# Welcome to Oasis

Optimization Algorithm

## Purpose

Oasis is a Harmony search optimization algorithm which uses stochastic random search based on two factors, harmony memory consideration rate and (HMCR) and pitch adjusting rate (PAR) The main difference between GA and HS is that GA evaluates many solutions simultaneously which may lead to convergence on a local minimum, whereas HS evaluates only one solution at each iteration which enables the algorithm of broad search and avoids convergence to local minima, HS generates a new offspring after considering all the existing population whereas GA only consider the two parent to generate a new offspring (Lee and Geem 2005).

``````def objfunc(x):
# Objective function
f = x[0]**2 + x[1]**2 + x[2]**4
# Equality constraint
g = [x[0] + x[1] + x[2] - 4]
# print('Equality Constraint = ' + str(g))
# print('Obj Fn value = ' + str(f))
fail = 0
return f, g, fail

# create the Optimization Object
opt_prob = Optimization('Testing solutions', objfunc)

# the upper and lower

options = dict(fileout = 1, filename ='test.txt')
opt_engine = HSapi(options = options)

res = opt_engine(opt_prob)

print(opt_prob.solution(0))
``````

## Features

• Available algorithms are (`HS`).

## Library layout

Above: Overview about functionality of the Oasis package

``````__init__.py             # Ensures that all needed files are loaded.
constraint.py           # create equality and inequality constraints
history.py              # prepare files to store the solution and read previous result to use it as initial solutions
hs.py                   # Harmony search algorithm
hsapi.py                # prepare the inputs of the HS algorithm
objective.py            # create the objective function and define the optimum value
optimization.py         # create the optimization problem
optimizer.py            # prepare the inputs of the optimization problem
variable.py             # create decision variables

examples/
01 Equality Constraint.py
02 Lasserre.py
03 A third root function.py
04 A trigonometric function.py
05 TOY Constrained Problem.py
``````