forked from OSchip/llvm-project
284 lines
11 KiB
MLIR
284 lines
11 KiB
MLIR
// RUN: mlir-opt -allow-unregistered-dialect %s -split-input-file -simplify-affine-structures | FileCheck %s
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// CHECK-DAG: #[[$SET_EMPTY:.*]] = affine_set<() : (1 == 0)>
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// CHECK-DAG: #[[$SET_2D:.*]] = affine_set<(d0, d1) : (d0 - 100 == 0, d1 - 10 == 0, -d0 + 100 >= 0, d1 >= 0)>
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// CHECK-DAG: #[[$SET_7_11:.*]] = affine_set<(d0, d1) : (d0 * 7 + d1 * 5 + 88 == 0, d0 * 5 - d1 * 11 + 60 == 0, d0 * 11 + d1 * 7 - 24 == 0, d0 * 7 + d1 * 5 + 88 == 0)>
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// An external function that we will use in bodies to avoid DCE.
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func @external() -> ()
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// CHECK-LABEL: func @test_gaussian_elimination_empty_set0() {
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func @test_gaussian_elimination_empty_set0() {
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affine.for %arg0 = 1 to 10 {
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affine.for %arg1 = 1 to 100 {
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// CHECK: affine.if #[[$SET_EMPTY]]()
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affine.if affine_set<(d0, d1) : (2 == 0)>(%arg0, %arg1) {
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call @external() : () -> ()
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}
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}
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}
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return
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}
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// CHECK-LABEL: func @test_gaussian_elimination_empty_set1() {
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func @test_gaussian_elimination_empty_set1() {
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affine.for %arg0 = 1 to 10 {
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affine.for %arg1 = 1 to 100 {
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// CHECK: affine.if #[[$SET_EMPTY]]()
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affine.if affine_set<(d0, d1) : (1 >= 0, -1 >= 0)> (%arg0, %arg1) {
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call @external() : () -> ()
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}
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}
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}
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return
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}
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// CHECK-LABEL: func @test_gaussian_elimination_non_empty_set2() {
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func @test_gaussian_elimination_non_empty_set2() {
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affine.for %arg0 = 1 to 10 {
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affine.for %arg1 = 1 to 100 {
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// CHECK: #[[$SET_2D]](%arg0, %arg1)
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affine.if affine_set<(d0, d1) : (d0 - 100 == 0, d1 - 10 == 0, -d0 + 100 >= 0, d1 >= 0, d1 + 101 >= 0)>(%arg0, %arg1) {
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call @external() : () -> ()
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}
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}
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}
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return
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}
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// CHECK-LABEL: func @test_gaussian_elimination_empty_set3() {
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func @test_gaussian_elimination_empty_set3() {
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%c7 = constant 7 : index
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%c11 = constant 11 : index
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affine.for %arg0 = 1 to 10 {
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affine.for %arg1 = 1 to 100 {
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// CHECK: #[[$SET_EMPTY]]()
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affine.if affine_set<(d0, d1)[s0, s1] : (d0 - s0 == 0, d0 + s0 == 0, s0 - 1 == 0)>(%arg0, %arg1)[%c7, %c11] {
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call @external() : () -> ()
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}
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}
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}
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return
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}
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// Set for test case: test_gaussian_elimination_non_empty_set4
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#set_2d_non_empty = affine_set<(d0, d1)[s0, s1] : (d0 * 7 + d1 * 5 + s0 * 11 + s1 == 0,
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d0 * 5 - d1 * 11 + s0 * 7 + s1 == 0,
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d0 * 11 + d1 * 7 - s0 * 5 + s1 == 0,
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d0 * 7 + d1 * 5 + s0 * 11 + s1 == 0)>
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// CHECK-LABEL: func @test_gaussian_elimination_non_empty_set4() {
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func @test_gaussian_elimination_non_empty_set4() {
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%c7 = constant 7 : index
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%c11 = constant 11 : index
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affine.for %arg0 = 1 to 10 {
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affine.for %arg1 = 1 to 100 {
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// CHECK: #[[$SET_7_11]](%arg0, %arg1)
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affine.if #set_2d_non_empty(%arg0, %arg1)[%c7, %c11] {
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call @external() : () -> ()
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}
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}
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}
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return
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}
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// Add invalid constraints to previous non-empty set to make it empty.
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#set_2d_empty = affine_set<(d0, d1)[s0, s1] : (d0 * 7 + d1 * 5 + s0 * 11 + s1 == 0,
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d0 * 5 - d1 * 11 + s0 * 7 + s1 == 0,
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d0 * 11 + d1 * 7 - s0 * 5 + s1 == 0,
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d0 * 7 + d1 * 5 + s0 * 11 + s1 == 0,
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d0 - 1 == 0, d0 + 2 == 0)>
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// CHECK-LABEL: func @test_gaussian_elimination_empty_set5() {
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func @test_gaussian_elimination_empty_set5() {
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%c7 = constant 7 : index
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%c11 = constant 11 : index
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affine.for %arg0 = 1 to 10 {
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affine.for %arg1 = 1 to 100 {
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// CHECK: #[[$SET_EMPTY]]()
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affine.if #set_2d_empty(%arg0, %arg1)[%c7, %c11] {
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call @external() : () -> ()
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}
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}
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}
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return
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}
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// This is an artificially created system to exercise the worst case behavior of
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// FM elimination - as a safeguard against improperly constructed constraint
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// systems or fuzz input.
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#set_fuzz_virus = affine_set<(d0, d1, d2, d3, d4, d5) : (
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1089234*d0 + 203472*d1 + 82342 >= 0,
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-55*d0 + 24*d1 + 238*d2 - 234*d3 - 9743 >= 0,
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-5445*d0 - 284*d1 + 23*d2 + 34*d3 - 5943 >= 0,
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-5445*d0 + 284*d1 + 238*d2 - 34*d3 >= 0,
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445*d0 + 284*d1 + 238*d2 + 39*d3 >= 0,
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-545*d0 + 214*d1 + 218*d2 - 94*d3 >= 0,
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44*d0 - 184*d1 - 231*d2 + 14*d3 >= 0,
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-45*d0 + 284*d1 + 138*d2 - 39*d3 >= 0,
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154*d0 - 84*d1 + 238*d2 - 34*d3 >= 0,
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54*d0 - 284*d1 - 223*d2 + 384*d3 >= 0,
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-55*d0 + 284*d1 + 23*d2 + 34*d3 >= 0,
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54*d0 - 84*d1 + 28*d2 - 34*d3 >= 0,
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54*d0 - 24*d1 - 23*d2 + 34*d3 >= 0,
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-55*d0 + 24*d1 + 23*d2 + 4*d3 >= 0,
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15*d0 - 84*d1 + 238*d2 - 3*d3 >= 0,
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5*d0 - 24*d1 - 223*d2 + 84*d3 >= 0,
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-5*d0 + 284*d1 + 23*d2 - 4*d3 >= 0,
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14*d0 + 4*d2 + 7234 >= 0,
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-174*d0 - 534*d2 + 9834 >= 0,
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194*d0 - 954*d2 + 9234 >= 0,
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47*d0 - 534*d2 + 9734 >= 0,
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-194*d0 - 934*d2 + 984 >= 0,
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-947*d0 - 953*d2 + 234 >= 0,
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184*d0 - 884*d2 + 884 >= 0,
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-174*d0 + 834*d2 + 234 >= 0,
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844*d0 + 634*d2 + 9874 >= 0,
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-797*d2 - 79*d3 + 257 >= 0,
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2039*d0 + 793*d2 - 99*d3 - 24*d4 + 234*d5 >= 0,
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78*d2 - 788*d5 + 257 >= 0,
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d3 - (d5 + 97*d0) floordiv 423 >= 0,
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234* (d0 + d3 mod 5 floordiv 2342) mod 2309
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+ (d0 + 2038*d3) floordiv 208 >= 0,
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239* (d0 + 2300 * d3) floordiv 2342
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mod 2309 mod 239423 == 0,
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d0 + d3 mod 2642 + (d3 + 2*d0) mod 1247
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mod 2038 mod 2390 mod 2039 floordiv 55 >= 0
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)>
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// CHECK-LABEL: func @test_fuzz_explosion
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func @test_fuzz_explosion(%arg0 : index, %arg1 : index, %arg2 : index, %arg3 : index) {
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affine.for %arg4 = 1 to 10 {
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affine.for %arg5 = 1 to 100 {
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affine.if #set_fuzz_virus(%arg4, %arg5, %arg0, %arg1, %arg2, %arg3) {
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call @external() : () -> ()
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}
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}
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}
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return
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}
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// CHECK-LABEL: func @test_empty_set(%arg0: index) {
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func @test_empty_set(%N : index) {
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affine.for %i = 0 to 10 {
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affine.for %j = 0 to 10 {
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// CHECK: affine.if #[[$SET_EMPTY]]()
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affine.if affine_set<(d0, d1) : (d0 - d1 >= 0, d1 - d0 - 1 >= 0)>(%i, %j) {
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"foo"() : () -> ()
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}
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// CHECK: affine.if #[[$SET_EMPTY]]()
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affine.if affine_set<(d0) : (d0 >= 0, -d0 - 1 >= 0)>(%i) {
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"bar"() : () -> ()
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}
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// CHECK: affine.if #[[$SET_EMPTY]]()
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affine.if affine_set<(d0) : (d0 >= 0, -d0 - 1 >= 0)>(%i) {
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"foo"() : () -> ()
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}
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// CHECK: affine.if #[[$SET_EMPTY]]()
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affine.if affine_set<(d0)[s0, s1] : (d0 >= 0, -d0 + s0 - 1 >= 0, -s0 >= 0)>(%i)[%N, %N] {
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"bar"() : () -> ()
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}
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// CHECK: affine.if #[[$SET_EMPTY]]()
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// The set below implies d0 = d1; so d1 >= d0, but d0 >= d1 + 1.
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affine.if affine_set<(d0, d1, d2) : (d0 - d1 == 0, d2 - d0 >= 0, d0 - d1 - 1 >= 0)>(%i, %j, %N) {
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"foo"() : () -> ()
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}
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// CHECK: affine.if #[[$SET_EMPTY]]()
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// The set below has rational solutions but no integer solutions; GCD test catches it.
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affine.if affine_set<(d0, d1) : (d0*2 -d1*2 - 1 == 0, d0 >= 0, -d0 + 100 >= 0, d1 >= 0, -d1 + 100 >= 0)>(%i, %j) {
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"foo"() : () -> ()
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}
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// CHECK: affine.if #[[$SET_EMPTY]]()
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affine.if affine_set<(d0, d1) : (d1 == 0, d0 - 1 >= 0, - d0 - 1 >= 0)>(%i, %j) {
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"foo"() : () -> ()
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}
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}
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}
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// The tests below test GCDTightenInequalities().
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affine.for %k = 0 to 10 {
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affine.for %l = 0 to 10 {
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// Empty because no multiple of 8 lies between 4 and 7.
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// CHECK: affine.if #[[$SET_EMPTY]]()
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affine.if affine_set<(d0) : (8*d0 - 4 >= 0, -8*d0 + 7 >= 0)>(%k) {
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"foo"() : () -> ()
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}
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// Same as above but with equalities and inequalities.
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// CHECK: affine.if #[[$SET_EMPTY]]()
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affine.if affine_set<(d0, d1) : (d0 - 4*d1 == 0, 4*d1 - 5 >= 0, -4*d1 + 7 >= 0)>(%k, %l) {
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"foo"() : () -> ()
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}
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// Same as above but with a combination of multiple identifiers. 4*d0 +
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// 8*d1 here is a multiple of 4, and so can't lie between 9 and 11. GCD
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// tightening will tighten constraints to 4*d0 + 8*d1 >= 12 and 4*d0 +
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// 8*d1 <= 8; hence infeasible.
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// CHECK: affine.if #[[$SET_EMPTY]]()
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affine.if affine_set<(d0, d1) : (4*d0 + 8*d1 - 9 >= 0, -4*d0 - 8*d1 + 11 >= 0)>(%k, %l) {
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"foo"() : () -> ()
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}
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// Same as above but with equalities added into the mix.
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// CHECK: affine.if #[[$SET_EMPTY]]()
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affine.if affine_set<(d0, d1, d2) : (d0 - 4*d2 == 0, d0 + 8*d1 - 9 >= 0, -d0 - 8*d1 + 11 >= 0)>(%k, %k, %l) {
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"foo"() : () -> ()
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}
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}
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}
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affine.for %m = 0 to 10 {
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// CHECK: affine.if #[[$SET_EMPTY]]()
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affine.if affine_set<(d0) : (d0 mod 2 - 3 == 0)> (%m) {
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"foo"() : () -> ()
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}
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}
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return
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}
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// -----
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// An external function that we will use in bodies to avoid DCE.
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func @external() -> ()
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// CHECK-DAG: #[[$SET:.*]] = affine_set<()[s0] : (s0 >= 0, -s0 + 50 >= 0)
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// CHECK-DAG: #[[$EMPTY_SET:.*]] = affine_set<() : (1 == 0)
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// CHECK-DAG: #[[$UNIV_SET:.*]] = affine_set<() : (0 == 0)
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// CHECK-LABEL: func @simplify_set
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func @simplify_set(%a : index, %b : index) {
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// CHECK: affine.if #[[$SET]]
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affine.if affine_set<(d0, d1) : (d0 - d1 + d1 + d0 >= 0, 2 >= 0, d0 >= 0, -d0 + 50 >= 0, -d0 + 100 >= 0)>(%a, %b) {
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call @external() : () -> ()
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}
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// CHECK: affine.if #[[$EMPTY_SET]]
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affine.if affine_set<(d0, d1) : (d0 mod 2 - 1 == 0, d0 - 2 * (d0 floordiv 2) == 0)>(%a, %b) {
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call @external() : () -> ()
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}
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// CHECK: affine.if #[[$UNIV_SET]]
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affine.if affine_set<(d0, d1) : (1 >= 0, 3 >= 0)>(%a, %b) {
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call @external() : () -> ()
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}
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return
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}
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// -----
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// CHECK-DAG: -> (s0 * 2 + 1)
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// Test "op local" simplification on affine.apply. DCE on addi will not happen.
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func @affine.apply(%N : index) {
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%v = affine.apply affine_map<(d0, d1) -> (d0 + d1 + 1)>(%N, %N)
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addi %v, %v : index
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// CHECK: affine.apply #map{{.*}}()[%arg0]
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// CHECK-NEXT: addi
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return
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}
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// -----
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// CHECK-DAG: #[[MAP_0D:.*]] = affine_map<() -> ()>
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// CHECK-LABEL: func @simplify_zero_dim_map
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func @simplify_zero_dim_map(%in : memref<f32>) -> f32 {
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%out = affine.load %in[] : memref<f32>
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return %out : f32
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}
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