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1   package org.djunits.value.vfloat.scalar;
2   
3   import java.util.Locale;
4   
5   import org.djunits.unit.AmountOfSubstanceUnit;
6   import org.djunits.unit.CatalyticActivityUnit;
7   import org.djunits.unit.DimensionlessUnit;
8   import org.djunits.unit.FrequencyUnit;
9   import org.djunits.value.vfloat.scalar.base.FloatScalarRel;
10  import org.djutils.base.NumberParser;
11  import org.djutils.exceptions.Throw;
12  
13  import jakarta.annotation.Generated;
14  
15  /**
16   * Easy access methods for the FloatCatalyticActivity FloatScalar, which is relative by definition.
17   * <p>
18   * Copyright (c) 2013-2025 Delft University of Technology, PO Box 5, 2600 AA, Delft, the Netherlands. All rights reserved. <br>
19   * BSD-style license. See <a href="https://djunits.org/docs/license.html">DJUNITS License</a>.
20   * </p>
21   * @author <a href="https://www.tudelft.nl/averbraeck">Alexander Verbraeck</a>
22   * @author <a href="https://www.tudelft.nl/staff/p.knoppers/">Peter Knoppers</a>
23   */
24  @Generated(value = "org.djunits.generator.GenerateDJUNIT", date = "2025-09-06T15:16:28.380798Z")
25  public class FloatCatalyticActivity extends FloatScalarRel<CatalyticActivityUnit, FloatCatalyticActivity>
26  {
27      /** */
28      private static final long serialVersionUID = 20150901L;
29  
30      /** Constant with value zero. */
31      public static final FloatCatalyticActivity ZERO = new FloatCatalyticActivity(0.0f, CatalyticActivityUnit.SI);
32  
33      /** Constant with value one. */
34      public static final FloatCatalyticActivity ONE = new FloatCatalyticActivity(1.0f, CatalyticActivityUnit.SI);
35  
36      /** Constant with value NaN. */
37      @SuppressWarnings("checkstyle:constantname")
38      public static final FloatCatalyticActivity NaN = new FloatCatalyticActivity(Float.NaN, CatalyticActivityUnit.SI);
39  
40      /** Constant with value POSITIVE_INFINITY. */
41      public static final FloatCatalyticActivity POSITIVE_INFINITY =
42              new FloatCatalyticActivity(Float.POSITIVE_INFINITY, CatalyticActivityUnit.SI);
43  
44      /** Constant with value NEGATIVE_INFINITY. */
45      public static final FloatCatalyticActivity NEGATIVE_INFINITY =
46              new FloatCatalyticActivity(Float.NEGATIVE_INFINITY, CatalyticActivityUnit.SI);
47  
48      /** Constant with value MAX_VALUE. */
49      public static final FloatCatalyticActivity POS_MAXVALUE =
50              new FloatCatalyticActivity(Float.MAX_VALUE, CatalyticActivityUnit.SI);
51  
52      /** Constant with value -MAX_VALUE. */
53      public static final FloatCatalyticActivity NEG_MAXVALUE =
54              new FloatCatalyticActivity(-Float.MAX_VALUE, CatalyticActivityUnit.SI);
55  
56      /**
57       * Construct FloatCatalyticActivity scalar with a unit.
58       * @param value the float value, expressed in the given unit
59       * @param unit unit for the float value
60       */
61      public FloatCatalyticActivity(final float value, final CatalyticActivityUnit unit)
62      {
63          super(value, unit);
64      }
65  
66      /**
67       * Construct FloatCatalyticActivity scalar.
68       * @param value Scalar from which to construct this instance
69       */
70      public FloatCatalyticActivity(final FloatCatalyticActivity value)
71      {
72          super(value);
73      }
74  
75      /**
76       * Construct FloatCatalyticActivity scalar with a unit using a double value.
77       * @param value the double value, expressed in the given unit
78       * @param unit unit for the resulting float value
79       */
80      public FloatCatalyticActivity(final double value, final CatalyticActivityUnit unit)
81      {
82          super((float) value, unit);
83      }
84  
85      @Override
86      public final FloatCatalyticActivity instantiateRel(final float value, final CatalyticActivityUnit unit)
87      {
88          return new FloatCatalyticActivity(value, unit);
89      }
90  
91      /**
92       * Construct FloatCatalyticActivity scalar based on an SI value.
93       * @param value the float value in SI units
94       * @return the new scalar with the SI value
95       */
96      public static final FloatCatalyticActivity ofSI(final float value)
97      {
98          return new FloatCatalyticActivity(value, CatalyticActivityUnit.SI);
99      }
100 
101     /**
102      * Interpolate between two values. Note that the first value does not have to be smaller than the second.
103      * @param zero the value at a ratio of zero
104      * @param one the value at a ratio of one
105      * @param ratio the ratio between 0 and 1, inclusive
106      * @return a FloatCatalyticActivity at the given ratio between 0 and 1
107      */
108     public static FloatCatalyticActivity interpolate(final FloatCatalyticActivity zero, final FloatCatalyticActivity one,
109             final float ratio)
110     {
111         Throw.when(ratio < 0.0 || ratio > 1.0, IllegalArgumentException.class,
112                 "ratio for interpolation should be between 0 and 1, but is %f", ratio);
113         return new FloatCatalyticActivity(zero.getInUnit() * (1 - ratio) + one.getInUnit(zero.getDisplayUnit()) * ratio,
114                 zero.getDisplayUnit());
115     }
116 
117     /**
118      * Return the maximum value of two relative scalars.
119      * @param r1 the first scalar
120      * @param r2 the second scalar
121      * @return the maximum value of two relative scalars
122      */
123     public static FloatCatalyticActivity max(final FloatCatalyticActivity r1, final FloatCatalyticActivity r2)
124     {
125         return r1.gt(r2) ? r1 : r2;
126     }
127 
128     /**
129      * Return the maximum value of more than two relative scalars.
130      * @param r1 the first scalar
131      * @param r2 the second scalar
132      * @param rn the other scalars
133      * @return the maximum value of more than two relative scalars
134      */
135     public static FloatCatalyticActivity max(final FloatCatalyticActivity r1, final FloatCatalyticActivity r2,
136             final FloatCatalyticActivity... rn)
137     {
138         FloatCatalyticActivity maxr = r1.gt(r2) ? r1 : r2;
139         for (FloatCatalyticActivity r : rn)
140         {
141             if (r.gt(maxr))
142             {
143                 maxr = r;
144             }
145         }
146         return maxr;
147     }
148 
149     /**
150      * Return the minimum value of two relative scalars.
151      * @param r1 the first scalar
152      * @param r2 the second scalar
153      * @return the minimum value of two relative scalars
154      */
155     public static FloatCatalyticActivity min(final FloatCatalyticActivity r1, final FloatCatalyticActivity r2)
156     {
157         return r1.lt(r2) ? r1 : r2;
158     }
159 
160     /**
161      * Return the minimum value of more than two relative scalars.
162      * @param r1 the first scalar
163      * @param r2 the second scalar
164      * @param rn the other scalars
165      * @return the minimum value of more than two relative scalars
166      */
167     public static FloatCatalyticActivity min(final FloatCatalyticActivity r1, final FloatCatalyticActivity r2,
168             final FloatCatalyticActivity... rn)
169     {
170         FloatCatalyticActivity minr = r1.lt(r2) ? r1 : r2;
171         for (FloatCatalyticActivity r : rn)
172         {
173             if (r.lt(minr))
174             {
175                 minr = r;
176             }
177         }
178         return minr;
179     }
180 
181     /**
182      * Returns a FloatCatalyticActivity representation of a textual representation of a value with a unit. The String
183      * representation that can be parsed is the double value in the unit, followed by a localized or English abbreviation of the
184      * unit. Spaces are allowed, but not required, between the value and the unit.
185      * @param text the textual representation to parse into a FloatCatalyticActivity
186      * @return the Scalar representation of the value in its unit
187      * @throws IllegalArgumentException when the text cannot be parsed
188      * @throws NullPointerException when the text argument is null
189      */
190     public static FloatCatalyticActivity valueOf(final String text)
191     {
192         Throw.whenNull(text, "Error parsing FloatCatalyticActivity: text to parse is null");
193         Throw.when(text.length() == 0, IllegalArgumentException.class,
194                 "Error parsing FloatCatalyticActivity: empty text to parse");
195         try
196         {
197             NumberParser numberParser = new NumberParser().lenient().trailing();
198             float f = numberParser.parseFloat(text);
199             String unitString = text.substring(numberParser.getTrailingPosition()).trim();
200             CatalyticActivityUnit unit = CatalyticActivityUnit.BASE.getUnitByAbbreviation(unitString);
201             Throw.when(unit == null, IllegalArgumentException.class, "Unit %s not found for quantity CatalyticActivity",
202                     unitString);
203             return new FloatCatalyticActivity(f, unit);
204         }
205         catch (Exception exception)
206         {
207             throw new IllegalArgumentException("Error parsing FloatCatalyticActivity from " + text + " using Locale "
208                     + Locale.getDefault(Locale.Category.FORMAT), exception);
209         }
210     }
211 
212     /**
213      * Returns a FloatCatalyticActivity based on a value and the textual representation of the unit, which can be localized.
214      * @param value the value to use
215      * @param unitString the textual representation of the unit
216      * @return the Scalar representation of the value in its unit
217      * @throws IllegalArgumentException when the unit cannot be parsed or is incorrect
218      * @throws NullPointerException when the unitString argument is null
219      */
220     public static FloatCatalyticActivity of(final float value, final String unitString)
221     {
222         Throw.whenNull(unitString, "Error parsing FloatCatalyticActivity: unitString is null");
223         Throw.when(unitString.length() == 0, IllegalArgumentException.class,
224                 "Error parsing FloatCatalyticActivity: empty unitString");
225         CatalyticActivityUnit unit = CatalyticActivityUnit.BASE.getUnitByAbbreviation(unitString);
226         Throw.when(unit == null, IllegalArgumentException.class, "Error parsing FloatCatalyticActivity with unit %s",
227                 unitString);
228         return new FloatCatalyticActivity(value, unit);
229     }
230 
231     /**
232      * Calculate the division of FloatCatalyticActivity and FloatCatalyticActivity, which results in a FloatDimensionless
233      * scalar.
234      * @param v scalar
235      * @return scalar as a division of FloatCatalyticActivity and FloatCatalyticActivity
236      */
237     public final FloatDimensionless divide(final FloatCatalyticActivity v)
238     {
239         return new FloatDimensionless(this.si / v.si, DimensionlessUnit.SI);
240     }
241 
242     /**
243      * Calculate the multiplication of FloatCatalyticActivity and FloatDuration, which results in a FloatAmountOfSubstance
244      * scalar.
245      * @param v scalar
246      * @return scalar as a multiplication of FloatCatalyticActivity and FloatDuration
247      */
248     public final FloatAmountOfSubstance times(final FloatDuration v)
249     {
250         return new FloatAmountOfSubstance(this.si * v.si, AmountOfSubstanceUnit.SI);
251     }
252 
253     /**
254      * Calculate the division of FloatCatalyticActivity and FloatAmountOfSubstance, which results in a FloatFrequency scalar.
255      * @param v scalar
256      * @return scalar as a division of FloatCatalyticActivity and FloatAmountOfSubstance
257      */
258     public final FloatFrequency divide(final FloatAmountOfSubstance v)
259     {
260         return new FloatFrequency(this.si / v.si, FrequencyUnit.SI);
261     }
262 
263     /**
264      * Calculate the division of FloatCatalyticActivity and FloatFrequency, which results in a FloatAmountOfSubstance scalar.
265      * @param v scalar
266      * @return scalar as a division of FloatCatalyticActivity and FloatFrequency
267      */
268     public final FloatAmountOfSubstance divide(final FloatFrequency v)
269     {
270         return new FloatAmountOfSubstance(this.si / v.si, AmountOfSubstanceUnit.SI);
271     }
272 
273     @Override
274     public FloatSIScalar reciprocal()
275     {
276         return FloatSIScalar.divide(FloatDimensionless.ONE, this);
277     }
278 
279     /**
280      * Multiply two scalars that result in a scalar of type FloatCatalyticActivity.
281      * @param scalar1 the first scalar
282      * @param scalar2 the second scalar
283      * @return the multiplication of both scalars as an instance of FloatCatalyticActivity
284      */
285     public static FloatCatalyticActivity multiply(final FloatScalarRel<?, ?> scalar1, final FloatScalarRel<?, ?> scalar2)
286     {
287         Throw.whenNull(scalar1, "scalar1 cannot be null");
288         Throw.whenNull(scalar2, "scalar2 cannot be null");
289         Throw.when(
290                 !scalar1.getDisplayUnit().getQuantity().getSiDimensions()
291                         .plus(scalar2.getDisplayUnit().getQuantity().getSiDimensions())
292                         .equals(CatalyticActivityUnit.BASE.getSiDimensions()),
293                 IllegalArgumentException.class,
294                 "Multiplying %s by %s does not result in instance of type FloatCatalyticActivity", scalar1.toDisplayString(),
295                 scalar2.toDisplayString());
296         return new FloatCatalyticActivity(scalar1.si * scalar2.si, CatalyticActivityUnit.SI);
297     }
298 
299     /**
300      * Divide two scalars that result in a scalar of type FloatCatalyticActivity.
301      * @param scalar1 the first scalar
302      * @param scalar2 the second scalar
303      * @return the division of scalar1 by scalar2 as an instance of FloatCatalyticActivity
304      */
305     public static FloatCatalyticActivity divide(final FloatScalarRel<?, ?> scalar1, final FloatScalarRel<?, ?> scalar2)
306     {
307         Throw.whenNull(scalar1, "scalar1 cannot be null");
308         Throw.whenNull(scalar2, "scalar2 cannot be null");
309         Throw.when(
310                 !scalar1.getDisplayUnit().getQuantity().getSiDimensions()
311                         .minus(scalar2.getDisplayUnit().getQuantity().getSiDimensions())
312                         .equals(CatalyticActivityUnit.BASE.getSiDimensions()),
313                 IllegalArgumentException.class,
314                 "Dividing %s by %s does not result in an instance of type FloatCatalyticActivity", scalar1.toDisplayString(),
315                 scalar2.toDisplayString());
316         return new FloatCatalyticActivity(scalar1.si / scalar2.si, CatalyticActivityUnit.SI);
317     }
318 
319 }