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New LLVM IR load instruction

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This commit is contained in:
Vsevolod Livinskiy
2015-03-05 15:53:56 +03:00
parent 29859e81ba
commit a216b2bb9c
20 changed files with 197 additions and 197 deletions
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234
builtins/util.m4
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@@ -1214,7 +1214,7 @@ not_const:
%ptr_as_elt_array = bitcast <WIDTH x $1> * %ptr to [eval(2*WIDTH) x $1] *
%load_ptr = getelementptr PTR_OP_ARGS(`[eval(2*WIDTH) x $1]', `%ptr_as_elt_array, i32 0, i32 %offset')
%load_ptr_vec = bitcast $1 * %load_ptr to <WIDTH x $1> *
%result = load <WIDTH x $1> * %load_ptr_vec, align $2
%result = load PTR_OP_ARGS(`<WIDTH x $1> ',` %load_ptr_vec, align $2')
ret <WIDTH x $1> %result
}
@@ -1231,7 +1231,7 @@ define <WIDTH x $1> @__shift_$1(<WIDTH x $1>, i32) nounwind readnone alwaysinlin
%ptr_as_elt_array = bitcast <WIDTH x $1> * %ptr to [eval(3*WIDTH) x $1] *
%load_ptr = getelementptr PTR_OP_ARGS(`[eval(3*WIDTH) x $1]', `%ptr_as_elt_array, i32 0, i32 %offset')
%load_ptr_vec = bitcast $1 * %load_ptr to <WIDTH x $1> *
%result = load <WIDTH x $1> * %load_ptr_vec, align $2
%result = load PTR_OP_ARGS(`<WIDTH x $1> ',` %load_ptr_vec, align $2')
ret <WIDTH x $1> %result
}
@@ -1277,12 +1277,12 @@ not_const:
%baseptr = bitcast <eval(2*WIDTH) x $1> * %ptr to $1 *
%ptr_0 = getelementptr PTR_OP_ARGS(`$1', `%baseptr, i32 %index_0')
%val_0 = load $1 * %ptr_0
%val_0 = load PTR_OP_ARGS(`$1 ',` %ptr_0')
%result_0 = insertelement <WIDTH x $1> undef, $1 %val_0, i32 0
forloop(i, 1, eval(WIDTH-1), `
%ptr_`'i = getelementptr PTR_OP_ARGS(`$1', `%baseptr, i32 %index_`'i')
%val_`'i = load $1 * %ptr_`'i
%val_`'i = load PTR_OP_ARGS(`$1 ',` %ptr_`'i')
%result_`'i = insertelement <WIDTH x $1> %result_`'eval(i-1), $1 %val_`'i, i32 i
')
@@ -1525,7 +1525,7 @@ define <$1 x $2> @__atomic_compare_exchange_$3_global($2* %ptr, <$1 x $2> %cmp,
%rp_LANE_ID = getelementptr PTR_OP_ARGS(`$2', `%rptr32, i32 LANE')
store $2 %r_LANE_ID, $2 * %rp_LANE_ID')
%r = load <$1 x $2> * %rptr
%r = load PTR_OP_ARGS(`<$1 x $2> ',` %rptr')
ret <$1 x $2> %r
}
@@ -1790,13 +1790,13 @@ define void
;; Similarly for the output pointers
%out0a = bitcast <8 x float> * %out0 to <4 x float> *
%out0b = getelementptr PTR_OP_ARGS(`float>', `t> * %out0a, i32 1')
%out0b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out0a, i32 1')
%out1a = bitcast <8 x float> * %out1 to <4 x float> *
%out1b = getelementptr PTR_OP_ARGS(`float>', `t> * %out1a, i32 1')
%out1b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out1a, i32 1')
%out2a = bitcast <8 x float> * %out2 to <4 x float> *
%out2b = getelementptr PTR_OP_ARGS(`float>', `t> * %out2a, i32 1')
%out2b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out2a, i32 1')
%out3a = bitcast <8 x float> * %out3 to <4 x float> *
%out3b = getelementptr PTR_OP_ARGS(`float>', `t> * %out3a, i32 1')
%out3b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out3a, i32 1')
;; Do the first part--given input vectors like
;; <x0 y0 z0 x1 y1 z1 x2 y2> <z2 x3 y3 z3 x4 y4 z4 x5> <y5 z5 x6 y6 z6 x7 y7 z7>,
@@ -1839,13 +1839,13 @@ define void
<4 x i32> <i32 4, i32 5, i32 6, i32 7>
%out0a = bitcast <8 x float> * %out0 to <4 x float> *
%out0b = getelementptr PTR_OP_ARGS(`float>', `t> * %out0a, i32 1')
%out0b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out0a, i32 1')
%out1a = bitcast <8 x float> * %out1 to <4 x float> *
%out1b = getelementptr PTR_OP_ARGS(`float>', `t> * %out1a, i32 1')
%out1b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out1a, i32 1')
%out2a = bitcast <8 x float> * %out2 to <4 x float> *
%out2b = getelementptr PTR_OP_ARGS(`float>', `t> * %out2a, i32 1')
%out2b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out2a, i32 1')
%out3a = bitcast <8 x float> * %out3 to <4 x float> *
%out3b = getelementptr PTR_OP_ARGS(`float>', `t> * %out3a, i32 1')
%out3b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out3a, i32 1')
;; First part--given input vectors
;; <x0 x1 x2 x3 x4 x5 x6 x7> <y0 y1 y2 y3 y4 y5 y6 y7> <z0 z1 z2 z3 z4 z5 z6 z7>
@@ -1882,11 +1882,11 @@ define void
<4 x i32> <i32 4, i32 5, i32 6, i32 7>
%out0a = bitcast <8 x float> * %out0 to <4 x float> *
%out0b = getelementptr PTR_OP_ARGS(`float>', `t> * %out0a, i32 1')
%out0b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out0a, i32 1')
%out1a = bitcast <8 x float> * %out1 to <4 x float> *
%out1b = getelementptr PTR_OP_ARGS(`float>', `t> * %out1a, i32 1')
%out1b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out1a, i32 1')
%out2a = bitcast <8 x float> * %out2 to <4 x float> *
%out2b = getelementptr PTR_OP_ARGS(`float>', `t> * %out2a, i32 1')
%out2b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out2a, i32 1')
call void @__aos_to_soa3_float4(<4 x float> %v0a, <4 x float> %v0b,
<4 x float> %v1a, <4 x float> * %out0a, <4 x float> * %out1a,
@@ -1916,11 +1916,11 @@ define void
<4 x i32> <i32 4, i32 5, i32 6, i32 7>
%out0a = bitcast <8 x float> * %out0 to <4 x float> *
%out0b = getelementptr PTR_OP_ARGS(`float>', `t> * %out0a, i32 1')
%out0b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out0a, i32 1')
%out1a = bitcast <8 x float> * %out1 to <4 x float> *
%out1b = getelementptr PTR_OP_ARGS(`float>', `t> * %out1a, i32 1')
%out1b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out1a, i32 1')
%out2a = bitcast <8 x float> * %out2 to <4 x float> *
%out2b = getelementptr PTR_OP_ARGS(`float>', `t> * %out2a, i32 1')
%out2b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out2a, i32 1')
call void @__soa_to_aos3_float4(<4 x float> %v0a, <4 x float> %v1a,
<4 x float> %v2a, <4 x float> * %out0a, <4 x float> * %out0b,
@@ -1972,21 +1972,21 @@ define void
<4 x i32> <i32 12, i32 13, i32 14, i32 15>
%out0a = bitcast <16 x float> * %out0 to <4 x float> *
%out0b = getelementptr PTR_OP_ARGS(`float>', `t> * %out0a, i32 1')
%out0c = getelementptr PTR_OP_ARGS(`float>', `t> * %out0a, i32 2')
%out0d = getelementptr PTR_OP_ARGS(`float>', `t> * %out0a, i32 3')
%out0b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out0a, i32 1')
%out0c = getelementptr PTR_OP_ARGS(`<4 x float>', `%out0a, i32 2')
%out0d = getelementptr PTR_OP_ARGS(`<4 x float>', `%out0a, i32 3')
%out1a = bitcast <16 x float> * %out1 to <4 x float> *
%out1b = getelementptr PTR_OP_ARGS(`float>', `t> * %out1a, i32 1')
%out1c = getelementptr PTR_OP_ARGS(`float>', `t> * %out1a, i32 2')
%out1d = getelementptr PTR_OP_ARGS(`float>', `t> * %out1a, i32 3')
%out1b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out1a, i32 1')
%out1c = getelementptr PTR_OP_ARGS(`<4 x float>', `%out1a, i32 2')
%out1d = getelementptr PTR_OP_ARGS(`<4 x float>', `%out1a, i32 3')
%out2a = bitcast <16 x float> * %out2 to <4 x float> *
%out2b = getelementptr PTR_OP_ARGS(`float>', `t> * %out2a, i32 1')
%out2c = getelementptr PTR_OP_ARGS(`float>', `t> * %out2a, i32 2')
%out2d = getelementptr PTR_OP_ARGS(`float>', `t> * %out2a, i32 3')
%out2b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out2a, i32 1')
%out2c = getelementptr PTR_OP_ARGS(`<4 x float>', `%out2a, i32 2')
%out2d = getelementptr PTR_OP_ARGS(`<4 x float>', `%out2a, i32 3')
%out3a = bitcast <16 x float> * %out3 to <4 x float> *
%out3b = getelementptr PTR_OP_ARGS(`float>', `t> * %out3a, i32 1')
%out3c = getelementptr PTR_OP_ARGS(`float>', `t> * %out3a, i32 2')
%out3d = getelementptr PTR_OP_ARGS(`float>', `t> * %out3a, i32 3')
%out3b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out3a, i32 1')
%out3c = getelementptr PTR_OP_ARGS(`<4 x float>', `%out3a, i32 2')
%out3d = getelementptr PTR_OP_ARGS(`<4 x float>', `%out3a, i32 3')
call void @__aos_to_soa4_float4(<4 x float> %v0a, <4 x float> %v0b,
<4 x float> %v0c, <4 x float> %v0d, <4 x float> * %out0a,
@@ -2043,21 +2043,21 @@ define void
<4 x i32> <i32 12, i32 13, i32 14, i32 15>
%out0a = bitcast <16 x float> * %out0 to <4 x float> *
%out0b = getelementptr PTR_OP_ARGS(`float>', `t> * %out0a, i32 1')
%out0c = getelementptr PTR_OP_ARGS(`float>', `t> * %out0a, i32 2')
%out0d = getelementptr PTR_OP_ARGS(`float>', `t> * %out0a, i32 3')
%out0b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out0a, i32 1')
%out0c = getelementptr PTR_OP_ARGS(`<4 x float>', `%out0a, i32 2')
%out0d = getelementptr PTR_OP_ARGS(`<4 x float>', `%out0a, i32 3')
%out1a = bitcast <16 x float> * %out1 to <4 x float> *
%out1b = getelementptr PTR_OP_ARGS(`float>', `t> * %out1a, i32 1')
%out1c = getelementptr PTR_OP_ARGS(`float>', `t> * %out1a, i32 2')
%out1d = getelementptr PTR_OP_ARGS(`float>', `t> * %out1a, i32 3')
%out1b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out1a, i32 1')
%out1c = getelementptr PTR_OP_ARGS(`<4 x float>', `%out1a, i32 2')
%out1d = getelementptr PTR_OP_ARGS(`<4 x float>', `%out1a, i32 3')
%out2a = bitcast <16 x float> * %out2 to <4 x float> *
%out2b = getelementptr PTR_OP_ARGS(`float>', `t> * %out2a, i32 1')
%out2c = getelementptr PTR_OP_ARGS(`float>', `t> * %out2a, i32 2')
%out2d = getelementptr PTR_OP_ARGS(`float>', `t> * %out2a, i32 3')
%out2b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out2a, i32 1')
%out2c = getelementptr PTR_OP_ARGS(`<4 x float>', `%out2a, i32 2')
%out2d = getelementptr PTR_OP_ARGS(`<4 x float>', `%out2a, i32 3')
%out3a = bitcast <16 x float> * %out3 to <4 x float> *
%out3b = getelementptr PTR_OP_ARGS(`float>', `t> * %out3a, i32 1')
%out3c = getelementptr PTR_OP_ARGS(`float>', `t> * %out3a, i32 2')
%out3d = getelementptr PTR_OP_ARGS(`float>', `t> * %out3a, i32 3')
%out3b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out3a, i32 1')
%out3c = getelementptr PTR_OP_ARGS(`<4 x float>', `%out3a, i32 2')
%out3d = getelementptr PTR_OP_ARGS(`<4 x float>', `%out3a, i32 3')
call void @__soa_to_aos4_float4(<4 x float> %v0a, <4 x float> %v1a,
<4 x float> %v2a, <4 x float> %v3a, <4 x float> * %out0a,
@@ -2105,17 +2105,17 @@ define void
<4 x i32> <i32 12, i32 13, i32 14, i32 15>
%out0a = bitcast <16 x float> * %out0 to <4 x float> *
%out0b = getelementptr PTR_OP_ARGS(`float>', `t> * %out0a, i32 1')
%out0c = getelementptr PTR_OP_ARGS(`float>', `t> * %out0a, i32 2')
%out0d = getelementptr PTR_OP_ARGS(`float>', `t> * %out0a, i32 3')
%out0b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out0a, i32 1')
%out0c = getelementptr PTR_OP_ARGS(`<4 x float>', `%out0a, i32 2')
%out0d = getelementptr PTR_OP_ARGS(`<4 x float>', `%out0a, i32 3')
%out1a = bitcast <16 x float> * %out1 to <4 x float> *
%out1b = getelementptr PTR_OP_ARGS(`float>', `t> * %out1a, i32 1')
%out1c = getelementptr PTR_OP_ARGS(`float>', `t> * %out1a, i32 2')
%out1d = getelementptr PTR_OP_ARGS(`float>', `t> * %out1a, i32 3')
%out1b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out1a, i32 1')
%out1c = getelementptr PTR_OP_ARGS(`<4 x float>', `%out1a, i32 2')
%out1d = getelementptr PTR_OP_ARGS(`<4 x float>', `%out1a, i32 3')
%out2a = bitcast <16 x float> * %out2 to <4 x float> *
%out2b = getelementptr PTR_OP_ARGS(`float>', `t> * %out2a, i32 1')
%out2c = getelementptr PTR_OP_ARGS(`float>', `t> * %out2a, i32 2')
%out2d = getelementptr PTR_OP_ARGS(`float>', `t> * %out2a, i32 3')
%out2b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out2a, i32 1')
%out2c = getelementptr PTR_OP_ARGS(`<4 x float>', `%out2a, i32 2')
%out2d = getelementptr PTR_OP_ARGS(`<4 x float>', `%out2a, i32 3')
call void @__aos_to_soa3_float4(<4 x float> %v0a, <4 x float> %v0b,
<4 x float> %v0c, <4 x float> * %out0a, <4 x float> * %out1a,
@@ -2163,17 +2163,17 @@ define void
<4 x i32> <i32 12, i32 13, i32 14, i32 15>
%out0a = bitcast <16 x float> * %out0 to <4 x float> *
%out0b = getelementptr PTR_OP_ARGS(`float>', `t> * %out0a, i32 1')
%out0c = getelementptr PTR_OP_ARGS(`float>', `t> * %out0a, i32 2')
%out0d = getelementptr PTR_OP_ARGS(`float>', `t> * %out0a, i32 3')
%out0b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out0a, i32 1')
%out0c = getelementptr PTR_OP_ARGS(`<4 x float>', `%out0a, i32 2')
%out0d = getelementptr PTR_OP_ARGS(`<4 x float>', `%out0a, i32 3')
%out1a = bitcast <16 x float> * %out1 to <4 x float> *
%out1b = getelementptr PTR_OP_ARGS(`float>', `t> * %out1a, i32 1')
%out1c = getelementptr PTR_OP_ARGS(`float>', `t> * %out1a, i32 2')
%out1d = getelementptr PTR_OP_ARGS(`float>', `t> * %out1a, i32 3')
%out1b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out1a, i32 1')
%out1c = getelementptr PTR_OP_ARGS(`<4 x float>', `%out1a, i32 2')
%out1d = getelementptr PTR_OP_ARGS(`<4 x float>', `%out1a, i32 3')
%out2a = bitcast <16 x float> * %out2 to <4 x float> *
%out2b = getelementptr PTR_OP_ARGS(`float>', `t> * %out2a, i32 1')
%out2c = getelementptr PTR_OP_ARGS(`float>', `t> * %out2a, i32 2')
%out2d = getelementptr PTR_OP_ARGS(`float>', `t> * %out2a, i32 3')
%out2b = getelementptr PTR_OP_ARGS(`<4 x float>', `%out2a, i32 1')
%out2c = getelementptr PTR_OP_ARGS(`<4 x float>', `%out2a, i32 2')
%out2d = getelementptr PTR_OP_ARGS(`<4 x float>', `%out2a, i32 3')
call void @__soa_to_aos3_float4(<4 x float> %v0a, <4 x float> %v1a,
<4 x float> %v2a, <4 x float> * %out0a, <4 x float> * %out0b,
@@ -2198,13 +2198,13 @@ define void
<WIDTH x float> * noalias %out2, <WIDTH x float> * noalias %out3)
nounwind alwaysinline {
%p0 = bitcast float * %p to <WIDTH x float> *
%v0 = load <WIDTH x float> * %p0, align 4
%v0 = load PTR_OP_ARGS(`<WIDTH x float> ',` %p0, align 4')
%p1 = getelementptr PTR_OP_ARGS(`<WIDTH x float>', `%p0, i32 1')
%v1 = load <WIDTH x float> * %p1, align 4
%v1 = load PTR_OP_ARGS(`<WIDTH x float> ',` %p1, align 4')
%p2 = getelementptr PTR_OP_ARGS(`<WIDTH x float>', `%p0, i32 2')
%v2 = load <WIDTH x float> * %p2, align 4
%v2 = load PTR_OP_ARGS(`<WIDTH x float> ',` %p2, align 4')
%p3 = getelementptr PTR_OP_ARGS(`<WIDTH x float>', `%p0, i32 3')
%v3 = load <WIDTH x float> * %p3, align 4
%v3 = load PTR_OP_ARGS(`<WIDTH x float> ',` %p3, align 4')
call void @__aos_to_soa4_float`'WIDTH (<WIDTH x float> %v0, <WIDTH x float> %v1,
<WIDTH x float> %v2, <WIDTH x float> %v3, <WIDTH x float> * %out0,
<WIDTH x float> * %out1, <WIDTH x float> * %out2, <WIDTH x float> * %out3)
@@ -2231,11 +2231,11 @@ define void
<WIDTH x float> * %out0, <WIDTH x float> * %out1,
<WIDTH x float> * %out2) nounwind alwaysinline {
%p0 = bitcast float * %p to <WIDTH x float> *
%v0 = load <WIDTH x float> * %p0, align 4
%v0 = load PTR_OP_ARGS(`<WIDTH x float> ',` %p0, align 4')
%p1 = getelementptr PTR_OP_ARGS(`<WIDTH x float>', `%p0, i32 1')
%v1 = load <WIDTH x float> * %p1, align 4
%v1 = load PTR_OP_ARGS(`<WIDTH x float> ',` %p1, align 4')
%p2 = getelementptr PTR_OP_ARGS(`<WIDTH x float>', `%p0, i32 2')
%v2 = load <WIDTH x float> * %p2, align 4
%v2 = load PTR_OP_ARGS(`<WIDTH x float> ',` %p2, align 4')
call void @__aos_to_soa3_float`'WIDTH (<WIDTH x float> %v0, <WIDTH x float> %v1,
<WIDTH x float> %v2, <WIDTH x float> * %out0, <WIDTH x float> * %out1,
<WIDTH x float> * %out2)
@@ -3397,9 +3397,9 @@ declare void @free(i8 *)
define noalias i8 * @__new_uniform_32rt(i64 %size) {
%ptr = alloca i8*
%conv = trunc i64 %size to i32
%alignment = load i32* @memory_alignment
%alignment = load PTR_OP_ARGS(`i32',` @memory_alignment')
%call1 = call i32 @posix_memalign(i8** %ptr, i32 %alignment, i32 %conv)
%ptr_val = load i8** %ptr
%ptr_val = load PTR_OP_ARGS(`i8*',` %ptr')
ret i8* %ptr_val
}
@@ -3407,7 +3407,7 @@ define <WIDTH x i64> @__new_varying32_32rt(<WIDTH x i32> %size, <WIDTH x MASK> %
%ret = alloca <WIDTH x i64>
store <WIDTH x i64> zeroinitializer, <WIDTH x i64> * %ret
%ret64 = bitcast <WIDTH x i64> * %ret to i64 *
%alignment = load i32* @memory_alignment
%alignment = load PTR_OP_ARGS(`i32',` @memory_alignment')
per_lane(WIDTH, <WIDTH x MASK> %mask, `
%sz_LANE_ID = extractelement <WIDTH x i32> %size, i32 LANE
@@ -3415,7 +3415,7 @@ define <WIDTH x i64> @__new_varying32_32rt(<WIDTH x i32> %size, <WIDTH x MASK> %
%ptr_LANE_ID = bitcast i64* %store_LANE_ID to i8**
%call_LANE_ID = call i32 @posix_memalign(i8** %ptr_LANE_ID, i32 %alignment, i32 %sz_LANE_ID)')
%r = load <WIDTH x i64> * %ret
%r = load PTR_OP_ARGS(`<WIDTH x i64> ',` %ret')
ret <WIDTH x i64> %r
}
@@ -3451,10 +3451,10 @@ declare void @free(i8 *)
define noalias i8 * @__new_uniform_64rt(i64 %size) {
%ptr = alloca i8*
%alignment = load i32* @memory_alignment
%alignment = load PTR_OP_ARGS(`i32',` @memory_alignment')
%alignment64 = sext i32 %alignment to i64
%call1 = call i32 @posix_memalign(i8** %ptr, i64 %alignment64, i64 %size)
%ptr_val = load i8** %ptr
%ptr_val = load PTR_OP_ARGS(`i8*',`%ptr')
ret i8* %ptr_val
}
@@ -3462,7 +3462,7 @@ define <WIDTH x i64> @__new_varying32_64rt(<WIDTH x i32> %size, <WIDTH x MASK> %
%ret = alloca <WIDTH x i64>
store <WIDTH x i64> zeroinitializer, <WIDTH x i64> * %ret
%ret64 = bitcast <WIDTH x i64> * %ret to i64 *
%alignment = load i32* @memory_alignment
%alignment = load PTR_OP_ARGS(`i32',` @memory_alignment')
%alignment64 = sext i32 %alignment to i64
per_lane(WIDTH, <WIDTH x MASK> %mask, `
@@ -3472,7 +3472,7 @@ define <WIDTH x i64> @__new_varying32_64rt(<WIDTH x i32> %size, <WIDTH x MASK> %
%ptr_LANE_ID = bitcast i64* %store_LANE_ID to i8**
%call_LANE_ID = call i32 @posix_memalign(i8** %ptr_LANE_ID, i64 %alignment64, i64 %sz64_LANE_ID)')
%r = load <WIDTH x i64> * %ret
%r = load PTR_OP_ARGS(`<WIDTH x i64> ',` %ret')
ret <WIDTH x i64> %r
}
@@ -3480,7 +3480,7 @@ define <WIDTH x i64> @__new_varying64_64rt(<WIDTH x i64> %size, <WIDTH x MASK> %
%ret = alloca <WIDTH x i64>
store <WIDTH x i64> zeroinitializer, <WIDTH x i64> * %ret
%ret64 = bitcast <WIDTH x i64> * %ret to i64 *
%alignment = load i32* @memory_alignment
%alignment = load PTR_OP_ARGS(`i32',` @memory_alignment')
%alignment64 = sext i32 %alignment to i64
per_lane(WIDTH, <WIDTH x MASK> %mask, `
@@ -3489,7 +3489,7 @@ define <WIDTH x i64> @__new_varying64_64rt(<WIDTH x i64> %size, <WIDTH x MASK> %
%ptr_LANE_ID = bitcast i64* %store_LANE_ID to i8**
%call_LANE_ID = call i32 @posix_memalign(i8** %ptr_LANE_ID, i64 %alignment64, i64 %sz64_LANE_ID)')
%r = load <WIDTH x i64> * %ret
%r = load PTR_OP_ARGS(`<WIDTH x i64> ',` %ret')
ret <WIDTH x i64> %r
}
@@ -3533,7 +3533,7 @@ declare void @_aligned_free(i8 *)
define noalias i8 * @__new_uniform_32rt(i64 %size) {
%conv = trunc i64 %size to i32
%alignment = load i32* @memory_alignment
%alignment = load PTR_OP_ARGS(`i32',` @memory_alignment')
%ptr = tail call i8* @_aligned_malloc(i32 %conv, i32 %alignment)
ret i8* %ptr
}
@@ -3542,7 +3542,7 @@ define <WIDTH x i64> @__new_varying32_32rt(<WIDTH x i32> %size, <WIDTH x MASK> %
%ret = alloca <WIDTH x i64>
store <WIDTH x i64> zeroinitializer, <WIDTH x i64> * %ret
%ret64 = bitcast <WIDTH x i64> * %ret to i64 *
%alignment = load i32* @memory_alignment
%alignment = load PTR_OP_ARGS(`i32',` @memory_alignment')
per_lane(WIDTH, <WIDTH x MASK> %mask, `
%sz_LANE_ID = extractelement <WIDTH x i32> %size, i32 LANE
@@ -3551,7 +3551,7 @@ define <WIDTH x i64> @__new_varying32_32rt(<WIDTH x i32> %size, <WIDTH x MASK> %
%store_LANE_ID = getelementptr PTR_OP_ARGS(`i64', `%ret64, i32 LANE')
store i64 %ptr_int_LANE_ID, i64 * %store_LANE_ID')
%r = load <WIDTH x i64> * %ret
%r = load PTR_OP_ARGS(`<WIDTH x i64> ',` %ret')
ret <WIDTH x i64> %r
}
@@ -3586,7 +3586,7 @@ declare i8* @_aligned_malloc(i64, i64)
declare void @_aligned_free(i8 *)
define noalias i8 * @__new_uniform_64rt(i64 %size) {
%alignment = load i32* @memory_alignment
%alignment = load PTR_OP_ARGS(`i32',` @memory_alignment')
%alignment64 = sext i32 %alignment to i64
%ptr = tail call i8* @_aligned_malloc(i64 %size, i64 %alignment64)
ret i8* %ptr
@@ -3596,7 +3596,7 @@ define <WIDTH x i64> @__new_varying32_64rt(<WIDTH x i32> %size, <WIDTH x MASK> %
%ret = alloca <WIDTH x i64>
store <WIDTH x i64> zeroinitializer, <WIDTH x i64> * %ret
%ret64 = bitcast <WIDTH x i64> * %ret to i64 *
%alignment = load i32* @memory_alignment
%alignment = load PTR_OP_ARGS(`i32',` @memory_alignment')
%alignment64 = sext i32 %alignment to i64
per_lane(WIDTH, <WIDTH x MASK> %mask, `
@@ -3607,7 +3607,7 @@ define <WIDTH x i64> @__new_varying32_64rt(<WIDTH x i32> %size, <WIDTH x MASK> %
%store_LANE_ID = getelementptr PTR_OP_ARGS(`i64', `%ret64, i32 LANE')
store i64 %ptr_int_LANE_ID, i64 * %store_LANE_ID')
%r = load <WIDTH x i64> * %ret
%r = load PTR_OP_ARGS(`<WIDTH x i64> ',` %ret')
ret <WIDTH x i64> %r
}
@@ -3615,7 +3615,7 @@ define <WIDTH x i64> @__new_varying64_64rt(<WIDTH x i64> %size, <WIDTH x MASK> %
%ret = alloca <WIDTH x i64>
store <WIDTH x i64> zeroinitializer, <WIDTH x i64> * %ret
%ret64 = bitcast <WIDTH x i64> * %ret to i64 *
%alignment = load i32* @memory_alignment
%alignment = load PTR_OP_ARGS(`i32',` @memory_alignment')
%alignment64 = sext i32 %alignment to i64
per_lane(WIDTH, <WIDTH x MASK> %mask, `
@@ -3625,7 +3625,7 @@ define <WIDTH x i64> @__new_varying64_64rt(<WIDTH x i64> %size, <WIDTH x MASK> %
%store_LANE_ID = getelementptr PTR_OP_ARGS(`i64', `%ret64, i32 LANE')
store i64 %ptr_int_LANE_ID, i64 * %store_LANE_ID')
%r = load <WIDTH x i64> * %ret
%r = load PTR_OP_ARGS(`<WIDTH x i64> ',` %ret')
ret <WIDTH x i64> %r
}
@@ -3944,7 +3944,7 @@ define <$1 x i64> @__$2_varying_$3(<$1 x i64>, <$1 x i64>) nounwind alwaysinline
store i64 %v_`'i, i64 * %ptr_`'i
')
%ret = load <$1 x i64> * %rptr
%ret = load PTR_OP_ARGS(`<$1 x i64> ',` %rptr')
ret <$1 x i64> %ret
}
')
@@ -3990,7 +3990,7 @@ entry:
load:
%ptr = bitcast i8 * %0 to <WIDTH x $1> *
%valall = load <WIDTH x $1> * %ptr, align $2
%valall = load PTR_OP_ARGS(`<WIDTH x $1> ',` %ptr, align $2')
ret <WIDTH x $1> %valall
loop:
@@ -4007,7 +4007,7 @@ load_lane:
; allocaed memory above
%ptr32 = bitcast i8 * %0 to $1 *
%lane_ptr = getelementptr PTR_OP_ARGS(`$1', `%ptr32, i32 %lane')
%val = load $1 * %lane_ptr
%val = load PTR_OP_ARGS(`$1 ',` %lane_ptr')
%store_ptr = getelementptr PTR_OP_ARGS(`$1', `%retptr32, i32 %lane')
store $1 %val, $1 * %store_ptr
br label %lane_done
@@ -4018,7 +4018,7 @@ lane_done:
br i1 %done, label %return, label %loop
return:
%r = load <WIDTH x $1> * %retptr
%r = load PTR_OP_ARGS(`<WIDTH x $1> ',` %retptr')
ret <WIDTH x $1> %r
}
')
@@ -4042,7 +4042,7 @@ define void @__masked_store_$1(<WIDTH x $1>* nocapture, <WIDTH x $1>, <WIDTH x M
define(`masked_store_blend_8_16_by_4', `
define void @__masked_store_blend_i8(<4 x i8>* nocapture, <4 x i8>,
<4 x i32>) nounwind alwaysinline {
%old = load <4 x i8> * %0, align 1
%old = load PTR_OP_ARGS(`<4 x i8> ',` %0, align 1')
%m = trunc <4 x i32> %2 to <4 x i1>
%resultvec = select <4 x i1> %m, <4 x i8> %1, <4 x i8> %old
@@ -4053,7 +4053,7 @@ define void @__masked_store_blend_i8(<4 x i8>* nocapture, <4 x i8>,
define void @__masked_store_blend_i16(<4 x i16>* nocapture, <4 x i16>,
<4 x i32>) nounwind alwaysinline {
%old = load <4 x i16> * %0, align 2
%old = load PTR_OP_ARGS(`<4 x i16> ',` %0, align 2')
%m = trunc <4 x i32> %2 to <4 x i1>
%resultvec = select <4 x i1> %m, <4 x i16> %1, <4 x i16> %old
@@ -4066,7 +4066,7 @@ define void @__masked_store_blend_i16(<4 x i16>* nocapture, <4 x i16>,
define(`masked_store_blend_8_16_by_4_mask64', `
define void @__masked_store_blend_i8(<4 x i8>* nocapture, <4 x i8>,
<4 x i64>) nounwind alwaysinline {
%old = load <4 x i8> * %0, align 1
%old = load PTR_OP_ARGS(`<4 x i8> ',` %0, align 1')
%m = trunc <4 x i64> %2 to <4 x i1>
%resultvec = select <4 x i1> %m, <4 x i8> %1, <4 x i8> %old
@@ -4077,7 +4077,7 @@ define void @__masked_store_blend_i8(<4 x i8>* nocapture, <4 x i8>,
define void @__masked_store_blend_i16(<4 x i16>* nocapture, <4 x i16>,
<4 x i64>) nounwind alwaysinline {
%old = load <4 x i16> * %0, align 2
%old = load PTR_OP_ARGS(`<4 x i16> ',` %0, align 2')
%m = trunc <4 x i64> %2 to <4 x i1>
%resultvec = select <4 x i1> %m, <4 x i16> %1, <4 x i16> %old
@@ -4090,7 +4090,7 @@ define void @__masked_store_blend_i16(<4 x i16>* nocapture, <4 x i16>,
define(`masked_store_blend_8_16_by_8', `
define void @__masked_store_blend_i8(<8 x i8>* nocapture, <8 x i8>,
<8 x i32>) nounwind alwaysinline {
%old = load <8 x i8> * %0, align 1
%old = load PTR_OP_ARGS(`<8 x i8> ',` %0, align 1')
%m = trunc <8 x i32> %2 to <8 x i1>
%resultvec = select <8 x i1> %m, <8 x i8> %1, <8 x i8> %old
@@ -4101,7 +4101,7 @@ define void @__masked_store_blend_i8(<8 x i8>* nocapture, <8 x i8>,
define void @__masked_store_blend_i16(<8 x i16>* nocapture, <8 x i16>,
<8 x i32>) nounwind alwaysinline {
%old = load <8 x i16> * %0, align 2
%old = load PTR_OP_ARGS(`<8 x i16> ',` %0, align 2')
%m = trunc <8 x i32> %2 to <8 x i1>
%resultvec = select <8 x i1> %m, <8 x i16> %1, <8 x i16> %old
@@ -4115,7 +4115,7 @@ define void @__masked_store_blend_i16(<8 x i16>* nocapture, <8 x i16>,
define(`masked_store_blend_8_16_by_16', `
define void @__masked_store_blend_i8(<16 x i8>* nocapture, <16 x i8>,
<16 x i32>) nounwind alwaysinline {
%old = load <16 x i8> * %0, align 1
%old = load PTR_OP_ARGS(`<16 x i8> ',` %0, align 1')
%m = trunc <16 x i32> %2 to <16 x i1>
%resultvec = select <16 x i1> %m, <16 x i8> %1, <16 x i8> %old
@@ -4126,7 +4126,7 @@ define void @__masked_store_blend_i8(<16 x i8>* nocapture, <16 x i8>,
define void @__masked_store_blend_i16(<16 x i16>* nocapture, <16 x i16>,
<16 x i32>) nounwind alwaysinline {
%old = load <16 x i16> * %0, align 2
%old = load PTR_OP_ARGS(`<16 x i16> ',` %0, align 2')
%m = trunc <16 x i32> %2 to <16 x i1>
%resultvec = select <16 x i1> %m, <16 x i16> %1, <16 x i16> %old
@@ -4167,7 +4167,7 @@ all_on:
;; everyone wants to load, so just load an entire vector width in a single
;; vector load
%vecptr = bitcast i32 *%startptr to <WIDTH x i32> *
%vec_load = load <WIDTH x i32> *%vecptr, align 4
%vec_load = load PTR_OP_ARGS(`<WIDTH x i32> ',`%vecptr, align 4')
store <WIDTH x i32> %vec_load, <WIDTH x i32> * %val_ptr, align 4
ret i32 WIDTH
@@ -4185,10 +4185,10 @@ loop:
br i1 %do_load, label %load, label %loopend
load:
%loadptr = getelementptr PTR_OP_ARGS(`i32', `startptr, i32 %offset')
%loadval = load i32 *%loadptr
%loadptr = getelementptr PTR_OP_ARGS(`i32', `%startptr, i32 %offset')
%loadval = load PTR_OP_ARGS(`i32 ',`%loadptr')
%val_ptr_i32 = bitcast <WIDTH x i32> * %val_ptr to i32 *
%storeptr = getelementptr PTR_OP_ARGS(`i32', `val_ptr_i32, i32 %lane')
%storeptr = getelementptr PTR_OP_ARGS(`i32', `%val_ptr_i32, i32 %lane')
store i32 %loadval, i32 *%storeptr
%offset1 = add i32 %offset, 1
br label %loopend
@@ -4237,7 +4237,7 @@ loop:
store:
%storeval = extractelement <WIDTH x i32> %vals, i32 %lane
%storeptr = getelementptr PTR_OP_ARGS(`i32', `startptr, i32 %offset')
%storeptr = getelementptr PTR_OP_ARGS(`i32', `%startptr, i32 %offset')
store i32 %storeval, i32 *%storeptr
%offset1 = add i32 %offset, 1
br label %loopend
@@ -4283,9 +4283,9 @@ loop:
;; zero or sign extending it, while zero extend is free. Also do nothing for
;; i64 MASK, as we need i64 value.
ifelse(MASK, `i64',
` %storeptr = getelementptr PTR_OP_ARGS(`i32', `startptr, MASK %offset',')
` %storeptr = getelementptr PTR_OP_ARGS(`i32', `%startptr, MASK %offset')',
` %offset1 = zext MASK %offset to i64
%storeptr = getelementptr PTR_OP_ARGS(`i32', `startptr, i64 %offset1')')
%storeptr = getelementptr PTR_OP_ARGS(`i32', `%startptr, i64 %offset1')')
store i32 %storeval, i32 *%storeptr
%mull_mask = extractelement <WIDTH x MASK> %full_mask, i32 %i
@@ -4351,7 +4351,7 @@ domixed:
%castptr = bitcast <$1 x $2> * %ptr to <$1 x $4> *
%castv = bitcast <$1 x $2> %v to <$1 x $4>
call void @__masked_store_blend_i$6(<$1 x $4> * %castptr, <$1 x $4> %castv, <$1 x MASK> %mask)
%blendvec = load <$1 x $2> * %ptr
%blendvec = load PTR_OP_ARGS(`<$1 x $2> ',` %ptr')
br label %check_neighbors
check_neighbors:
@@ -4427,7 +4427,7 @@ define <$1 x $2> @__exclusive_scan_$6(<$1 x $2> %v,
%vi = bitcast <$1 x $2> %v to <$1 x i`'$3>
call void @__masked_store_blend_i$3(<$1 x i`'$3> * %ptr`'$3, <$1 x i`'$3> %vi,
<$1 x MASK> %mask)
%v_id = load <$1 x $2> * %ptr
%v_id = load PTR_OP_ARGS(`<$1 x $2> ',` %ptr')
; extract elements of the vector to use in computing the scan
forloop(i, 0, eval($1-1), `
@@ -4547,12 +4547,12 @@ define <WIDTH x $1> @__gather32_$1(<WIDTH x i32> %ptrs,
per_lane(WIDTH, <WIDTH x MASK> %vecmask, `
%iptr_LANE_ID = extractelement <WIDTH x i32> %ptrs, i32 LANE
%ptr_LANE_ID = inttoptr i32 %iptr_LANE_ID to $1 *
%val_LANE_ID = load $1 * %ptr_LANE_ID
%val_LANE_ID = load PTR_OP_ARGS(`$1 ',` %ptr_LANE_ID')
%store_ptr_LANE_ID = getelementptr PTR_OP_ARGS(`<WIDTH x $1>', `%ret_ptr, i32 0, i32 LANE')
store $1 %val_LANE_ID, $1 * %store_ptr_LANE_ID
')
%ret = load <WIDTH x $1> * %ret_ptr
%ret = load PTR_OP_ARGS(`<WIDTH x $1> ',` %ret_ptr')
ret <WIDTH x $1> %ret
}
@@ -4563,12 +4563,12 @@ define <WIDTH x $1> @__gather64_$1(<WIDTH x i64> %ptrs,
per_lane(WIDTH, <WIDTH x MASK> %vecmask, `
%iptr_LANE_ID = extractelement <WIDTH x i64> %ptrs, i32 LANE
%ptr_LANE_ID = inttoptr i64 %iptr_LANE_ID to $1 *
%val_LANE_ID = load $1 * %ptr_LANE_ID
%val_LANE_ID = load PTR_OP_ARGS(`$1 ',` %ptr_LANE_ID')
%store_ptr_LANE_ID = getelementptr PTR_OP_ARGS(`<WIDTH x $1>', `%ret_ptr, i32 0, i32 LANE')
store $1 %val_LANE_ID, $1 * %store_ptr_LANE_ID
')
%ret = load <WIDTH x $1> * %ret_ptr
%ret = load PTR_OP_ARGS(`<WIDTH x $1> ',` %ret_ptr')
ret <WIDTH x $1> %ret
}
')
@@ -4595,7 +4595,7 @@ define <WIDTH x $1> @__gather_elt32_$1(i8 * %ptr, <WIDTH x i32> %offsets, i32 %o
; load value and insert into returned value
%ptrcast = bitcast i8 * %finalptr to $1 *
%val = load $1 *%ptrcast
%val = load PTR_OP_ARGS(`$1 ',`%ptrcast')
%updatedret = insertelement <WIDTH x $1> %ret, $1 %val, i32 %lane
ret <WIDTH x $1> %updatedret
}
@@ -4616,7 +4616,7 @@ define <WIDTH x $1> @__gather_elt64_$1(i8 * %ptr, <WIDTH x i64> %offsets, i32 %o
; load value and insert into returned value
%ptrcast = bitcast i8 * %finalptr to $1 *
%val = load $1 *%ptrcast
%val = load PTR_OP_ARGS(`$1 ',`%ptrcast')
%updatedret = insertelement <WIDTH x $1> %ret, $1 %val, i32 %lane
ret <WIDTH x $1> %updatedret
}
@@ -4634,13 +4634,13 @@ define <WIDTH x $1> @__gather_factored_base_offsets32_$1(i8 * %ptr, <WIDTH x i32
store <WIDTH x i32> zeroinitializer, <WIDTH x i32> * %offsetsPtr
call void @__masked_store_blend_i32(<WIDTH x i32> * %offsetsPtr, <WIDTH x i32> %offsets,
<WIDTH x MASK> %vecmask)
%newOffsets = load <WIDTH x i32> * %offsetsPtr
%newOffsets = load PTR_OP_ARGS(`<WIDTH x i32> ',` %offsetsPtr')
%deltaPtr = alloca <WIDTH x i32>
store <WIDTH x i32> zeroinitializer, <WIDTH x i32> * %deltaPtr
call void @__masked_store_blend_i32(<WIDTH x i32> * %deltaPtr, <WIDTH x i32> %offset_delta,
<WIDTH x MASK> %vecmask)
%newDelta = load <WIDTH x i32> * %deltaPtr
%newDelta = load PTR_OP_ARGS(`<WIDTH x i32> ',` %deltaPtr')
%ret0 = call <WIDTH x $1> @__gather_elt32_$1(i8 * %ptr, <WIDTH x i32> %newOffsets,
i32 %offset_scale, <WIDTH x i32> %newDelta,
@@ -4665,13 +4665,13 @@ define <WIDTH x $1> @__gather_factored_base_offsets64_$1(i8 * %ptr, <WIDTH x i64
store <WIDTH x i64> zeroinitializer, <WIDTH x i64> * %offsetsPtr
call void @__masked_store_blend_i64(<WIDTH x i64> * %offsetsPtr, <WIDTH x i64> %offsets,
<WIDTH x MASK> %vecmask)
%newOffsets = load <WIDTH x i64> * %offsetsPtr
%newOffsets = load PTR_OP_ARGS(`<WIDTH x i64> ',` %offsetsPtr')
%deltaPtr = alloca <WIDTH x i64>
store <WIDTH x i64> zeroinitializer, <WIDTH x i64> * %deltaPtr
call void @__masked_store_blend_i64(<WIDTH x i64> * %deltaPtr, <WIDTH x i64> %offset_delta,
<WIDTH x MASK> %vecmask)
%newDelta = load <WIDTH x i64> * %deltaPtr
%newDelta = load PTR_OP_ARGS(`<WIDTH x i64> ',` %deltaPtr')
%ret0 = call <WIDTH x $1> @__gather_elt64_$1(i8 * %ptr, <WIDTH x i64> %newOffsets,
i32 %offset_scale, <WIDTH x i64> %newDelta,