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5ec978eb · Shucai Xiao · edc23800 · 5ec978eb · 5ec978eb · 5ec978eb
Commit 5ec978eb authored Feb 11, 2022 by Shucai Xiao
10 changed files
--- a/src/onnx/parse_nonzero.cpp
+++ b/src/onnx/parse_nonzero.cpp
@@ -46,7 +46,8 @@ struct parse_nonzero : op_parser<parse_nonzero>
            });
            shape in_s = args[0]->get_shape();
-            shape out_s{shape::int64_type, {static_cast<int>(in_s.lens().size()), static_cast<int>(indices.size())}};
+            shape out_s{shape::int64_type,
+                        {static_cast<int>(in_s.lens().size()), static_cast<int>(indices.size())}};
            std::vector<int64_t> out_data(out_s.elements());
            for(int i = 0; i < indices.size(); ++i)

--- a/src/onnx/parse_pooling.cpp
+++ b/src/onnx/parse_pooling.cpp
@@ -84,12 +84,8 @@ struct parse_pooling : op_parser<parse_pooling>
        {
            values["padding"].clear();
            // return paddings could be empty, then setting to 0 for no padding
-            cal_auto_padding_size(info,
+            cal_auto_padding_size(
-                                  values,
+                info, values, values["lengths"].to_vector<int>(), {1, 1}, in_lens, paddings);
-                                  values["lengths"].to_vector<int>(),
-                                  {1, 1},
-                                  in_lens,
-                                  paddings);
        }
        if(paddings.size() != 2 * kdims)

--- a/src/rewrite_rnn.cpp
+++ b/src/rewrite_rnn.cpp
@@ -59,10 +59,10 @@ void rewrite_rnn::apply_vanilla_rnn(module& prog, instruction_ref ins) const
    // when writing their module.
    auto args = ins->inputs();
-    shape seq_shape         = args[0]->get_shape();
+    shape seq_shape    = args[0]->get_shape();
-    int hidden_size = args[1]->get_shape().lens()[1];
+    int hidden_size    = args[1]->get_shape().lens()[1];
-    int batch_size  = seq_shape.lens()[1];
+    int batch_size     = seq_shape.lens()[1];
-    shape::type_t type      = seq_shape.type();
+    shape::type_t type = seq_shape.type();
    migraphx::shape ih_shape{type, {1, batch_size, hidden_size}};
    std::vector<float> data(ih_shape.elements(), 0);
@@ -368,10 +368,10 @@ void rewrite_rnn::apply_gru(module& prog, instruction_ref ins) const
    // when writing their program.
    auto args = ins->inputs();
-    shape seq_shape         = args[0]->get_shape();
+    shape seq_shape    = args[0]->get_shape();
-    int hidden_size = args[2]->get_shape().lens()[2];
+    int hidden_size    = args[2]->get_shape().lens()[2];
-    int batch_size  = seq_shape.lens()[1];
+    int batch_size     = seq_shape.lens()[1];
-    shape::type_t type      = seq_shape.type();
+    shape::type_t type = seq_shape.type();
    migraphx::shape ih_shape{type, {1, batch_size, hidden_size}};
    std::vector<float> data(ih_shape.elements(), 0.0);
@@ -753,10 +753,10 @@ void rewrite_rnn::apply_lstm(module& prog, instruction_ref ins) const
    assert(ins->name() == "lstm");
    auto args = ins->inputs();
-    shape seq_shape         = args[0]->get_shape();
+    shape seq_shape    = args[0]->get_shape();
-    int hidden_size = args[2]->get_shape().lens()[2];
+    int hidden_size    = args[2]->get_shape().lens()[2];
-    int batch_size  = seq_shape.lens()[1];
+    int batch_size     = seq_shape.lens()[1];
-    shape::type_t type      = seq_shape.type();
+    shape::type_t type = seq_shape.type();
    migraphx::shape ihc_shape{type, {1, batch_size, hidden_size}};
    std::vector<float> ihc_data(ihc_shape.elements(), 0.0);
@@ -1194,8 +1194,8 @@ std::vector<operation> rewrite_rnn::lstm_actv_funcs(instruction_ref ins) const
    // we have 6 actv funcs, even though a user does not
    // specifiy any actv func. If less than 46, use the
    // algorithm in parse_lstm to make 6 actv functions
-    const auto& actv_funcs     = lstm_op.actv_funcs;
+    const auto& actv_funcs = lstm_op.actv_funcs;
-    int num_actv_funcs = actv_funcs.size();
+    int num_actv_funcs     = actv_funcs.size();
    if(lstm_op.direction == op::rnn_direction::bidirectional)
    {
        switch(num_actv_funcs)
@@ -1295,8 +1295,9 @@ bool rewrite_rnn::is_variable_seq_lens(const module& prog, instruction_ref seq_l
    return is_var_lens;
 }
-int
+int rewrite_rnn::get_seq_len(const module& prog,
-rewrite_rnn::get_seq_len(const module& prog, instruction_ref input, instruction_ref seq_lens) const
+                             instruction_ref input,
+                             instruction_ref seq_lens) const
 {
    bool is_var_lens = is_variable_seq_lens(prog, seq_lens);
    auto input_shape = input->get_shape();

--- a/src/shape.cpp
+++ b/src/shape.cpp
@@ -46,10 +46,10 @@ struct shape_impl
    shape_impl(const std::vector<shape>& subs) : m_type(shape::tuple_type), m_shapes(subs) {}
    shape::type_t m_type;
-    std::vector<int> m_lens    = {};
+    std::vector<int> m_lens     = {};
-    std::vector<int> m_strides = {};
+    std::vector<int> m_strides  = {};
-    std::vector<shape> m_shapes        = {};
+    std::vector<shape> m_shapes = {};
-    bool m_standard                    = false;
+    bool m_standard             = false;
    void calculate_strides()
    {
@@ -58,10 +58,8 @@ struct shape_impl
        if(m_strides.empty())
            return;
        m_strides.back() = 1;
-        std::partial_sum(m_lens.rbegin(),
+        std::partial_sum(
-                         m_lens.rend() - 1,
+            m_lens.rbegin(), m_lens.rend() - 1, m_strides.rbegin() + 1, std::multiplies<int>());
-                         m_strides.rbegin() + 1,
-                         std::multiplies<int>());
    }
    int element_space() const
@@ -83,8 +81,7 @@ struct shape_impl
        assert(m_lens.size() == m_strides.size());
        if(m_lens.empty())
            return 0;
-        return std::accumulate(
+        return std::accumulate(m_lens.begin(), m_lens.end(), int{1}, std::multiplies<int>());
-            m_lens.begin(), m_lens.end(), int{1}, std::multiplies<int>());
    }
 };
@@ -124,10 +121,7 @@ std::string shape::cpp_type(shape::type_t t)
 shape::shape() : impl(shape_impl::default_shape()) {}
 shape::shape(type_t t) : impl(std::make_shared<shape_impl>(t)) {}
-shape::shape(type_t t, std::vector<int> l)
+shape::shape(type_t t, std::vector<int> l) : impl(std::make_shared<shape_impl>(t, std::move(l))) {}
-    : impl(std::make_shared<shape_impl>(t, std::move(l)))
-{
-}
 shape::shape(type_t t, std::vector<int> l, std::vector<int> s)
    : impl(std::make_shared<shape_impl>(t, std::move(l), std::move(s)))
 {
@@ -135,9 +129,7 @@ shape::shape(type_t t, std::vector<int> l, std::vector<int> s)
 shape::shape(const std::vector<shape>& subs) : impl(std::make_shared<shape_impl>(subs)) {}
-shape shape::from_permutation(type_t t,
+shape shape::from_permutation(type_t t, const std::vector<int>& l, const std::vector<int64_t>& perm)
-                              const std::vector<int>& l,
-                              const std::vector<int64_t>& perm)
 {
    auto new_lens = reorder_dims(l, perm);
    shape result  = reorder_shape({t, new_lens}, invert_permutation(perm));
@@ -221,14 +213,11 @@ void shape::multi_copy(int i, int* start, const int* end) const
    assert(this->standard());
    (void)end;
    assert(lens().size() <= (end - start));
-    std::transform(strides().begin(),
+    std::transform(
-                   strides().end(),
+        strides().begin(), strides().end(), lens().begin(), start, [&](int stride, int len) {
-                   lens().begin(),
+            assert(len > 0 and stride > 0);
-                   start,
+            return (i / stride) % len;
-                   [&](int stride, int len) {
+        });
-                       assert(len > 0 and stride > 0);
-                       return (i / stride) % len;
-                   });
 }
 bool shape::packed() const
@@ -258,10 +247,8 @@ bool shape::transposed() const
 bool shape::broadcasted() const
 {
    assert(this->lens().size() == this->strides().size());
-    return std::accumulate(this->strides().begin(),
+    return std::accumulate(
-                           this->strides().end(),
+               this->strides().begin(), this->strides().end(), int{1}, std::multiplies<int>()) == 0;
-                           int{1},
-                           std::multiplies<int>()) == 0;
 }
 bool shape::scalar() const
@@ -289,10 +276,7 @@ shape shape::with_lens(type_t t, const std::vector<int>& l) const
    return shape::from_permutation(t, l, perm);
 }
-shape shape::with_lens(const std::vector<int>& l) const
+shape shape::with_lens(const std::vector<int>& l) const { return this->with_lens(this->type(), l); }
-{
-    return this->with_lens(this->type(), l);
-}
 int shape::element_space() const { return impl->element_space(); }
@@ -350,9 +334,8 @@ void migraphx_from_value(const value& v, shape& s)
    }
    else
    {
-        s = shape{shape::parse_type(t),
+        s = shape{
-                  v.at("lens").to_vector<int>(),
+            shape::parse_type(t), v.at("lens").to_vector<int>(), v.at("strides").to_vector<int>()};
-                  v.at("strides").to_vector<int>()};
    }
 }

--- a/src/simplify_algebra.cpp
+++ b/src/simplify_algebra.cpp
@@ -626,9 +626,7 @@ struct find_split_concat
    }
 };
-bool axis_equal(const std::vector<int>& x,
+bool axis_equal(const std::vector<int>& x, const std::vector<int>& y, int axis)
-                const std::vector<int>& y,
-                int axis)
 {
    return x.size() == y.size() and x.size() > axis and
           std::equal(x.begin(), x.begin() + axis, y.begin()) and
@@ -910,10 +908,10 @@ struct find_split_reshape
        }
        // ensure reshape happens after the axis dimension
-        auto axis         = any_cast<op::slice>(slc->get_operator()).axes[0];
+        auto axis     = any_cast<op::slice>(slc->get_operator()).axes[0];
-        auto slc_lens     = slc->get_shape().lens();
+        auto slc_lens = slc->get_shape().lens();
-        auto slc_dim_size = std::accumulate(
+        auto slc_dim_size =
-            slc_lens.begin() + axis, slc_lens.end(), 1, std::multiplies<int>());
+            std::accumulate(slc_lens.begin() + axis, slc_lens.end(), 1, std::multiplies<int>());
        // search the reshape output (standard shape) to decide which axis are
        // in its output corresponding to the slc_dim_size

--- a/src/targets/ref/gemm.cpp
+++ b/src/targets/ref/gemm.cpp
@@ -69,7 +69,7 @@ void migemm_impl(
    int n_dims = cmat.get_shape().lens().size();
    int dim_0  = n_dims - 2;
    int dim_1  = n_dims - 1;
-    auto k             = amat.get_shape().lens()[dim_1];
+    auto k     = amat.get_shape().lens()[dim_1];
    assert(amat.get_shape().lens()[dim_1] == bmat.get_shape().lens()[dim_0]);
    assert(cmat.get_shape().lens()[dim_0] == amat.get_shape().lens()[dim_0]);
@@ -92,8 +92,7 @@ void migemm_impl(tensor_view<T> cmat, tensor_view<T> amat, tensor_view<T> bmat,
 {
    auto lens = amat.get_shape().lens();
    bool batch_mul =
-        std::accumulate(
+        std::accumulate(lens.rbegin() + 2, lens.rend(), int{1}, std::multiplies<int>()) == 1;
-            lens.rbegin() + 2, lens.rend(), int{1}, std::multiplies<int>()) == 1;
    if(batch_mul)
    {
        migemm_impl(cmat, amat, bmat, alpha, beta, is_fast_gemm_type<T>{});

--- a/src/tf/parse_conv.cpp
+++ b/src/tf/parse_conv.cpp
@@ -52,7 +52,7 @@ struct parse_conv : op_parser<parse_conv>
            const std::string& pad_mode = info.attributes.at("padding").s();
            if(pad_mode.find("SAME") != std::string::npos)
            {
-                op.padding_mode                 = op::padding_mode_t::same;
+                op.padding_mode              = op::padding_mode_t::same;
                std::vector<int> weight_dims = weights->get_shape().lens();
                int weight_h                 = weight_dims[2];
                int weight_w                 = weight_dims[3];

--- a/src/tf/parse_depthwiseconv.cpp
+++ b/src/tf/parse_depthwiseconv.cpp
@@ -21,7 +21,7 @@ struct parse_depthwiseconv : op_parser<parse_depthwiseconv>
    {
        op::convolution op;
        int num_channels = args[0]->get_shape().lens()[1];
-        op.group            = num_channels;
+        op.group         = num_channels;
        if(contains(info.attributes, "strides"))
        {
@@ -57,7 +57,7 @@ struct parse_depthwiseconv : op_parser<parse_depthwiseconv>
            if(pad_mode.find("SAME") != std::string::npos)
            {
-                op.padding_mode                 = op::padding_mode_t::same;
+                op.padding_mode              = op::padding_mode_t::same;
                std::vector<int> weight_dims = weights->get_shape().lens();
                int weight_h                 = weight_dims[2];
                int weight_w                 = weight_dims[3];

--- a/src/tf/parse_expanddims.cpp
+++ b/src/tf/parse_expanddims.cpp
@@ -20,7 +20,7 @@ struct parse_expanddims : op_parser<parse_expanddims>
        std::vector<int> input_dims = args[0]->get_shape().lens();
        std::vector<int64_t> new_dims(input_dims.begin(), input_dims.end());
        int num_dims = input_dims.size();
-        int32_t dim     = args[1]->eval().at<int32_t>();
+        int32_t dim  = args[1]->eval().at<int32_t>();
        if(dim < 0)
        {

--- a/src/tf/parse_stridedslice.cpp
+++ b/src/tf/parse_stridedslice.cpp
@@ -17,9 +17,9 @@ struct parse_strideslice : op_parser<parse_strideslice>
                          tf_parser::node_info info,
                          std::vector<instruction_ref> args) const
    {
-        auto starts              = args[1]->eval().get<int32_t>().to_vector();
+        auto starts           = args[1]->eval().get<int32_t>().to_vector();
-        auto ends                = args[2]->eval().get<int32_t>().to_vector();
+        auto ends             = args[2]->eval().get<int32_t>().to_vector();
-        auto l0                  = args[0];
+        auto l0               = args[0];
        int num_axes          = l0->get_shape().lens().size();
        std::vector<int> axes = l0->get_shape().lens();