verilog/CST/port.cc - third_party/verible - Git at Google

 // Copyright 2017-2020 The Verible Authors.
 //
 // 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 "verilog/CST/port.h"

 #include <vector>

 #include "common/analysis/syntax_tree_search.h"
 #include "common/text/concrete_syntax_leaf.h"
 #include "common/text/concrete_syntax_tree.h"
 #include "common/text/symbol.h"
 #include "common/text/tree_utils.h"
 #include "common/util/logging.h"
 #include "verilog/CST/identifier.h"
 #include "verilog/CST/verilog_matchers.h"  // pragma IWYU: keep
 #include "verilog/CST/verilog_nonterminals.h"

 namespace verilog {

 using verible::Symbol;
 using verible::SyntaxTreeLeaf;

 std::vector<verible::TreeSearchMatch> FindAllPortDeclarations(
     const Symbol &root) {
   return SearchSyntaxTree(root, NodekPortDeclaration());
 }

 std::vector<verible::TreeSearchMatch> FindAllActualNamedPort(
     const Symbol &root) {
   return SearchSyntaxTree(root, NodekActualNamedPort());
 }

 std::vector<verible::TreeSearchMatch> FindAllPortReferences(
     const verible::Symbol &root) {
   return SearchSyntaxTree(root, NodekPort());
 }

 std::vector<verible::TreeSearchMatch> FindAllTaskFunctionPortDeclarations(
     const Symbol &root) {
   return SearchSyntaxTree(root, NodekPortItem());
 }

 const SyntaxTreeLeaf *GetIdentifierFromPortDeclaration(const Symbol &symbol) {
   const auto *identifier_symbol =
       verible::GetSubtreeAsSymbol(symbol, NodeEnum::kPortDeclaration, 3);
   if (!identifier_symbol) return nullptr;
   return AutoUnwrapIdentifier(*identifier_symbol);
 }

 const SyntaxTreeLeaf *GetDirectionFromPortDeclaration(const Symbol &symbol) {
   if (const auto *dir_symbol =
           GetSubtreeAsSymbol(symbol, NodeEnum::kPortDeclaration, 0)) {
     return &SymbolCastToLeaf(*dir_symbol);
   }
   return nullptr;
 }

 std::vector<verible::TreeSearchMatch> FindAllModulePortDeclarations(
     const verible::Symbol &root) {
   return SearchSyntaxTree(root, NodekModulePortDeclaration());
 }

 const verible::SyntaxTreeLeaf *GetIdentifierFromModulePortDeclaration(
     const verible::Symbol &symbol) {
   static const char *const TOO_MANY_IDS_ERROR =
       "Expected one identifier node in module port declaration, but got ";
   auto &node = SymbolCastToNode(symbol);
   if (!MatchNodeEnumOrNull(node, NodeEnum::kModulePortDeclaration)) {
     return nullptr;
   }
   auto id_unpacked_dims = FindAllIdentifierUnpackedDimensions(symbol);
   if (id_unpacked_dims.empty()) {
     auto port_ids = verible::SearchSyntaxTree(symbol, NodekPortIdentifier());
     if (port_ids.size() > 1) {
       LOG(ERROR) << TOO_MANY_IDS_ERROR << port_ids.size();
     }
     if (port_ids.empty()) return nullptr;
     return GetIdentifier(*port_ids[0].match);
   }
   if (id_unpacked_dims.size() > 1) {
     LOG(ERROR) << TOO_MANY_IDS_ERROR << id_unpacked_dims.size();
   }
   return GetSymbolIdentifierFromIdentifierUnpackedDimensions(
       *id_unpacked_dims.front().match);
 }

 const verible::SyntaxTreeLeaf *GetDirectionFromModulePortDeclaration(
     const verible::Symbol &symbol) {
   if (const auto *dir_symbol =
           GetSubtreeAsSymbol(symbol, NodeEnum::kModulePortDeclaration, 0)) {
     return &SymbolCastToLeaf(*dir_symbol);
   }
   return nullptr;
 }

 const verible::SyntaxTreeLeaf *GetIdentifierFromPortReference(
     const verible::Symbol &port_reference) {
   const auto *identifier_symbol =
       verible::GetSubtreeAsSymbol(port_reference, NodeEnum::kPortReference, 0);
   if (!identifier_symbol) return nullptr;
   return AutoUnwrapIdentifier(*identifier_symbol);
 }

 const verible::SyntaxTreeNode *GetPortReferenceFromPort(
     const verible::Symbol &port) {
   return verible::GetSubtreeAsNode(port, NodeEnum::kPort, 0,
                                    NodeEnum::kPortReference);
 }

 static const verible::SyntaxTreeNode *
 GetTypeIdDimensionsFromTaskFunctionPortItem(const Symbol &symbol) {
   return verible::GetSubtreeAsNode(
       symbol, NodeEnum::kPortItem, 1,
       NodeEnum::kDataTypeImplicitBasicIdDimensions);
 }

 const verible::SyntaxTreeNode *GetUnpackedDimensionsFromTaskFunctionPortItem(
     const verible::Symbol &port_item) {
   const auto &type_id_dimensions =
       GetTypeIdDimensionsFromTaskFunctionPortItem(port_item);
   if (!type_id_dimensions) return nullptr;
   return verible::GetSubtreeAsNode(*type_id_dimensions,
                                    NodeEnum::kDataTypeImplicitBasicIdDimensions,
                                    2, NodeEnum::kUnpackedDimensions);
 }

 const Symbol *GetTypeOfTaskFunctionPortItem(const verible::Symbol &symbol) {
   const auto &type_id_dimensions =
       GetTypeIdDimensionsFromTaskFunctionPortItem(symbol);
   if (!type_id_dimensions) return nullptr;
   return verible::GetSubtreeAsNode(*type_id_dimensions,
                                    NodeEnum::kDataTypeImplicitBasicIdDimensions,
                                    0, NodeEnum::kDataType);
 }

 const SyntaxTreeLeaf *GetIdentifierFromTaskFunctionPortItem(
     const verible::Symbol &symbol) {
   const auto *type_id_dimensions =
       GetTypeIdDimensionsFromTaskFunctionPortItem(symbol);
   if (!type_id_dimensions) return nullptr;
   if (type_id_dimensions->size() <= 1) return nullptr;
   const auto *port_item = (*type_id_dimensions)[1].get();
   return port_item ? AutoUnwrapIdentifier(*port_item) : nullptr;
 }

 const verible::SyntaxTreeLeaf *GetActualNamedPortName(
     const verible::Symbol &actual_named_port) {
   return verible::GetSubtreeAsLeaf(actual_named_port,
                                    NodeEnum::kActualNamedPort, 1);
 }

 const verible::Symbol *GetActualNamedPortParenGroup(
     const verible::Symbol &actual_named_port) {
   return verible::GetSubtreeAsSymbol(actual_named_port,
                                      NodeEnum::kActualNamedPort, 2);
 }

 }  // namespace verilog
	// Copyright 2017-2020 The Verible Authors.
	//
	// 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 "verilog/CST/port.h"

	#include <vector>

	#include "common/analysis/syntax_tree_search.h"
	#include "common/text/concrete_syntax_leaf.h"
	#include "common/text/concrete_syntax_tree.h"
	#include "common/text/symbol.h"
	#include "common/text/tree_utils.h"
	#include "common/util/logging.h"
	#include "verilog/CST/identifier.h"
	#include "verilog/CST/verilog_matchers.h" // pragma IWYU: keep
	#include "verilog/CST/verilog_nonterminals.h"

	namespace verilog {

	using verible::Symbol;
	using verible::SyntaxTreeLeaf;

	std::vector<verible::TreeSearchMatch> FindAllPortDeclarations(
	const Symbol &root) {
	return SearchSyntaxTree(root, NodekPortDeclaration());
	}

	std::vector<verible::TreeSearchMatch> FindAllActualNamedPort(
	const Symbol &root) {
	return SearchSyntaxTree(root, NodekActualNamedPort());
	}

	std::vector<verible::TreeSearchMatch> FindAllPortReferences(
	const verible::Symbol &root) {
	return SearchSyntaxTree(root, NodekPort());
	}

	std::vector<verible::TreeSearchMatch> FindAllTaskFunctionPortDeclarations(
	const Symbol &root) {
	return SearchSyntaxTree(root, NodekPortItem());
	}

	const SyntaxTreeLeaf *GetIdentifierFromPortDeclaration(const Symbol &symbol) {
	const auto *identifier_symbol =
	verible::GetSubtreeAsSymbol(symbol, NodeEnum::kPortDeclaration, 3);
	if (!identifier_symbol) return nullptr;
	return AutoUnwrapIdentifier(*identifier_symbol);
	}

	const SyntaxTreeLeaf *GetDirectionFromPortDeclaration(const Symbol &symbol) {
	if (const auto *dir_symbol =
	GetSubtreeAsSymbol(symbol, NodeEnum::kPortDeclaration, 0)) {
	return &SymbolCastToLeaf(*dir_symbol);
	}
	return nullptr;
	}

	std::vector<verible::TreeSearchMatch> FindAllModulePortDeclarations(
	const verible::Symbol &root) {
	return SearchSyntaxTree(root, NodekModulePortDeclaration());
	}

	const verible::SyntaxTreeLeaf *GetIdentifierFromModulePortDeclaration(
	const verible::Symbol &symbol) {
	static const char *const TOO_MANY_IDS_ERROR =
	"Expected one identifier node in module port declaration, but got ";
	auto &node = SymbolCastToNode(symbol);
	if (!MatchNodeEnumOrNull(node, NodeEnum::kModulePortDeclaration)) {
	return nullptr;
	}
	auto id_unpacked_dims = FindAllIdentifierUnpackedDimensions(symbol);
	if (id_unpacked_dims.empty()) {
	auto port_ids = verible::SearchSyntaxTree(symbol, NodekPortIdentifier());
	if (port_ids.size() > 1) {
	LOG(ERROR) << TOO_MANY_IDS_ERROR << port_ids.size();
	}
	if (port_ids.empty()) return nullptr;
	return GetIdentifier(*port_ids[0].match);
	}
	if (id_unpacked_dims.size() > 1) {
	LOG(ERROR) << TOO_MANY_IDS_ERROR << id_unpacked_dims.size();
	}
	return GetSymbolIdentifierFromIdentifierUnpackedDimensions(
	*id_unpacked_dims.front().match);
	}

	const verible::SyntaxTreeLeaf *GetDirectionFromModulePortDeclaration(
	const verible::Symbol &symbol) {
	if (const auto *dir_symbol =
	GetSubtreeAsSymbol(symbol, NodeEnum::kModulePortDeclaration, 0)) {
	return &SymbolCastToLeaf(*dir_symbol);
	}
	return nullptr;
	}

	const verible::SyntaxTreeLeaf *GetIdentifierFromPortReference(
	const verible::Symbol &port_reference) {
	const auto *identifier_symbol =
	verible::GetSubtreeAsSymbol(port_reference, NodeEnum::kPortReference, 0);
	if (!identifier_symbol) return nullptr;
	return AutoUnwrapIdentifier(*identifier_symbol);
	}

	const verible::SyntaxTreeNode *GetPortReferenceFromPort(
	const verible::Symbol &port) {
	return verible::GetSubtreeAsNode(port, NodeEnum::kPort, 0,
	NodeEnum::kPortReference);
	}

	static const verible::SyntaxTreeNode *
	GetTypeIdDimensionsFromTaskFunctionPortItem(const Symbol &symbol) {
	return verible::GetSubtreeAsNode(
	symbol, NodeEnum::kPortItem, 1,
	NodeEnum::kDataTypeImplicitBasicIdDimensions);
	}

	const verible::SyntaxTreeNode *GetUnpackedDimensionsFromTaskFunctionPortItem(
	const verible::Symbol &port_item) {
	const auto &type_id_dimensions =
	GetTypeIdDimensionsFromTaskFunctionPortItem(port_item);
	if (!type_id_dimensions) return nullptr;
	return verible::GetSubtreeAsNode(*type_id_dimensions,
	NodeEnum::kDataTypeImplicitBasicIdDimensions,
	2, NodeEnum::kUnpackedDimensions);
	}

	const Symbol *GetTypeOfTaskFunctionPortItem(const verible::Symbol &symbol) {
	const auto &type_id_dimensions =
	GetTypeIdDimensionsFromTaskFunctionPortItem(symbol);
	if (!type_id_dimensions) return nullptr;
	return verible::GetSubtreeAsNode(*type_id_dimensions,
	NodeEnum::kDataTypeImplicitBasicIdDimensions,
	0, NodeEnum::kDataType);
	}

	const SyntaxTreeLeaf *GetIdentifierFromTaskFunctionPortItem(
	const verible::Symbol &symbol) {
	const auto *type_id_dimensions =
	GetTypeIdDimensionsFromTaskFunctionPortItem(symbol);
	if (!type_id_dimensions) return nullptr;
	if (type_id_dimensions->size() <= 1) return nullptr;
	const auto port_item = (type_id_dimensions)[1].get();
	return port_item ? AutoUnwrapIdentifier(*port_item) : nullptr;
	}

	const verible::SyntaxTreeLeaf *GetActualNamedPortName(
	const verible::Symbol &actual_named_port) {
	return verible::GetSubtreeAsLeaf(actual_named_port,
	NodeEnum::kActualNamedPort, 1);
	}

	const verible::Symbol *GetActualNamedPortParenGroup(
	const verible::Symbol &actual_named_port) {
	return verible::GetSubtreeAsSymbol(actual_named_port,
	NodeEnum::kActualNamedPort, 2);
	}

	} // namespace verilog