unwind_init ();
- /* Now reset pc to the right throw point. */
+ /* Now reset pc to the right throw point. The return address points to
+ the instruction after the call to __throw; we subtract 1 so that pc
+ points into the call insn itself. Since we work with PC ranges (as
+ opposed to specific call sites), it isn't important for it to point to
+ the very beginning of the call insn, and making it do so would be
+ hard on targets with variable length call insns. */
pc = __builtin_extract_return_addr (__builtin_return_address (0)) - 1;
handler = throw_helper (eh, pc, my_udata, &offset);
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