File chain.hpp#

Defines

DIAGNOSE_CHAINS(other)#
DIAGNOSE_CHAIN()#
namespace find_embedding#
struct frozen_chain#
#include <chain.hpp>

This class stores chains for embeddings, and performs qubit-use accounting.

The label is the index number for the variable represented by this chain. The links member of a chain is an unordered map storing the linking information for this chain. The data member of a chain stores the connectivity information for the chain.

Links: If u and v are variables which are connected by an edge, the following must be true: either chain_u or chain_v is empty,

or

chain_u.links[v] is a key in chain_u.data, chain_v.links[u] is a key in chain_v.data, and (chain_u.links[v], chain_v.links[u]) are adjacent in the qubit graph

Moreover, (chain_u.links[u]) must exist if chain_u is not empty, and this is considered the root of the chain.

Data: The data member stores the connectivity information. More precisely, data is a mapping qubit->(parent, refs) where: parent is also contained in the chain refs is the total number of references to qubit, counting both parents and links the chain root is its own parent.

Public Functions

inline void clear()#

Public Members

unordered_map<int, pair<int, int>> data#
unordered_map<int, int> links#
class chain
#include <chain.hpp>

Public Functions

inline chain(vector<int> &w, int l)

construct this chain, linking it to the qubit_weight vector w (common to all chains in an embedding, typically) and setting its variable label l

inline chain &operator=(const vector<int> &c)

assign this to a vector of ints.

each incoming qubit will have itself as a parent.

inline chain &operator=(const chain &c)

assign this to another chain

inline size_t size() const

number of qubits in chain

inline size_t count(const int q) const

returns 0 if q is not contained in this, 1 otherwise

inline int get_link(const int x) const

get the qubit, in this, which links this to the chain of x (if x==label, interpret the linking qubit as the chain’s root)

inline void set_link(const int x, const int q)

set the qubit, in this, which links this to the chain of x (if x==label, interpret the linking qubit as the chain’s root)

inline int drop_link(const int x)

discard and return the linking qubit for x, or -1 if that link is not set

inline void set_root(const int q)

insert the qubit q into this, and set q to be the root (represented as the linking qubit for label)

inline void clear()

empty this data structure

inline void add_leaf(const int q, const int parent)

add the qubit q as a leaf, with parent as its parent

inline int trim_branch(int q)

try to delete the qubit q from this chain, and keep deleting until no more qubits are free to be deleted.

return the first ancestor which cannot be deleted

inline int trim_leaf(int q)

try to delete the qubit q from this chain.

if q cannot be deleted, return it; otherwise return its parent

inline int parent(const int q) const

the parent of q in this chain &#8212; which might be q but otherwise cycles should be impossible

inline void adopt(const int p, const int q)

assign p to be the parent of q, on condition that both p and q are contained in this, q is its own parent, and q is not the root

inline int refcount(const int q) const

return the number of references that this makes to the qubit q &#8212; where a “reference” is an occurrence of q as a parent or an occurrence of q as a linking qubit / root

inline size_t freeze(vector<chain> &others, frozen_chain &keep)

store this chain into a frozen_chain, unlink all chains from this, and clear()

inline void thaw(vector<chain> &others, frozen_chain &keep)

restore a frozen_chain into this, re-establishing links from other chains.

precondition: this is empty.

template<typename embedding_problem_t>
inline void steal(chain &other, embedding_problem_t &ep, int chainsize = 0)

assumes this and other have links for eachother’s labels steals all qubits from other which are available to be taken by this; starting with the qubit links and updating qubit links after all

inline void link_path(chain &other, int q, const vector<int> &parents)

link this chain to another, following the path q, parent[q], parent[parent[q]], …

from this to other and intermediate nodes (all but the last) into this (preconditions: this and other are not linked, q is contained in this, and the parent-path is eventually contained in other)

inline iterator begin() const

iterator pointing to the first qubit in this chain

inline iterator end() const

iterator pointing to the end of this chain

inline void diagnostic()

run the diagnostic, and if it fails, report the failure to the user and throw a CorruptEmbeddingException.

the last_op argument is used in the error message

inline int run_diagnostic() const

run the diagnostic and return a nonzero status r in case of failure if(r&1), then the parent of a qubit is not contained in this chain if(r&2), then there is a refcounting error in this chain

Public Members

const int label#

Private Functions

inline const pair<int, int> &fetch(int q) const#

const unsafe data accessor

inline pair<int, int> &retrieve(int q)#

non-const unsafe data accessor

Private Members

vector<int> &qubit_weight#
unordered_map<int, pair<int, int>> data#
unordered_map<int, int> links#
class iterator
#include <chain.hpp>

Public Functions

inline  iterator (typename decltype(data)::const_iterator it)
inline iterator operator++()#
inline bool operator!=(const iterator &other)#
inline decltype(data) const ::key_type & operator* () const

Private Members

decltype(data) ::const_iterator it