[Mlir-commits] [mlir] b67880d - [MLIR][TOSA-Linalg] Fix rescale lowering for unsigned input zp (#138313)

[llvmlistbot at llvm.org]

Author: Thomas Preud'homme
Date: 2025-05-06T21:12:51+01:00
New Revision: b67880d8755bef5505a98cadbb48c4aad8b4c115

URL: https://github.com/llvm/llvm-project/commit/b67880d8755bef5505a98cadbb48c4aad8b4c115
DIFF: https://github.com/llvm/llvm-project/commit/b67880d8755bef5505a98cadbb48c4aad8b4c115.diff

LOG: [MLIR][TOSA-Linalg] Fix rescale lowering for unsigned input zp (#138313)

Lowering of tosa.rescale to Linalg unconditionally sign-extend the input
zero-point value, even when unsigned_input is true. This commit refactor
zeropoint handling to share the same logic between input and output
zeropoint.

Added: 
    

Modified: 
    mlir/lib/Conversion/TosaToLinalg/TosaToLinalg.cpp
    mlir/lib/Dialect/Tosa/IR/TosaOps.cpp
    mlir/test/Conversion/TosaToLinalg/tosa-to-linalg.mlir
    mlir/test/Dialect/Tosa/invalid.mlir

Removed: 
    


################################################################################
diff  --git a/mlir/lib/Conversion/TosaToLinalg/TosaToLinalg.cpp b/mlir/lib/Conversion/TosaToLinalg/TosaToLinalg.cpp
index 95364c26d1a7d..0b69cd2814fb9 100644
--- a/mlir/lib/Conversion/TosaToLinalg/TosaToLinalg.cpp
+++ b/mlir/lib/Conversion/TosaToLinalg/TosaToLinalg.cpp
@@ -82,15 +82,6 @@ materializeBinaryNanCheckIfRequired(OpTy op, PatternRewriter &rewriter,
                                           rhsOrResult);
 }
 
-template <typename T>
-static arith::ConstantOp
-createConstOpFromZpVal(Operation *op, const int64_t &zp, Type requiredAttrType,
-                       OpBuilder &rewriter) {
-  auto castedN = static_cast<T>(zp);
-  return rewriter.create<arith::ConstantOp>(
-      op->getLoc(), IntegerAttr::get(requiredAttrType, castedN));
-}
-
 static Value createLinalgBodyCalculationForElementwiseOp(
     Operation *op, ValueRange args, ArrayRef<Type> resultTypes,
     ConversionPatternRewriter &rewriter) {
@@ -1467,11 +1458,6 @@ class RescaleConverter : public OpRewritePattern<tosa::RescaleOp> {
           Value value = blockArgs[0];
           Type valueTy = value.getType();
 
-          // For now we do all of our math in 64-bit. This is not optimal but
-          // should be correct for now, consider computing correct bit depth
-          // later.
-          int32_t inBitwidth = valueTy.getIntOrFloatBitWidth() > 32 ? 48 : 32;
-
           FailureOr<int64_t> maybeIZp = op.getInputZeroPoint();
           if (failed(maybeIZp)) {
             (void)rewriter.notifyMatchFailure(
@@ -1479,9 +1465,12 @@ class RescaleConverter : public OpRewritePattern<tosa::RescaleOp> {
             return;
           }
 
-          auto inputZp = createConstOpFromZpVal<int32_t>(
-              op, *maybeIZp, nestedBuilder.getIntegerType(inBitwidth),
-              nestedBuilder);
+          const int32_t inBitwidth = valueTy.getIntOrFloatBitWidth();
+          // Extend zeropoint for sub-32bits widths.
+          const int32_t inAttrBitwidth = inBitwidth > 32 ? inBitwidth : 32;
+          auto inputZp = nestedBuilder.create<arith::ConstantOp>(
+              loc, IntegerAttr::get(rewriter.getIntegerType(inAttrBitwidth),
+                                    *maybeIZp));
 
           FailureOr<int64_t> maybeOZp = op.getOutputZeroPoint();
           if (failed(maybeOZp)) {
@@ -1490,16 +1479,14 @@ class RescaleConverter : public OpRewritePattern<tosa::RescaleOp> {
             return;
           };
 
-          // pre-process OutputZP as it can be unsigned
-          auto outBitwidth = outputTy.getElementType().getIntOrFloatBitWidth();
-          APInt OZp(outBitwidth, !op.getOutputUnsigned());
-          OZp = static_cast<int64_t>(*maybeOZp);
-          *maybeOZp = op.getOutputUnsigned()
-                          ? static_cast<int64_t>(OZp.getZExtValue())
-                          : OZp.getSExtValue();
-
-          auto outputZp = createConstOpFromZpVal<int32_t>(
-              op, *maybeOZp, nestedBuilder.getI32Type(), nestedBuilder);
+          IntegerType outIntType =
+              cast<IntegerType>(blockArgs.back().getType());
+          unsigned outBitWidth = outIntType.getWidth();
+          const int32_t outAttrBitwidth = 32;
+          assert(outBitWidth <= 32 && "Unexpected output zeropoint bitwidth");
+          auto outputZp = nestedBuilder.create<arith::ConstantOp>(
+              loc, IntegerAttr::get(rewriter.getIntegerType(outAttrBitwidth),
+                                    *maybeOZp));
 
           Value multiplier = multiplierConstant ? multiplierConstant
                                                 : blockArgs[multiplierArg];
@@ -1527,10 +1514,6 @@ class RescaleConverter : public OpRewritePattern<tosa::RescaleOp> {
               nestedBuilder.create<arith::AddIOp>(nestedLoc, value, outputZp);
 
           // Saturate to the output size.
-          IntegerType outIntType =
-              cast<IntegerType>(blockArgs.back().getType());
-          unsigned outBitWidth = outIntType.getWidth();
-
           int32_t intMin = APInt::getSignedMinValue(outBitWidth).getSExtValue();
           int32_t intMax = APInt::getSignedMaxValue(outBitWidth).getSExtValue();
 

diff  --git a/mlir/lib/Dialect/Tosa/IR/TosaOps.cpp b/mlir/lib/Dialect/Tosa/IR/TosaOps.cpp
index de06b621cbe3d..2f9c6d7870782 100644
--- a/mlir/lib/Dialect/Tosa/IR/TosaOps.cpp
+++ b/mlir/lib/Dialect/Tosa/IR/TosaOps.cpp
@@ -2118,7 +2118,7 @@ llvm::LogicalResult tosa::ReshapeOp::verify() {
 // return failure if val is not a constant
 // set zp to -1 if val is non-zero float or val is not integer nor float
 // otherwise set zp to val's constant value
-static FailureOr<int64_t> getZeroPoint(Value val) {
+static FailureOr<int64_t> getZeroPoint(Value val, bool signExtend) {
   ElementsAttr zpAttr;
   if (!matchPattern(val, m_Constant(&zpAttr))) {
     return failure();
@@ -2135,7 +2135,10 @@ static FailureOr<int64_t> getZeroPoint(Value val) {
   }
 
   if (llvm::isa<IntegerType>(zpElemType)) {
-    return zpAttr.getValues<APInt>()[0].getSExtValue();
+    if (signExtend)
+      return zpAttr.getValues<APInt>()[0].getSExtValue();
+    else
+      return zpAttr.getValues<APInt>()[0].getZExtValue();
   }
 
   // return non-zero value to trigger error check
@@ -2186,30 +2189,30 @@ static LogicalResult verifyZeroPoint(tosa::RescaleOp op, Value zpVal,
   return success();
 }
 
-#define ZERO_POINT_HELPER(OP, OPERAND_NAME)                                    \
+#define ZERO_POINT_HELPER(OP, OPERAND_NAME, SIGN_EXTEND)                       \
   FailureOr<int64_t> tosa::OP::get##OPERAND_NAME##ZeroPoint() {                \
-    return getZeroPoint(get##OPERAND_NAME##Zp());                              \
+    return getZeroPoint(get##OPERAND_NAME##Zp(), SIGN_EXTEND);                 \
   }                                                                            \
   LogicalResult tosa::OP::verify##OPERAND_NAME##ZeroPoint(int64_t zp) {        \
     return verifyZeroPoint(*this, get##OPERAND_NAME##Zp(), zp, #OPERAND_NAME); \
   }
 
-ZERO_POINT_HELPER(Conv2DOp, Input)
-ZERO_POINT_HELPER(Conv2DOp, Weight)
-ZERO_POINT_HELPER(Conv3DOp, Input)
-ZERO_POINT_HELPER(Conv3DOp, Weight)
-ZERO_POINT_HELPER(DepthwiseConv2DOp, Input)
-ZERO_POINT_HELPER(DepthwiseConv2DOp, Weight)
-ZERO_POINT_HELPER(TransposeConv2DOp, Input)
-ZERO_POINT_HELPER(TransposeConv2DOp, Weight)
-ZERO_POINT_HELPER(AvgPool2dOp, Input)
-ZERO_POINT_HELPER(AvgPool2dOp, Output)
-ZERO_POINT_HELPER(MatMulOp, A)
-ZERO_POINT_HELPER(MatMulOp, B)
-ZERO_POINT_HELPER(NegateOp, Input1)
-ZERO_POINT_HELPER(NegateOp, Output)
-ZERO_POINT_HELPER(RescaleOp, Input)
-ZERO_POINT_HELPER(RescaleOp, Output)
+ZERO_POINT_HELPER(Conv2DOp, Input, true)
+ZERO_POINT_HELPER(Conv2DOp, Weight, true)
+ZERO_POINT_HELPER(Conv3DOp, Input, true)
+ZERO_POINT_HELPER(Conv3DOp, Weight, true)
+ZERO_POINT_HELPER(DepthwiseConv2DOp, Input, true)
+ZERO_POINT_HELPER(DepthwiseConv2DOp, Weight, true)
+ZERO_POINT_HELPER(TransposeConv2DOp, Input, true)
+ZERO_POINT_HELPER(TransposeConv2DOp, Weight, true)
+ZERO_POINT_HELPER(AvgPool2dOp, Input, true)
+ZERO_POINT_HELPER(AvgPool2dOp, Output, true)
+ZERO_POINT_HELPER(MatMulOp, A, true)
+ZERO_POINT_HELPER(MatMulOp, B, true)
+ZERO_POINT_HELPER(NegateOp, Input1, true)
+ZERO_POINT_HELPER(NegateOp, Output, true)
+ZERO_POINT_HELPER(RescaleOp, Input, !getInputUnsigned())
+ZERO_POINT_HELPER(RescaleOp, Output, !getOutputUnsigned())
 #undef ZERO_POINT_HELPER
 
 LogicalResult tosa::TransposeOp::inferReturnTypeComponents(

diff  --git a/mlir/test/Conversion/TosaToLinalg/tosa-to-linalg.mlir b/mlir/test/Conversion/TosaToLinalg/tosa-to-linalg.mlir
index 7083d19f4372a..185f1973ecdc6 100644
--- a/mlir/test/Conversion/TosaToLinalg/tosa-to-linalg.mlir
+++ b/mlir/test/Conversion/TosaToLinalg/tosa-to-linalg.mlir
@@ -1241,10 +1241,10 @@ func.func @rescale_i8_unsigned_input(%arg0 : tensor<2xi8>) -> () {
   // CHECK: [[INIT:%.+]] = tensor.empty()
   // CHECK: [[GENERIC:%.+]] = linalg.generic {indexing_maps = [#[[$MAP0]], #[[$MAP0]]], iterator_types = ["parallel"]} ins(%[[ARG0]] : tensor<2xi8>) outs([[INIT]] : tensor<2xi8>)
   // CHECK: ^bb0([[IN:%.+]]: i8, [[UNUSED:%.+]]: i8):
-  // CHECK: [[C17:%.+]] = arith.constant 17
+  // CHECK: [[C128:%.+]] = arith.constant 128
   // CHECK: [[C22:%.+]] = arith.constant 22
   // CHECK-DAG: [[IN32:%.+]] = arith.extui [[IN]]
-  // CHECK-DAG: [[IN_ZEROED:%.+]] = arith.subi [[IN32]], [[C17]]
+  // CHECK-DAG: [[IN_ZEROED:%.+]] = arith.subi [[IN32]], [[C128]]
   // CHECK-DAG: [[SCALED:%.+]] = tosa.apply_scale [[IN_ZEROED]], [[C0]], [[C1]] {rounding_mode = "SINGLE_ROUND"}
   // CHECK-DAG: [[SCALED_ZEROED:%.+]] = arith.addi [[SCALED]], [[C22]]
   // CHECK-DAG: [[CMIN:%.+]] = arith.constant -128
@@ -1255,13 +1255,45 @@ func.func @rescale_i8_unsigned_input(%arg0 : tensor<2xi8>) -> () {
   // CHECK: linalg.yield [[TRUNC]]
   %multiplier = "tosa.const"() {values = dense<19689> : tensor<1xi16> } : () -> tensor<1xi16>
   %shift = "tosa.const"() {values = dense<15> : tensor<1xi8> } : () -> tensor<1xi8>
-  %input_zp = "tosa.const"() {values = dense<17> : tensor<1xi8>} : () -> tensor<1xi8>
+  %input_zp = "tosa.const"() {values = dense<-128> : tensor<1xi8>} : () -> tensor<1xi8>
   %output_zp = "tosa.const"() {values = dense<22> : tensor<1xi8>} : () -> tensor<1xi8>
   %0 = tosa.rescale %arg0, %multiplier, %shift, %input_zp, %output_zp {scale32 = false, rounding_mode = "SINGLE_ROUND", per_channel = false, input_unsigned = true, output_unsigned = false} : (tensor<2xi8>, tensor<1xi16>, tensor<1xi8>, tensor<1xi8>, tensor<1xi8>) -> tensor<2xi8>
 
   return
 }
 
+// -----
+// CHECK: #[[$MAP0:.*]] = affine_map<(d0) -> (d0)>
+
+// CHECK-LABEL: @rescale_i48_unsigned_output
+// CHECK-SAME: (%[[ARG0:[0-9a-zA-Z_]*]]:
+func.func @rescale_i48_unsigned_output(%arg0 : tensor<2xi48>) -> () {
+  // CHECK: [[C19689:%.+]] = arith.constant 19689
+  // CHECK: [[C15:%.+]] = arith.constant 15
+  // CHECK: [[INIT:%.+]] = tensor.empty()
+  // CHECK: [[GENERIC:%.+]] = linalg.generic {indexing_maps = [#[[$MAP0]], #[[$MAP0]]], iterator_types = ["parallel"]} ins(%[[ARG0]] : tensor<2xi48>) outs([[INIT]] : tensor<2xi8>)
+  // CHECK: ^bb0([[IN:%.+]]: i48, [[UNUSED:%.+]]: i8):
+  // CHECK: [[C0:%.+]] = arith.constant 0
+  // CHECK: [[C234:%.+]] = arith.constant 234
+  // CHECK-DAG: [[IN_ZEROED:%.+]] = arith.subi [[IN]], [[C0]]
+  // CHECK-DAG: [[SCALED:%.+]] = tosa.apply_scale [[IN_ZEROED]], [[C19689]], [[C15]] {rounding_mode = "SINGLE_ROUND"}
+  // CHECK-DAG: [[SCALED_ZEROED:%.+]] = arith.addi [[SCALED]], [[C234]]
+  // CHECK-DAG: [[CMIN:%.+]] = arith.constant 0
+  // CHECK-DAG: [[CMAX:%.+]] = arith.constant 255
+  // CHECK-DAG: [[LOWER:%.+]] = arith.maxsi [[CMIN]], [[SCALED_ZEROED]]
+  // CHECK-DAG: [[BOUNDED:%.+]] = arith.minsi [[CMAX]], [[LOWER]]
+  // CHECK-DAG: [[TRUNC:%.+]] = arith.trunci [[BOUNDED]]
+  // CHECK: linalg.yield [[TRUNC]]
+  %multiplier = "tosa.const"() {values = dense<19689> : tensor<1xi16> } : () -> tensor<1xi16>
+  %shift = "tosa.const"() {values = dense<15> : tensor<1xi8> } : () -> tensor<1xi8>
+  %input_zp = "tosa.const"() {values = dense<0> : tensor<1xi48>} : () -> tensor<1xi48>
+  %output_zp = "tosa.const"() {values = dense<-22> : tensor<1xi8>} : () -> tensor<1xi8>
+  %1 = tosa.rescale %arg0, %multiplier, %shift, %input_zp, %output_zp {scale32 = false, rounding_mode = "SINGLE_ROUND", per_channel = false, input_unsigned = false, output_unsigned = true} : (tensor<2xi48>, tensor<1xi16>, tensor<1xi8>, tensor<1xi48>, tensor<1xi8>) -> tensor<2xi8>
+
+  // CHECK: return
+  return
+}
+
 // -----
 
 // CHECK: #[[$MAP0:.*]] = affine_map<(d0) -> (d0)>

diff  --git a/mlir/test/Dialect/Tosa/invalid.mlir b/mlir/test/Dialect/Tosa/invalid.mlir
index 9ccb310c4491d..56d76585be71b 100644
--- a/mlir/test/Dialect/Tosa/invalid.mlir
+++ b/mlir/test/Dialect/Tosa/invalid.mlir
@@ -1517,7 +1517,7 @@ func.func @test_rescale_invalid_output_zp_u16(%arg0: tensor<13x21x3xi16>) -> ten
   %shift = "tosa.const"() {values = dense<30> : tensor<1xi8> } : () -> tensor<1xi8>
   %input_zp = "tosa.const"() {values = dense<0> : tensor<1xi16>} : () -> tensor<1xi16>
   %output_zp = "tosa.const"() {values = dense<-1> : tensor<1xi16>} : () -> tensor<1xi16>
-  // expected-error at +1 {{'tosa.rescale' op expect output_zp of 0 or 32768 for unsigned int16 output, got -1}}
+  // expected-error at +1 {{'tosa.rescale' op expect output_zp of 0 or 32768 for unsigned int16 output, got 65535}}
   %0 = tosa.rescale %arg0, %multiplier, %shift, %input_zp, %output_zp {rounding_mode = "SINGLE_ROUND", per_channel = false, scale32 = true, input_unsigned = false, output_unsigned = true} : (tensor<13x21x3xi16>, tensor<1xi32>, tensor<1xi8>, tensor<1xi16>, tensor<1xi16>) -> tensor<13x21x3xi16>
   return %0 : tensor<13x21x3xi16>
 }