Remove gcc software divide patch
We have a divider, thanks to Paul. Signed-off-by: Anton Blanchard <anton@linux.ibm.com>pull/73/head
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b57325ce29
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c8328cdf84
@ -1,216 +0,0 @@
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[PATCH] Hack out ppc64le gcc fixed point divide instructions
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This is a pretty horrible short term hack that removes hardware fixed
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point divides from ppc64le gcc. It breaks VMX/VSX, but we aren't using
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either on microwatt. We'll implement a hardware divide shortly and this
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can go away. Please don't tell my toolchain team.
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The firmware.hex file in this directory is a build of micropython using
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a recent mainline gcc with this patch.
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Signed-off-by: Anton Blanchard <anton@linux.ibm.com>
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---
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diff --git a/gcc/config/rs6000/rs6000-builtin.def b/gcc/config/rs6000/rs6000-builtin.def
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index 0a2bdb79e15..02e325b73a9 100644
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--- a/gcc/config/rs6000/rs6000-builtin.def
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+++ b/gcc/config/rs6000/rs6000-builtin.def
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@@ -1581,7 +1581,6 @@ BU_VSX_2 (VEC_MERGEH_V2DF, "mergeh_2df", CONST, vsx_mergeh_v2df)
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BU_VSX_2 (VEC_MERGEH_V2DI, "mergeh_2di", CONST, vsx_mergeh_v2di)
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BU_VSX_2 (XXSPLTD_V2DF, "xxspltd_2df", CONST, vsx_xxspltd_v2df)
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BU_VSX_2 (XXSPLTD_V2DI, "xxspltd_2di", CONST, vsx_xxspltd_v2di)
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-BU_VSX_2 (DIV_V2DI, "div_2di", CONST, vsx_div_v2di)
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BU_VSX_2 (UDIV_V2DI, "udiv_2di", CONST, vsx_udiv_v2di)
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BU_VSX_2 (MUL_V2DI, "mul_2di", CONST, vsx_mul_v2di)
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diff --git a/gcc/config/rs6000/rs6000-c.c b/gcc/config/rs6000/rs6000-c.c
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index 7f0cdc73d9b..ad0a8a74e63 100644
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--- a/gcc/config/rs6000/rs6000-c.c
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+++ b/gcc/config/rs6000/rs6000-c.c
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@@ -1459,8 +1459,6 @@ const struct altivec_builtin_types altivec_overloaded_builtins[] = {
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RS6000_BTI_V4SF, RS6000_BTI_V4SF, RS6000_BTI_V4SF, 0 },
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{ VSX_BUILTIN_VEC_DIV, VSX_BUILTIN_XVDIVDP,
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RS6000_BTI_V2DF, RS6000_BTI_V2DF, RS6000_BTI_V2DF, 0 },
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- { VSX_BUILTIN_VEC_DIV, VSX_BUILTIN_DIV_V2DI,
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- RS6000_BTI_V2DI, RS6000_BTI_V2DI, RS6000_BTI_V2DI, 0 },
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{ VSX_BUILTIN_VEC_DIV, VSX_BUILTIN_UDIV_V2DI,
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RS6000_BTI_unsigned_V2DI, RS6000_BTI_unsigned_V2DI, RS6000_BTI_unsigned_V2DI, 0 },
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{ VSX_BUILTIN_VEC_DOUBLE, VSX_BUILTIN_XVCVSXDDP,
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diff --git a/gcc/config/rs6000/rs6000-call.c b/gcc/config/rs6000/rs6000-call.c
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index 832eda7cbad..1c5245c781b 100644
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--- a/gcc/config/rs6000/rs6000-call.c
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+++ b/gcc/config/rs6000/rs6000-call.c
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@@ -5445,7 +5445,6 @@ rs6000_gimple_fold_builtin (gimple_stmt_iterator *gsi)
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gsi_replace (gsi, g, true);
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return true;
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/* Flavors of vec_div (Integer). */
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- case VSX_BUILTIN_DIV_V2DI:
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case VSX_BUILTIN_UDIV_V2DI:
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arg0 = gimple_call_arg (stmt, 0);
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arg1 = gimple_call_arg (stmt, 1);
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diff --git a/gcc/config/rs6000/rs6000.md b/gcc/config/rs6000/rs6000.md
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index 9a7a1da987f..c443c2fe579 100644
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--- a/gcc/config/rs6000/rs6000.md
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+++ b/gcc/config/rs6000/rs6000.md
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@@ -3071,45 +3071,6 @@
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"maddld %0,%1,%2,%3"
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[(set_attr "type" "mul")])
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-(define_insn "udiv<mode>3"
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- [(set (match_operand:GPR 0 "gpc_reg_operand" "=r")
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- (udiv:GPR (match_operand:GPR 1 "gpc_reg_operand" "r")
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- (match_operand:GPR 2 "gpc_reg_operand" "r")))]
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- ""
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- "div<wd>u %0,%1,%2"
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- [(set_attr "type" "div")
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- (set_attr "size" "<bits>")])
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-
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-
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-;; For powers of two we can do sra[wd]i/addze for divide and then adjust for
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-;; modulus. If it isn't a power of two, force operands into register and do
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-;; a normal divide.
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-(define_expand "div<mode>3"
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- [(set (match_operand:GPR 0 "gpc_reg_operand")
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- (div:GPR (match_operand:GPR 1 "gpc_reg_operand")
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- (match_operand:GPR 2 "reg_or_cint_operand")))]
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- ""
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-{
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- if (CONST_INT_P (operands[2])
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- && INTVAL (operands[2]) > 0
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- && exact_log2 (INTVAL (operands[2])) >= 0)
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- {
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- emit_insn (gen_div<mode>3_sra (operands[0], operands[1], operands[2]));
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- DONE;
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- }
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-
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- operands[2] = force_reg (<MODE>mode, operands[2]);
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-})
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-
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-(define_insn "*div<mode>3"
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- [(set (match_operand:GPR 0 "gpc_reg_operand" "=r")
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- (div:GPR (match_operand:GPR 1 "gpc_reg_operand" "r")
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- (match_operand:GPR 2 "gpc_reg_operand" "r")))]
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- ""
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- "div<wd> %0,%1,%2"
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- [(set_attr "type" "div")
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- (set_attr "size" "<bits>")])
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-
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(define_insn "div<mode>3_sra"
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[(set (match_operand:GPR 0 "gpc_reg_operand" "=r")
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(div:GPR (match_operand:GPR 1 "gpc_reg_operand" "r")
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@@ -3170,37 +3131,6 @@
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(set_attr "length" "8,12")
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(set_attr "cell_micro" "not")])
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-(define_expand "mod<mode>3"
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- [(set (match_operand:GPR 0 "gpc_reg_operand")
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- (mod:GPR (match_operand:GPR 1 "gpc_reg_operand")
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- (match_operand:GPR 2 "reg_or_cint_operand")))]
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- ""
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-{
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- int i;
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- rtx temp1;
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- rtx temp2;
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-
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- if (!CONST_INT_P (operands[2])
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- || INTVAL (operands[2]) <= 0
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- || (i = exact_log2 (INTVAL (operands[2]))) < 0)
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- {
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- if (!TARGET_MODULO)
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- FAIL;
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-
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- operands[2] = force_reg (<MODE>mode, operands[2]);
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- }
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- else
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- {
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- temp1 = gen_reg_rtx (<MODE>mode);
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- temp2 = gen_reg_rtx (<MODE>mode);
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-
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- emit_insn (gen_div<mode>3 (temp1, operands[1], operands[2]));
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- emit_insn (gen_ashl<mode>3 (temp2, temp1, GEN_INT (i)));
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- emit_insn (gen_sub<mode>3 (operands[0], operands[1], temp2));
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- DONE;
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- }
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-})
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-
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;; In order to enable using a peephole2 for combining div/mod to eliminate the
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;; mod, prefer putting the result of mod into a different register
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(define_insn "*mod<mode>3"
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diff --git a/gcc/config/rs6000/vsx.md b/gcc/config/rs6000/vsx.md
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index 7633171df9c..1a2ac66bd43 100644
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--- a/gcc/config/rs6000/vsx.md
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+++ b/gcc/config/rs6000/vsx.md
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@@ -1602,53 +1602,6 @@
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"xvdiv<sd>p %x0,%x1,%x2"
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[(set_attr "type" "<VStype_div>")])
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-; Emulate vector with scalar for vec_div in V2DImode
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-(define_insn_and_split "vsx_div_v2di"
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- [(set (match_operand:V2DI 0 "vsx_register_operand" "=wa")
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- (unspec:V2DI [(match_operand:V2DI 1 "vsx_register_operand" "wa")
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- (match_operand:V2DI 2 "vsx_register_operand" "wa")]
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- UNSPEC_VSX_DIVSD))]
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- "VECTOR_MEM_VSX_P (V2DImode)"
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- "#"
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- "VECTOR_MEM_VSX_P (V2DImode) && !reload_completed"
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- [(const_int 0)]
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-{
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- rtx op0 = operands[0];
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- rtx op1 = operands[1];
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- rtx op2 = operands[2];
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- rtx op3 = gen_reg_rtx (DImode);
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- rtx op4 = gen_reg_rtx (DImode);
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- rtx op5 = gen_reg_rtx (DImode);
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- emit_insn (gen_vsx_extract_v2di (op3, op1, GEN_INT (0)));
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- emit_insn (gen_vsx_extract_v2di (op4, op2, GEN_INT (0)));
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- if (TARGET_POWERPC64)
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- emit_insn (gen_divdi3 (op5, op3, op4));
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- else
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- {
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- rtx libfunc = optab_libfunc (sdiv_optab, DImode);
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- rtx target = emit_library_call_value (libfunc,
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- op5, LCT_NORMAL, DImode,
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- op3, DImode,
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- op4, DImode);
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- emit_move_insn (op5, target);
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- }
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- emit_insn (gen_vsx_extract_v2di (op3, op1, GEN_INT (1)));
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- emit_insn (gen_vsx_extract_v2di (op4, op2, GEN_INT (1)));
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- if (TARGET_POWERPC64)
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- emit_insn (gen_divdi3 (op3, op3, op4));
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- else
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- {
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- rtx libfunc = optab_libfunc (sdiv_optab, DImode);
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- rtx target = emit_library_call_value (libfunc,
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- op3, LCT_NORMAL, DImode,
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- op3, DImode,
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- op4, DImode);
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- emit_move_insn (op3, target);
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- }
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- emit_insn (gen_vsx_concat_v2di (op0, op5, op3));
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- DONE;
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-}
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- [(set_attr "type" "div")])
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(define_insn_and_split "vsx_udiv_v2di"
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[(set (match_operand:V2DI 0 "vsx_register_operand" "=wa")
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@@ -1668,9 +1621,6 @@
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rtx op5 = gen_reg_rtx (DImode);
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emit_insn (gen_vsx_extract_v2di (op3, op1, GEN_INT (0)));
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emit_insn (gen_vsx_extract_v2di (op4, op2, GEN_INT (0)));
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- if (TARGET_POWERPC64)
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- emit_insn (gen_udivdi3 (op5, op3, op4));
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- else
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{
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rtx libfunc = optab_libfunc (udiv_optab, DImode);
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rtx target = emit_library_call_value (libfunc,
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@@ -1681,9 +1631,6 @@
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}
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emit_insn (gen_vsx_extract_v2di (op3, op1, GEN_INT (1)));
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emit_insn (gen_vsx_extract_v2di (op4, op2, GEN_INT (1)));
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- if (TARGET_POWERPC64)
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- emit_insn (gen_udivdi3 (op3, op3, op4));
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- else
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{
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rtx libfunc = optab_libfunc (udiv_optab, DImode);
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rtx target = emit_library_call_value (libfunc,
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