verilator/src/V3AstUserAllocator.h

// -*- mode: C++; c-file-style: "cc-mode" -*-
//*************************************************************************
// DESCRIPTION: Verilator: Utility to hang advanced data structures of
// AstNode::user*p() pointers with automatic memory management.
//
// Code available from: https://verilator.org
//
//*************************************************************************
//
// Copyright 2003-2021 by Wilson Snyder. This program is free software; you
// can redistribute it and/or modify it under the terms of either the GNU
// Lesser General Public License Version 3 or the Perl Artistic License
// Version 2.0.
// SPDX-License-Identifier: LGPL-3.0-only OR Artistic-2.0
//
//*************************************************************************

#ifndef VERILATOR_V3ASTUSERALLOCATOR_H_
#define VERILATOR_V3ASTUSERALLOCATOR_H_

#include "config_build.h"
#include "verilatedos.h"

#include "V3Ast.h"

#include <type_traits>
#include <vector>

template <class T_Node, class T_Data, int T_UserN> class AstUserAllocatorBase VL_NOT_FINAL {
    static_assert(1 <= T_UserN && T_UserN <= 5, "Wrong user pointer number");
    static_assert(std::is_base_of<AstNode, T_Node>::value, "T_Node must be an AstNode type");

private:
    std::vector<T_Data*> m_allocated;

    inline T_Data* getUserp(T_Node* nodep) const {
        // This simplifies statically as T_UserN is constant. In C++17, use 'if constexpr'.
        if (T_UserN == 1) {
            const VNUser user = nodep->user1u();
            return user.to<T_Data*>();
        } else if (T_UserN == 2) {
            const VNUser user = nodep->user2u();
            return user.to<T_Data*>();
        } else if (T_UserN == 3) {
            const VNUser user = nodep->user3u();
            return user.to<T_Data*>();
        } else if (T_UserN == 4) {
            const VNUser user = nodep->user4u();
            return user.to<T_Data*>();
        } else {
            const VNUser user = nodep->user5u();
            return user.to<T_Data*>();
        }
    }

    inline void setUserp(T_Node* nodep, T_Data* userp) const {
        // This simplifies statically as T_UserN is constant. In C++17, use 'if constexpr'.
        if (T_UserN == 1) {
            nodep->user1u(VNUser(userp));
        } else if (T_UserN == 2) {
            nodep->user2u(VNUser(userp));
        } else if (T_UserN == 3) {
            nodep->user3u(VNUser(userp));
        } else if (T_UserN == 4) {
            nodep->user4u(VNUser(userp));
        } else {
            nodep->user5u(VNUser(userp));
        }
    }

protected:
    AstUserAllocatorBase() {
        // This simplifies statically as T_UserN is constant. In C++17, use 'if constexpr'.
        if (T_UserN == 1) {
            AstUser1InUse::check();
        } else if (T_UserN == 2) {
            AstUser2InUse::check();
        } else if (T_UserN == 3) {
            AstUser3InUse::check();
        } else if (T_UserN == 4) {
            AstUser4InUse::check();
        } else {
            AstUser5InUse::check();
        }
    }

    virtual ~AstUserAllocatorBase() {
        // Delete all allocated data structures
        for (T_Data* const p : m_allocated) { delete p; }
    }

public:
    // Get a reference to the user data
    T_Data& operator()(T_Node* nodep) {
        T_Data* userp = getUserp(nodep);
        if (!userp) {
            userp = new T_Data;
            m_allocated.push_back(userp);
            setUserp(nodep, userp);
        }
        return *userp;
    }
};

// User pointer allocator classes. T_Node is the type of node the allocator should be applied to
// and is simply there for a bit of extra type safety. T_Data is the type of the data structure
// managed by the allocator.
template <class T_Node, class T_Data>
class AstUser1Allocator final : public AstUserAllocatorBase<T_Node, T_Data, 1> {};
template <class T_Node, class T_Data>
class AstUser2Allocator final : public AstUserAllocatorBase<T_Node, T_Data, 2> {};
template <class T_Node, class T_Data>
class AstUser3Allocator final : public AstUserAllocatorBase<T_Node, T_Data, 3> {};
template <class T_Node, class T_Data>
class AstUser4Allocator final : public AstUserAllocatorBase<T_Node, T_Data, 4> {};
template <class T_Node, class T_Data>
class AstUser5Allocator final : public AstUserAllocatorBase<T_Node, T_Data, 5> {};

#endif  // Guard
Internals: Add AstUserNAllocator utility classes. These utility classes can be used to hang advanced data structures off AstNode user*u() pointers, and they take care of memory management for the client. Use via the call operator(). 2021-06-17 16:27:45 +00:00			`// -- mode: C++; c-file-style: "cc-mode" --`
			`//*************************************************************************`
			`// DESCRIPTION: Verilator: Utility to hang advanced data structures of`
			`// AstNode::user*p() pointers with automatic memory management.`
			`//`
			`// Code available from: https://verilator.org`
			`//`
			`//*************************************************************************`
			`//`
			`// Copyright 2003-2021 by Wilson Snyder. This program is free software; you`
			`// can redistribute it and/or modify it under the terms of either the GNU`
			`// Lesser General Public License Version 3 or the Perl Artistic License`
			`// Version 2.0.`
			`// SPDX-License-Identifier: LGPL-3.0-only OR Artistic-2.0`
			`//`
			`//*************************************************************************`

			`#ifndef VERILATOR_V3ASTUSERALLOCATOR_H_`
			`#define VERILATOR_V3ASTUSERALLOCATOR_H_`

			`#include "config_build.h"`
			`#include "verilatedos.h"`

			`#include "V3Ast.h"`

			`#include <type_traits>`
			`#include <vector>`

			`template <class T_Node, class T_Data, int T_UserN> class AstUserAllocatorBase VL_NOT_FINAL {`
			`static_assert(1 <= T_UserN && T_UserN <= 5, "Wrong user pointer number");`
			`static_assert(std::is_base_of<AstNode, T_Node>::value, "T_Node must be an AstNode type");`

			`private:`
			`std::vector<T_Data*> m_allocated;`

			`inline T_Data* getUserp(T_Node* nodep) const {`
			`// This simplifies statically as T_UserN is constant. In C++17, use 'if constexpr'.`
			`if (T_UserN == 1) {`
Internals: Add const. No functional change. 2021-06-20 22:32:57 +00:00			`const VNUser user = nodep->user1u();`
Internals: Add AstUserNAllocator utility classes. These utility classes can be used to hang advanced data structures off AstNode user*u() pointers, and they take care of memory management for the client. Use via the call operator(). 2021-06-17 16:27:45 +00:00			`return user.to<T_Data*>();`
			`} else if (T_UserN == 2) {`
Internals: Add const. No functional change. 2021-06-20 22:32:57 +00:00			`const VNUser user = nodep->user2u();`
Internals: Add AstUserNAllocator utility classes. These utility classes can be used to hang advanced data structures off AstNode user*u() pointers, and they take care of memory management for the client. Use via the call operator(). 2021-06-17 16:27:45 +00:00			`return user.to<T_Data*>();`
			`} else if (T_UserN == 3) {`
Internals: Add const. No functional change. 2021-06-20 22:32:57 +00:00			`const VNUser user = nodep->user3u();`
Internals: Add AstUserNAllocator utility classes. These utility classes can be used to hang advanced data structures off AstNode user*u() pointers, and they take care of memory management for the client. Use via the call operator(). 2021-06-17 16:27:45 +00:00			`return user.to<T_Data*>();`
			`} else if (T_UserN == 4) {`
Internals: Add const. No functional change. 2021-06-20 22:32:57 +00:00			`const VNUser user = nodep->user4u();`
Internals: Add AstUserNAllocator utility classes. These utility classes can be used to hang advanced data structures off AstNode user*u() pointers, and they take care of memory management for the client. Use via the call operator(). 2021-06-17 16:27:45 +00:00			`return user.to<T_Data*>();`
			`} else {`
Internals: Add const. No functional change. 2021-06-20 22:32:57 +00:00			`const VNUser user = nodep->user5u();`
Internals: Add AstUserNAllocator utility classes. These utility classes can be used to hang advanced data structures off AstNode user*u() pointers, and they take care of memory management for the client. Use via the call operator(). 2021-06-17 16:27:45 +00:00			`return user.to<T_Data*>();`
			`}`
			`}`

			`inline void setUserp(T_Node* nodep, T_Data* userp) const {`
			`// This simplifies statically as T_UserN is constant. In C++17, use 'if constexpr'.`
			`if (T_UserN == 1) {`
			`nodep->user1u(VNUser(userp));`
			`} else if (T_UserN == 2) {`
			`nodep->user2u(VNUser(userp));`
			`} else if (T_UserN == 3) {`
			`nodep->user3u(VNUser(userp));`
			`} else if (T_UserN == 4) {`
			`nodep->user4u(VNUser(userp));`
			`} else {`
			`nodep->user5u(VNUser(userp));`
			`}`
			`}`

			`protected:`
			`AstUserAllocatorBase() {`
			`// This simplifies statically as T_UserN is constant. In C++17, use 'if constexpr'.`
			`if (T_UserN == 1) {`
			`AstUser1InUse::check();`
			`} else if (T_UserN == 2) {`
			`AstUser2InUse::check();`
			`} else if (T_UserN == 3) {`
			`AstUser3InUse::check();`
			`} else if (T_UserN == 4) {`
			`AstUser4InUse::check();`
			`} else {`
			`AstUser5InUse::check();`
			`}`
			`}`

			`virtual ~AstUserAllocatorBase() {`
			`// Delete all allocated data structures`
			`for (T_Data* const p : m_allocated) { delete p; }`
			`}`

			`public:`
			`// Get a reference to the user data`
			`T_Data& operator()(T_Node* nodep) {`
			`T_Data* userp = getUserp(nodep);`
			`if (!userp) {`
			`userp = new T_Data;`
			`m_allocated.push_back(userp);`
			`setUserp(nodep, userp);`
			`}`
			`return *userp;`
			`}`
			`};`

			`// User pointer allocator classes. T_Node is the type of node the allocator should be applied to`
			`// and is simply there for a bit of extra type safety. T_Data is the type of the data structure`
			`// managed by the allocator.`
			`template <class T_Node, class T_Data>`
			`class AstUser1Allocator final : public AstUserAllocatorBase<T_Node, T_Data, 1> {};`
			`template <class T_Node, class T_Data>`
			`class AstUser2Allocator final : public AstUserAllocatorBase<T_Node, T_Data, 2> {};`
			`template <class T_Node, class T_Data>`
			`class AstUser3Allocator final : public AstUserAllocatorBase<T_Node, T_Data, 3> {};`
			`template <class T_Node, class T_Data>`
			`class AstUser4Allocator final : public AstUserAllocatorBase<T_Node, T_Data, 4> {};`
			`template <class T_Node, class T_Data>`
			`class AstUser5Allocator final : public AstUserAllocatorBase<T_Node, T_Data, 5> {};`

			`#endif // Guard`