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author | sayle <sayle@138bc75d-0d04-0410-961f-82ee72b054a4> | 2005-05-27 22:57:39 +0000 |
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committer | sayle <sayle@138bc75d-0d04-0410-961f-82ee72b054a4> | 2005-05-27 22:57:39 +0000 |
commit | ea06f79740c70d1e8992c5f8313d06caec7a0c97 (patch) | |
tree | c748dc271d28039f2d586b93c3aa2c1f6f3a2ed3 /gcc/reg-stack.c | |
parent | e4bbf4c11869851e0e70d761bbca79fa79a69366 (diff) | |
download | gcc-ea06f79740c70d1e8992c5f8313d06caec7a0c97.tar.gz |
* reg-stack.c (compensate_edge): Remove original prototype.
(propagate_stack): New function to copy the stack layout
at the start of a basic block from the layout at the end of
one of its predecessors.
(compensate_edge): Assume that both source and destination
blocks have already had their stack layouts defined.
(compensate_edges): Traverse all non-entry edges in the CFG
and call compensate_edge on each in turn.
(convert_regs_1): Change return type to void. Call
propagate_stack instead of compensate_edge.
(convert_regs_2): Change return type to void. Update call
to convert_regs_1 to ignore the (now void) return value.
(convert_regs): Update calls to convert_regs_2 to ignore
the (now void) return value. After all the basic blocks have
been processed, call compensate_edges to actually emit new
insns.
(reg_to_stack): Initialize the aux info for each basic block
with FOR_EACH_BB instead of which FOR_EACH_BB_REVERSE.
git-svn-id: svn+ssh://gcc.gnu.org/svn/gcc/trunk@100283 138bc75d-0d04-0410-961f-82ee72b054a4
Diffstat (limited to 'gcc/reg-stack.c')
-rw-r--r-- | gcc/reg-stack.c | 131 |
1 files changed, 76 insertions, 55 deletions
diff --git a/gcc/reg-stack.c b/gcc/reg-stack.c index 173918727ec..6aaa8bed0d4 100644 --- a/gcc/reg-stack.c +++ b/gcc/reg-stack.c @@ -261,7 +261,6 @@ static bool subst_stack_regs (rtx, stack); static void change_stack (rtx, stack, stack, enum emit_where); static void print_stack (FILE *, stack); static rtx next_flags_user (rtx); -static bool compensate_edge (edge, FILE *); /* Return nonzero if any stack register is mentioned somewhere within PAT. */ @@ -2579,9 +2578,35 @@ convert_regs_exit (void) } } -/* Adjust the stack of this block on exit to match the stack of the - target block, or copy stack info into the stack of the successor - of the successor hasn't been processed yet. */ +/* If the stack of the target block hasn't been processed yet, + copy the stack info from the source block. */ + +static void +propagate_stack (edge e) +{ + basic_block dest = e->dest; + stack dest_stack = &BLOCK_INFO (dest)->stack_in; + + if (dest_stack->top == -2) + { + basic_block src = e->src; + stack src_stack = &BLOCK_INFO (src)->stack_out; + int reg; + + /* Preserve the order of the original stack, but check whether + any pops are needed. */ + dest_stack->top = -1; + for (reg = 0; reg <= src_stack->top; ++reg) + if (TEST_HARD_REG_BIT (dest_stack->reg_set, src_stack->reg[reg])) + dest_stack->reg[++dest_stack->top] = src_stack->reg[reg]; + } +} + + +/* Adjust the stack of edge E's source block on exit to match the stack + of it's target block upon input. The stack layouts of both blocks + should have been defined by now. */ + static bool compensate_edge (edge e, FILE *file) { @@ -2596,50 +2621,27 @@ compensate_edge (edge e, FILE *file) if (file) fprintf (file, "Edge %d->%d: ", block->index, target->index); - if (target_stack->top == -2) + gcc_assert (target_stack->top != -2); + + /* Check whether stacks are identical. */ + if (target_stack->top == regstack.top) { - /* The target block hasn't had a stack order selected. - We need merely ensure that no pops are needed. */ - for (reg = regstack.top; reg >= 0; --reg) - if (!TEST_HARD_REG_BIT (target_stack->reg_set, regstack.reg[reg])) + for (reg = target_stack->top; reg >= 0; --reg) + if (target_stack->reg[reg] != regstack.reg[reg]) break; if (reg == -1) { if (file) - fprintf (file, "new block; copying stack position\n"); - - /* change_stack kills values in regstack. */ - tmpstack = regstack; - - change_stack (BB_END (block), &tmpstack, target_stack, EMIT_AFTER); + fprintf (file, "no changes needed\n"); return false; } - - if (file) - fprintf (file, "new block; pops needed\n"); } - else - { - if (target_stack->top == regstack.top) - { - for (reg = target_stack->top; reg >= 0; --reg) - if (target_stack->reg[reg] != regstack.reg[reg]) - break; - - if (reg == -1) - { - if (file) - fprintf (file, "no changes needed\n"); - return false; - } - } - if (file) - { - fprintf (file, "correcting stack to "); - print_stack (file, target_stack); - } + if (file) + { + fprintf (file, "correcting stack to "); + print_stack (file, target_stack); } /* Care for non-call EH edges specially. The normal return path have @@ -2714,20 +2716,41 @@ compensate_edge (edge e, FILE *file) return false; } +/* Traverse all non-entry edges in the CFG, and emit the necessary + edge compensation code to change the stack from stack_out of the + source block to the stack_in of the destination block. */ + +static bool +compensate_edges (FILE *file) +{ + bool inserted = false; + basic_block bb; + + FOR_EACH_BB (bb) + if (bb != ENTRY_BLOCK_PTR) + { + edge e; + edge_iterator ei; + + FOR_EACH_EDGE (e, ei, bb->succs) + inserted |= compensate_edge (e, file); + } + return inserted; +} + /* Convert stack register references in one block. */ -static int +static void convert_regs_1 (FILE *file, basic_block block) { struct stack_def regstack; block_info bi = BLOCK_INFO (block); - int inserted, reg; + int reg; rtx insn, next; edge e, beste = NULL; bool control_flow_insn_deleted = false; edge_iterator ei; - inserted = 0; any_malformed_asm = false; /* Find the edge we will copy stack from. It should be the most frequent @@ -2763,7 +2786,7 @@ convert_regs_1 (FILE *file, basic_block block) if (bi->stack_in.top == -2) { if (beste) - inserted |= compensate_edge (beste, file); + propagate_stack (beste); else { /* No predecessors. Create an arbitrary input stack. */ @@ -2887,29 +2910,27 @@ convert_regs_1 (FILE *file, basic_block block) { gcc_assert (BLOCK_INFO (e->dest)->done || e->dest == block); - inserted |= compensate_edge (e, file); + propagate_stack (e); } } + FOR_EACH_EDGE (e, ei, block->preds) { if (e != beste && !(e->flags & EDGE_DFS_BACK) && e->src != ENTRY_BLOCK_PTR) { gcc_assert (BLOCK_INFO (e->src)->done); - inserted |= compensate_edge (e, file); + propagate_stack (e); } } - - return inserted; } /* Convert registers in all blocks reachable from BLOCK. */ -static int +static void convert_regs_2 (FILE *file, basic_block block) { basic_block *stack, *sp; - int inserted; /* We process the blocks in a top-down manner, in a way such that one block is only processed after all its predecessors. The number of predecessors @@ -2920,7 +2941,6 @@ convert_regs_2 (FILE *file, basic_block block) *sp++ = block; - inserted = 0; do { edge e; @@ -2949,14 +2969,12 @@ convert_regs_2 (FILE *file, basic_block block) *sp++ = e->dest; } - inserted |= convert_regs_1 (file, block); + convert_regs_1 (file, block); BLOCK_INFO (block)->done = 1; } while (sp != stack); free (stack); - - return inserted; } /* Traverse all basic blocks in a function, converting the register @@ -2984,7 +3002,7 @@ convert_regs (FILE *file) /* Process all blocks reachable from all entry points. */ FOR_EACH_EDGE (e, ei, ENTRY_BLOCK_PTR->succs) - inserted |= convert_regs_2 (file, e->dest); + convert_regs_2 (file, e->dest); /* ??? Process all unreachable blocks. Though there's no excuse for keeping these even when not optimizing. */ @@ -2993,8 +3011,11 @@ convert_regs (FILE *file) block_info bi = BLOCK_INFO (b); if (! bi->done) - inserted |= convert_regs_2 (file, b); + convert_regs_2 (file, b); } + + inserted |= compensate_edges (file); + clear_aux_for_blocks (); fixup_abnormal_edges (); @@ -3046,7 +3067,7 @@ reg_to_stack (FILE *file) /* Set up block info for each basic block. */ alloc_aux_for_blocks (sizeof (struct block_info_def)); - FOR_EACH_BB_REVERSE (bb) + FOR_EACH_BB (bb) { block_info bi = BLOCK_INFO (bb); edge_iterator ei; |