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HSA: handle alignment of string builtins (PR hsa/70391) 

PR hsa/70391
	* hsa-gen.c (hsa_function_representation::update_dominance): New
	function.
	(convert_addr_to_flat_segment): Likewise.
	(gen_hsa_memory_set): New alignment argument.
	(gen_hsa_ctor_assignment): Likewise.
	(gen_hsa_insns_for_single_assignment): Provide alignment
	to gen_hsa_ctor_assignment.
	(gen_hsa_insns_for_direct_call): Add new argument.
	(expand_lhs_of_string_op): New function.
	(expand_string_operation_builtin): Likewise.
	(expand_memory_copy): New function.
	(expand_memory_set): New function.
	(gen_hsa_insns_for_call): Use HOST_WIDE_INT.
	(convert_switch_statements): Change signature.
	(generate_hsa): Use a return value of the function.
	(pass_gen_hsail::execute): Do not call
	convert_switch_statements here.
	* hsa-regalloc.c (hsa_regalloc): Call update_dominance.
	* hsa.h (hsa_function_representation::m_modified_cfg):
	New flag.
	(hsa_function_representation::update_dominance): New function.

From-SVN: r234644
This commit is contained in:
Martin Liska 2016-03-31 19:10:48 +02:00 committed by Martin Liska
parent 320c1a3679
commit 65e2146726
4 changed files with 305 additions and 110 deletions
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25
gcc/ChangeLog
View File

@ -1,3 +1,28 @@
2016-03-31 Martin Liska <mliska@suse.cz>
PR hsa/70391
* hsa-gen.c (hsa_function_representation::update_dominance): New
function.
(convert_addr_to_flat_segment): Likewise.
(gen_hsa_memory_set): New alignment argument.
(gen_hsa_ctor_assignment): Likewise.
(gen_hsa_insns_for_single_assignment): Provide alignment
to gen_hsa_ctor_assignment.
(gen_hsa_insns_for_direct_call): Add new argument.
(expand_lhs_of_string_op): New function.
(expand_string_operation_builtin): Likewise.
(expand_memory_copy): New function.
(expand_memory_set): New function.
(gen_hsa_insns_for_call): Use HOST_WIDE_INT.
(convert_switch_statements): Change signature.
(generate_hsa): Use a return value of the function.
(pass_gen_hsail::execute): Do not call
convert_switch_statements here.
* hsa-regalloc.c (hsa_regalloc): Call update_dominance.
* hsa.h (hsa_function_representation::m_modified_cfg):
New flag.
(hsa_function_representation::update_dominance): New function.
2016-03-31 Martin Liska <mliska@suse.cz>
PR hsa/70391

380
gcc/hsa-gen.c
View File

@ -211,10 +211,12 @@ hsa_symbol::fillup_for_decl (tree decl)
/* Constructor of class representing global HSA function/kernel information and
state. FNDECL is function declaration, KERNEL_P is true if the function
is going to become a HSA kernel. If the function has body, SSA_NAMES_COUNT
should be set to number of SSA names used in the function. */
should be set to number of SSA names used in the function.
MODIFIED_CFG is set to true in case we modified control-flow graph
of the function. */
hsa_function_representation::hsa_function_representation
(tree fdecl, bool kernel_p, unsigned ssa_names_count)
(tree fdecl, bool kernel_p, unsigned ssa_names_count, bool modified_cfg)
: m_name (NULL),
m_reg_count (0), m_input_args (vNULL),
m_output_arg (NULL), m_spill_symbols (vNULL), m_global_symbols (vNULL),
@ -223,7 +225,8 @@ hsa_function_representation::hsa_function_representation
m_in_ssa (true), m_kern_p (kernel_p), m_declaration_p (false),
m_decl (fdecl), m_internal_fn (NULL), m_shadow_reg (NULL),
m_kernel_dispatch_count (0), m_maximum_omp_data_size (0),
m_seen_error (false), m_temp_symbol_count (0), m_ssa_map ()
m_seen_error (false), m_temp_symbol_count (0), m_ssa_map (),
m_modified_cfg (modified_cfg)
{
int sym_init_len = (vec_safe_length (cfun->local_decls) / 2) + 1;;
m_local_symbols = new hash_table <hsa_noop_symbol_hasher> (sym_init_len);
@ -319,6 +322,16 @@ hsa_function_representation::init_extra_bbs ()
hsa_init_new_bb (EXIT_BLOCK_PTR_FOR_FN (cfun));
}
void
hsa_function_representation::update_dominance ()
{
if (m_modified_cfg)
{
free_dominance_info (CDI_DOMINATORS);
calculate_dominance_info (CDI_DOMINATORS);
}
}
hsa_symbol *
hsa_function_representation::create_hsa_temporary (BrigType16_t type)
{
@ -2246,30 +2259,14 @@ gen_hsa_addr_for_arg (tree tree_type, int index)
return new hsa_op_address (sym);
}
/* Generate HSA instructions that calculate address of VAL including all
necessary conversions to flat addressing and place the result into DEST.
/* Generate HSA instructions that process all necessary conversions
of an ADDR to flat addressing and place the result into DEST.
Instructions are appended to HBB. */
static void
gen_hsa_addr_insns (tree val, hsa_op_reg *dest, hsa_bb *hbb)
convert_addr_to_flat_segment (hsa_op_address *addr, hsa_op_reg *dest,
hsa_bb *hbb)
{
/* Handle cases like tmp = NULL, where we just emit a move instruction
to a register. */
if (TREE_CODE (val) == INTEGER_CST)
{
hsa_op_immed *c = new hsa_op_immed (val);
hsa_insn_basic *insn = new hsa_insn_basic (2, BRIG_OPCODE_MOV,
dest->m_type, dest, c);
hbb->append_insn (insn);
return;
}
hsa_op_address *addr;
gcc_assert (dest->m_type == hsa_get_segment_addr_type (BRIG_SEGMENT_FLAT));
if (TREE_CODE (val) == ADDR_EXPR)
val = TREE_OPERAND (val, 0);
addr = gen_hsa_addr (val, hbb);
hsa_insn_basic *insn = new hsa_insn_basic (2, BRIG_OPCODE_LDA);
insn->set_op (1, addr);
if (addr->m_symbol && addr->m_symbol->m_segment != BRIG_SEGMENT_GLOBAL)
@ -2298,6 +2295,34 @@ gen_hsa_addr_insns (tree val, hsa_op_reg *dest, hsa_bb *hbb)
}
}
/* Generate HSA instructions that calculate address of VAL including all
necessary conversions to flat addressing and place the result into DEST.
Instructions are appended to HBB. */
static void
gen_hsa_addr_insns (tree val, hsa_op_reg *dest, hsa_bb *hbb)
{
/* Handle cases like tmp = NULL, where we just emit a move instruction
to a register. */
if (TREE_CODE (val) == INTEGER_CST)
{
hsa_op_immed *c = new hsa_op_immed (val);
hsa_insn_basic *insn = new hsa_insn_basic (2, BRIG_OPCODE_MOV,
dest->m_type, dest, c);
hbb->append_insn (insn);
return;
}
hsa_op_address *addr;
gcc_assert (dest->m_type == hsa_get_segment_addr_type (BRIG_SEGMENT_FLAT));
if (TREE_CODE (val) == ADDR_EXPR)
val = TREE_OPERAND (val, 0);
addr = gen_hsa_addr (val, hbb);
convert_addr_to_flat_segment (addr, dest, hbb);
}
/* Return an HSA register or HSA immediate value operand corresponding to
gimple operand OP. */
@ -2728,9 +2753,9 @@ gen_hsa_insns_for_store (tree lhs, hsa_op_base *src, hsa_bb *hbb)
}
/* Generate memory copy instructions that are going to be used
for copying a HSA symbol SRC_SYMBOL (or SRC_REG) to TARGET memory,
for copying a SRC memory to TARGET memory,
represented by pointer in a register. MIN_ALIGN is minimal alignment
of provided HSA addresses. */
of provided HSA addresses. */
static void
gen_hsa_memory_copy (hsa_bb *hbb, hsa_op_address *target, hsa_op_address *src,
@ -2792,17 +2817,19 @@ build_memset_value (unsigned HOST_WIDE_INT constant, unsigned byte_size)
}
/* Generate memory set instructions that are going to be used
for setting a CONSTANT byte value to TARGET memory of SIZE bytes. */
for setting a CONSTANT byte value to TARGET memory of SIZE bytes.
MIN_ALIGN is minimal alignment of provided HSA addresses. */
static void
gen_hsa_memory_set (hsa_bb *hbb, hsa_op_address *target,
unsigned HOST_WIDE_INT constant,
unsigned size)
unsigned size, BrigAlignment8_t min_align)
{
hsa_op_address *addr;
hsa_insn_mem *mem;
unsigned offset = 0;
unsigned min_byte_align = hsa_byte_alignment (min_align);
while (size)
{
@ -2816,6 +2843,9 @@ gen_hsa_memory_set (hsa_bb *hbb, hsa_op_address *target,
else
s = 1;
if (s > min_byte_align)
s = min_byte_align;
addr = new hsa_op_address (target->m_symbol, target->m_reg,
target->m_imm_offset + offset);
@ -2832,10 +2862,12 @@ gen_hsa_memory_set (hsa_bb *hbb, hsa_op_address *target,
/* Generate HSAIL instructions for a single assignment
of an empty constructor to an ADDR_LHS. Constructor is passed as a
tree RHS and all instructions are appended to HBB. */
tree RHS and all instructions are appended to HBB. ALIGN is
alignment of the address. */
void
gen_hsa_ctor_assignment (hsa_op_address *addr_lhs, tree rhs, hsa_bb *hbb)
gen_hsa_ctor_assignment (hsa_op_address *addr_lhs, tree rhs, hsa_bb *hbb,
BrigAlignment8_t align)
{
if (vec_safe_length (CONSTRUCTOR_ELTS (rhs)))
{
@ -2845,7 +2877,7 @@ gen_hsa_ctor_assignment (hsa_op_address *addr_lhs, tree rhs, hsa_bb *hbb)
}
unsigned size = tree_to_uhwi (TYPE_SIZE_UNIT (TREE_TYPE (rhs)));
gen_hsa_memory_set (hbb, addr_lhs, 0, size);
gen_hsa_memory_set (hbb, addr_lhs, 0, size, align);
}
/* Generate HSA instructions for a single assignment of RHS to LHS.
@ -2879,7 +2911,7 @@ gen_hsa_insns_for_single_assignment (tree lhs, tree rhs, hsa_bb *hbb)
&lhs_align);
if (TREE_CODE (rhs) == CONSTRUCTOR)
gen_hsa_ctor_assignment (addr_lhs, rhs, hbb);
gen_hsa_ctor_assignment (addr_lhs, rhs, hbb, lhs_align);
else
{
BrigAlignment8_t rhs_align;
@ -3523,10 +3555,13 @@ get_format_argument_type (tree formal_arg_type, BrigType16_t actual_arg_type)
/* Generate HSA instructions for a direct call instruction.
Instructions will be appended to HBB, which also needs to be the
corresponding structure to the basic_block of STMT. */
corresponding structure to the basic_block of STMT.
If ASSIGN_LHS is false, do not copy HSA function result argument into the
corresponding HSA representation of the gimple statement LHS. */
static void
gen_hsa_insns_for_direct_call (gimple *stmt, hsa_bb *hbb)
gen_hsa_insns_for_direct_call (gimple *stmt, hsa_bb *hbb,
bool assign_lhs = true)
{
tree decl = gimple_call_fndecl (stmt);
verify_function_arguments (decl);
@ -3608,7 +3643,7 @@ gen_hsa_insns_for_direct_call (gimple *stmt, hsa_bb *hbb)
/* Even if result of a function call is unused, we have to emit
declaration for the result. */
if (result)
if (result && assign_lhs)
{
tree lhs_type = TREE_TYPE (result);
@ -4481,6 +4516,195 @@ get_address_from_value (tree val, hsa_bb *hbb)
}
}
/* Expand assignment of a result of a string BUILTIN to DST.
Size of the operation is N bytes, where instructions
will be append to HBB. */
static void
expand_lhs_of_string_op (gimple *stmt,
unsigned HOST_WIDE_INT n, hsa_bb *hbb,
enum built_in_function builtin)
{
/* If LHS is expected, we need to emit a PHI instruction. */
tree lhs = gimple_call_lhs (stmt);
if (!lhs)
return;
hsa_op_reg *lhs_reg = hsa_cfun->reg_for_gimple_ssa (lhs);
hsa_op_with_type *dst_reg
= hsa_reg_or_immed_for_gimple_op (gimple_call_arg (stmt, 0), hbb);
hsa_op_with_type *tmp;
switch (builtin)
{
case BUILT_IN_MEMPCPY:
{
tmp = new hsa_op_reg (dst_reg->m_type);
hsa_insn_basic *add
= new hsa_insn_basic (3, BRIG_OPCODE_ADD, tmp->m_type,
tmp, dst_reg,
new hsa_op_immed (n, dst_reg->m_type));
hbb->append_insn (add);
break;
}
case BUILT_IN_MEMCPY:
case BUILT_IN_MEMSET:
tmp = dst_reg;
break;
default:
gcc_unreachable ();
}
hbb->append_insn (new hsa_insn_basic (2, BRIG_OPCODE_MOV, lhs_reg->m_type,
lhs_reg, tmp));
}
#define HSA_MEMORY_BUILTINS_LIMIT 128
/* Expand a string builtin (from a gimple STMT) in a way that
according to MISALIGNED_FLAG we process either direct emission
(a bunch of memory load and store instructions), or we emit a function call
of a library function (for instance 'memcpy'). Actually, a basic block
for direct emission is just prepared, where caller is responsible
for emission of corresponding instructions.
All instruction are appended to HBB. */
hsa_bb *
expand_string_operation_builtin (gimple *stmt, hsa_bb *hbb,
hsa_op_reg *misaligned_flag)
{
edge e = split_block (hbb->m_bb, stmt);
basic_block condition_bb = e->src;
hbb->append_insn (new hsa_insn_br (misaligned_flag));
/* Prepare the control flow. */
edge condition_edge = EDGE_SUCC (condition_bb, 0);
basic_block call_bb = split_edge (condition_edge);
basic_block expanded_bb = split_edge (EDGE_SUCC (call_bb, 0));
basic_block cont_bb = EDGE_SUCC (expanded_bb, 0)->dest;
basic_block merge_bb = split_edge (EDGE_PRED (cont_bb, 0));
condition_edge->flags &= ~EDGE_FALLTHRU;
condition_edge->flags |= EDGE_TRUE_VALUE;
make_edge (condition_bb, expanded_bb, EDGE_FALSE_VALUE);
redirect_edge_succ (EDGE_SUCC (call_bb, 0), merge_bb);
hsa_cfun->m_modified_cfg = true;
hsa_init_new_bb (expanded_bb);
/* Slow path: function call. */
gen_hsa_insns_for_direct_call (stmt, hsa_init_new_bb (call_bb), false);
return hsa_bb_for_bb (expanded_bb);
}
/* Expand a memory copy BUILTIN (BUILT_IN_MEMCPY, BUILT_IN_MEMPCPY) from
a gimple STMT and store all necessary instruction to HBB basic block. */
static void
expand_memory_copy (gimple *stmt, hsa_bb *hbb, enum built_in_function builtin)
{
tree byte_size = gimple_call_arg (stmt, 2);
if (!tree_fits_uhwi_p (byte_size))
{
gen_hsa_insns_for_direct_call (stmt, hbb);
return;
}
unsigned HOST_WIDE_INT n = tree_to_uhwi (byte_size);
if (n > HSA_MEMORY_BUILTINS_LIMIT)
{
gen_hsa_insns_for_direct_call (stmt, hbb);
return;
}
tree dst = gimple_call_arg (stmt, 0);
tree src = gimple_call_arg (stmt, 1);
hsa_op_address *dst_addr = get_address_from_value (dst, hbb);
hsa_op_address *src_addr = get_address_from_value (src, hbb);
/* As gen_hsa_memory_copy relies on memory alignment
greater or equal to 8 bytes, we need to verify the alignment. */
BrigType16_t addrtype = hsa_get_segment_addr_type (BRIG_SEGMENT_FLAT);
hsa_op_reg *src_addr_reg = new hsa_op_reg (addrtype);
hsa_op_reg *dst_addr_reg = new hsa_op_reg (addrtype);
convert_addr_to_flat_segment (src_addr, src_addr_reg, hbb);
convert_addr_to_flat_segment (dst_addr, dst_addr_reg, hbb);
/* Process BIT OR for source and destination addresses. */
hsa_op_reg *or_reg = new hsa_op_reg (addrtype);
gen_hsa_binary_operation (BRIG_OPCODE_OR, or_reg, src_addr_reg,
dst_addr_reg, hbb);
/* Process BIT AND with 0x7 to identify the desired alignment
of 8 bytes. */
hsa_op_reg *masked = new hsa_op_reg (addrtype);
gen_hsa_binary_operation (BRIG_OPCODE_AND, masked, or_reg,
new hsa_op_immed (7, addrtype), hbb);
hsa_op_reg *misaligned = new hsa_op_reg (BRIG_TYPE_B1);
hbb->append_insn (new hsa_insn_cmp (BRIG_COMPARE_NE, misaligned->m_type,
misaligned, masked,
new hsa_op_immed (0, masked->m_type)));
hsa_bb *native_impl_bb
= expand_string_operation_builtin (stmt, hbb, misaligned);
gen_hsa_memory_copy (native_impl_bb, dst_addr, src_addr, n, BRIG_ALIGNMENT_8);
hsa_bb *merge_bb
= hsa_init_new_bb (EDGE_SUCC (native_impl_bb->m_bb, 0)->dest);
expand_lhs_of_string_op (stmt, n, merge_bb, builtin);
}
/* Expand a memory set BUILTIN (BUILT_IN_MEMSET, BUILT_IN_BZERO) from
a gimple STMT and store all necessary instruction to HBB basic block.
The operation set N bytes with a CONSTANT value. */
static void
expand_memory_set (gimple *stmt, unsigned HOST_WIDE_INT n,
unsigned HOST_WIDE_INT constant, hsa_bb *hbb,
enum built_in_function builtin)
{
tree dst = gimple_call_arg (stmt, 0);
hsa_op_address *dst_addr = get_address_from_value (dst, hbb);
/* As gen_hsa_memory_set relies on memory alignment
greater or equal to 8 bytes, we need to verify the alignment. */
BrigType16_t addrtype = hsa_get_segment_addr_type (BRIG_SEGMENT_FLAT);
hsa_op_reg *dst_addr_reg = new hsa_op_reg (addrtype);
convert_addr_to_flat_segment (dst_addr, dst_addr_reg, hbb);
/* Process BIT AND with 0x7 to identify the desired alignment
of 8 bytes. */
hsa_op_reg *masked = new hsa_op_reg (addrtype);
gen_hsa_binary_operation (BRIG_OPCODE_AND, masked, dst_addr_reg,
new hsa_op_immed (7, addrtype), hbb);
hsa_op_reg *misaligned = new hsa_op_reg (BRIG_TYPE_B1);
hbb->append_insn (new hsa_insn_cmp (BRIG_COMPARE_NE, misaligned->m_type,
misaligned, masked,
new hsa_op_immed (0, masked->m_type)));
hsa_bb *native_impl_bb
= expand_string_operation_builtin (stmt, hbb, misaligned);
gen_hsa_memory_set (native_impl_bb, dst_addr, constant, n, BRIG_ALIGNMENT_8);
hsa_bb *merge_bb
= hsa_init_new_bb (EDGE_SUCC (native_impl_bb->m_bb, 0)->dest);
expand_lhs_of_string_op (stmt, n, merge_bb, builtin);
}
/* Return string for MEMMODEL. */
static const char *
@ -4811,8 +5035,6 @@ gen_hsa_insn_for_internal_fn_call (gcall *stmt, hsa_bb *hbb)
}
}
#define HSA_MEMORY_BUILTINS_LIMIT 128
/* Generate HSA instructions for the given call statement STMT. Instructions
will be appended to HBB. */
@ -5169,58 +5391,11 @@ gen_hsa_insns_for_call (gimple *stmt, hsa_bb *hbb)
case BUILT_IN_MEMCPY:
case BUILT_IN_MEMPCPY:
{
tree byte_size = gimple_call_arg (stmt, 2);
if (!tree_fits_uhwi_p (byte_size))
{
gen_hsa_insns_for_direct_call (stmt, hbb);
return;
}
unsigned n = tree_to_uhwi (byte_size);
if (n > HSA_MEMORY_BUILTINS_LIMIT)
{
gen_hsa_insns_for_direct_call (stmt, hbb);
return;
}
tree dst = gimple_call_arg (stmt, 0);
tree src = gimple_call_arg (stmt, 1);
hsa_op_address *dst_addr = get_address_from_value (dst, hbb);
hsa_op_address *src_addr = get_address_from_value (src, hbb);
gen_hsa_memory_copy (hbb, dst_addr, src_addr, n, BRIG_ALIGNMENT_1);
tree lhs = gimple_call_lhs (stmt);
if (lhs)
{
hsa_op_reg *lhs_reg = hsa_cfun->reg_for_gimple_ssa (lhs);
hsa_op_with_type *dst_reg = hsa_reg_or_immed_for_gimple_op (dst,
hbb);
hsa_op_with_type *tmp;
if (builtin == BUILT_IN_MEMPCPY)
{
tmp = new hsa_op_reg (dst_reg->m_type);
hsa_insn_basic *add
= new hsa_insn_basic (3, BRIG_OPCODE_ADD, tmp->m_type,
tmp, dst_reg,
new hsa_op_immed (n, dst_reg->m_type));
hbb->append_insn (add);
}
else
tmp = dst_reg;
hsa_build_append_simple_mov (lhs_reg, tmp, hbb);
}
expand_memory_copy (stmt, hbb, builtin);
break;
}
case BUILT_IN_MEMSET:
{
tree dst = gimple_call_arg (stmt, 0);
tree c = gimple_call_arg (stmt, 1);
if (TREE_CODE (c) != INTEGER_CST)
@ -5237,7 +5412,7 @@ gen_hsa_insns_for_call (gimple *stmt, hsa_bb *hbb)
return;
}
unsigned n = tree_to_uhwi (byte_size);
unsigned HOST_WIDE_INT n = tree_to_uhwi (byte_size);
if (n > HSA_MEMORY_BUILTINS_LIMIT)
{
@ -5245,22 +5420,15 @@ gen_hsa_insns_for_call (gimple *stmt, hsa_bb *hbb)
return;
}
hsa_op_address *dst_addr;
dst_addr = get_address_from_value (dst, hbb);
unsigned HOST_WIDE_INT constant
= tree_to_uhwi (fold_convert (unsigned_char_type_node, c));
gen_hsa_memory_set (hbb, dst_addr, constant, n);
tree lhs = gimple_call_lhs (stmt);
if (lhs)
gen_hsa_insns_for_single_assignment (lhs, dst, hbb);
expand_memory_set (stmt, n, constant, hbb, builtin);
break;
}
case BUILT_IN_BZERO:
{
tree dst = gimple_call_arg (stmt, 0);
tree byte_size = gimple_call_arg (stmt, 1);
if (!tree_fits_uhwi_p (byte_size))
@ -5269,7 +5437,7 @@ gen_hsa_insns_for_call (gimple *stmt, hsa_bb *hbb)
return;
}
unsigned n = tree_to_uhwi (byte_size);
unsigned HOST_WIDE_INT n = tree_to_uhwi (byte_size);
if (n > HSA_MEMORY_BUILTINS_LIMIT)
{
@ -5277,10 +5445,7 @@ gen_hsa_insns_for_call (gimple *stmt, hsa_bb *hbb)
return;
}
hsa_op_address *dst_addr;
dst_addr = get_address_from_value (dst, hbb);
gen_hsa_memory_set (hbb, dst_addr, 0, n);
expand_memory_set (stmt, n, 0, hbb, builtin);
break;
}
@ -5832,13 +5997,13 @@ LD: hard_work_3 ();
*/
static void
convert_switch_statements ()
static bool
convert_switch_statements (void)
{
function *func = DECL_STRUCT_FUNCTION (current_function_decl);
basic_block bb;
bool need_update = false;
bool modified_cfg = false;
FOR_EACH_BB_FN (bb, func)
{
@ -5856,7 +6021,7 @@ convert_switch_statements ()
if (transformable_switch_to_sbr_p (s))
continue;
need_update = true;
modified_cfg = true;
unsigned labels = gimple_switch_num_labels (s);
tree index = gimple_switch_index (s);
@ -6023,11 +6188,7 @@ convert_switch_statements ()
if (dump_file)
dump_function_to_file (current_function_decl, dump_file, TDF_DETAILS);
if (need_update)
{
free_dominance_info (CDI_DOMINATORS);
calculate_dominance_info (CDI_DOMINATORS);
}
return modified_cfg;
}
/* Expand builtins that can't be handled by HSA back-end. */
@ -6127,9 +6288,11 @@ generate_hsa (bool kernel)
if (hsa_num_threads == NULL)
emit_hsa_module_variables ();
bool modified_cfg = convert_switch_statements ();
/* Initialize hsa_cfun. */
hsa_cfun = new hsa_function_representation (cfun->decl, kernel,
SSANAMES (cfun)->length ());
SSANAMES (cfun)->length (),
modified_cfg);
hsa_cfun->init_extra_bbs ();
if (flag_tm)
@ -6234,7 +6397,6 @@ pass_gen_hsail::execute (function *)
hsa_function_summary *s
= hsa_summaries->get (cgraph_node::get_create (current_function_decl));
convert_switch_statements ();
expand_builtins ();
generate_hsa (s->m_kind == HSA_KERNEL);
TREE_ASM_WRITTEN (current_function_decl) = 1;

1
gcc/hsa-regalloc.c
View File

@ -700,6 +700,7 @@ regalloc (void)
void
hsa_regalloc (void)
{
hsa_cfun->update_dominance ();
naive_outof_ssa ();
if (dump_file && (dump_flags & TDF_DETAILS))

9
gcc/hsa.h
View File

@ -1123,7 +1123,8 @@ class hsa_function_representation
{
public:
hsa_function_representation (tree fdecl, bool kernel_p,
unsigned ssa_names_count);
unsigned ssa_names_count,
bool modified_cfg = false);
hsa_function_representation (hsa_internal_fn *fn);
~hsa_function_representation ();
@ -1139,6 +1140,9 @@ public:
so we need hsa_bb instances of them. */
void init_extra_bbs ();
/* Update CFG dominators if m_modified_cfg flag is set. */
void update_dominance ();
/* Return linkage of the representation. */
BrigLinkage8_t get_linkage ();
@ -1219,6 +1223,9 @@ public:
/* SSA names mapping. */
vec <hsa_op_reg_p> m_ssa_map;
/* Flag whether a function needs update of dominators before RA. */
bool m_modified_cfg;
};
enum hsa_function_kind