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1b97cdf885
This better matches the rest of the infrastructure, is much simpler, and makes it easier to move these types to being declaratively specified. Differential Revision: https://reviews.llvm.org/D93432
170 lines
6.7 KiB
C++
170 lines
6.7 KiB
C++
//===- QuantizationUtilsTest.cpp - unit tests for quantization utils ------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "mlir/Dialect/Quant/QuantOps.h"
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#include "mlir/Dialect/Quant/QuantizeUtils.h"
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#include "mlir/Dialect/Quant/UniformSupport.h"
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#include "mlir/IR/Attributes.h"
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#include "mlir/IR/BuiltinTypes.h"
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#include "gmock/gmock.h"
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#include "gtest/gtest.h"
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using namespace mlir;
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using namespace mlir::quant;
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namespace {
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// Test UniformQuantizedValueConverter converts all APFloat to a magic number 5.
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class TestUniformQuantizedValueConverter
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: public UniformQuantizedValueConverter {
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public:
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TestUniformQuantizedValueConverter(UniformQuantizedType type)
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: UniformQuantizedValueConverter(type), qtype(type) {}
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APInt quantizeFloatToInt(APFloat expressedValue) const {
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return APInt(qtype.getStorageType().cast<IntegerType>().getWidth(), 5L);
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}
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private:
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UniformQuantizedType qtype;
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};
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Attribute getTestFloatAttr(double value, MLIRContext *ctx) {
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return FloatAttr::get(FloatType::getF32(ctx), value);
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}
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template <typename ConcreteAttrClass, typename... Arg>
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ConcreteAttrClass getTestElementsAttr(MLIRContext *ctx, ArrayRef<int64_t> shape,
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Arg... value) {
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auto eleType = FloatType::getF32(ctx);
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ShapedType tensorType;
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if (shape.size() == 1 && shape[0] == -1) {
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tensorType = UnrankedTensorType::get(eleType);
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} else {
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tensorType = RankedTensorType::get(shape, eleType);
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}
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return ConcreteAttrClass::get(tensorType, value...);
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}
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ElementsAttr getTestSparseElementsAttr(MLIRContext *ctx,
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ArrayRef<int64_t> shape) {
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auto eleType = FloatType::getF32(ctx);
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ShapedType tensorType;
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if (shape.size() == 1 && shape[0] == -1) {
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tensorType = UnrankedTensorType::get(eleType);
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} else {
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tensorType = RankedTensorType::get(shape, eleType);
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}
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auto indicesType = RankedTensorType::get({1, 2}, IntegerType::get(ctx, 64));
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auto indices =
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DenseIntElementsAttr::get(indicesType, {APInt(64, 0), APInt(64, 0)});
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auto valuesType = RankedTensorType::get({1}, eleType);
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auto values = DenseFPElementsAttr::get(valuesType, {APFloat(0.0f)});
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return SparseElementsAttr::get(tensorType, indices, values);
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}
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UniformQuantizedType getTestQuantizedType(Type storageType, MLIRContext *ctx) {
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return UniformQuantizedType::get(/*flags=*/false, storageType,
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FloatType::getF32(ctx), /*scale=*/1.0,
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/*zeroPoint=*/0, /*storageTypeMin=*/0,
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/*storageTypeMax=*/255);
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}
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TEST(QuantizationUtilsTest, convertFloatAttrUniform) {
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MLIRContext ctx;
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ctx.getOrLoadDialect<QuantizationDialect>();
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IntegerType convertedType = IntegerType::get(&ctx, 8);
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auto quantizedType = getTestQuantizedType(convertedType, &ctx);
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TestUniformQuantizedValueConverter converter(quantizedType);
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auto realValue = getTestFloatAttr(1.0, &ctx);
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Type typeResult;
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auto valueResult =
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quantizeAttrUniform(realValue, quantizedType, converter, typeResult);
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EXPECT_EQ(valueResult.cast<IntegerAttr>().getInt(), 5);
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EXPECT_EQ(
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valueResult.cast<IntegerAttr>().getType().cast<IntegerType>().getWidth(),
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convertedType.getWidth());
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}
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TEST(QuantizationUtilsTest, convertRankedDenseAttrUniform) {
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MLIRContext ctx;
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ctx.getOrLoadDialect<QuantizationDialect>();
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IntegerType convertedType = IntegerType::get(&ctx, 8);
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auto quantizedType = getTestQuantizedType(convertedType, &ctx);
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TestUniformQuantizedValueConverter converter(quantizedType);
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auto realValue = getTestElementsAttr<DenseElementsAttr, ArrayRef<Attribute>>(
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&ctx, {1, 2}, {getTestFloatAttr(1.0, &ctx), getTestFloatAttr(2.0, &ctx)});
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Type returnedType;
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auto returnedValue =
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quantizeAttrUniform(realValue, quantizedType, converter, returnedType);
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// Check Elements attribute shape and kind are not changed.
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auto tensorType = returnedType.cast<TensorType>();
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auto expectedTensorType = realValue.getType().cast<TensorType>();
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EXPECT_EQ(tensorType.getShape(), expectedTensorType.getShape());
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EXPECT_EQ(tensorType.getElementType(), convertedType);
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EXPECT_TRUE(returnedValue.isa<DenseIntElementsAttr>());
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// Check Elements attribute element value is expected.
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auto firstValue = returnedValue.cast<ElementsAttr>().getValue({0, 0});
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EXPECT_EQ(firstValue.cast<IntegerAttr>().getInt(), 5);
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}
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TEST(QuantizationUtilsTest, convertRankedSplatAttrUniform) {
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MLIRContext ctx;
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ctx.getOrLoadDialect<QuantizationDialect>();
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IntegerType convertedType = IntegerType::get(&ctx, 8);
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auto quantizedType = getTestQuantizedType(convertedType, &ctx);
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TestUniformQuantizedValueConverter converter(quantizedType);
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auto realValue = getTestElementsAttr<DenseElementsAttr, Attribute>(
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&ctx, {1, 2}, getTestFloatAttr(1.0, &ctx));
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Type returnedType;
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auto returnedValue =
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quantizeAttrUniform(realValue, quantizedType, converter, returnedType);
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// Check Elements attribute shape and kind are not changed.
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auto tensorType = returnedType.cast<TensorType>();
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auto expectedTensorType = realValue.getType().cast<TensorType>();
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EXPECT_EQ(tensorType.getShape(), expectedTensorType.getShape());
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EXPECT_EQ(tensorType.getElementType(), convertedType);
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EXPECT_TRUE(returnedValue.isa<SplatElementsAttr>());
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// Check Elements attribute element value is expected.
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auto firstValue = returnedValue.cast<ElementsAttr>().getValue({0, 0});
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EXPECT_EQ(firstValue.cast<IntegerAttr>().getInt(), 5);
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}
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TEST(QuantizationUtilsTest, convertRankedSparseAttrUniform) {
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MLIRContext ctx;
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ctx.getOrLoadDialect<QuantizationDialect>();
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IntegerType convertedType = IntegerType::get(&ctx, 8);
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auto quantizedType = getTestQuantizedType(convertedType, &ctx);
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TestUniformQuantizedValueConverter converter(quantizedType);
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auto realValue = getTestSparseElementsAttr(&ctx, {1, 2});
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Type returnedType;
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auto returnedValue =
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quantizeAttrUniform(realValue, quantizedType, converter, returnedType);
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// Check Elements attribute shape and kind are not changed.
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auto tensorType = returnedType.cast<TensorType>();
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auto expectedTensorType = realValue.getType().cast<TensorType>();
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EXPECT_EQ(tensorType.getShape(), expectedTensorType.getShape());
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EXPECT_EQ(tensorType.getElementType(), convertedType);
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EXPECT_TRUE(returnedValue.isa<SparseElementsAttr>());
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// Check Elements attribute element value is expected.
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auto firstValue = returnedValue.cast<ElementsAttr>().getValue({0, 0});
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EXPECT_EQ(firstValue.cast<IntegerAttr>().getInt(), 5);
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}
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} // end namespace
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