MimIR/rewrite_8h_source.html

#pragma once


#include <memory>


#include "mim/check.h"

#include "mim/def.h"

#include "mim/lam.h"

#include "mim/lattice.h"

#include "mim/rule.h"

#include "mim/tuple.h"


namespace mim {


class World;


/// Recurseivly rebuilds part of a program **into** the provided World w.r.t.\ Rewriter::map.

/// This World may be different than the World we started with.


class Rewriter {

public:

    /// @name Construction & Destruction

    ///@{


    Rewriter(std::unique_ptr<World>&& ptr)

        : ptr_(std::move(ptr))

        , world_(ptr_.get()) {

        push(); // create root map

    }


    Rewriter(World& world)

        : world_(&world) {

        push(); // create root map

    }


    virtual ~Rewriter() = default;


    void reset(std::unique_ptr<World>&& ptr) {

        ptr_   = std::move(ptr);

        world_ = ptr_.get();

        reset();

    }


    void reset() {

        pop();

        assert(old2news_.empty());

        push();

    }


    ///@}


    /// @name Getters

    ///@{

    World& world() { return *world_; }

    ///@}


    /// @name Push / Pop

    ///@{

    virtual void push() { old2news_.emplace_back(Def2Def{}); }

    virtual void pop() { old2news_.pop_back(); }

    ///@}


    /// @name Map / Lookup

    /// Map @p old_def to @p new_def and returns @p new_def.

    ///@{

    virtual const Def* map(const Def* old_def, const Def* new_def) { return old2news_.back()[old_def] = new_def; }


    // clang-format off

    const Def* map(const Def* old_def ,       Defs new_defs);

    const Def* map(Defs       old_defs, const Def* new_def );

    const Def* map(Defs       old_defs,       Defs new_defs);

    // clang-format on


    /// Lookup `old_def` by searching in reverse through the stack of maps.

    /// @returns `nullptr` if nothing was found.


    virtual const Def* lookup(const Def* old_def) {

        for (const auto& old2new : old2news_ | std::views::reverse)

            if (auto i = old2new.find(old_def); i != old2new.end()) return i->second;

        return nullptr;

    }


    ///@}


    /// @name rewrite

    /// Recursively rewrite old Def%s.

    ///@{

    virtual const Def* rewrite(const Def*);

    virtual const Def* rewrite_imm(const Def*);

    virtual const Def* rewrite_mut(Def*);

    virtual const Def* rewrite_stub(Def*, Def*);

    virtual DefVec rewrite(Defs);


#define CODE_IMM(N) virtual const Def* rewrite_imm_##N(const N*);

#define CODE_MUT(N) virtual const Def* rewrite_mut_##N(N*);

    MIM_IMM_NODE(CODE_IMM)

    MIM_MUT_NODE(CODE_MUT)

#undef CODE_IMM

#undef CODE_MUT


    virtual const Def* rewrite_imm_Seq(const Seq* seq);

    virtual const Def* rewrite_mut_Seq(Seq* seq);

    ///@}


    friend void swap(Rewriter& rw1, Rewriter& rw2) noexcept {

        using std::swap;

        swap(rw1.old2news_, rw2.old2news_);

        // Do NOT swap ptr_ and world_: they are back pointers!

    }


private:

    std::unique_ptr<World> ptr_;

    World* world_;


protected:

    std::deque<Def2Def> old2news_;

};


class VarRewriter : public Rewriter {

public:

    /// @name Construction

    ///@{


    VarRewriter(World& world)

        : Rewriter(world) {}


    VarRewriter(const Var* var, const Def* arg)

        : Rewriter(arg->world()) {

        add(var, arg);

    }


    // Add initial mapping from @pvar -> @p arg.


    VarRewriter& add(const Var* var, const Def* arg) {

        map(var, arg);

        vars_.emplace_back(var);

        return *this;

    }


    ///@}


    /// @name push / pop

    ///@{

    void push() final { Rewriter::push(), vars_.emplace_back(Vars()); }

    void pop() final { vars_.pop_back(), Rewriter::pop(); }

    ///@}


    /// @name rewrite

    ///@{

    const Def* rewrite(const Def*) final;

    const Def* rewrite_mut(Def*) final;

    ///@}


    friend void swap(VarRewriter& vrw1, VarRewriter& vrw2) noexcept {

        using std::swap;

        swap(static_cast<Rewriter&>(vrw1), static_cast<Rewriter&>(vrw2));

        swap(vrw1.vars_, vrw2.vars_);

    }


private:

    bool has_intersection(const Def* old_def) {

        for (const auto& vars : vars_ | std::views::reverse)

            if (vars.has_intersection(old_def->free_vars())) return true;

        return false;

    }


    Vector<Vars> vars_;

};


class Zonker : public Rewriter {

public:

    /// @name C'tor

    ///@{


    Zonker(World& world)

        : Rewriter(world) {}


    ///@}


    /// @name Stack of Maps

    ///@{

    const Def* map(const Def* old_def, const Def* new_def) final;

    const Def* lookup(const Def* old_def) final;

    ///@}


    /// @name rewrite

    ///@{

    const Def* rewrite(const Def*) final;

    const Def* rewrite_mut(Def* mut) final { return map(mut, mut); }

    const Def* rewire_mut(Def*);

    ///@}


    friend void swap(Zonker& z1, Zonker& z2) noexcept {

        using std::swap;

        swap(static_cast<Rewriter&>(z1), static_cast<Rewriter&>(z2));

    }


private:

    const Def* get(const Def* old_def) {

        auto& old2new = old2news_.back();

        if (auto i = old2new.find(old_def); i != old2new.end()) return i->second;

        return nullptr;

    }

};


} // namespace mim

check.h

mim::Def
Base class for all Defs.
Definition def.h:251

mim::Def::free_vars
Vars free_vars() const
Compute a global solution by transitively following mutables as well.
Definition def.cpp:334

mim::Rewriter::~Rewriter
virtual ~Rewriter()=default

mim::Rewriter::swap
friend void swap(Rewriter &rw1, Rewriter &rw2) noexcept
Definition rewrite.h:96

mim::Rewriter::rewrite_imm_Seq
virtual const Def * rewrite_imm_Seq(const Seq *seq)
Definition rewrite.cpp:134

mim::Rewriter::rewrite_mut_Seq
virtual const Def * rewrite_mut_Seq(Seq *seq)
Definition rewrite.cpp:140

mim::Rewriter::world
World & world()
Definition rewrite.h:47

mim::Rewriter::rewrite_mut
virtual const Def * rewrite_mut(Def *)
Definition rewrite.cpp:48

mim::Rewriter::push
virtual void push()
Definition rewrite.h:52

mim::Rewriter::rewrite_stub
virtual const Def * rewrite_stub(Def *, Def *)
Definition rewrite.cpp:165

mim::Rewriter::map
virtual const Def * map(const Def *old_def, const Def *new_def)
Definition rewrite.h:59

mim::Rewriter::pop
virtual void pop()
Definition rewrite.h:53

mim::Rewriter::reset
void reset(std::unique_ptr< World > &&ptr)
Definition rewrite.h:33

mim::Rewriter::Rewriter
Rewriter(World &world)
Definition rewrite.h:27

mim::Rewriter::reset
void reset()
Definition rewrite.h:38

mim::Rewriter::old2news_
std::deque< Def2Def > old2news_
Definition rewrite.h:107

mim::Rewriter::rewrite_imm
virtual const Def * rewrite_imm(const Def *)
Definition rewrite.cpp:39

mim::Rewriter::Rewriter
Rewriter(std::unique_ptr< World > &&ptr)
Definition rewrite.h:22

mim::Rewriter::rewrite
virtual const Def * rewrite(const Def *)
Definition rewrite.cpp:27

mim::Rewriter::lookup
virtual const Def * lookup(const Def *old_def)
Lookup old_def by searching in reverse through the stack of maps.
Definition rewrite.h:69

mim::VarRewriter::add
VarRewriter & add(const Var *var, const Def *arg)
Definition rewrite.h:122

mim::VarRewriter::pop
void pop() final
Definition rewrite.h:132

mim::VarRewriter::rewrite_mut
const Def * rewrite_mut(Def *) final
Definition rewrite.cpp:192

mim::VarRewriter::push
void push() final
Definition rewrite.h:131

mim::VarRewriter::VarRewriter
VarRewriter(World &world)
Definition rewrite.h:114

mim::VarRewriter::swap
friend void swap(VarRewriter &vrw1, VarRewriter &vrw2) noexcept
Definition rewrite.h:141

mim::VarRewriter::rewrite
const Def * rewrite(const Def *) final
Definition rewrite.cpp:181

mim::VarRewriter::VarRewriter
VarRewriter(const Var *var, const Def *arg)
Definition rewrite.h:116

mim::Var
A variable introduced by a binder (mutable).
Definition def.h:700

mim::World
The World represents the whole program and manages creation of MimIR nodes (Defs).
Definition world.h:32

mim::Zonker::rewire_mut
const Def * rewire_mut(Def *)
Definition rewrite.cpp:247

mim::Zonker::swap
friend void swap(Zonker &z1, Zonker &z2) noexcept
Definition rewrite.h:178

mim::Zonker::lookup
const Def * lookup(const Def *old_def) final
Lookup old_def by searching in reverse through the stack of maps.
Definition rewrite.cpp:211

mim::Zonker::rewrite
const Def * rewrite(const Def *) final
Definition rewrite.cpp:238

mim::Zonker::map
const Def * map(const Def *old_def, const Def *new_def) final
Definition rewrite.cpp:205

mim::Zonker::Zonker
Zonker(World &world)
Definition rewrite.h:161

mim::Zonker::rewrite_mut
const Def * rewrite_mut(Def *mut) final
Definition rewrite.h:174

def.h

MIM_MUT_NODE
#define MIM_MUT_NODE(m)
Definition def.h:52

MIM_IMM_NODE
#define MIM_IMM_NODE(m)
Definition def.h:36

lam.h

lattice.h

mim
Definition ast.h:14

mim::Defs
View< const Def * > Defs
Definition def.h:76

mim::Def2Def
DefMap< const Def * > Def2Def
Definition def.h:75

mim::DefVec
Vector< const Def * > DefVec
Definition def.h:77

mim::get
constexpr decltype(auto) get(Span< T, N > span) noexcept
Definition span.h:115

mim::Vars
Sets< const Var >::Set Vars
Definition def.h:97

mim::Vector
Vector(I, I, A=A()) -> Vector< typename std::iterator_traits< I >::value_type, Default_Inlined_Size< typename std::iterator_traits< I >::value_type >, A >

std
Definition span.h:122

CODE_MUT
#define CODE_MUT(N)
Definition rewrite.h:86

CODE_IMM
#define CODE_IMM(N)
Definition rewrite.h:85

rule.h

tuple.h