Support trigonometric functions acos, asin, atan, atan2, cos, cot, degrees, radians, sin, tan

core/src/main/java/com/amazon/opendistroforelasticsearch/sql/expression/DSL.java

@@ -56,6 +56,21 @@ public static LiteralExpression literal(ExprValue value) {
     return new LiteralExpression(value);
   }
 
+  /**
+   * Wrap a number to {@link LiteralExpression}.
+   */
+  public static LiteralExpression literal(Number value) {
+    if (value instanceof Integer) {
+      return new LiteralExpression(ExprValueUtils.integerValue(value.intValue()));
+    } else if (value instanceof Long) {
+      return new LiteralExpression(ExprValueUtils.longValue(value.longValue()));
+    } else if (value instanceof Float) {
+      return new LiteralExpression(ExprValueUtils.floatValue(value.floatValue()));
+    } else {
+      return new LiteralExpression(ExprValueUtils.doubleValue(value.doubleValue()));
+    }
+  }
+
   public static ReferenceExpression ref(String ref, ExprType type) {
     return new ReferenceExpression(ref, type);
   }
@@ -144,6 +159,46 @@ public FunctionExpression truncate(Expression... expressions) {
     return function(BuiltinFunctionName.TRUNCATE, expressions);
   }
 
+  public FunctionExpression acos(Expression... expressions) {
+    return function(BuiltinFunctionName.ACOS, expressions);
+  }
+
+  public FunctionExpression asin(Expression... expressions) {
+    return function(BuiltinFunctionName.ASIN, expressions);
+  }
+
+  public FunctionExpression atan(Expression... expressions) {
+    return function(BuiltinFunctionName.ATAN, expressions);
+  }
+
+  public FunctionExpression atan2(Expression... expressions) {
+    return function(BuiltinFunctionName.ATAN2, expressions);
+  }
+
+  public FunctionExpression cos(Expression... expressions) {
+    return function(BuiltinFunctionName.COS, expressions);
+  }
+
+  public FunctionExpression cot(Expression... expressions) {
+    return function(BuiltinFunctionName.COT, expressions);
+  }
+
+  public FunctionExpression degrees(Expression... expressions) {
+    return function(BuiltinFunctionName.DEGREES, expressions);
+  }
+
+  public FunctionExpression radians(Expression... expressions) {
+    return function(BuiltinFunctionName.RADIANS, expressions);
+  }
+
+  public FunctionExpression sin(Expression... expressions) {
+    return function(BuiltinFunctionName.SIN, expressions);
+  }
+
+  public FunctionExpression tan(Expression... expressions) {
+    return function(BuiltinFunctionName.TAN, expressions);
+  }
+
   public FunctionExpression add(Expression... expressions) {
     return function(BuiltinFunctionName.ADD, expressions);
   }

core/src/main/java/com/amazon/opendistroforelasticsearch/sql/expression/function/BuiltinFunctionName.java

@@ -37,6 +37,17 @@ public enum BuiltinFunctionName {
   SQRT(FunctionName.of("sqrt")),
   TRUNCATE(FunctionName.of("truncate")),
 
+  ACOS(FunctionName.of("acos")),
+  ASIN(FunctionName.of("asin")),
+  ATAN(FunctionName.of("atan")),
+  ATAN2(FunctionName.of("atan2")),
+  COS(FunctionName.of("cos")),
+  COT(FunctionName.of("cot")),
+  DEGREES(FunctionName.of("degrees")),
+  RADIANS(FunctionName.of("radians")),
+  SIN(FunctionName.of("sin")),
+  TAN(FunctionName.of("tan")),
+
   /**
    * Text Functions.
    */

core/src/main/java/com/amazon/opendistroforelasticsearch/sql/expression/operator/arthmetic/MathematicalFunction.java

@@ -69,6 +69,16 @@ public static void register(BuiltinFunctionRepository repository) {
     repository.register(truncate());
     repository.register(pi());
     repository.register(rand());
+    repository.register(acos());
+    repository.register(asin());
+    repository.register(atan());
+    repository.register(atan2());
+    repository.register(cos());
+    repository.register(cot());
+    repository.register(degrees());
+    repository.register(radians());
+    repository.register(sin());
+    repository.register(tan());
   }
 
   /**
@@ -487,6 +497,154 @@ private static FunctionResolver truncate() {
             .build());
   }
 
+  /**
+   * Definition of acos(x) function.
+   * Calculates the arc cosine of x, that is, the value whose cosine is x.
+   * Returns NULL if x is not in the range -1 to 1.
+   * The supported signature of acos function is
+   * INTEGER/LONG/FLOAT/DOUBLE -> DOUBLE
+   */
+  private static FunctionResolver acos() {
+    FunctionName functionName = BuiltinFunctionName.ACOS.getName();
+    return new FunctionResolver(
+        functionName,
+        singleArgumentFunction(functionName, v -> v < -1 || v > 1 ? null : Math.acos(v)));
+  }
+
+  /**
+   * Definition of asin(x) function.
+   * Calculates the arc sine of x, that is, the value whose sine is x.
+   * Returns NULL if x is not in the range -1 to 1.
+   * The supported signature of asin function is
+   * INTEGER/LONG/FLOAT/DOUBLE -> DOUBLE
+   */
+  private static FunctionResolver asin() {
+    FunctionName functionName = BuiltinFunctionName.ASIN.getName();
+    return new FunctionResolver(
+        functionName,
+        singleArgumentFunction(functionName, v -> v < -1 || v > 1 ? null : Math.asin(v)));
+  }
+
+  /**
+   * Definition of atan(x) and atan(y, x) function.
+   * atan(x) calculates the arc tangent of x, that is, the value whose tangent is x.
+   * atan(y, x) calculates the arc tangent of y / x, except that the signs of both arguments
+   * are used to determine the quadrant of the result.
+   * The supported signature of atan function is
+   * (x: INTEGER/LONG/FLOAT/DOUBLE, y: INTEGER/LONG/FLOAT/DOUBLE) -> DOUBLE
+   */
+  private static FunctionResolver atan() {
+    FunctionName functionName = BuiltinFunctionName.ATAN.getName();
+    return new FunctionResolver(functionName,
+        new ImmutableMap.Builder<FunctionSignature, FunctionBuilder>()
+            .put(
+                new FunctionSignature(functionName, Arrays.asList(ExprCoreType.DOUBLE)),
+                unaryOperator(
+                    functionName, Math::atan, ExprValueUtils::getDoubleValue, ExprCoreType.DOUBLE))
+            .put(
+                new FunctionSignature(
+                    functionName, Arrays.asList(ExprCoreType.DOUBLE, ExprCoreType.DOUBLE)),
+                doubleArgFunc(functionName,
+                    Math::atan2, ExprValueUtils::getDoubleValue, ExprValueUtils::getDoubleValue,
+                    ExprCoreType.DOUBLE))
+            .build());
+  }
+
+  /**
+   * Definition of atan2(y, x) function.
+   * Calculates the arc tangent of y / x, except that the signs of both arguments
+   * are used to determine the quadrant of the result.
+   * The supported signature of atan2 function is
+   * (x: INTEGER/LONG/FLOAT/DOUBLE, y: INTEGER/LONG/FLOAT/DOUBLE) -> DOUBLE
+   */
+  private static FunctionResolver atan2() {
+    FunctionName functionName = BuiltinFunctionName.ATAN2.getName();
+    return new FunctionResolver(functionName,
+        new ImmutableMap.Builder<FunctionSignature, FunctionBuilder>()
+            .put(
+                new FunctionSignature(
+                    functionName, Arrays.asList(ExprCoreType.DOUBLE, ExprCoreType.DOUBLE)),
+                doubleArgFunc(functionName,
+                    Math::atan2, ExprValueUtils::getDoubleValue, ExprValueUtils::getDoubleValue,
+                    ExprCoreType.DOUBLE))
+            .build());
+  }
+
+  /**
+   * Definition of cos(x) function.
+   * Calculates the cosine of X, where X is given in radians
+   * The supported signature of cos function is
+   * INTEGER/LONG/FLOAT/DOUBLE -> DOUBLE
+   */
+  private static FunctionResolver cos() {
+    FunctionName functionName = BuiltinFunctionName.COS.getName();
+    return new FunctionResolver(functionName, singleArgumentFunction(functionName, Math::cos));
+  }
+
+  /**
+   * Definition of cot(x) function.
+   * Calculates the cotangent of x
+   * The supported signature of cot function is
+   * INTEGER/LONG/FLOAT/DOUBLE -> DOUBLE
+   */
+  private static FunctionResolver cot() {
+    FunctionName functionName = BuiltinFunctionName.COT.getName();
+    return new FunctionResolver(
+        functionName,
+        singleArgumentFunction(functionName, v -> {
+          if (v == 0) {
+            throw new ArithmeticException(String.format("Out of range value for cot(%s)", v));
+          }
+          return 1 / Math.tan(v);
+        }));
+  }
+
+  /**
+   * Definition of degrees(x) function.
+   * Converts x from radians to degrees
+   * The supported signature of degrees function is
+   * INTEGER/LONG/FLOAT/DOUBLE -> DOUBLE
+   */
+  private static FunctionResolver degrees() {
+    FunctionName functionName = BuiltinFunctionName.DEGREES.getName();
+    return new FunctionResolver(
+        functionName, singleArgumentFunction(functionName, Math::toDegrees));
+  }
+
+  /**
+   * Definition of radians(x) function.
+   * Converts x from degrees to radians
+   * The supported signature of radians function is
+   * INTEGER/LONG/FLOAT/DOUBLE -> DOUBLE
+   */
+  private static FunctionResolver radians() {
+    FunctionName functionName = BuiltinFunctionName.RADIANS.getName();
+    return new FunctionResolver(
+        functionName, singleArgumentFunction(functionName, Math::toRadians));
+  }
+
+  /**
+   * Definition of sin(x) function.
+   * Calculates the sine of x, where x is given in radians
+   * The supported signature of sin function is
+   * INTEGER/LONG/FLOAT/DOUBLE -> DOUBLE
+   */
+  private static FunctionResolver sin() {
+    FunctionName functionName = BuiltinFunctionName.SIN.getName();
+    return new FunctionResolver(functionName, singleArgumentFunction(functionName, Math::sin));
+  }
+
+  /**
+   * Definition of tan(x) function.
+   * Calculates the tangent of x, where x is given in radians
+   * The supported signature of tan function is
+   * INTEGER/LONG/FLOAT/DOUBLE -> DOUBLE
+   */
+  private static FunctionResolver tan() {
+    FunctionName functionName = BuiltinFunctionName.TAN.getName();
+    return new FunctionResolver(functionName, singleArgumentFunction(functionName, Math::tan));
+  }
+
   /**
    * Util method to generate single argument function bundles. Applicable for INTEGER -> INTEGER
    * LONG -> LONG FLOAT -> FLOAT DOUBLE -> DOUBLE