InfiniTensor/test/operators/test_pooling.cc

71 lines
2.5 KiB
C++

#include "core/graph.h"
#include "core/runtime.h"
#include "operators/pooling.h"
#include "test.h"
namespace infini {
using KDPS = vector<int>;
using ExpectOutput = vector<float>;
TEST(MaxPool, ShapeInference) {
Runtime cpuRuntime = CpuRuntimeObj::getInstance();
{
Graph g = make_ref<GraphObj>(cpuRuntime);
Tensor i = g->addTensor({1, 64, 162, 162}, DataType::UInt32);
const int kh = 3, kw = 3, dh = 1, dw = 1, ph = 0, pw = 0, sh = 2,
sw = 2;
auto op =
g->addOp<MaxPoolObj>(i, nullptr, kh, kw, dh, dw, ph, pw, sh, sw);
EXPECT_EQ(op->getOutput()->getDims(), (Shape{1, 64, 80, 80}));
}
{ // dilation & stride
Graph g = make_ref<GraphObj>(cpuRuntime);
Tensor i = g->addTensor({1, 64, 162, 162}, DataType::UInt32);
auto op = g->addOp<MaxPoolObj>(i, nullptr, 4, 3, 1, 1, 2, 1, 1, 2);
EXPECT_EQ(op->getOutput()->getDims(), (Shape{1, 64, 163, 81}));
}
}
TEST(MaxPool, NaiveCPU) {
Runtime cpuRuntime = CpuRuntimeObj::getInstance();
Graph g = make_ref<GraphObj>(cpuRuntime);
Tensor i = g->addTensor({1, 2, 5, 5}, DataType::UInt32);
auto op = g->addOp<MaxPoolObj>(i, nullptr, 3, 3, 1, 1, 1, 1, 2, 2);
g->dataMalloc();
i->setData(IncrementalGenerator());
cpuRuntime->run(g, true, true);
double perfTime = cpuRuntime->getPerfTime(g);
// The example matmul takes 0.0036ms with one core
EXPECT_GT(perfTime, 0);
EXPECT_LT(perfTime, 5);
// check answer
vector<uint32_t> ans = {6, 8, 9, 16, 18, 19, 21, 23, 24,
31, 33, 34, 41, 43, 44, 46, 48, 49};
EXPECT_TRUE(op->getOutput()->equalData(ans));
}
TEST(AvgPool, NaiveCPU) {
Runtime cpuRuntime = CpuRuntimeObj::getInstance();
Graph g = make_ref<GraphObj>(cpuRuntime);
Tensor i = g->addTensor({1, 2, 5, 5}, DataType::Float32);
auto op = g->addOp<AvgPoolObj>(i, nullptr, 3, 3, 1, 1, 1, 1, 2, 2);
g->dataMalloc();
i->setData(IncrementalGenerator());
cpuRuntime->run(g, true, true);
// check answer
vector<float> ans = {
1.33333337, 3.0000, 2.66666675, 7.0000, 12.0000, 9.0000,
8.0000, 13.0000, 9.33333302, 12.444447, 19.666666, 13.7777777,
23.666666, 37.0000, 25.666666, 19.1111107, 29.666666, 20.4444447};
EXPECT_TRUE(op->getOutput()->equalData(ans));
double perfTime = cpuRuntime->getPerfTime(g);
// The example matmul takes 0.0036ms with one core
EXPECT_GT(perfTime, 0);
EXPECT_LT(perfTime, 5);
}
} // namespace infini