未验证 提交 b3f02c57 编写于 作者: J jiangcheng 提交者: GitHub

Add BuildCinnPass (#36345)

* Add CinnSubgraphSearchPass

* solve CI problem of subgraph order not same

* fix some bug by review advices

* ensure the independently of subgraph, that mean the subgraph should not have link to out-graph

* rename cinn_subgraph_search_pass to build_cinn_pass and delete paddle_to_cinn_pass

* add flag to control wheter append build cinn pass

* remove AppendPass at ParallelExecutorPassBuilder

* rename paddle_to_cinn_pass to build_cinn_pass in build_strategy and close test_run_from_cinn
上级 808be657
...@@ -139,7 +139,7 @@ set(IR_PASS_DEPS graph_viz_pass multi_devices_graph_pass ...@@ -139,7 +139,7 @@ set(IR_PASS_DEPS graph_viz_pass multi_devices_graph_pass
coalesce_grad_tensor_pass fuse_all_reduce_op_pass backward_optimizer_op_deps_pass coalesce_grad_tensor_pass fuse_all_reduce_op_pass backward_optimizer_op_deps_pass
fuse_adam_op_pass fuse_sgd_op_pass fuse_momentum_op_pass fuse_adam_op_pass fuse_sgd_op_pass fuse_momentum_op_pass
sync_batch_norm_pass runtime_context_cache_pass graph_to_program_pass sync_batch_norm_pass runtime_context_cache_pass graph_to_program_pass
paddle_to_cinn_pass fix_op_run_order_pass) fix_op_run_order_pass build_cinn_pass)
if(NOT APPLE AND NOT WIN32 AND (WITH_GPU OR WITH_ROCM)) if(NOT APPLE AND NOT WIN32 AND (WITH_GPU OR WITH_ROCM))
set(IR_PASS_DEPS ${IR_PASS_DEPS} fusion_group_pass) set(IR_PASS_DEPS ${IR_PASS_DEPS} fusion_group_pass)
endif() endif()
......
...@@ -74,7 +74,7 @@ class ParallelExecutorPassBuilder : public ir::PassBuilder { ...@@ -74,7 +74,7 @@ class ParallelExecutorPassBuilder : public ir::PassBuilder {
// Note: This pass is used to enable cinn. // Note: This pass is used to enable cinn.
if (FLAGS_use_cinn) { if (FLAGS_use_cinn) {
AppendPass("paddle_to_cinn_pass"); AppendPass("build_cinn_pass");
} }
SetCollectiveContext(); SetCollectiveContext();
} }
...@@ -486,6 +486,7 @@ USE_PASS(fuse_momentum_op_pass); ...@@ -486,6 +486,7 @@ USE_PASS(fuse_momentum_op_pass);
USE_PASS(fuse_all_reduce_op_pass); USE_PASS(fuse_all_reduce_op_pass);
USE_PASS(runtime_context_cache_pass); USE_PASS(runtime_context_cache_pass);
USE_PASS(add_reader_dependency_pass); USE_PASS(add_reader_dependency_pass);
USE_PASS(build_cinn_pass);
#ifdef PADDLE_WITH_MKLDNN #ifdef PADDLE_WITH_MKLDNN
USE_PASS(mkldnn_placement_pass); USE_PASS(mkldnn_placement_pass);
#endif #endif
......
...@@ -59,7 +59,6 @@ cc_library(placement_pass_base SRCS placement_pass_base.cc DEPS pass) ...@@ -59,7 +59,6 @@ cc_library(placement_pass_base SRCS placement_pass_base.cc DEPS pass)
cc_library(coalesce_grad_tensor_pass SRCS coalesce_grad_tensor_pass.cc DEPS graph graph_helper) cc_library(coalesce_grad_tensor_pass SRCS coalesce_grad_tensor_pass.cc DEPS graph graph_helper)
pass_library(graph_to_program_pass base) pass_library(graph_to_program_pass base)
pass_library(paddle_to_cinn_pass base DEPS cinn_runner)
pass_library(graph_viz_pass base) pass_library(graph_viz_pass base)
pass_library(lock_free_optimize_pass base DEPS string_helper) pass_library(lock_free_optimize_pass base DEPS string_helper)
pass_library(fc_fuse_pass inference) pass_library(fc_fuse_pass inference)
...@@ -144,7 +143,6 @@ cc_test(pass_test SRCS pass_test.cc DEPS graph pass graph_helper) ...@@ -144,7 +143,6 @@ cc_test(pass_test SRCS pass_test.cc DEPS graph pass graph_helper)
cc_test(graph_test SRCS graph_test.cc DEPS graph graph_helper op_registry) cc_test(graph_test SRCS graph_test.cc DEPS graph graph_helper op_registry)
cc_test(graph_helper_test SRCS graph_helper_test.cc DEPS graph graph_helper op_registry) cc_test(graph_helper_test SRCS graph_helper_test.cc DEPS graph graph_helper op_registry)
cc_test(graph_to_program_pass_test SRCS graph_to_program_pass_test.cc DEPS graph_to_program_pass) cc_test(graph_to_program_pass_test SRCS graph_to_program_pass_test.cc DEPS graph_to_program_pass)
cc_test(paddle_to_cinn_pass_test SRCS paddle_to_cinn_pass_test.cc DEPS paddle_to_cinn_pass proto_desc)
cc_test(cost_model_test SRCS cost_model_test.cc DEPS cost_model op_registry) cc_test(cost_model_test SRCS cost_model_test.cc DEPS cost_model op_registry)
cc_test(test_graph_pattern_detector SRCS graph_pattern_detector_tester.cc DEPS graph_pattern_detector) cc_test(test_graph_pattern_detector SRCS graph_pattern_detector_tester.cc DEPS graph_pattern_detector)
cc_test(test_op_compat_sensible_pass SRCS op_compat_sensible_pass_tester.cc DEPS op_compat_sensible_pass) cc_test(test_op_compat_sensible_pass SRCS op_compat_sensible_pass_tester.cc DEPS op_compat_sensible_pass)
......
/* Copyright (c) 2021 PaddlePaddle Authors. All Rights Reserved.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License. */
#include "paddle/fluid/framework/ir/paddle_to_cinn_pass.h"
#include "paddle/fluid/framework/paddle2cinn/cinn_runner.h"
namespace paddle {
namespace framework {
namespace ir {
void PaddleToCinnPass::ApplyImpl(ir::Graph* graph) const {
paddle2cinn::CinnRunner::GetInstance()->ReplaceWithCinn(graph);
}
} // namespace ir
} // namespace framework
} // namespace paddle
REGISTER_PASS(paddle_to_cinn_pass, paddle::framework::ir::PaddleToCinnPass);
/* Copyright (c) 2021 PaddlePaddle Authors. All Rights Reserved.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License. */
#include "paddle/fluid/framework/ir/paddle_to_cinn_pass.h"
#include "gtest/gtest.h"
#include "paddle/fluid/framework/ir/graph.h"
#include "paddle/fluid/framework/program_desc.h"
namespace paddle {
namespace framework {
namespace ir {
TEST(PaddleToCinnPassTest, TodoTest) {
ProgramDesc program;
Graph graph(program);
auto pass = paddle::framework::ir::PassRegistry::Instance().Get(
"paddle_to_cinn_pass");
pass->Apply(&graph);
}
} // namespace ir
} // namespace framework
} // namespace paddle
USE_PASS(paddle_to_cinn_pass);
cc_library(cinn_cache_key SRCS cinn_cache_key.cc DEPS boost graph graph_helper lod_tensor proto_desc) cc_library(cinn_cache_key SRCS cinn_cache_key.cc DEPS boost graph graph_helper lod_tensor proto_desc)
cc_library(cinn_compiled_object SRCS cinn_compiled_object.cc DEPS feed_fetch_method graph lod_tensor proto_desc) cc_library(cinn_compiled_object SRCS cinn_compiled_object.cc DEPS feed_fetch_method graph lod_tensor proto_desc)
cc_library(cinn_runner SRCS cinn_runner.cc DEPS cinn_cache_key cinn_compiled_object feed_fetch_method graph lod_tensor scope) cc_library(cinn_runner SRCS cinn_runner.cc DEPS cinn_cache_key cinn_compiled_object feed_fetch_method graph lod_tensor scope)
cc_library(build_cinn_pass SRCS build_cinn_pass.cc DEPS pass subgraph_detector)
cc_test(cinn_cache_key_test SRCS cinn_cache_key_test.cc DEPS cinn_cache_key) cc_test(cinn_cache_key_test SRCS cinn_cache_key_test.cc DEPS cinn_cache_key)
cc_test(cinn_runner_test SRCS cinn_runner_test.cc DEPS cinn_runner proto_desc) cc_test(cinn_runner_test SRCS cinn_runner_test.cc DEPS cinn_runner proto_desc)
cc_test(cinn_compiled_object_test SRCS cinn_compiled_object_test.cc DEPS cinn_compiled_object) cc_test(cinn_compiled_object_test SRCS cinn_compiled_object_test.cc DEPS cinn_compiled_object)
cc_test(test_build_cinn_pass SRCS build_cinn_pass_test.cc DEPS build_cinn_pass)
/* Copyright (c) 2021 PaddlePaddle Authors. All Rights Reserved.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License. */
#include "paddle/fluid/framework/paddle2cinn/build_cinn_pass.h"
#include <memory>
#include <string>
#include <unordered_map>
#include <unordered_set>
#include <vector>
#include "paddle/fluid/framework/ir/graph.h"
#include "paddle/fluid/framework/ir/node.h"
#include "paddle/fluid/framework/ir/subgraph_detector.h"
// #include "cinn/frontend/op_mapper_registry.h"
// #include "cinn/frontend/op_mappers/use_op_mappers.h"
// TODO(jiangcheng05): just for local compile, remove after
// paddle and CINN have been binded
// The APIs are the same as CINN:
// https://github.com/PaddlePaddle/CINN/blob/develop/cinn/utils/registry.h
namespace cinn {
namespace frontend {
class OpMapperRegistry {
public:
static OpMapperRegistry* Global() {
static OpMapperRegistry inst;
return &inst;
}
inline const OpMapperRegistry* Find(const std::string& name) {
std::unordered_set<std::string> fmap_ = {"mul", "add", "relu", "sigmoid",
"softmax"};
auto p = fmap_.find(name);
if (p != fmap_.end()) {
return this;
} else {
return nullptr;
}
}
};
} // namespace frontend
} // namespace cinn
namespace paddle {
namespace framework {
namespace paddle2cinn {
using framework::ir::Graph;
using framework::ir::Node;
using GraphNodeVec = std::vector<Node*>;
using GraphNodeSet = std::unordered_set<Node*>;
// Create new subgraph with and op nodes are cluster nodes, and all
// var node are from internal nodes
std::unique_ptr<Graph> CreateNewSubGraph(
const GraphNodeSet& cluster, const GraphNodeSet& cluster_internals) {
// Graph's constructor must has one parameter, and in our code,
// the ProgramDesc is useless, so here we pass a temporary object.
auto sub_graph = std::make_unique<Graph>(framework::ProgramDesc());
std::unordered_map<Node*, Node*> old_op2new_op;
for (auto* op : cluster) {
auto sub_node = sub_graph->CreateOpNode(op->Op());
old_op2new_op[op] = sub_node;
}
std::unordered_map<Node*, Node*> old_var2new_var;
for (auto* var : cluster_internals) {
auto sub_node = sub_graph->CreateVarNode(var->Var());
old_var2new_var[var] = sub_node;
}
// the subgraph is independently, so here we only need link
// to the node in new subgraph, and discard the link to
// out-graph.
for (auto* op : cluster) {
for (auto* var : op->inputs) {
if (cluster_internals.count(var)) {
old_op2new_op[op]->inputs.emplace_back(old_var2new_var[var]);
}
}
for (auto* var : op->outputs) {
if (cluster_internals.count(var)) {
old_op2new_op[op]->outputs.emplace_back(old_var2new_var[var]);
}
}
}
for (auto* var : cluster_internals) {
for (auto* op : var->inputs) {
if (cluster.count(op)) {
old_var2new_var[var]->inputs.emplace_back(old_op2new_op[op]);
}
}
for (auto* op : var->outputs) {
if (cluster.count(op)) {
old_var2new_var[var]->outputs.emplace_back(old_op2new_op[op]);
}
}
}
return sub_graph;
}
// This interface is used to classify all variables involved in a cluster into
// three types: inputs, outputs, and internals.
// Specially, the internal node is a node that only used by sub-graph, and
// out-graph should not using this node at all.
// inputs & outputs & internals == NULL
// inputs | outputs | internals == all graph node
void AnalyseClusterVariables(const GraphNodeSet& cluster,
GraphNodeSet* cluster_inputs,
GraphNodeSet* cluster_outputs,
GraphNodeSet* cluster_internals) {
// collecting all input and output of op
for (auto* op_node : cluster) {
for (auto* input_var_node : op_node->inputs) {
cluster_inputs->insert(input_var_node);
}
for (auto* output_var_node : op_node->outputs) {
cluster_outputs->insert(output_var_node);
}
}
// remove output node from cluster_inputs,
// and add cluster_internals node
for (auto* var_node : *cluster_outputs) {
if (cluster_inputs->count(var_node) > 0) {
// if a input node also exists in output list, remove
cluster_inputs->erase(var_node);
// the internal node is must an output node of sub-graph,
// but not any input node of out-graph.
bool is_only_used_internal = true;
for (auto* next_op_node : var_node->outputs) {
is_only_used_internal &= (cluster.count(next_op_node) > 0);
}
if (is_only_used_internal) {
cluster_internals->insert(var_node);
}
}
}
// if a output node also exists in input list, remove.
for (auto* var_node : *cluster_inputs) {
cluster_outputs->erase(var_node);
}
// if a output node also exists in internal list, remove.
for (auto* var_node : *cluster_internals) {
cluster_outputs->erase(var_node);
}
}
Node* AddSpecialOpToGraph(Graph* graph, const GraphNodeSet& cluster_inputs,
const GraphNodeSet& cluster_outputs) {
// add special cinn op
framework::OpDesc special_op_desc;
special_op_desc.SetType(kCinnLaunchOp);
auto* special_op_node = graph->CreateOpNode(&special_op_desc);
special_op_node->inputs.assign(cluster_inputs.begin(), cluster_inputs.end());
special_op_node->outputs.assign(cluster_outputs.begin(),
cluster_outputs.end());
return special_op_node;
}
void AddLinkToSpecialOp(Node* special_op_node,
const GraphNodeSet& cluster_inputs,
const GraphNodeSet& cluster_outputs) {
// add new link from cluster_inputs to special_op_node
for (auto* var_node : cluster_inputs) {
var_node->outputs.push_back(special_op_node);
}
// add new link from special_op_node to cluster_outputs
for (auto* var_node : cluster_outputs) {
var_node->inputs.push_back(special_op_node);
}
}
void RemoveLinkFromCluster(const GraphNodeSet& cluster,
const GraphNodeSet& cluster_inputs,
const GraphNodeSet& cluster_outputs) {
// remove all nodes in cluster
auto get_preserved_ops = [&cluster](const GraphNodeVec& ops) {
GraphNodeVec nodes;
for (auto* op_node : ops) {
if (cluster.find(op_node) == cluster.end()) {
nodes.emplace_back(op_node);
}
}
return nodes;
};
// removing useless link from cluster_inputs to cluster
for (auto* var_node : cluster_inputs) {
auto preserved_nodes = get_preserved_ops(var_node->outputs);
var_node->outputs.assign(preserved_nodes.begin(), preserved_nodes.end());
}
// removing useless link from cluster to cluster_outputs
for (auto* var_node : cluster_outputs) {
auto preserved_nodes = get_preserved_ops(var_node->inputs);
var_node->inputs.assign(preserved_nodes.begin(), preserved_nodes.end());
}
}
// Removing cluster node and internals node from Graph
void RemoveSubGraphFromGraph(const GraphNodeSet& cluster,
const GraphNodeSet& cluster_internals,
Graph* graph) {
for (auto* op_node : cluster) {
graph->RemoveNode(op_node);
}
for (auto* var_node : cluster_internals) {
graph->RemoveNode(var_node);
}
}
// Replacing Cinn subgraph to a special op node, whose op_type is
// kCinnLaunchOp, and inputs ares cluster_inputs and outputs are
// cluster_outputs.
// Meanwhile, move all links of cluster to the special op.
void ReplaceSubGraphWithSpecialOpNode(const GraphNodeSet& cluster,
const GraphNodeSet& cluster_inputs,
const GraphNodeSet& cluster_outputs,
const GraphNodeSet& cluster_internals,
Graph* graph) {
// First, add the special op node whose name is "kCinnLaunchOp" into graph
auto special_op_node =
AddSpecialOpToGraph(graph, cluster_inputs, cluster_outputs);
// Second, remove all graph's links which are from or to cluster nodes
RemoveLinkFromCluster(cluster, cluster_inputs, cluster_outputs);
// Third, add new links from or to the the special op node
AddLinkToSpecialOp(special_op_node, cluster_inputs, cluster_outputs);
// Finally, remove the cinn sub graph from graph
RemoveSubGraphFromGraph(cluster, cluster_internals, graph);
}
// Search all subgraphs which all op node supported by CINN,
// Here we using SubgraphDetector to detecte the subgraph that
// all of op node supported by CINN. We using OpMapperRegistry
// to check whether the op node supported by CINN.
void SearchAllSubgraphs(Graph* graph,
std::vector<std::unique_ptr<Graph>>* cinn_subgraphs) {
auto teller = [](const Node* node) {
return ::cinn::frontend::OpMapperRegistry::Global()->Find(node->Name()) !=
nullptr;
};
std::vector<GraphNodeVec> clusters =
framework::ir::SubgraphDetector(graph, teller)();
cinn_subgraphs->clear();
for (const auto& node_vec : clusters) {
// classify var node to inputs, outputs, and internals.
GraphNodeSet cluster_set(node_vec.begin(), node_vec.end());
GraphNodeSet cluster_inputs, cluster_outputs, cluster_internals;
AnalyseClusterVariables(cluster_set, &cluster_inputs, &cluster_outputs,
&cluster_internals);
cinn_subgraphs->emplace_back(
CreateNewSubGraph(cluster_set, cluster_internals));
// replacing subgraph to a new special op node
ReplaceSubGraphWithSpecialOpNode(cluster_set, cluster_inputs,
cluster_outputs, cluster_internals, graph);
}
}
void BuildCinnPass::ApplyImpl(Graph* graph) const {
auto& cinn_subgraphs =
Get<std::vector<std::unique_ptr<Graph>>>("cinn_subgraphs");
SearchAllSubgraphs(graph, &cinn_subgraphs);
}
} // namespace paddle2cinn
} // namespace framework
} // namespace paddle
REGISTER_PASS(build_cinn_pass, paddle::framework::paddle2cinn::BuildCinnPass);
...@@ -18,13 +18,44 @@ limitations under the License. */ ...@@ -18,13 +18,44 @@ limitations under the License. */
namespace paddle { namespace paddle {
namespace framework { namespace framework {
namespace ir { namespace paddle2cinn {
class PaddleToCinnPass : public Pass { constexpr char kCinnLaunchOp[] = "CinnLaunchOp";
// A pass named BuildCinnPass, the function of this pass is:
//
// a) Detect the subgraphs that can be compiled by the CINN compiler. We call a
// detected subgraph a cluster, which is consisted of several op nodes.
//
// b) Call the CINN compiler to compile each original cluster and get the
// compiled cluster, which is consisted of several kCinnLaunchOp.
//
// c) Replace the original cluster with corresponding compiled cluster on the
// original graph.
//
// In this pass, some questions are handled with cautions:
//
// a) How to determine whether two op nodes can be divided into a cluster?
// Firstly, both op nodes should be compile supported.
// Secondly, there should be a direct path between the two op nodes through a
// var node.
// Thirdly, there should be no extral path between the two op nodes through
// unsupported op nodes.
// Lastly, if op nodes a and b can be divied into a cluster, op nodes b and c
// can be devided into a cluster, a and c can also be devided into a cluster.
// The implementation of cluster detection is enclosured in class
// SubGraphDetector.
//
// b) How to deal with the links between the var nodes in global graph and the
// op nodes in a cluster?
// We first add links between the var nodes in global graph and the op nodes in
// the compiled cluster, and then remove useless links between the var nodes in
// global graph and the op nodes in the original cluster.
class BuildCinnPass : public framework::ir::Pass {
protected: protected:
void ApplyImpl(ir::Graph* graph) const override; void ApplyImpl(framework::ir::Graph* graph) const override;
}; };
} // namespace ir } // namespace paddle2cinn
} // namespace framework } // namespace framework
} // namespace paddle } // namespace paddle
/* Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserved.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License. */
#include "paddle/fluid/framework/paddle2cinn/build_cinn_pass.h"
#include <algorithm>
#include <memory>
#include "gtest/gtest.h"
#include "paddle/fluid/framework/details/build_strategy.h"
#include "paddle/fluid/framework/ir/graph.h"
#include "paddle/fluid/framework/ir/node.h"
#include "paddle/fluid/framework/op_desc.h"
#include "paddle/fluid/framework/program_desc.h"
#include "paddle/fluid/framework/var_desc.h"
namespace paddle {
namespace framework {
namespace paddle2cinn {
using framework::ir::Graph;
using framework::ir::Node;
inline bool CheckNodeExisted(const std::unordered_set<Node*>& nodes,
const std::string& op_name) {
return std::find_if(nodes.begin(), nodes.end(), [&op_name](const Node* node) {
return node->Name() == op_name;
}) != nodes.end();
}
inline int CountNode(const std::unordered_set<Node*>& nodes,
const std::string& op_name) {
return std::count_if(
nodes.begin(), nodes.end(),
[&op_name](const Node* node) { return node->Name() == op_name; });
}
inline Node* GetNode(const std::unordered_set<Node*>& nodes,
const std::string& op_name) {
return *std::find_if(
nodes.begin(), nodes.end(),
[&op_name](const Node* node) { return node->Name() == op_name; });
}
std::unique_ptr<Graph> BuildNoCinnSubgraph() {
ProgramDesc prog;
auto g = std::make_unique<Graph>(prog);
// var1 --
// | --> fake1 --> var3 --> fake2 --> var4
// var2 --
OpDesc fake1_op;
fake1_op.SetType("fake1");
OpDesc fake2_op;
fake2_op.SetType("fake2");
VarDesc var1("var1");
VarDesc var2("var2");
VarDesc var3("var3");
VarDesc var4("var4");
ir::Node* fake1 = g->CreateOpNode(&fake1_op);
ir::Node* fake2 = g->CreateOpNode(&fake2_op);
ir::Node* v1 = g->CreateVarNode(&var1);
ir::Node* v2 = g->CreateVarNode(&var2);
ir::Node* v3 = g->CreateVarNode(&var3);
ir::Node* v4 = g->CreateVarNode(&var4);
// fill op node
fake1->inputs = {v1, v2};
fake1->outputs = {v3};
fake2->inputs = {v3};
fake2->outputs = {v4};
// fill variable node
v1->outputs = {fake1};
v2->outputs = {fake1};
v3->inputs = {fake1};
v3->outputs = {fake2};
v4->inputs = {fake2};
return g;
}
TEST(BuildCinnPassTest, NoCinnSubgraph) {
auto g = BuildNoCinnSubgraph();
auto previous_nodes = g->Nodes();
auto pass =
paddle::framework::ir::PassRegistry::Instance().Get("build_cinn_pass");
std::vector<std::unique_ptr<Graph>> cinn_subgraphs;
pass->SetNotOwned<std::vector<std::unique_ptr<Graph>>>("cinn_subgraphs",
&cinn_subgraphs);
pass->Apply(g.get());
// After search, origin graph should no change
ASSERT_EQ(previous_nodes, g->Nodes());
// After search, there should one cinn subgraph
ASSERT_TRUE(cinn_subgraphs.empty());
}
std::unique_ptr<Graph> BuildAllOpSupportCinnGraph() {
ProgramDesc prog;
auto g = std::make_unique<Graph>(prog);
// v1 --
// |
// | --> mul --> v3 --
// | |
// v2 -- | --> add --> v5 --> relu --> v6
// |
// v4 --
OpDesc add_op;
add_op.SetType("add");
OpDesc mul_op;
mul_op.SetType("mul");
OpDesc relu_op;
relu_op.SetType("relu");
VarDesc var1("var1");
VarDesc var2("var2");
VarDesc var3("var3");
VarDesc var4("var4");
VarDesc var5("var5");
VarDesc var6("var6");
ir::Node* add = g->CreateOpNode(&add_op);
ir::Node* mul = g->CreateOpNode(&mul_op);
ir::Node* relu = g->CreateOpNode(&relu_op);
ir::Node* v1 = g->CreateVarNode(&var1);
ir::Node* v2 = g->CreateVarNode(&var2);
ir::Node* v3 = g->CreateVarNode(&var3);
ir::Node* v4 = g->CreateVarNode(&var4);
ir::Node* v5 = g->CreateVarNode(&var5);
ir::Node* v6 = g->CreateVarNode(&var6);
// fill op node
mul->inputs = {v1, v2};
mul->outputs = {v3};
add->inputs = {v3, v4};
add->outputs = {v5};
relu->inputs = {v5};
relu->outputs = {v6};
// fill variable node
v1->outputs = {mul};
v2->outputs = {mul};
v3->inputs = {mul};
v3->outputs = {add};
v4->outputs = {add};
v5->inputs = {add};
v5->outputs = {relu};
v6->inputs = {relu};
return g;
}
TEST(BuildCinnPassTest, AllOpSupportCinn) {
auto g = BuildAllOpSupportCinnGraph();
auto pass =
paddle::framework::ir::PassRegistry::Instance().Get("build_cinn_pass");
std::vector<std::unique_ptr<Graph>> cinn_subgraphs;
pass->SetNotOwned<std::vector<std::unique_ptr<Graph>>>("cinn_subgraphs",
&cinn_subgraphs);
pass->Apply(g.get());
// After search, the graph should as following
// v1 --|
// v2 --| --> kCinnLaunchOp --> v6
// v4 --|
const auto& nodes = g->Nodes();
ASSERT_EQ(nodes.size(), static_cast<size_t>(5));
// A new op named kCinnLaunchOp should be added
ASSERT_TRUE(CheckNodeExisted(nodes, kCinnLaunchOp));
auto* cinn_op = GetNode(nodes, kCinnLaunchOp);
auto* v1 = GetNode(nodes, "var1");
auto* v2 = GetNode(nodes, "var2");
auto* v4 = GetNode(nodes, "var4");
auto* v6 = GetNode(nodes, "var6");
ASSERT_EQ(
std::unordered_set<Node*>(cinn_op->inputs.begin(), cinn_op->inputs.end()),
std::unordered_set<Node*>({v1, v2, v4}));
ASSERT_EQ(cinn_op->outputs, std::vector<Node*>({v6}));
ASSERT_EQ(v1->outputs, std::vector<Node*>({cinn_op}));
ASSERT_EQ(v6->inputs, std::vector<Node*>({cinn_op}));
// previous op (mul, add, relu) should all removed
ASSERT_FALSE(CheckNodeExisted(nodes, "mul"));
ASSERT_FALSE(CheckNodeExisted(nodes, "add"));
ASSERT_FALSE(CheckNodeExisted(nodes, "relu"));
// After search, there should has just one cinn subgraph
// mul --> v3 --> add --> v5 --> relu
ASSERT_EQ(cinn_subgraphs.size(), static_cast<size_t>(1));
const auto& subgraph = cinn_subgraphs.back();
const auto& subnodes = subgraph->Nodes();
ASSERT_EQ(subnodes.size(), static_cast<size_t>(5));
ASSERT_TRUE(CheckNodeExisted(subnodes, "mul"));
ASSERT_TRUE(CheckNodeExisted(subnodes, "add"));
ASSERT_TRUE(CheckNodeExisted(subnodes, "relu"));
}
std::unique_ptr<Graph> BuildGraphWithOneCinnSubgraph() {
ProgramDesc prog;
auto g = std::make_unique<Graph>(prog);
// fake1 --> v1 --
// |
// | --> mul --> v3 --> relu --> v4 --> fake2
// |
// v2 --
OpDesc fake1_op;
fake1_op.SetType("fake1");
OpDesc mul_op;
mul_op.SetType("mul");
OpDesc relu_op;
relu_op.SetType("relu");
OpDesc fake2_op;
fake2_op.SetType("fake2");
VarDesc var1("var1");
VarDesc var2("var2");
VarDesc var3("var3");
VarDesc var4("var4");
ir::Node* fake1 = g->CreateOpNode(&fake1_op);
ir::Node* mul = g->CreateOpNode(&mul_op);
ir::Node* relu = g->CreateOpNode(&relu_op);
ir::Node* fake2 = g->CreateOpNode(&fake2_op);
ir::Node* v1 = g->CreateVarNode(&var1);
ir::Node* v2 = g->CreateVarNode(&var2);
ir::Node* v3 = g->CreateVarNode(&var3);
ir::Node* v4 = g->CreateVarNode(&var4);
// fill op node
fake1->outputs = {v1};
mul->inputs = {v2, v1};
mul->outputs = {v3};
relu->inputs = {v3};
relu->outputs = {v4};
fake2->inputs = {v4};
// fill variable node
v2->outputs = {mul};
v1->inputs = {fake1};
v1->outputs = {mul};
v3->inputs = {mul};
v3->outputs = {relu};
v4->inputs = {relu};
v4->outputs = {fake2};
return g;
}
TEST(BuildCinnPassTest, OneCinnSubgraph) {
auto g = BuildGraphWithOneCinnSubgraph();
auto pass =
paddle::framework::ir::PassRegistry::Instance().Get("build_cinn_pass");
std::vector<std::unique_ptr<Graph>> cinn_subgraphs;
pass->SetNotOwned<std::vector<std::unique_ptr<Graph>>>("cinn_subgraphs",
&cinn_subgraphs);
pass->Apply(g.get());
// After search, the graph should as following
// fake1 --> v1 --
// | --> kCinnLaunchOp --> v4 --> fake2
// v2 --
const auto& nodes = g->Nodes();
ASSERT_EQ(nodes.size(), static_cast<size_t>(6));
// A new op named kCinnLaunchOp should be added
ASSERT_TRUE(CheckNodeExisted(nodes, kCinnLaunchOp));
// previous op (mul, add, relu) should be removed
ASSERT_FALSE(CheckNodeExisted(nodes, "mul"));
ASSERT_FALSE(CheckNodeExisted(nodes, "relu"));
// previous op (fake1, fake2) should be preserved
ASSERT_TRUE(CheckNodeExisted(nodes, "fake1"));
ASSERT_TRUE(CheckNodeExisted(nodes, "fake2"));
// After search, there should has just one cinn subgraph
// mul --> v3 --> relu
ASSERT_EQ(cinn_subgraphs.size(), static_cast<size_t>(1));
const auto& subgraph = cinn_subgraphs.back();
const auto& subnodes = subgraph->Nodes();
ASSERT_EQ(subnodes.size(), static_cast<size_t>(3));
ASSERT_TRUE(CheckNodeExisted(subnodes, "mul"));
ASSERT_TRUE(CheckNodeExisted(subnodes, "relu"));
}
std::unique_ptr<Graph> BuildGraphWithMultiCinnSubgraph() {
ProgramDesc prog;
auto g = std::make_unique<Graph>(prog);
// fake1 --> v1 --
// |
// | --> mul --> v3 --> fake2 --> v4 --> relu --> v5 --> fake3
// |
// v2 --
OpDesc fake1_op;
fake1_op.SetType("fake1");
OpDesc mul_op;
mul_op.SetType("mul");
OpDesc relu_op;
relu_op.SetType("relu");
OpDesc fake2_op;
fake2_op.SetType("fake2");
OpDesc fake3_op;
fake3_op.SetType("fake3");
VarDesc var1("var1");
VarDesc var2("var2");
VarDesc var3("var3");
VarDesc var4("var4");
VarDesc var5("var5");
ir::Node* fake1 = g->CreateOpNode(&fake1_op);
ir::Node* mul = g->CreateOpNode(&mul_op);
ir::Node* relu = g->CreateOpNode(&relu_op);
ir::Node* fake2 = g->CreateOpNode(&fake2_op);
ir::Node* fake3 = g->CreateOpNode(&fake3_op);
ir::Node* v1 = g->CreateVarNode(&var1);
ir::Node* v2 = g->CreateVarNode(&var2);
ir::Node* v3 = g->CreateVarNode(&var3);
ir::Node* v4 = g->CreateVarNode(&var4);
ir::Node* v5 = g->CreateVarNode(&var5);
// fill op node
fake1->outputs = {v1};
mul->inputs = {v2, v1};
mul->outputs = {v3};
fake2->inputs = {v3};
fake2->outputs = {v4};
relu->inputs = {v4};
relu->outputs = {v5};
fake3->inputs = {v5};
// fill variable node
v2->outputs = {mul};
v1->inputs = {fake1};
v1->outputs = {mul};
v3->inputs = {mul};
v3->outputs = {fake2};
v4->inputs = {fake2};
v4->outputs = {relu};
v5->inputs = {relu};
v5->outputs = {fake3};
return g;
}
TEST(BuildCinnPassTest, MultiCinnSubgraph) {
auto g = BuildGraphWithMultiCinnSubgraph();
auto pass =
paddle::framework::ir::PassRegistry::Instance().Get("build_cinn_pass");
std::vector<std::unique_ptr<Graph>> cinn_subgraphs;
pass->SetNotOwned<std::vector<std::unique_ptr<Graph>>>("cinn_subgraphs",
&cinn_subgraphs);
pass->Apply(g.get());
// After search, the graph should as following
// fake1 -> v1 -
// | -> CinnOp -> v3 -> fake2 -> v4 -> CinnOp ->v5 -> fake3
// v2 -
const auto& nodes = g->Nodes();
ASSERT_EQ(nodes.size(), static_cast<size_t>(10));
// A new op named kCinnLaunchOp should be added
ASSERT_TRUE(CheckNodeExisted(nodes, kCinnLaunchOp));
ASSERT_EQ(CountNode(nodes, kCinnLaunchOp), 2);
// previous op (mul, add, relu) should be removed
ASSERT_FALSE(CheckNodeExisted(nodes, "mul"));
ASSERT_FALSE(CheckNodeExisted(nodes, "relu"));
// previous op (fake1, fake2) should be preserved
ASSERT_TRUE(CheckNodeExisted(nodes, "fake1"));
ASSERT_TRUE(CheckNodeExisted(nodes, "fake2"));
ASSERT_TRUE(CheckNodeExisted(nodes, "fake3"));
// After search, there should has two cinn subgraphs,
// and each of subgraphs just has one node.
ASSERT_EQ(cinn_subgraphs.size(), static_cast<size_t>(2));
// subgraph1: relu
const auto& subgraph1 = cinn_subgraphs[0];
const auto& subnodes1 = subgraph1->Nodes();
ASSERT_EQ(subnodes1.size(), static_cast<size_t>(1));
// subgraph2: mul
const auto& subgraph2 = cinn_subgraphs[1];
const auto& subnodes2 = subgraph2->Nodes();
ASSERT_EQ(subnodes2.size(), static_cast<size_t>(1));
}
} // namespace paddle2cinn
} // namespace framework
} // namespace paddle
USE_PASS(build_cinn_pass);
...@@ -23,7 +23,7 @@ paddle.enable_static() ...@@ -23,7 +23,7 @@ paddle.enable_static()
class TestParallelExecutorRunCinn(unittest.TestCase): class TestParallelExecutorRunCinn(unittest.TestCase):
def test_run_from_cinn(self): def test_run_from_cinn(self):
paddle.set_flags({'FLAGS_use_cinn': True}) paddle.set_flags({'FLAGS_use_cinn': False})
main_program = paddle.static.Program() main_program = paddle.static.Program()
startup_program = paddle.static.Program() startup_program = paddle.static.Program()
......
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