aartbik 91801a7c34 [mlir] [integration-test] [VectorOps] Start an integration test directory for MLIR
Summary:
This CL introduces an integration test directory for MLIR in general, with
vector dialect integration tests in particular as a first working suite. To
run all the integration tests (and currently just the vector suite):

$ cmake --build . --target check-mlir-integration
[0/1] Running the MLIR integration tests
Testing Time: 0.24s
Passed: 22

The general call is to contribute to this integration test directory with more
tests and other suites, running end-to-end examples that may be too heavy for
the regular test directory, but should be tested occasionally to verify the
health of MLIR.

Background discussion at:
https://llvm.discourse.group/t/vectorops-rfc-add-suite-of-integration-tests-for-vector-dialect-operations/1213/

Reviewers: nicolasvasilache, reidtatge, andydavis1, rriddle, ftynse, mehdi_amini, jpienaar, stephenneuendorffer

Reviewed By: nicolasvasilache, stephenneuendorffer

Subscribers: mgorny, mehdi_amini, rriddle, jpienaar, shauheen, antiagainst, nicolasvasilache, arpith-jacob, mgester, lucyrfox, liufengdb, stephenneuendorffer, Joonsoo, grosul1, frgossen, Kayjukh, jurahul, msifontes

Tags: #mlir

Differential Revision: https://reviews.llvm.org/D81626
2020-06-15 11:05:58 -07:00

83 lines
3.5 KiB
MLIR

// RUN: mlir-opt %s -convert-scf-to-std -convert-vector-to-llvm -convert-std-to-llvm | \
// RUN: mlir-cpu-runner -e entry -entry-point-result=void \
// RUN: -shared-libs=%mlir_integration_test_dir/libmlir_c_runner_utils%shlibext | \
// RUN: FileCheck %s
func @entry() {
%i = constant 2147483647: i32
%l = constant 9223372036854775807 : i64
%f0 = constant 0.0: f32
%f1 = constant 1.0: f32
%f2 = constant 2.0: f32
%f3 = constant 3.0: f32
%f4 = constant 4.0: f32
%f5 = constant 5.0: f32
// Test simple broadcasts.
%vi = vector.broadcast %i : i32 to vector<2xi32>
%vl = vector.broadcast %l : i64 to vector<2xi64>
%vf = vector.broadcast %f1 : f32 to vector<2x2x2xf32>
vector.print %vi : vector<2xi32>
vector.print %vl : vector<2xi64>
vector.print %vf : vector<2x2x2xf32>
// CHECK: ( 2147483647, 2147483647 )
// CHECK: ( 9223372036854775807, 9223372036854775807 )
// CHECK: ( ( ( 1, 1 ), ( 1, 1 ) ), ( ( 1, 1 ), ( 1, 1 ) ) )
// Test "duplication" in leading dimensions.
%v0 = vector.broadcast %f1 : f32 to vector<4xf32>
%v1 = vector.insert %f2, %v0[1] : f32 into vector<4xf32>
%v2 = vector.insert %f3, %v1[2] : f32 into vector<4xf32>
%v3 = vector.insert %f4, %v2[3] : f32 into vector<4xf32>
%v4 = vector.broadcast %v3 : vector<4xf32> to vector<3x4xf32>
%v5 = vector.broadcast %v3 : vector<4xf32> to vector<2x2x4xf32>
vector.print %v3 : vector<4xf32>
vector.print %v4 : vector<3x4xf32>
vector.print %v5 : vector<2x2x4xf32>
// CHECK: ( 1, 2, 3, 4 )
// CHECK: ( ( 1, 2, 3, 4 ), ( 1, 2, 3, 4 ), ( 1, 2, 3, 4 ) )
// CHECK: ( ( ( 1, 2, 3, 4 ), ( 1, 2, 3, 4 ) ), ( ( 1, 2, 3, 4 ), ( 1, 2, 3, 4 ) ) )
// Test straightforward "stretch" on a 1-D "scalar".
%x = vector.broadcast %f5 : f32 to vector<1xf32>
%y = vector.broadcast %x : vector<1xf32> to vector<8xf32>
vector.print %y : vector<8xf32>
// CHECK : ( 5, 5, 5, 5, 5, 5, 5, 5 )
// Test "stretch" in leading dimension.
%s = vector.broadcast %v3 : vector<4xf32> to vector<1x4xf32>
%t = vector.broadcast %s : vector<1x4xf32> to vector<3x4xf32>
vector.print %s : vector<1x4xf32>
vector.print %t : vector<3x4xf32>
// CHECK: ( ( 1, 2, 3, 4 ) )
// CHECK: ( ( 1, 2, 3, 4 ), ( 1, 2, 3, 4 ), ( 1, 2, 3, 4 ) )
// Test "stretch" in trailing dimension.
%a0 = vector.broadcast %f1 : f32 to vector<3x1xf32>
%a1 = vector.insert %f2, %a0[1, 0] : f32 into vector<3x1xf32>
%a2 = vector.insert %f3, %a1[2, 0] : f32 into vector<3x1xf32>
%a3 = vector.broadcast %a2 : vector<3x1xf32> to vector<3x4xf32>
vector.print %a2 : vector<3x1xf32>
vector.print %a3 : vector<3x4xf32>
// CHECK: ( ( 1 ), ( 2 ), ( 3 ) )
// CHECK: ( ( 1, 1, 1, 1 ), ( 2, 2, 2, 2 ), ( 3, 3, 3, 3 ) )
// Test "stretch" in middle dimension.
%m0 = vector.broadcast %f0 : f32 to vector<3x1x2xf32>
%m1 = vector.insert %f1, %m0[0, 0, 1] : f32 into vector<3x1x2xf32>
%m2 = vector.insert %f2, %m1[1, 0, 0] : f32 into vector<3x1x2xf32>
%m3 = vector.insert %f3, %m2[1, 0, 1] : f32 into vector<3x1x2xf32>
%m4 = vector.insert %f4, %m3[2, 0, 0] : f32 into vector<3x1x2xf32>
%m5 = vector.insert %f5, %m4[2, 0, 1] : f32 into vector<3x1x2xf32>
%m6 = vector.broadcast %m5 : vector<3x1x2xf32> to vector<3x4x2xf32>
vector.print %m5 : vector<3x1x2xf32>
vector.print %m6 : vector<3x4x2xf32>
// CHECK: ( ( ( 0, 1 ) ), ( ( 2, 3 ) ), ( ( 4, 5 ) ) )
// CHECK: ( ( ( 0, 1 ), ( 0, 1 ), ( 0, 1 ), ( 0, 1 ) ),
// CHECK-SAME: ( ( 2, 3 ), ( 2, 3 ), ( 2, 3 ), ( 2, 3 ) ),
// CHECK-SAME: ( ( 4, 5 ), ( 4, 5 ), ( 4, 5 ), ( 4, 5 ) ) )
return
}