test/Dialect/Tosa/constant-reciprocal-fold.mlir - llvm-project/mlir - Git at Google

 // RUN: mlir-opt --split-input-file --tosa-layerwise-constant-fold %s | FileCheck %s

 // CHECK-LABEL: @reciprocal_fold_single_valued
 func.func @reciprocal_fold_single_valued() -> tensor<f32> {
   // CHECK: [[RES:]] ={{.*}}tosa.const{{.*}}2.5{{0*}}e-01{{.*}}tensor<f32>
   // CHECK-NOT: tosa.reciprocal
   // CHECK: return [[RES]]
   %0 = "tosa.const"() {value = dense<4.0> : tensor<f32>} : () -> tensor<f32>
   %1 = "tosa.reciprocal"(%0) : (tensor<f32>) -> tensor<f32>
   return %1 : tensor<f32>
 }

 // CHECK-LABEL: @reciprocal_fold_splat
 func.func @reciprocal_fold_splat() -> tensor<12x7xf32> {
   // CHECK: [[RES:]] ={{.*}}tosa.const{{.*}}2.5{{0*}}e-01{{.*}}tensor<12x7xf32>
   // CHECK-NOT: tosa.reciprocal
   // CHECK: return [[RES]]
   %0 = "tosa.const"() {value = dense<4.0> : tensor<12x7xf32>} : () -> tensor<12x7xf32>
   %1 = "tosa.reciprocal"(%0) : (tensor<12x7xf32>) -> tensor<12x7xf32>
   return %1 : tensor<12x7xf32>
 }

 // CHECK-LABEL: @reciprocal_div_zero
 func.func @reciprocal_div_zero() -> tensor<f32> {
   // 0x7F800000 is the value for +infinity
   // CHECK: [[RES:]] ={{.*}}tosa.const{{.*}}0x7F800000
   // CHECK-NOT: tosa.reciprocal
   // CHECK: return [[RES]]
   %0 = "tosa.const"() {value = dense<0.0> : tensor<f32>} : () -> tensor<f32>
   %1 = "tosa.reciprocal"(%0) : (tensor<f32>) -> tensor<f32>
   return %1 : tensor<f32>
 }

 // CHECK-LABEL: @reciprocal_div_neg_zero
 func.func @reciprocal_div_neg_zero() -> tensor<f32> {
   // 0xFF800000 is the value for -infinity
   // CHECK: [[RES:]] ={{.*}}tosa.const{{.*}}0xFF800000
   // CHECK-NOT: tosa.reciprocal
   // CHECK: return [[RES]]
   %0 = "tosa.const"() {value = dense<-0.0> : tensor<f32>} : () -> tensor<f32>
   %1 = "tosa.reciprocal"(%0) : (tensor<f32>) -> tensor<f32>
   return %1 : tensor<f32>
 }

 // CHECK-LABEL: @reciprocal_div_nan
 func.func @reciprocal_div_nan() -> tensor<f32> {
   // 0x7FC00000 is the value for NAN
   // CHECK: [[RES:]] ={{.*}}tosa.const{{.*}}0x7FC00000
   // CHECK-NOT: tosa.reciprocal
   // CHECK: return [[RES]]
   %0 = "tosa.const"() {value = dense<0x7FC00000> : tensor<f32>} : () -> tensor<f32>
   %1 = "tosa.reciprocal"(%0) : (tensor<f32>) -> tensor<f32>
   return %1 : tensor<f32>
 }

 // CHECK-LABEL: @reciprocal_div_infinity
 func.func @reciprocal_div_infinity() -> tensor<f32> {
   // CHECK: [[RES:]] ={{.*}}tosa.const{{.*}}<0.{{0*}}e+00>
   // CHECK-NOT: tosa.reciprocal
   // CHECK: return [[RES]]
   %0 = "tosa.const"() {value = dense<0x7F800000> : tensor<f32>} : () -> tensor<f32>
   %1 = "tosa.reciprocal"(%0) : (tensor<f32>) -> tensor<f32>
   return %1 : tensor<f32>
 }

 // CHECK-LABEL: @reciprocal_div_neg_infinity
 func.func @reciprocal_div_neg_infinity() -> tensor<f32> {
   // CHECK: [[RES:]] ={{.*}}tosa.const{{.*}}<-0.{{0*}}e+00>
   // CHECK-NOT: tosa.reciprocal
   // CHECK: return [[RES]]
   %0 = "tosa.const"() {value = dense<0xFF800000> : tensor<f32>} : () -> tensor<f32>
   %1 = "tosa.reciprocal"(%0) : (tensor<f32>) -> tensor<f32>
   return %1 : tensor<f32>
 }

 // CHECK-LABEL: @reciprocal_div_underflow
 func.func @reciprocal_div_underflow() -> tensor<2xf16> {
   // CHECK: [[RES:]] ={{.*}}tosa.const{{.*}}-0.{{0*}}e+00, 0.{{0*}}e+00
   // CHECK-NOT: tosa.reciprocal
   // CHECK: return [[RES]]
   %0 = "tosa.const"() {value = dense<[-6.0e+15, 6.0e+15]> : tensor<2xf16>} : () -> tensor<2xf16>
   %1 = "tosa.reciprocal"(%0) : (tensor<2xf16>) -> tensor<2xf16>
   return %1 : tensor<2xf16>
 }

 // CHECK-LABEL: @reciprocal_div_overflow
 func.func @reciprocal_div_overflow() -> tensor<2xf16> {
   // CHECK: [[RES:]] ={{.*}}tosa.const{{.*}}0x7C00, 0xFC00
   // CHECK-NOT: tosa.reciprocal
   // CHECK: return [[RES]]
   %0 = "tosa.const"() {value = dense<[0.0000001, -0.0000001]> : tensor<2xf16>} : () -> tensor<2xf16>
   %1 = "tosa.reciprocal"(%0) : (tensor<2xf16>) -> tensor<2xf16>
   return %1 : tensor<2xf16>
 }

 // CHECK-LABEL: @reciprocal_no_fold
 // The folding optimization works only intra-procedurally, so we won't be able
 // to fold anything here
 func.func @reciprocal_no_fold(%arg0: tensor<?x?xf32>) -> tensor<?x?xf32> {
   // CHECK: tosa.reciprocal
   // CHECK-NEXT: return
   %0 = "tosa.reciprocal"(%arg0) : (tensor<?x?xf32>) -> tensor<?x?xf32>
   return %0 : tensor<?x?xf32>
 }

 // CHECK-LABEL: @reciprocal_fold
 func.func @reciprocal_fold() -> tensor<4x6xf32> {
   // CHECK: [[RES:]] ={{.*}}tosa.const
   // CHECK-SAME{LITERAL}: [[5.68828249, 11.4416485, 1.6880486, 0.680272102, -0.875350117, 0.342313349],
   // CHECK-SAME{LITERAL}:  [-4.81231928, 0.698080301, 0.65432179, -82.6446304, -4.33651352, -0.747551739],
   // CHECK-SAME{LITERAL}:  [-12.4378109, 13.140605, 1.89501607, 0.885582745, 4.08830738, 1.4396776],
   // CHECK-SAME{LITERAL}:  [2.02880907, -1.53280187, 0.552730501, 7.15819644, 0.64495325, -0.973709881]]
   // CHECK-NOT: tosa.reciprocal
   // CHECK: return [[RES]]
   %0 = "tosa.const"() { value = dense<[
                         [ 0.1758,  0.0874,  0.5924,  1.4700, -1.1424,  2.9213],
                         [-0.2078,  1.4325,  1.5283, -0.0121, -0.2306, -1.3377],
                         [-0.0804,  0.0761,  0.5277,  1.1292,  0.2446,  0.6946],
                         [ 0.4929, -0.6524,  1.8092,  0.1397,  1.5505, -1.0270]]>
                         : tensor<4x6xf32>
                       } : () -> tensor<4x6xf32>
   %1 = "tosa.reciprocal"(%0) : (tensor<4x6xf32>) -> tensor<4x6xf32>
   return %1 : tensor<4x6xf32>
 }

 // CHECK-LABEL: @reciprocal_of_const_sparse
 // Sparse tensors are currently not supported
 func.func @reciprocal_of_const_sparse() -> tensor<32xbf16> {
   // CHECK: tosa.const
   // CHECK: tosa.reciprocal
     %0 = "tosa.const"() { value = sparse<
           [[0], [3], [11], [17], [20], [23], [25], [30], [31]],
           [1.0, 2.0, 3.0, 4.0, 5.0, 6.0, 7.0, 8.0, 9.0]>
           : tensor<32xbf16> } : () -> tensor<32xbf16>
     %1 = "tosa.reciprocal"(%0) : (tensor<32xbf16>) -> tensor<32xbf16>
     return %1 : tensor<32xbf16>
 }
	// RUN: mlir-opt --split-input-file --tosa-layerwise-constant-fold %s \| FileCheck %s

	// CHECK-LABEL: @reciprocal_fold_single_valued
	func.func @reciprocal_fold_single_valued() -> tensor<f32> {
	// CHECK: [[RES:]] ={{.}}tosa.const{{.}}2.5{{0}}e-01{{.}}tensor<f32>
	// CHECK-NOT: tosa.reciprocal
	// CHECK: return [[RES]]
	%0 = "tosa.const"() {value = dense<4.0> : tensor<f32>} : () -> tensor<f32>
	%1 = "tosa.reciprocal"(%0) : (tensor<f32>) -> tensor<f32>
	return %1 : tensor<f32>
	}

	// CHECK-LABEL: @reciprocal_fold_splat
	func.func @reciprocal_fold_splat() -> tensor<12x7xf32> {
	// CHECK: [[RES:]] ={{.}}tosa.const{{.}}2.5{{0}}e-01{{.}}tensor<12x7xf32>
	// CHECK-NOT: tosa.reciprocal
	// CHECK: return [[RES]]
	%0 = "tosa.const"() {value = dense<4.0> : tensor<12x7xf32>} : () -> tensor<12x7xf32>
	%1 = "tosa.reciprocal"(%0) : (tensor<12x7xf32>) -> tensor<12x7xf32>
	return %1 : tensor<12x7xf32>
	}

	// CHECK-LABEL: @reciprocal_div_zero
	func.func @reciprocal_div_zero() -> tensor<f32> {
	// 0x7F800000 is the value for +infinity
	// CHECK: [[RES:]] ={{.}}tosa.const{{.}}0x7F800000
	// CHECK-NOT: tosa.reciprocal
	// CHECK: return [[RES]]
	%0 = "tosa.const"() {value = dense<0.0> : tensor<f32>} : () -> tensor<f32>
	%1 = "tosa.reciprocal"(%0) : (tensor<f32>) -> tensor<f32>
	return %1 : tensor<f32>
	}

	// CHECK-LABEL: @reciprocal_div_neg_zero
	func.func @reciprocal_div_neg_zero() -> tensor<f32> {
	// 0xFF800000 is the value for -infinity
	// CHECK: [[RES:]] ={{.}}tosa.const{{.}}0xFF800000
	// CHECK-NOT: tosa.reciprocal
	// CHECK: return [[RES]]
	%0 = "tosa.const"() {value = dense<-0.0> : tensor<f32>} : () -> tensor<f32>
	%1 = "tosa.reciprocal"(%0) : (tensor<f32>) -> tensor<f32>
	return %1 : tensor<f32>
	}

	// CHECK-LABEL: @reciprocal_div_nan
	func.func @reciprocal_div_nan() -> tensor<f32> {
	// 0x7FC00000 is the value for NAN
	// CHECK: [[RES:]] ={{.}}tosa.const{{.}}0x7FC00000
	// CHECK-NOT: tosa.reciprocal
	// CHECK: return [[RES]]
	%0 = "tosa.const"() {value = dense<0x7FC00000> : tensor<f32>} : () -> tensor<f32>
	%1 = "tosa.reciprocal"(%0) : (tensor<f32>) -> tensor<f32>
	return %1 : tensor<f32>
	}

	// CHECK-LABEL: @reciprocal_div_infinity
	func.func @reciprocal_div_infinity() -> tensor<f32> {
	// CHECK: [[RES:]] ={{.}}tosa.const{{.}}<0.{{0*}}e+00>
	// CHECK-NOT: tosa.reciprocal
	// CHECK: return [[RES]]
	%0 = "tosa.const"() {value = dense<0x7F800000> : tensor<f32>} : () -> tensor<f32>
	%1 = "tosa.reciprocal"(%0) : (tensor<f32>) -> tensor<f32>
	return %1 : tensor<f32>
	}

	// CHECK-LABEL: @reciprocal_div_neg_infinity
	func.func @reciprocal_div_neg_infinity() -> tensor<f32> {
	// CHECK: [[RES:]] ={{.}}tosa.const{{.}}<-0.{{0*}}e+00>
	// CHECK-NOT: tosa.reciprocal
	// CHECK: return [[RES]]
	%0 = "tosa.const"() {value = dense<0xFF800000> : tensor<f32>} : () -> tensor<f32>
	%1 = "tosa.reciprocal"(%0) : (tensor<f32>) -> tensor<f32>
	return %1 : tensor<f32>
	}

	// CHECK-LABEL: @reciprocal_div_underflow
	func.func @reciprocal_div_underflow() -> tensor<2xf16> {
	// CHECK: [[RES:]] ={{.}}tosa.const{{.}}-0.{{0}}e+00, 0.{{0}}e+00
	// CHECK-NOT: tosa.reciprocal
	// CHECK: return [[RES]]
	%0 = "tosa.const"() {value = dense<[-6.0e+15, 6.0e+15]> : tensor<2xf16>} : () -> tensor<2xf16>
	%1 = "tosa.reciprocal"(%0) : (tensor<2xf16>) -> tensor<2xf16>
	return %1 : tensor<2xf16>
	}

	// CHECK-LABEL: @reciprocal_div_overflow
	func.func @reciprocal_div_overflow() -> tensor<2xf16> {
	// CHECK: [[RES:]] ={{.}}tosa.const{{.}}0x7C00, 0xFC00
	// CHECK-NOT: tosa.reciprocal
	// CHECK: return [[RES]]
	%0 = "tosa.const"() {value = dense<[0.0000001, -0.0000001]> : tensor<2xf16>} : () -> tensor<2xf16>
	%1 = "tosa.reciprocal"(%0) : (tensor<2xf16>) -> tensor<2xf16>
	return %1 : tensor<2xf16>
	}

	// CHECK-LABEL: @reciprocal_no_fold
	// The folding optimization works only intra-procedurally, so we won't be able
	// to fold anything here
	func.func @reciprocal_no_fold(%arg0: tensor<?x?xf32>) -> tensor<?x?xf32> {
	// CHECK: tosa.reciprocal
	// CHECK-NEXT: return
	%0 = "tosa.reciprocal"(%arg0) : (tensor<?x?xf32>) -> tensor<?x?xf32>
	return %0 : tensor<?x?xf32>
	}

	// CHECK-LABEL: @reciprocal_fold
	func.func @reciprocal_fold() -> tensor<4x6xf32> {
	// CHECK: [[RES:]] ={{.*}}tosa.const
	// CHECK-SAME{LITERAL}: [[5.68828249, 11.4416485, 1.6880486, 0.680272102, -0.875350117, 0.342313349],
	// CHECK-SAME{LITERAL}: [-4.81231928, 0.698080301, 0.65432179, -82.6446304, -4.33651352, -0.747551739],
	// CHECK-SAME{LITERAL}: [-12.4378109, 13.140605, 1.89501607, 0.885582745, 4.08830738, 1.4396776],
	// CHECK-SAME{LITERAL}: [2.02880907, -1.53280187, 0.552730501, 7.15819644, 0.64495325, -0.973709881]]
	// CHECK-NOT: tosa.reciprocal
	// CHECK: return [[RES]]
	%0 = "tosa.const"() { value = dense<[
	[ 0.1758, 0.0874, 0.5924, 1.4700, -1.1424, 2.9213],
	[-0.2078, 1.4325, 1.5283, -0.0121, -0.2306, -1.3377],
	[-0.0804, 0.0761, 0.5277, 1.1292, 0.2446, 0.6946],
	[ 0.4929, -0.6524, 1.8092, 0.1397, 1.5505, -1.0270]]>
	: tensor<4x6xf32>
	} : () -> tensor<4x6xf32>
	%1 = "tosa.reciprocal"(%0) : (tensor<4x6xf32>) -> tensor<4x6xf32>
	return %1 : tensor<4x6xf32>
	}

	// CHECK-LABEL: @reciprocal_of_const_sparse
	// Sparse tensors are currently not supported
	func.func @reciprocal_of_const_sparse() -> tensor<32xbf16> {
	// CHECK: tosa.const
	// CHECK: tosa.reciprocal
	%0 = "tosa.const"() { value = sparse<
	[[0], [3], [11], [17], [20], [23], [25], [30], [31]],
	[1.0, 2.0, 3.0, 4.0, 5.0, 6.0, 7.0, 8.0, 9.0]>
	: tensor<32xbf16> } : () -> tensor<32xbf16>
	%1 = "tosa.reciprocal"(%0) : (tensor<32xbf16>) -> tensor<32xbf16>
	return %1 : tensor<32xbf16>
	}