@@ -163,6 +163,7 @@ extern const char *arm_output_iwmmxt_shift_immediate (const char *, rtx *, bool)
extern const char *arm_output_iwmmxt_tinsr (rtx *);
extern unsigned int arm_sync_loop_insns (rtx , rtx *);
extern int arm_attr_length_push_multi(rtx, rtx);
+extern int arm_attr_length_pop_multi(rtx *, bool, bool);
extern void arm_expand_compare_and_swap (rtx op[]);
extern void arm_split_compare_and_swap (rtx op[]);
extern void arm_split_atomic_op (enum rtx_code, rtx, rtx, rtx, rtx, rtx, rtx);
@@ -27812,6 +27812,65 @@ arm_attr_length_push_multi(rtx parallel_op, rtx first_op)
return 4;
}
+/* Compute the atrribute "length" of insn. Currently, this function is used
+ for "*load_multiple_with_writeback", "*pop_multiple_with_return" and
+ "*pop_multiple_with_writeback_and_return". */
+
s/atrribute/attribute/
Also, please add a description of the function arguments to the function comment.
+int
+arm_attr_length_pop_multi(rtx *operands, bool return_pc, bool write_back_p)
+{
space between function name and '('.
+ /* ARM mode. */
+ if (TARGET_ARM)
+ return 4;
+ /* Thumb1 mode. */
+ if (TARGET_THUMB1)
+ return 2;
+
+ /* For POP/PUSH/LDM/STM under Thumb2 mode, we can use 16-bit Thumb encodings
+ if the register list is 8-bit. Normally this means all registers in the
+ list must be LO_REGS, that is (R0 -R7). If any HI_REGS used, then we must
+ use 32-bit encodings. But there are two exceptions to this rule where
+ special HI_REGS used in PUSH/POP.
+
+ 1. 16-bit Thumb encoding POP can use an 8-bit register list, and an
+ additional bit, P, that corresponds to the PC. This means it can access
+ any of {PC, R7-R0}.
It took me a bit to figure it out but this bit 'P' you're talking about is a just a bit
in the illustration in the ARM Architecture Reference Manual (section A8.8.131).
I don't think it's useful to refer to it.
This would be better phrased as "The encoding is 16 bits wide if the register list contains
only the registers in {R0 - R7} or the PC".
+ 2. 16-bit Thumb encoding PUSH can use an 8-bit register list, and an
+ additional bit, M , that corresponds to the LR. This means it can
+ access any of {LR, R7-R0}. */
+
This function only deals with POP instructions, so talking about PUSH encodings
is confusing. I suggest you drop point 2).
+ rtx parallel_op = operands[0];
+ /* Initialize to elements number of PARALLEL. */
+ unsigned indx = XVECLEN (parallel_op, 0) - 1;
+ /* Initialize the value to base register. */
+ unsigned regno = REGNO (operands[1]);
+ /* Skip return and write back pattern.
+ We only need register pop pattern for later analysis. */
+ unsigned first_indx = 0;
+ first_indx += return_pc ? 1 : 0;
+ first_indx += write_back_p ? 1 : 0;
+
+ /* A pop operation can be done through LDM or POP. If the base register is SP
+ and if it's with write back, then a LDM will be alias of POP. */
+ bool pop_p = (regno == SP_REGNUM && write_back_p);
+ bool ldm_p = !pop_p;