calasql-operations_3.0.1.9.source-code.MathOps.scala Maven / Gradle / Ivy
package scalasql.operations
import scalasql.core.SqlStr.SqlStringSyntax
import scalasql.core.Expr
trait MathOps {
/** Converts radians to degrees */
def degrees[T: Numeric](x: Expr[T]): Expr[Double] = Expr { implicit ctx => sql"DEGREES($x)" }
/** Converts degrees to radians */
def radians[T: Numeric](x: Expr[T]): Expr[Double] = Expr { implicit ctx => sql"RADIANS($x)" }
/** `x` raised to the power of `y` */
def power[T: Numeric](x: Expr[T], y: Expr[T]): Expr[Double] = Expr { implicit ctx =>
sql"POWER($x, $y)"
}
/** Raises a value to the power of the mathematical constant known as e. */
def exp[T: Numeric](x: Expr[T]): Expr[Double] = Expr { implicit ctx => sql"EXP($x)" }
/** Returns the natural logarithm of a number. */
def ln[T: Numeric](v: Expr[T]): Expr[Double] = Expr { implicit ctx => sql"LN($v)" }
/** Logarithm of x to base b */
def log[T: Numeric](b: Expr[Int], x: Expr[T]): Expr[Double] = Expr { implicit ctx =>
sql"LOG($b, $x)"
}
/** Base 10 logarithm */
def log10[T: Numeric](x: Expr[T]): Expr[Double] = Expr { implicit ctx => sql"LOG10($x)" }
/** Computes the square root of a number. */
def sqrt[T: Numeric](v: Expr[T]): Expr[Double] = Expr { implicit ctx => sql"SQRT($v)" }
/** Calculate the trigonometric sine */
def sin[T: Numeric](v: Expr[T]): Expr[Double] = Expr { implicit ctx => sql"SIN($v)" }
/** Calculate the trigonometric cosine */
def cos[T: Numeric](v: Expr[T]): Expr[Double] = Expr { implicit ctx => sql"COS($v)" }
/** Calculate the trigonometric tangent */
def tan[T: Numeric](v: Expr[T]): Expr[Double] = Expr { implicit ctx => sql"TAN($v)" }
/** Calculate the arc sine */
def asin[T: Numeric](v: Expr[T]): Expr[Double] = Expr { implicit ctx => sql"ASIN($v)" }
/** Calculate the arc cosine */
def acos[T: Numeric](v: Expr[T]): Expr[Double] = Expr { implicit ctx => sql"ACOS($v)" }
/** Calculate the arc tangent */
def atan[T: Numeric](v: Expr[T]): Expr[Double] = Expr { implicit ctx => sql"ATAN($v)" }
/** Calculate the arc tangent */
def atan2[T: Numeric](v: Expr[T], y: Expr[T]): Expr[Double] = Expr { implicit ctx =>
sql"ATAN2($v, $y)"
}
/** Returns the value of Pi */
def pi: Expr[Double] = Expr { _ => sql"PI()" }
}