- Generated on Fri Oct 23 2015 12:43:33 for Localsolver by
1.8.1.2
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Localsolver
5.5
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Classes | |
| class | LocalSolver |
| LocalSolver environment. More... | |
| class | LSCollection |
| Value type for collection expressions (lists). More... | |
| class | LSException |
| LocalSolver exception. More... | |
| class | LSExpression |
| Mathematical modeling expression. More... | |
| class | LSModel |
| Mathematical optimization model. More... | |
| class | LSParam |
| Solving parameters. More... | |
| class | LSPhase |
| Optimization phase. More... | |
| class | LSSolution |
| Solution to the optimization model. More... | |
| class | LSStatistics |
| Statistics of the search. More... | |
| class | LSVersion |
| Version and copyright info. More... | |
Enumerations | |
| enum | LSCallbackType { PhaseStarted, PhaseEnded, Ticked } |
| List of types that can be used with callbacks. More... | |
| enum | LSErrorCode { Api, File, Model, Callback, License, Solver, Internal, Modeler } |
| List of error codes used by LSException. More... | |
| enum | LSObjectiveDirection { Minimize, Maximize } |
| Objective directions. More... | |
| enum | LSOperator { Bool, Float, Const, Sum, Sub, Prod, Max, Min, Eq, Neq, Geq, Leq, Gt, Lt, If, Not, And, Or, Xor, Abs, Dist, Div, Mod, Array, At, Scalar, Ceil, Floor, Round, Sqrt, Log, Exp, Pow, Cos, Sin, Tan, Int, Piecewise, List, Count, IndexOf, Partition, Disjoint } |
| Mathematical operators available for modeling. More... | |
| enum | LSSolutionStatus { Inconsistent, Infeasible, Feasible, Optimal } |
| Solution status: Optimal, Feasible, Infeasible or Inconsistent. More... | |
| enum | LSState { Modeling, Running, Paused, Stopped } |
| State of LocalSolver environment. More... | |
Functions | |
| delegate void | LSCallback (LocalSolver solver, LSCallbackType type) |
| Passing a LSCallback to LocalSolver allows having user-defined functions called regularly during the search. | |
List of types that can be used with callbacks.
Each type corresponds to a specific event that can occur during the resolution.
Since version 4.0
List of error codes used by LSException.
| Api |
Code used for errors related to API functions. Used when you call a function in a wrong way or with inappropriate parameters. Examples of error messages:
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| File |
Code used when an error related to input/output operations occurs. Examples of error messages:
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| Model |
Code used when a problem related to the structure of the model occurs. Examples of error messages:
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| Callback |
Code used when an error is encountered in a user callback. |
| License |
Code used when a problem related to licensing occurs. That could be a problem with the license itself (expiration, hardware signature, ...), or a problem related to input/output or networking operations. Examples of error messages:
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| Solver |
Code used when a problem occurs during the resolution such a division by zero or an index out of bounds. Keep in mind that, during the search variables are likely to take values that do not satisfy the constraints (for instance in the feasibility stage). Consequently when an division by zero or array overflow occurs in your model, it probably means that the denominator of a modulo or the index of a array can take invalid values. You can fix this using min and max expressions for instance: z <- x % y
can be replaced by z<-x % max(1,y)
. Examples of error messages:
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| Internal |
Internal LocalSolver error. |
| Modeler |
Code used when an error is encountered in the modeler. |
Objective directions.
Mathematical operators available for modeling.
These operators are used to type the expressions created in LocalSolver mathematical optimization model.
| Bool |
Boolean decision. Decisional operator with no operand. Decision variable with domain {0,1}. |
| Float |
Float decision. Decisional operator with two operands min and max. Decision variable with domain [min,max]. Since version 4.0 |
| Const |
Constant. Unary operator. Can be equal to any integer. Note that constants 0 or 1 are considered as boolean. Constants are implicitly created when passing integer arguments to LSModel#CreateExpression(LSOperator, long) or LSExpression#AddOperand(long). |
| Sum |
Sum. N-ary arithmetic operator. SUM(e1,e2,...,eN) is equal to the sum of all operands e1,e2,...,eN. This operator returns an integer or a double according to the type of its operands. |
| Sub |
Substraction. Binary arithmetic operator. SUB(x, y) is equal to the value of x - y. This operator returns an integer or a double according to the type of its operands. Since version 4.0 |
| Prod |
Product. N-ary arithmetic operator. PROD(e1,e2,...,eN) is equal to the product of all operands e1,e2,...,eN. This operator returns an integer or a double according to the type of its operands. |
| Max |
Maximum. N-ary arithmetic operator. MAX(e1,e2,...,eN) is equal to the maximum value among all operands e1,e2,...,eN. This operator returns an integer or a double according to the type of its operands. |
| Min |
Minimum. N-ary arithmetic operator. MIN(e1,e2,...,eN) is equal to the minimum value among all operands e1,e2,...,eN. This operator returns an integer or a double according to the type of its operands. |
| Eq |
Equal. Binary relational operator. EQ(a,b) = 1 if a == b, and 0 otherwise. This operator returns a boolean. |
| Neq |
Not equal to. Binary relational operator. NEQ(a,b) = 1 if a != b, and 0 otherwise. This operator returns a boolean. |
| Geq |
Greater than or equal to. Binary relational operator. GEQ(a,b) = 1 if a >= b, and 0 otherwise. This operator returns a boolean. |
| Leq |
Lower than or equal to. Binary relational operator. LEQ(a,b) = 1 if a <= b, and 0 otherwise. This operator returns a boolean. |
| Gt |
Strictly greater than. Binary relational operator. GT(a,b) = 1 if a > b, and 0 otherwise. This operator returns a boolean. |
| Lt |
Strictly lower than. Binary relational operator. LQ(a, b) = 1 if a < b, and 0 otherwise. This operator returns a boolean. |
| If |
If-Then-Else. Ternary conditional operator. IF(a,b,c) is equal to b if a is true, and c otherwise. Note that the first operand must be a boolean (that is, equal to 0 or 1). This operator returns a boolean, an integer or a double according to the type of the second and third operands. |
| Not |
Not. Unary logical operator. NOT(a) = 1 - a. Note that the operand must be boolean (that is, equal to 0 or 1). This operator returns a boolean. |
| And |
And. N-ary logical operator. AND(e1,e2,...,eN) is equal to 1 (true) if all operands e1,e2,...,eN are 1, and 0 otherwise. Note that all operands must be boolean (that is, equal to 0 or 1). This operator returns a boolean. |
| Or |
Or. N-ary logical operator. OR(e1,e2,...,eN) is equal to 0 if all operands e1,e2,...,eN are 0, and 1 otherwise. Note that all operands must be boolean (that is, equal to 0 or 1). This operator returns a boolean. |
| Xor |
Exclusive or (also called "xor"). N-ary logical operator. XOR(e1,e2,...,eN) is equal to 0 if the number of operands with value 1 among e1,e2,...,eN is even, and 1 otherwise. Remarkable case: XOR(a,b) = 1 if a == b, and 0 otherwise. Note that all operands must be boolean (that is, equal to 0 or 1). This operator returns a boolean. |
| Abs |
Absolute value. Unary arithmetic operator. ABS(e) = e >= 0 ? e : -e. This operator returns an integer or a double according to the type of its operand. |
| Dist |
Distance between two numbers. Binary arithmetic operator. DIST(a,b) = ABS(a-b). This operator returns an integer or a double according to the type of its operands. |
| Div |
Division. Binary arithmetic operator. This operator always returns a double. Note that until version 4.0, the division was an integer division if both operands were integers. |
| Mod |
Modulo (remainder of the integer division). Binary arithmetic operator. MOD(a,b) = r such that a = q * b + r with q, r integers and |r| < b. An error will be thrown if b equals 0 at an iteration of the search. Note that the operands must be integers. This operator returns an integer. |
| Array |
Array. An array is a collection of elements. Indexes begin at 0. It could be used with operators like at or scalar. An array can contain operands of type double, integer or boolean. Note that an array cannot contain another array. Since version 2.1 |
| At |
Returns the element of an array. MyArray[i] returns the i element of the array MyArray. An error will be thrown if i is out of range. This operator returns a boolean, an integer or a double according to the type of the operands in the array. Since version 2.1 |
| Scalar |
Scalar product. SCALAR(a, x) = sum(a[i]*x[i]) with a and x two arrays. This operator returns an integer or a double according to the type of the operands in the arrays. Since version 2.1 |
| Ceil |
Ceil. Unary arithmetic operator. Returns a value rounded to the next highest integer. This operator returns an integer. Since version 3.0 |
| Floor |
Floor. Unary arithmetic operator. Returns a value rounded to the next lowest integer. This operator returns an integer. Since version 3.0 |
| Round |
Round. Unary arithmetic operator. Returns a value rounded to the nearest integer. This operator returns an integer. Since version 3.0 |
| Sqrt |
Square root. Unary arithmetic operator. This operator returns a double. Since version 3.0 |
| Log |
Natural logarithm (base-e). Unary arithmetic operator. This operator returns a double. Since version 3.0 |
| Exp |
Base-e exponential. Unary arithmetic operator. This operator returns a double. Since version 3.0 |
| Pow |
Power operator. POW(x, y) is equals to the value of x to the power of y. This operator returns a double. Since version 3.0 |
| Cos |
Cosine. Unary arithmetic operator. This operator returns a double. Since version 3.0 |
| Sin |
Sine. Unary arithmetic operator. This operator returns a double. Since version 3.0 |
| Tan |
Tangent. Unary arithmetic operator. This operator returns a double. Since version 3.0 |
| Int |
Integer decision variable. Decisional operator with two operands min and max. Decision variable with domain [min,max]. Since version 5.0 |
| Piecewise |
Piecewise-linear function operator. The piecewise linear function is defined by two arrays of numbers giving the breakpoints of the function. This operator has exactly 3 operands: The first two operands must be two arrays of equal lengths (necessarily larger or equal to 2). These arrays must contain constant numbers (int or double). The first array must contain numbers in ascending order. The third operand must be an integer or double expression. An exception will be thrown if its value is strictly smaller that the first element of the first array, or strictly larger than the last element of the first array. This operator returns a double. piecewise(x,y,z) returns the image of z by the function defined by geometric points (x[0],y[0]), (x[1],y[1]), ..... (x[n-1],y[n-1]), For instance piecewise({0,50,100},{0,10,100},75) returns 55. Discontinuities are allowed in the definition of the function, that is to say that two geometric points can share the same x-coordinate. By convention the value taken by the function at such a discontinuous point is the one associated to the last occurrence of this x-coordinate in array x. For instance piecewise({0,50,50,100},{0,0.1,0.9,1},50) returns 0.9; Since version 5.0 |
| List |
A list is an collection of integers within a range [0,n-1] where n is the unique argument of this operator. Mathematically a list is a permutation of a subset of [0,n-1]. This operator takes exactly one parameter: a constant strictly positive integer. All values in the list will be pairwise different, non negative and strictly smaller that this number. The elements of the list can be accessed with the at operator (-1 will be returned for indices beyond the number of elements in the list and for negative indices). Since version 5.5 |
| Count |
The number of elements in a collection. This operator takes exactly one argument of type list. Since version 5.5 |
| IndexOf |
The index of a value in a list (-1 if the value is not in the list). This operator takes exactly two arguments: the first one is a list, the second one is an integer expression. Since version 5.5 |
| Partition |
Partition. N-ary logical operator. Partition(l1,l2,...,lN) is true if all lists l1,l2..lN form a partition of their common range. All parameters of this operator must be lists on the same range. Since version 5.5 |
| Disjoint |
Disjoint. N-ary logical operator. Disjoint(l1,l2,...,lN) is true if all lists l1,l2..lN are pairwise disjoint. All parameters of this operator must be lists on the same range. Since version 5.5 |
Solution status: Optimal, Feasible, Infeasible or Inconsistent.
| enum localsolver.LSState |
State of LocalSolver environment.
| delegate void localsolver.LSCallback | ( | LocalSolver | solver, |
| LSCallbackType | type | ||
| ) |
Passing a LSCallback to LocalSolver allows having user-defined functions called regularly during the search.
It can be used for example to control when to stop the search or to display some specific information during the search.
| solver | The solver calling the function. |
| type | The type of event that triggered the call. |
1.8.1.2