qsim:: StateSpaceBasic

#include <statespace_basic.h>

Object containing context and routines for unoptimized state-vector manipulations.

Summary

State is a non-vectorized sequence of one real amplitude followed by one imaginary amplitude.

Inheritance

Inherits from: qsim::StateSpace< StateSpaceBasic< For, FP >, For, FP >

Constructors and Destructors

StateSpaceBasic (ForArgs &&... args)

Public types

MeasurementResult using
typename Base::MeasurementResult
State using
typename Base::State
fp_type using
typename Base::fp_type

Public functions

Add (const State & src, State & dest) const
bool
BulkSetAmpl (State & state, uint64_t mask, uint64_t bits, const std::complex< fp_type > & val, bool exclude) const
void
BulkSetAmpl (State & state, uint64_t mask, uint64_t bits, fp_type re, fp_type im, bool exclude) const
void
Collapse (const MeasurementResult & mr, State & state) const
void
FindMeasuredBits (unsigned m, double r, uint64_t mask, const State & state) const
uint64_t
InnerProduct (const State & state1, const State & state2) const
std::complex< double >
InternalToNormalOrder (State & state) const
void
Multiply (fp_type a, State & state) const
void
NormalToInternalOrder (State & state) const
void
PartialNorms (const State & state) const
std::vector< double >
RealInnerProduct (const State & state1, const State & state2) const
double
Sample (const State & state, uint64_t num_samples, unsigned seed) const
std::vector< uint64_t >
SetAllZeros (State & state) const
void
SetStateUniform (State & state) const
void
SetStateZero (State & state) const
void

Public static functions

GetAmpl (const State & state, uint64_t i)
std::complex< fp_type >
MinSize (unsigned num_qubits)
uint64_t
SetAmpl (State & state, uint64_t i, const std::complex< fp_type > & ampl)
void
SetAmpl (State & state, uint64_t i, fp_type re, fp_type im)
void

Public types

MeasurementResult 

typename Base::MeasurementResult MeasurementResult

State 

typename Base::State State

fp_type 

typename Base::fp_type fp_type

Public functions

Add 

bool Add(
  const State & src,
  State & dest
) const

BulkSetAmpl 

void BulkSetAmpl(
  State & state,
  uint64_t mask,
  uint64_t bits,
  const std::complex< fp_type > & val,
  bool exclude
) const

BulkSetAmpl 

void BulkSetAmpl(
  State & state,
  uint64_t mask,
  uint64_t bits,
  fp_type re,
  fp_type im,
  bool exclude
) const

Collapse 

void Collapse(
  const MeasurementResult & mr,
  State & state
) const

FindMeasuredBits 

uint64_t FindMeasuredBits(
  unsigned m,
  double r,
  uint64_t mask,
  const State & state
) const

InnerProduct 

std::complex< double > InnerProduct(
  const State & state1,
  const State & state2
) const

InternalToNormalOrder 

void InternalToNormalOrder(
  State & state
) const

Multiply 

void Multiply(
  fp_type a,
  State & state
) const

NormalToInternalOrder 

void NormalToInternalOrder(
  State & state
) const

PartialNorms 

std::vector< double > PartialNorms(
  const State & state
) const

RealInnerProduct 

double RealInnerProduct(
  const State & state1,
  const State & state2
) const

Sample 

std::vector< uint64_t > Sample(
  const State & state,
  uint64_t num_samples,
  unsigned seed
) const

SetAllZeros 

void SetAllZeros(
  State & state
) const

SetStateUniform 

void SetStateUniform(
  State & state
) const

SetStateZero 

void SetStateZero(
  State & state
) const

StateSpaceBasic 

 StateSpaceBasic(
  ForArgs &&... args
)

Public static functions

GetAmpl 

std::complex< fp_type > GetAmpl(
  const State & state,
  uint64_t i
)

MinSize 

uint64_t MinSize(
  unsigned num_qubits
)

SetAmpl 

void SetAmpl(
  State & state,
  uint64_t i,
  const std::complex< fp_type > & ampl
)

SetAmpl 

void SetAmpl(
  State & state,
  uint64_t i,
  fp_type re,
  fp_type im
)