LSParam Class¶
-
class
localsolver.
LSParam
¶ Solving parameters. This class contains some methods allowing you to parameterize the resolution of the model. For the sake of simplicity, only a few parameters are actually offered to tune the search.
Summary¶
set_seed |
Sets the seed of the pseudo-random number generator used by the solver. |
get_seed |
Gets the seed of the pseudo-random number generator used by the solver. |
set_nb_threads |
Sets the number of threads used to parallelize the search. |
get_nb_threads |
Gets the number of threads. |
set_annealing_level |
Sets the simulated annealing level. |
get_annealing_level |
Gets the simulated annealing level. |
set_verbosity |
Sets the verbosity level of the solver. |
get_verbosity |
Gets the verbosity level of the solver. |
set_objective_bound |
Sets the bound of the objective with the given index. |
get_objective_bound |
Gets the bound of the objective with the given index. |
set_time_between_displays |
Sets the time in seconds between two consecutive displays in console while the solver is running. |
get_time_between_displays |
Gets the time in seconds between two consecutive displays in console while the solver is running. |
set_log_file |
Sets the path of the LocalSolver log file. |
get_log_file |
Returns the path of the LocalSolver log file. |
set_advanced_parameter |
Sets the value of an advanced parameter. |
get_advanced_parameter |
Returns the value of an advanced parameter. |
seed |
Seed of the pseudo-random number generator used by the solver. |
nb_threads |
Number of threads used to parallelize the search. |
annealing_level |
Simulated annealing level. |
verbosity |
Verbosity level of the solver. |
time_between_displays |
Time in seconds between two consecutive displays. |
log_file |
Path of the LocalSolver log file. |
advanced_parameters |
Advanced parameters. |
__str__ |
Returns a string representation of these parameters. |
Instance methods¶
-
LSParam.
set_seed
(seed)¶ Sets the seed of the pseudo-random number generator used by the solver. The seed must be a positive integer. The default seed is set to 0. Only allowed in state
LSState.STOPPED
.The search for solutions is highly randomized. Fixing the seed and the number of iterations of the solver allows you to reproduce exactly its results over several runs.
You can also use the shortcut member
seed
Parameters: seed (int) – Seed of the pseudo-random number generator.
-
LSParam.
get_seed
()¶ Gets the seed of the pseudo-random number generator used by the solver. Only allowed in states
LSState.PAUSED
orLSState.STOPPED
.You can also use the shortcut member
seed
Returns: Seed of the pseudo-random number generator. Return type: int
-
LSParam.
set_nb_threads
(nb_threads)¶ Sets the number of threads used to parallelize the search. The number of threads must be a strictly positive integer. The default number of threads is set to 2. Only allowed in state
LSState.STOPPED
.By increasing the number of threads, you increase the robustness of the solver (that is, the chance to find better solutions). However, we recommend you to avoid running a number of threads which exceeds the number of cores available on your machine. Since the performance of the solver is sensible to the number of cache misses, the recommended ratio for maximizing its efficiency is to launch at most
k/2
searches withk
the number of cores of your hardware.You can also use the shortcut member
nb_threads
Parameters: nb_threads (int) – Number of threads.
-
LSParam.
get_nb_threads
()¶ Gets the number of threads. Only allowed in states
LSState.PAUSED
orLSState.STOPPED
.You can also use the shortcut member
nb_threads
Returns: Number of threads. Return type: int
-
LSParam.
set_annealing_level
(level)¶ Sets the simulated annealing level. The level must be an integer between 0 and 9. The default simulated annealing level is set to 1. Only allowed in state
LSState.STOPPED
.If set to 0, the search heuristic is equivalent to a standard descent: moves deteriorating the current solution are rejected. By increasing this parameter, you increase the number of uphill moves (that is, moves deteriorating the objective value of the current solution): this increases chances to reach better solutions (diversification), but slows the convergence of the search.
You can also use the shortcut member
annealing_level
Parameters: level (int) – Simulated annealing level.
-
LSParam.
get_annealing_level
()¶ Gets the simulated annealing level. Only allowed in states
LSState.PAUSED
orLSState.STOPPED
.You can also use the shortcut member
annealing_level
Returns: Simulated annealing level. Return type: int
-
LSParam.
set_verbosity
(verbosity)¶ Sets the verbosity level of the solver. The default verbosity is set to 1. There are 3 defined verbosity levels :
- 0 : All the traces are disabled.
- 1 : Normal verbosity. This is the default level.
- 2 : Detailed verbosity. Displays statistics during the search.
You can also use the shortcut member
verbosity
Parameters: verbosity (int) – Verbosity level: 0, 1, 2.
-
LSParam.
get_verbosity
()¶ Gets the verbosity level of the solver.
You can also use the shortcut member
verbosity
Returns: verbosity Verbosity level: 0, 1 or 2. Return type: int
-
LSParam.
set_objective_bound
(obj_index, bound)¶ Sets the bound of the objective with the given index. If the objective is minimized (respectively maximized), then the optimization of this objective is stopped as soon as this lower (respectively upper) bound is reached. It can be useful for goal programming. Only allowed in states
LSState.STOPPED
.Parameters: - obj_index (int) – Index of the objective
- bound – Objective bound. The bound can be a double or an integer.
-
LSParam.
get_objective_bound
(obj_index)¶ Gets the bound of the objective with the given index. Only allowed in states
LSState.PAUSED
orLSState.STOPPED
.Parameters: obj_index (int) – Index of the objective Returns: The bound of the objective Return type: int or double
-
LSParam.
set_time_between_displays
(time_between_displays)¶ Sets the time in seconds between two consecutive displays in console while the solver is running. The default time between displays is set to 1 second. Only allowed in state
LSState.STOPPED
.You can also use the shortcut member
time_between_displays
Parameters: time_between_displays (int) – Time in seconds between displays.
-
LSParam.
get_time_between_displays
()¶ Gets the time in seconds between two consecutive displays in console while the solver is running. Only allowed in states
LSState.PAUSED
orLSState.STOPPED
.You can also use the shortcut member
time_between_displays
Returns: Time in seconds between displays. Return type: int
-
LSParam.
set_log_file
(path)¶ Sets the path of the LocalSolver log file. If the path is empty, no log will be saved. To tune the logging verbosity, see
set_verbosity()
. Only allowed in statesLSState.STOPPED
orLSState.MODELING
.You can also use the shortcut member
log_file
Parameters: path (str) – Path of the log file. Leave empty to disable the file logging mechanism.
-
LSParam.
get_log_file
()¶ Returns the path of the LocalSolver log file. If no log file was specified, an empty string is returned.
You can also use the shortcut member
log_file
Returns: The path of the log file or an empty string. Return type: str
-
LSParam.
set_advanced_parameter
(key, value)¶ Sets the value of an advanced parameter. Advanced parameters are reserved for fine tuning or debugging and should not be used by end-users. Only allowed in states
LSState.STOPPED
orLSState.MODELING
.Advanced parameters can have string or integer values. You can also use the shortcut collection member
advanced_parameters
.Parameters: - key (str) – Name of the parameter to change
- value – Value of the parameter. The value can be an integer or a string.
-
LSParam.
get_advanced_parameter
(key, value)¶ Returns the value of an advanced parameter. Advanced parameters are reserved for fine tuning or debugging and should not be used by end-users. Throws an exception if the parameter does not exist. Only allowed in states
LSState.PAUSED
orLSState.STOPPED
.Advanced parameters can have string or integer values. You can also use the shortcut collection member
advanced_parameters
.Parameters: key (str) – Name of the parameter Returns: Value of the parameter Return type: Integer or string
Instance attributes¶
All get/set
methods have their attribute counterpart. You can use them as
shortcuts to improve the readability or your models and codes.
-
LSParam.
seed
¶ Seed of the pseudo-random number generator used by the solver. It is a shortcut for
get_seed()
andset_seed()
.
-
LSParam.
nb_threads
¶ Number of threads used to parallelize the search. It is a shortcut for
get_nb_threads()
andset_nb_threads()
.
-
LSParam.
annealing_level
¶ Simulated annealing level. It is a shortcut for
get_annealing_level()
andset_annealing_level()
.
-
LSParam.
verbosity
¶ Verbosity level of the solver. It is a shortcut for
get_verbosity()
andset_verbosity()
.
-
LSParam.
time_between_displays
¶ Time in seconds between two consecutive displays. It is a shortcut for
get_time_between_displays()
andset_time_between_displays()
.
-
LSParam.
log_file
¶ Path of the LocalSolver log file. It is a shortcut for
get_log_file()
andset_log_file()
.
-
LSParam.
advanced_parameters
¶ Advanced parameters. It is a shortcut for
get_advanced_parameter()
andset_advanced_parameter()
. The returned object can be indexed with strings. Please not that it is not iterable and you cannot apply the functionlen
on it.