Add comment to DocumentationType.

# Conflicts:
#	src/main/java/org/nwapw/abacus/plugin/StandardPlugin.java

.travis.yml

@@ -0,0 +1 @@
+language: java

README.md

@@ -1,12 +1,14 @@
 # abacus
+[![Build Status](https://travis-ci.org/DanilaFe/abacus.svg?branch=master)](https://travis-ci.org/DanilaFe/abacus)
+
 Summer project for NWAPW.
 Created by Arthur Drobot, Danila Fedorin and Riley Jones.
 
 ## Project Description
-Abacus is a calculator built with extensibility and usability in mind. It provides a plugin interface, via Java, as Lua provides too difficult to link up to the Java core. The description of the internals of the project can be found on the wiki page.
+Abacus is a calculator built with extensibility and usability in mind. It provides a plugin interface, via Java, as Lua proves too difficult to link up to the Java core. The description of the internals of the project can be found on the wiki page.
 
 ## Current State
-Abacus is being built for the Northwest Advanced Programming Workshop, a 3 week program in which students work in treams to complete a single project, following principles of agile development. Because of its short timeframe, Abacus is not even close to completed state. Below is a list of the current features and problems.
+Abacus is being built for the Northwest Advanced Programming Workshop, a 3 week program in which students work in teams to complete a single project, following principles of agile development. Because of its short timeframe, Abacus is not even close to completed state. Below is a list of the current features and problems.
 - [x] Basic number class
 - [x] Implementation of basic functions 
 - [x] Implementation of `exp`, `ln`, `sqrt` using the basic functions and Taylor Series

build.gradle

@@ -1,23 +1,13 @@
-apply plugin: 'java'
-apply plugin: 'application'
+subprojects {
 
-sourceSets {
-  main {
-    java {
-      srcDirs = ['src']
+    apply plugin: 'java'
+
+    repositories {
+        mavenCentral()
+    }
+
+    dependencies {
+        compile "org.jetbrains.kotlin:kotlin-stdlib-jre7:1.1.3"
     }
-  }
 }
 
-repositories {
-  mavenCentral()
-}
-
-dependencies {
-    compile 'com.moandjiezana.toml:toml4j:0.7.1'
-    testCompile 'junit:junit:4.12'
-}
-
-// Define the main class for the application
-mainClassName = 'org.nwapw.abacus.Abacus'
-

core/build.gradle

@@ -0,0 +1,8 @@
+plugins {
+    id 'org.jetbrains.kotlin.jvm' version '1.1.3'
+}
+
+dependencies {
+    compile 'com.moandjiezana.toml:toml4j:0.7.1'
+    testCompile 'junit:junit:4.12'
+}

core/src/main/java/org/nwapw/abacus/Abacus.java

@@ -1,22 +1,15 @@
 package org.nwapw.abacus;
 
-import org.nwapw.abacus.config.ConfigurationObject;
-import org.nwapw.abacus.number.NaiveNumber;
+import org.nwapw.abacus.config.Configuration;
 import org.nwapw.abacus.number.NumberInterface;
 import org.nwapw.abacus.parsing.LexerTokenizer;
 import org.nwapw.abacus.parsing.ShuntingYardParser;
 import org.nwapw.abacus.parsing.TreeBuilder;
-import org.nwapw.abacus.plugin.ClassFinder;
+import org.nwapw.abacus.plugin.NumberImplementation;
 import org.nwapw.abacus.plugin.PluginManager;
 import org.nwapw.abacus.plugin.StandardPlugin;
 import org.nwapw.abacus.tree.NumberReducer;
 import org.nwapw.abacus.tree.TreeNode;
-import org.nwapw.abacus.window.Window;
-
-import javax.swing.*;
-import java.io.File;
-import java.io.IOException;
-import java.lang.reflect.InvocationTargetException;
 
 /**
  * The main calculator class. This is responsible
@@ -26,18 +19,10 @@ import java.lang.reflect.InvocationTargetException;
 public class Abacus {
 
     /**
-     * The default implementation to use for the number representation.
+     * The default number implementation to be used if no other one is available / selected.
      */
-    public static final Class<? extends NumberInterface> DEFAULT_NUMBER = NaiveNumber.class;
-    /**
-     * The file used for saving and loading configuration.
-     */
-    public static final File CONFIG_FILE = new File("config.toml");
+    public static final NumberImplementation DEFAULT_IMPLEMENTATION = StandardPlugin.IMPLEMENTATION_NAIVE;
 
-    /**
-     * The main Abacus UI.
-     */
-    private Window mainUi;
     /**
      * The plugin manager responsible for
      * loading and unloading plugins,
@@ -51,7 +36,7 @@ public class Abacus {
     /**
      * The configuration loaded from a file.
      */
-    private ConfigurationObject configuration;
+    private Configuration configuration;
     /**
      * The tree builder used to construct a tree
      * from a string.
@@ -60,33 +45,24 @@ public class Abacus {
 
     /**
      * Creates a new instance of the Abacus calculator.
+     *
+     * @param configuration the configuration object for this Abacus instance.
      */
-    public Abacus(){
+    public Abacus(Configuration configuration) {
         pluginManager = new PluginManager(this);
-        mainUi = new Window(this);
         numberReducer = new NumberReducer(this);
-        configuration = new ConfigurationObject(CONFIG_FILE);
-        configuration.save(CONFIG_FILE);
+        this.configuration = new Configuration(configuration);
         LexerTokenizer lexerTokenizer = new LexerTokenizer();
         ShuntingYardParser shuntingYardParser = new ShuntingYardParser(this);
         treeBuilder = new TreeBuilder<>(lexerTokenizer, shuntingYardParser);
 
-        pluginManager.addListener(lexerTokenizer);
         pluginManager.addListener(shuntingYardParser);
-        pluginManager.addInstantiated(new StandardPlugin(pluginManager));
-        try {
-            ClassFinder.loadJars("plugins")
-                    .forEach(plugin -> pluginManager.addClass(plugin));
-        } catch (IOException | ClassNotFoundException e) {
-            e.printStackTrace();
-        }
-        pluginManager.load();
-
-        mainUi.setVisible(true);
+        pluginManager.addListener(lexerTokenizer);
     }
 
     /**
      * Gets the current tree builder.
+     *
      * @return the main tree builder in this abacus instance.
      */
     public TreeBuilder getTreeBuilder() {
@@ -95,23 +71,17 @@ public class Abacus {
 
     /**
      * Gets the current plugin manager,
+     *
      * @return the plugin manager in this abacus instance.
      */
     public PluginManager getPluginManager() {
         return pluginManager;
     }
 
-    /**
-     * Gets the current UI.
-     * @return the UI window in this abacus instance.
-     */
-    public Window getMainUi() {
-        return mainUi;
-    }
-
     /**
      * Get the reducer that is responsible for transforming
      * an expression into a number.
+     *
      * @return the number reducer in this abacus instance.
      */
     public NumberReducer getNumberReducer() {
@@ -120,52 +90,46 @@ public class Abacus {
 
     /**
      * Gets the configuration object associated with this instance.
+     *
      * @return the configuration object.
      */
-    public ConfigurationObject getConfiguration() {
+    public Configuration getConfiguration() {
         return configuration;
     }
 
     /**
      * Parses a string into a tree structure using the main
      * tree builder.
+     *
      * @param input the input string to parse
      * @return the resulting tree, null if the tree builder or the produced tree are null.
      */
-    public TreeNode parseString(String input){
+    public TreeNode parseString(String input) {
         return treeBuilder.fromString(input);
     }
 
     /**
      * Evaluates the given tree using the main
      * number reducer.
+     *
      * @param tree the tree to reduce, must not be null.
      * @return the resulting number, or null of the reduction failed.
      */
-    public NumberInterface evaluateTree(TreeNode tree){
+    public NumberInterface evaluateTree(TreeNode tree) {
         return tree.reduce(numberReducer);
     }
 
-    public NumberInterface numberFromString(String numberString){
-        Class<? extends NumberInterface> toInstantiate =
-                pluginManager.numberFor(configuration.getNumberImplementation());
-        if(toInstantiate == null) toInstantiate = DEFAULT_NUMBER;
+    /**
+     * Creates a number from a string.
+     *
+     * @param numberString the string to create the number from.
+     * @return the resulting number.
+     */
+    public NumberInterface numberFromString(String numberString) {
+        NumberImplementation toInstantiate =
+                pluginManager.numberImplementationFor(configuration.getNumberImplementation());
+        if (toInstantiate == null) toInstantiate = DEFAULT_IMPLEMENTATION;
 
-        try {
-            return toInstantiate.getConstructor(String.class).newInstance(numberString);
-        } catch (InstantiationException | IllegalAccessException | NoSuchMethodException | InvocationTargetException e) {
-            e.printStackTrace();
-        }
-        return null;
-    }
-
-    public static void main(String[] args){
-        try {
-            UIManager.setLookAndFeel(UIManager.getSystemLookAndFeelClassName());
-        } catch (ClassNotFoundException | InstantiationException | UnsupportedLookAndFeelException | IllegalAccessException e) {
-            e.printStackTrace();
-        }
-
-        new Abacus();
+        return toInstantiate.instanceForString(numberString);
     }
 }

core/src/main/java/org/nwapw/abacus/config/Configuration.java

@@ -0,0 +1,159 @@
+package org.nwapw.abacus.config;
+
+import com.moandjiezana.toml.Toml;
+import com.moandjiezana.toml.TomlWriter;
+
+import java.io.File;
+import java.io.IOException;
+import java.util.Arrays;
+import java.util.HashSet;
+import java.util.Set;
+
+/**
+ * The configuration object that stores
+ * options that the user can change.
+ */
+public class Configuration {
+
+    /**
+     * The defaults TOML string.
+     */
+    private static final String DEFAULT_CONFIG =
+            "numberImplementation = \"naive\"\n" +
+                    "disabledPlugins = []";
+    /**
+     * The defaults TOML object, parsed from the string.
+     */
+    private static final Toml DEFAULT_TOML = new Toml().read(DEFAULT_CONFIG);
+    /**
+     * The TOML writer used to write this configuration to a file.
+     */
+    private static final TomlWriter TOML_WRITER = new TomlWriter();
+
+    /**
+     * The computation delay for which the thread can run without interruption.
+     */
+    private double computationDelay = 0;
+    /**
+     * The implementation of the number that should be used.
+     */
+    private String numberImplementation = "<default>";
+    /**
+     * The list of disabled plugins in this Configuration.
+     */
+    private Set<String> disabledPlugins = new HashSet<>();
+
+    /**
+     * Creates a new configuration form the given configuration.
+     *
+     * @param copyFrom the configuration to copy.
+     */
+    public Configuration(Configuration copyFrom) {
+        copyFrom(copyFrom);
+    }
+
+    /**
+     * Creates a new configuration with the given values.
+     *
+     * @param computationDelay     the delay before the computation gets killed.
+     * @param numberImplementation the number implementation, like "naive" or "precise"
+     * @param disabledPlugins      the list of disabled plugins.
+     */
+    public Configuration(double computationDelay, String numberImplementation, String[] disabledPlugins) {
+        this.computationDelay = computationDelay;
+        this.numberImplementation = numberImplementation;
+        this.disabledPlugins.addAll(Arrays.asList(disabledPlugins));
+    }
+
+    /**
+     * Loads a configuration from a given file, keeping non-specified fields default.
+     *
+     * @param fromFile the file to load from.
+     */
+    public Configuration(File fromFile) {
+        if (!fromFile.exists()) return;
+        copyFrom(new Toml(DEFAULT_TOML).read(fromFile).to(Configuration.class));
+    }
+
+    /**
+     * Copies the values from the given configuration into this one.
+     *
+     * @param otherConfiguration the configuration to copy from.
+     */
+    public void copyFrom(Configuration otherConfiguration) {
+        this.computationDelay = otherConfiguration.computationDelay;
+        this.numberImplementation = otherConfiguration.numberImplementation;
+        this.disabledPlugins.addAll(otherConfiguration.disabledPlugins);
+    }
+
+    /**
+     * Saves this configuration to the given file, creating
+     * any directories that do not exist.
+     *
+     * @param file the file to save to.
+     */
+    public void saveTo(File file) {
+        if (file.getParentFile() != null) file.getParentFile().mkdirs();
+        try {
+            TOML_WRITER.write(this, file);
+        } catch (IOException e) {
+            e.printStackTrace();
+        }
+    }
+
+    /**
+     * Gets the value of this configuration as a string.
+     *
+     * @return the string that represents this configuration.
+     */
+    public String asTomlString() {
+        return TOML_WRITER.write(this);
+    }
+
+    /**
+     * Gets the number implementation from this configuration.
+     *
+     * @return the number implementation.
+     */
+    public String getNumberImplementation() {
+        return numberImplementation;
+    }
+
+    /**
+     * Sets the number implementation for the configuration
+     *
+     * @param numberImplementation the number implementation.
+     */
+    public void setNumberImplementation(String numberImplementation) {
+        this.numberImplementation = numberImplementation;
+    }
+
+    /**
+     * Gets the list of disabled plugins.
+     *
+     * @return the list of disabled plugins.
+     */
+    public Set<String> getDisabledPlugins() {
+        return disabledPlugins;
+    }
+
+
+    /**
+     * Gets the computation delay specified in the configuration.
+     *
+     * @return the computaton delay.
+     */
+    public double getComputationDelay() {
+        return computationDelay;
+    }
+
+    /**
+     * Sets the computation delay.
+     *
+     * @param computationDelay the new computation delay.
+     */
+    public void setComputationDelay(double computationDelay) {
+        this.computationDelay = computationDelay;
+    }
+
+}

core/src/main/java/org/nwapw/abacus/function/DocumentationType.java

@@ -0,0 +1,11 @@
+package org.nwapw.abacus.function;
+
+/**
+ * Enum that holds the type of documentation that has been
+ * registered with Abacus.
+ */
+public enum DocumentationType {
+
+    FUNCTION
+
+}

core/src/main/java/org/nwapw/abacus/function/Function.java

@@ -1,10 +1,6 @@
 package org.nwapw.abacus.function;
 
-import org.nwapw.abacus.number.NaiveNumber;
 import org.nwapw.abacus.number.NumberInterface;
-import org.nwapw.abacus.number.PreciseNumber;
-
-import java.util.HashMap;
 
 /**
  * A function that operates on one or more
@@ -12,17 +8,9 @@ import java.util.HashMap;
  */
 public abstract class Function {
 
-    /**
-     * A map to correctly promote different number implementations to each other.
-     */
-    private static final HashMap<Class<? extends NumberInterface>, Integer> priorityMap =
-            new HashMap<Class<? extends NumberInterface>, Integer>() {{
-                put(NaiveNumber.class, 0);
-                put(PreciseNumber.class, 1);
-            }};
-
     /**
      * Checks whether the given params will work for the given function.
+     *
      * @param params the given params
      * @return true if the params can be used with this function.
      */
@@ -31,6 +19,7 @@ public abstract class Function {
     /**
      * Internal apply implementation, which already receives appropriately promoted
      * parameters that have bee run through matchesParams
+     *
      * @param params the promoted parameters.
      * @return the return value of the function.
      */
@@ -38,11 +27,12 @@ public abstract class Function {
 
     /**
      * Function to check, promote arguments and run the function.
+     *
      * @param params the raw input parameters.
      * @return the return value of the function, or null if an error occurred.
      */
-    public NumberInterface apply(NumberInterface...params) {
-        if(!matchesParams(params)) return null;
+    public NumberInterface apply(NumberInterface... params) {
+        if (!matchesParams(params)) return null;
         return applyInternal(params);
     }
 

core/src/main/java/org/nwapw/abacus/function/OperatorType.java

@@ -4,5 +4,5 @@ package org.nwapw.abacus.function;
  * The type of an operator, describing how it should behave.
  */
 public enum OperatorType {
-    BINARY_INFIX, UNARY_POSTFIX
+    BINARY_INFIX, UNARY_POSTFIX, UNARY_PREFIX
 }

core/src/main/java/org/nwapw/abacus/lexing/Lexer.java

@@ -10,15 +10,111 @@ import java.util.*;
 /**
  * A lexer that can generate tokens of a given type given a list of regular expressions
  * to operate on.
+ *
  * @param <T> the type used to identify which match belongs to which pattern.
  */
 public class Lexer<T> {
 
+    /**
+     * The registered patterns.
+     */
+    private Map<PatternEntry<T>, Pattern<T>> patterns;
+
+    /**
+     * Creates a new lexer with no registered patterns.
+     */
+    public Lexer() {
+        patterns = new HashMap<>();
+    }
+
+    /**
+     * Registers a single pattern.
+     *
+     * @param pattern the pattern regex
+     * @param id      the ID by which to identify the pattern.
+     */
+    public void register(String pattern, T id) {
+        Pattern<T> compiledPattern = new Pattern<>(pattern, id);
+        if (compiledPattern.getHead() != null) patterns.put(new PatternEntry<>(pattern, id), compiledPattern);
+    }
+
+    /**
+     * Unregisters a pattern.
+     *
+     * @param pattern the pattern to unregister
+     * @param id      the ID by which to identify the pattern.
+     */
+    public void unregister(String pattern, T id) {
+        patterns.remove(new PatternEntry<>(pattern, id));
+    }
+
+    /**
+     * Reads one token from the given string.
+     *
+     * @param from    the string to read from
+     * @param startAt the index to start at
+     * @param compare the comparator used to sort tokens by their ID.
+     * @return the best match.
+     */
+    public Match<T> lexOne(String from, int startAt, Comparator<T> compare) {
+        ArrayList<Match<T>> matches = new ArrayList<>();
+        HashSet<PatternNode<T>> currentSet = new HashSet<>();
+        HashSet<PatternNode<T>> futureSet = new HashSet<>();
+        int index = startAt;
+        for (Pattern<T> pattern : patterns.values()) {
+            pattern.getHead().addInto(currentSet);
+        }
+        while (!currentSet.isEmpty()) {
+            for (PatternNode<T> node : currentSet) {
+                if (index < from.length() && node.matches(from.charAt(index))) {
+                    node.addOutputsInto(futureSet);
+                } else if (node instanceof EndNode) {
+                    matches.add(new Match<>(from.substring(startAt, index), ((EndNode<T>) node).getPatternId()));
+                }
+            }
+
+            HashSet<PatternNode<T>> tmp = currentSet;
+            currentSet = futureSet;
+            futureSet = tmp;
+            futureSet.clear();
+
+            index++;
+        }
+        matches.sort((a, b) -> compare.compare(a.getType(), b.getType()));
+        if (compare != null) {
+            matches.sort(Comparator.comparingInt(a -> a.getContent().length()));
+        }
+        return matches.isEmpty() ? null : matches.get(matches.size() - 1);
+    }
+
+    /**
+     * Reads all tokens from a string.
+     *
+     * @param from    the string to start from.
+     * @param startAt the index to start at.
+     * @param compare the comparator used to sort matches by their IDs.
+     * @return the resulting list of matches, in order, or null on error.
+     */
+    public List<Match<T>> lexAll(String from, int startAt, Comparator<T> compare) {
+        int index = startAt;
+        ArrayList<Match<T>> matches = new ArrayList<>();
+        Match<T> lastMatch = null;
+        while (index < from.length() && (lastMatch = lexOne(from, index, compare)) != null) {
+            int length = lastMatch.getContent().length();
+            if (length == 0) return null;
+            matches.add(lastMatch);
+            index += length;
+        }
+        if (lastMatch == null) return null;
+        return matches;
+    }
+
     /**
      * An entry that represents a pattern that has been registered with the lexer.
+     *
      * @param <T> the type used to identify the pattern.
      */
-    private static class PatternEntry<T>{
+    private static class PatternEntry<T> {
         /**
          * The name of the entry.
          */
@@ -30,10 +126,11 @@ public class Lexer<T> {
 
         /**
          * Creates a new pattern entry with the given name and id.
+         *
          * @param name the name of the pattern entry.
-         * @param id the id of the pattern entry.
+         * @param id   the id of the pattern entry.
          */
-        public PatternEntry(String name, T id){
+        public PatternEntry(String name, T id) {
             this.name = name;
             this.id = id;
         }
@@ -51,94 +148,4 @@ public class Lexer<T> {
         }
     }
 
-    /**
-     * The registered patterns.
-     */
-    private Map<PatternEntry<T>, Pattern<T>> patterns;
-
-    /**
-     * Creates a new lexer with no registered patterns.
-     */
-    public Lexer(){
-        patterns = new HashMap<>();
-    }
-
-    /**
-     * Registers a single pattern.
-     * @param pattern the pattern regex
-     * @param id the ID by which to identify the pattern.
-     */
-    public void register(String pattern, T id){
-        Pattern<T> compiledPattern = new Pattern<>(pattern, id);
-        if(compiledPattern.getHead() != null) patterns.put(new PatternEntry<>(pattern, id), compiledPattern);
-    }
-
-    /**
-     * Unregisters a pattern.
-     * @param pattern the pattern to unregister
-     * @param id the ID by which to identify the pattern.
-     */
-    public void unregister(String pattern, T id){
-        patterns.remove(new PatternEntry<>(pattern, id));
-    }
-
-    /**
-     * Reads one token from the given string.
-     * @param from the string to read from
-     * @param startAt the index to start at
-     * @param compare the comparator used to sort tokens by their ID.
-     * @return the best match.
-     */
-    public Match<T> lexOne(String from, int startAt, Comparator<T> compare){
-        ArrayList<Match<T>> matches = new ArrayList<>();
-        HashSet<PatternNode<T>> currentSet = new HashSet<>();
-        HashSet<PatternNode<T>> futureSet = new HashSet<>();
-        int index = startAt;
-        for(Pattern<T> pattern : patterns.values()){
-            pattern.getHead().addInto(currentSet);
-        }
-        while(!currentSet.isEmpty()){
-            for(PatternNode<T> node : currentSet){
-                if(index < from.length() && node.matches(from.charAt(index))) {
-                    node.addOutputsInto(futureSet);
-                } else if(node instanceof EndNode){
-                    matches.add(new Match<>(from.substring(startAt, index), ((EndNode<T>) node).getPatternId()));
-                }
-            }
-
-            HashSet<PatternNode<T>> tmp = currentSet;
-            currentSet = futureSet;
-            futureSet = tmp;
-            futureSet.clear();
-
-            index++;
-        }
-        matches.sort((a, b) -> compare.compare(a.getType(), b.getType()));
-        if(compare != null) {
-            matches.sort(Comparator.comparingInt(a -> a.getContent().length()));
-        }
-        return matches.isEmpty() ? null : matches.get(matches.size() - 1);
-    }
-
-    /**
-     * Reads all tokens from a string.
-     * @param from the string to start from.
-     * @param startAt the index to start at.
-     * @param compare the comparator used to sort matches by their IDs.
-     * @return the resulting list of matches, in order, or null on error.
-     */
-    public List<Match<T>> lexAll(String from, int startAt, Comparator<T> compare){
-        int index = startAt;
-        ArrayList<Match<T>> matches = new ArrayList<>();
-        Match<T> lastMatch = null;
-        while(index < from.length() && (lastMatch = lexOne(from, index, compare)) != null){
-            int length = lastMatch.getContent().length();
-            if(length == 0) return null;
-            matches.add(lastMatch);
-            index += length;
-        }
-        if(lastMatch == null) return null;
-        return matches;
-    }
-
 }

core/src/main/java/org/nwapw/abacus/lexing/pattern/AnyNode.java

@@ -2,6 +2,7 @@ package org.nwapw.abacus.lexing.pattern;
 
 /**
  * A pattern node that matches any character.
+ *
  * @param <T> the type that's used to tell which pattern this node belongs to.
  */
 public class AnyNode<T> extends PatternNode<T> {

core/src/main/java/org/nwapw/abacus/lexing/pattern/EndNode.java

@@ -2,6 +2,7 @@ package org.nwapw.abacus.lexing.pattern;
 
 /**
  * A node that represents a successful match.
+ *
  * @param <T> the type that's used to tell which pattern this node belongs to.
  */
 public class EndNode<T> extends PatternNode<T> {
@@ -13,17 +14,19 @@ public class EndNode<T> extends PatternNode<T> {
 
     /**
      * Creates a new end node with the given ID.
+     *
      * @param patternId the pattern ID.
      */
-    public EndNode(T patternId){
+    public EndNode(T patternId) {
         this.patternId = patternId;
     }
 
     /**
      * Gets the pattern ID.
+     *
      * @return the pattern ID.
      */
-    public T getPatternId(){
+    public T getPatternId() {
         return patternId;
     }
 

core/src/main/java/org/nwapw/abacus/lexing/pattern/LinkNode.java

@@ -1,17 +1,17 @@
 package org.nwapw.abacus.lexing.pattern;
 
-import java.util.ArrayList;
 import java.util.Collection;
 
 /**
  * A node that is used as structural glue in pattern compilation.
+ *
  * @param <T> the type that's used to tell which pattern this node belongs to.
  */
 public class LinkNode<T> extends PatternNode<T> {
 
     @Override
     public void addInto(Collection<PatternNode<T>> into) {
-        if(!into.contains(this)) {
+        if (!into.contains(this)) {
             into.add(this);
             addOutputsInto(into);
         }

core/src/main/java/org/nwapw/abacus/lexing/pattern/Match.java

@@ -2,6 +2,7 @@ package org.nwapw.abacus.lexing.pattern;
 
 /**
  * A match that has been generated by the lexer.
+ *
  * @param <T> the type used to represent the ID of the pattern this match belongs to.
  */
 public class Match<T> {
@@ -17,16 +18,18 @@ public class Match<T> {
 
     /**
      * Creates a new match with the given parameters.
+     *
      * @param content the content of this match.
-     * @param type the type of the match.
+     * @param type    the type of the match.
      */
-    public Match(String content, T type){
+    public Match(String content, T type) {
         this.content = content;
         this.type = type;
     }
 
     /**
      * Gets the content of this match.
+     *
      * @return the content.
      */
     public String getContent() {
@@ -35,6 +38,7 @@ public class Match<T> {
 
     /**
      * Gets the pattern type of the node.
+     *
      * @return the ID of the pattern that this match matched.
      */
     public T getType() {

core/src/main/java/org/nwapw/abacus/lexing/pattern/Pattern.java

@@ -8,6 +8,7 @@ import java.util.function.Function;
 
 /**
  * A pattern that can be compiled from a string and used in lexing.
+ *
  * @param <T> the type that is used to identify and sort this pattern.
  */
 public class Pattern<T> {
@@ -40,13 +41,53 @@ public class Pattern<T> {
                 put('?', Pattern.this::transformQuestion);
             }};
 
+    /**
+     * Creates / compiles a new pattern with the given id from the given string.
+     *
+     * @param from the string to compile a pattern from.
+     * @param id   the ID to use.
+     */
+    public Pattern(String from, T id) {
+        this.id = id;
+        index = 0;
+        source = from;
+
+        PatternChain<T> chain = parseSegment(false);
+        if (chain == null) {
+            head = null;
+        } else {
+            chain.append(new EndNode<>(id));
+            head = chain.head;
+        }
+    }
+
+    /**
+     * Removes all characters that are considered "special" from
+     * the given string.
+     *
+     * @param from the string to sanitize.
+     * @return the resulting string.
+     */
+    public static String sanitize(String from) {
+        Pattern<Integer> pattern = new Pattern<>("", 0);
+        from = from.replace(".", "\\.");
+        from = from.replace("|", "\\|");
+        from = from.replace("(", "\\(");
+        from = from.replace(")", "\\)");
+        for (Character key : pattern.operations.keySet()) {
+            from = from.replace("" + key, "\\" + key);
+        }
+        return from;
+    }
+
     /**
      * A regex operator function that turns the chain
      * into a one-or-more chain.
+     *
      * @param chain the chain to transform.
      * @return the modified chain.
      */
-    private PatternChain<T> transformPlus(PatternChain<T> chain){
+    private PatternChain<T> transformPlus(PatternChain<T> chain) {
         chain.tail.outputStates.add(chain.head);
         return chain;
     }
@@ -54,10 +95,11 @@ public class Pattern<T> {
     /**
      * A regex operator function that turns the chain
      * into a zero-or-more chain.
+     *
      * @param chain the chain to transform.
      * @return the modified chain.
      */
-    private PatternChain<T> transformStar(PatternChain<T> chain){
+    private PatternChain<T> transformStar(PatternChain<T> chain) {
         LinkNode<T> newTail = new LinkNode<>();
         LinkNode<T> newHead = new LinkNode<>();
         newHead.outputStates.add(chain.head);
@@ -72,10 +114,11 @@ public class Pattern<T> {
     /**
      * A regex operator function that turns the chain
      * into a zero-or-one chain.
+     *
      * @param chain the chain to transform.
      * @return the modified chain.
      */
-    private PatternChain<T> transformQuestion(PatternChain<T> chain){
+    private PatternChain<T> transformQuestion(PatternChain<T> chain) {
         LinkNode<T> newTail = new LinkNode<>();
         LinkNode<T> newHead = new LinkNode<>();
         newHead.outputStates.add(chain.head);
@@ -88,14 +131,15 @@ public class Pattern<T> {
 
     /**
      * Combines a collection of chains into one OR chain.
+     *
      * @param collection the collection of chains to combine.
      * @return the resulting OR chain.
      */
-    private PatternChain<T> combineChains(Collection<PatternChain<T>> collection){
+    private PatternChain<T> combineChains(Collection<PatternChain<T>> collection) {
         LinkNode<T> head = new LinkNode<>();
         LinkNode<T> tail = new LinkNode<>();
         PatternChain<T> newChain = new PatternChain<>(head, tail);
-        for(PatternChain<T> chain : collection){
+        for (PatternChain<T> chain : collection) {
             head.outputStates.add(chain.head);
             chain.tail.outputStates.add(tail);
         }
@@ -104,105 +148,108 @@ public class Pattern<T> {
 
     /**
      * Parses a single value from the input into a chain.
+     *
      * @return the resulting chain, or null on error.
      */
-    private PatternChain<T> parseValue(){
-        if(index >= source.length()) return null;
-        if(source.charAt(index) == '\\'){
-            if(++index >= source.length()) return null;
+    private PatternChain<T> parseValue() {
+        if (index >= source.length()) return null;
+        if (source.charAt(index) == '\\') {
+            if (++index >= source.length()) return null;
         }
         return new PatternChain<>(new ValueNode<>(source.charAt(index++)));
     }
 
     /**
      * Parses a [] range from the input into a chain.
+     *
      * @return the resulting chain, or null on error.
      */
-    private PatternChain<T> parseOr(){
+    private PatternChain<T> parseOr() {
         Stack<PatternChain<T>> orStack = new Stack<>();
         index++;
-        while(index < source.length() && source.charAt(index) != ']'){
-            if(source.charAt(index) == '-'){
+        while (index < source.length() && source.charAt(index) != ']') {
+            if (source.charAt(index) == '-') {
                 index++;
-                if(orStack.empty() || orStack.peek().tail.range() == '\0') return null;
+                if (orStack.empty() || orStack.peek().tail.range() == '\0') return null;
                 PatternChain<T> bottomRange = orStack.pop();
                 PatternChain<T> topRange = parseValue();
-                if(topRange == null || topRange.tail.range() == '\0') return null;
+                if (topRange == null || topRange.tail.range() == '\0') return null;
 
                 orStack.push(new PatternChain<>(new RangeNode<>(bottomRange.tail.range(), topRange.tail.range())));
             } else {
                 PatternChain<T> newChain = parseValue();
-                if(newChain == null) return null;
+                if (newChain == null) return null;
                 orStack.push(newChain);
             }
         }
-        if(index++ >= source.length()) return null;
+        if (index++ >= source.length()) return null;
         return (orStack.size() == 1) ? orStack.pop() : combineChains(orStack);
     }
 
     /**
      * Parses a repeatable segment from the input into a chain
+     *
      * @param isSubsegment whether the segment is a sub-expression "()", and therefore
      *                     whether to expect a closing brace.
      * @return the resulting chain, or null on error.
      */
-    private PatternChain<T> parseSegment(boolean isSubsegment){
-        if(index >= source.length() || ((source.charAt(index) != '(') && isSubsegment)) return null;
-        if(isSubsegment) index++;
+    private PatternChain<T> parseSegment(boolean isSubsegment) {
+        if (index >= source.length() || ((source.charAt(index) != '(') && isSubsegment)) return null;
+        if (isSubsegment) index++;
 
         Stack<PatternChain<T>> orChain = new Stack<>();
         PatternChain<T> fullChain = new PatternChain<>();
         PatternChain<T> currentChain = null;
-        while (index < source.length() && source.charAt(index) != ')'){
+        while (index < source.length() && source.charAt(index) != ')') {
             char currentChar = source.charAt(index);
-            if(operations.containsKey(currentChar)){
-                if(currentChain == null) return null;
+            if (operations.containsKey(currentChar)) {
+                if (currentChain == null) return null;
 
                 currentChain = operations.get(currentChar).apply(currentChain);
                 fullChain.append(currentChain);
                 currentChain = null;
                 index++;
-            } else if(currentChar == '|'){
-                if(currentChain == null) return null;
+            } else if (currentChar == '|') {
+                if (currentChain == null) return null;
 
                 fullChain.append(currentChain);
                 orChain.push(fullChain);
                 currentChain = null;
                 fullChain = new PatternChain<>();
-                if(++index >= source.length()) return null;
-            } else if(currentChar == '('){
-                if(currentChain != null) {
+                if (++index >= source.length()) return null;
+            } else if (currentChar == '(') {
+                if (currentChain != null) {
                     fullChain.append(currentChain);
                 }
 
                 currentChain = parseSegment(true);
-                if(currentChain == null) return null;
-            } else if(currentChar == '['){
-                if(currentChain != null){
+                if (currentChain == null) return null;
+            } else if (currentChar == '[') {
+                if (currentChain != null) {
                     fullChain.append(currentChain);
                 }
                 currentChain = parseOr();
-                if(currentChain == null) return null;
-            } else if(currentChar == '.'){
-                if(currentChain != null){
+                if (currentChain == null) return null;
+            } else if (currentChar == '.') {
+                if (currentChain != null) {
                     fullChain.append(currentChain);
                 }
                 currentChain = new PatternChain<>(new AnyNode<>());
                 index++;
             } else {
-                if(currentChain != null){
+                if (currentChain != null) {
                     fullChain.append(currentChain);
                 }
                 currentChain = parseValue();
-                if(currentChain == null) return null;
+                if (currentChain == null) return null;
             }
         }
 
-        if(!(!isSubsegment || (index < source.length() && source.charAt(index) == ')'))) return null;
-        if(isSubsegment) index++;
+        if (!(!isSubsegment || (index < source.length() && source.charAt(index) == ')'))) return null;
+        if (isSubsegment) index++;
 
-        if(currentChain != null) fullChain.append(currentChain);
-        if(!orChain.empty()){
+        if (currentChain != null) fullChain.append(currentChain);
+        if (!orChain.empty()) {
             orChain.push(fullChain);
             fullChain = combineChains(orChain);
         }
@@ -210,48 +257,12 @@ public class Pattern<T> {
         return fullChain;
     }
 
-    /**
-     * Creates / compiles a new pattern with the given id from the given string.
-     * @param from the string to compile a pattern from.
-     * @param id the ID to use.
-     */
-    public Pattern(String from, T id){
-        this.id = id;
-        index = 0;
-        source = from;
-
-        PatternChain<T> chain = parseSegment(false);
-        if(chain == null) {
-            head = null;
-        } else {
-            chain.append(new EndNode<>(id));
-            head = chain.head;
-        }
-    }
-
     /**
      * Gets the head PatternNode, for use in matching
+     *
      * @return the pattern node.
      */
     public PatternNode<T> getHead() {
         return head;
     }
-
-    /**
-     * Removes all characters that are considered "special" from
-     * the given string.
-     * @param from the string to sanitize.
-     * @return the resulting string.
-     */
-    public static String sanitize(String from){
-        Pattern<Integer> pattern = new Pattern<>("", 0);
-        from = from.replace(".", "\\.");
-        from = from.replace("|", "\\|");
-        from = from.replace("(", "\\(");
-        from = from.replace(")", "\\)");
-        for(Character key : pattern.operations.keySet()){
-            from = from.replace("" + key, "\\" + key);
-        }
-        return from;
-    }
 }

core/src/main/java/org/nwapw/abacus/lexing/pattern/PatternChain.java

@@ -3,6 +3,7 @@ package org.nwapw.abacus.lexing.pattern;
 /**
  * A chain of nodes that can be treated as a single unit.
  * Used during pattern compilation.
+ *
  * @param <T> the type used to identify which pattern has been matched.
  */
 public class PatternChain<T> {
@@ -18,26 +19,28 @@ public class PatternChain<T> {
 
     /**
      * Creates a new chain with the given start and end.
+     *
      * @param head the start of the chain.
      * @param tail the end of the chain.
      */
-    public PatternChain(PatternNode<T> head, PatternNode<T> tail){
+    public PatternChain(PatternNode<T> head, PatternNode<T> tail) {
         this.head = head;
         this.tail = tail;
     }
 
     /**
      * Creates a chain that starts and ends with the same node.
+     *
      * @param node the node to use.
      */
-    public PatternChain(PatternNode<T> node){
+    public PatternChain(PatternNode<T> node) {
         this(node, node);
     }
 
     /**
      * Creates an empty chain.
      */
-    public PatternChain(){
+    public PatternChain() {
         this(null);
     }
 
@@ -45,10 +48,11 @@ public class PatternChain<T> {
      * Appends the other chain to this one. This modifies
      * the nodes, as well.
      * If this chain is empty, it is set to the other.
+     *
      * @param other the other chain to append.
      */
-    public void append(PatternChain<T> other){
-        if(other.head == null || tail == null) {
+    public void append(PatternChain<T> other) {
+        if (other.head == null || tail == null) {
             this.head = other.head;
             this.tail = other.tail;
         } else {
@@ -61,10 +65,11 @@ public class PatternChain<T> {
      * Appends a single node to this chain. This modifies
      * the nodes, as well.
      * If this chain is empty, it is set to the node.
+     *
      * @param node the node to append to this chain.
      */
-    public void append(PatternNode<T> node){
-        if(tail == null){
+    public void append(PatternNode<T> node) {
+        if (tail == null) {
             head = tail = node;
         } else {
             tail.outputStates.add(node);

core/src/main/java/org/nwapw/abacus/lexing/pattern/PatternNode.java

@@ -1,6 +1,5 @@
 package org.nwapw.abacus.lexing.pattern;
 
-import java.util.ArrayList;
 import java.util.Collection;
 import java.util.HashSet;
 import java.util.Set;
@@ -9,6 +8,7 @@ import java.util.Set;
  * A base class for a pattern node. Provides all functions
  * necessary for matching, and is constructed by a Pattern instance
  * from a string.
+ *
  * @param <T> the type that's used to tell which pattern this node belongs to.
  */
 public class PatternNode<T> {
@@ -22,42 +22,46 @@ public class PatternNode<T> {
     /**
      * Creates a new pattern node.
      */
-    public PatternNode(){
+    public PatternNode() {
         outputStates = new HashSet<>();
     }
 
     /**
      * Determines whether the current input character can
      * be matched by this node.
+     *
      * @param other the character being matched.
      * @return true if the character can be matched, false otherwise.
      */
-    public boolean matches(char other){
+    public boolean matches(char other) {
         return false;
     }
 
     /**
      * If this node can be used as part of a range, returns that value.
+     *
      * @return a NULL terminator if this character cannot be converted
      * into a range bound, or the appropriate range bound if it can.
      */
-    public char range(){
+    public char range() {
         return '\0';
     }
 
     /**
      * Adds this node in a collection of other nodes.
+     *
      * @param into the collection to add into.
      */
-    public void addInto(Collection<PatternNode<T>> into){
+    public void addInto(Collection<PatternNode<T>> into) {
         into.add(this);
     }
 
     /**
      * Adds the node's children into a collection of other nodes.
+     *
      * @param into the collection to add into.
      */
-    public void addOutputsInto(Collection<PatternNode<T>> into){
+    public void addOutputsInto(Collection<PatternNode<T>> into) {
         outputStates.forEach(e -> e.addInto(into));
     }
 

core/src/main/java/org/nwapw/abacus/lexing/pattern/RangeNode.java

@@ -2,6 +2,7 @@ package org.nwapw.abacus.lexing.pattern;
 
 /**
  * A node that matches a range of characters.
+ *
  * @param <T> the type that's used to tell which pattern this node belongs to.
  */
 public class RangeNode<T> extends PatternNode<T> {
@@ -17,10 +18,11 @@ public class RangeNode<T> extends PatternNode<T> {
 
     /**
      * Creates a new range node from the given range.
+     *
      * @param from the bottom bound of the range.
-     * @param to the top bound of hte range.
+     * @param to   the top bound of hte range.
      */
-    public RangeNode(char from, char to){
+    public RangeNode(char from, char to) {
         this.from = from;
         this.to = to;
     }

core/src/main/java/org/nwapw/abacus/lexing/pattern/ValueNode.java

@@ -2,6 +2,7 @@ package org.nwapw.abacus.lexing.pattern;
 
 /**
  * A node that matches a single value.
+ *
  * @param <T> the type that's used to tell which pattern this node belongs to.
  */
 public class ValueNode<T> extends PatternNode<T> {
@@ -13,9 +14,10 @@ public class ValueNode<T> extends PatternNode<T> {
 
     /**
      * Creates a new node that matches the given character.
-     * @param value
+     *
+     * @param value the character value of the node.
      */
-    public ValueNode(char value){
+    public ValueNode(char value) {
         this.value = value;
     }
 

core/src/main/java/org/nwapw/abacus/number/ComputationInterruptedException.java

@@ -0,0 +1,16 @@
+package org.nwapw.abacus.number;
+
+/**
+ * Exception thrown when the computation is interrupted by
+ * the user.
+ */
+public class ComputationInterruptedException extends RuntimeException {
+
+    /**
+     * Creates a new exception of this type.
+     */
+    public ComputationInterruptedException() {
+        super("Computation interrupted by user.");
+    }
+
+}

core/src/main/java/org/nwapw/abacus/number/NaiveNumber.java

@@ -3,27 +3,7 @@ package org.nwapw.abacus.number;
 /**
  * An implementation of NumberInterface using a double.
  */
-public class NaiveNumber implements NumberInterface {
-
-    /**
-     * The value of this number.
-     */
-    private double value;
-
-    /**
-     * Creates a new NaiveNumber with the given string.
-     * @param value the value, which will be parsed as a double.
-     */
-    public NaiveNumber(String value) {
-        this(Double.parseDouble(value));
-    }
-    /**
-     * Creates a new NaiveNumber with the given value.
-     * @param value the value to use.
-     */
-    public NaiveNumber(double value) {
-        this.value = value;
-    }
+public class NaiveNumber extends NumberInterface {
 
     /**
      * The number zero.
@@ -33,6 +13,28 @@ public class NaiveNumber implements NumberInterface {
      * The number one.
      */
     public static final NaiveNumber ONE = new NaiveNumber(1);
+    /**
+     * The value of this number.
+     */
+    private double value;
+
+    /**
+     * Creates a new NaiveNumber with the given string.
+     *
+     * @param value the value, which will be parsed as a double.
+     */
+    public NaiveNumber(String value) {
+        this(Double.parseDouble(value));
+    }
+
+    /**
+     * Creates a new NaiveNumber with the given value.
+     *
+     * @param value the value to use.
+     */
+    public NaiveNumber(double value) {
+        this.value = value;
+    }
 
     @Override
     public int getMaxPrecision() {
@@ -40,42 +42,42 @@ public class NaiveNumber implements NumberInterface {
     }
 
     @Override
-    public NumberInterface multiply(NumberInterface multiplier) {
-        return new NaiveNumber(value * ((NaiveNumber)multiplier).value);
+    public NumberInterface multiplyInternal(NumberInterface multiplier) {
+        return new NaiveNumber(value * ((NaiveNumber) multiplier).value);
     }
 
     @Override
-    public NumberInterface divide(NumberInterface divisor) {
-        return new NaiveNumber(value / ((NaiveNumber)divisor).value);
+    public NumberInterface divideInternal(NumberInterface divisor) {
+        return new NaiveNumber(value / ((NaiveNumber) divisor).value);
     }
 
     @Override
-    public NumberInterface add(NumberInterface summand) {
-        return new NaiveNumber(value + ((NaiveNumber)summand).value);
+    public NumberInterface addInternal(NumberInterface summand) {
+        return new NaiveNumber(value + ((NaiveNumber) summand).value);
     }
 
     @Override
-    public NumberInterface subtract(NumberInterface subtrahend) {
-        return new NaiveNumber(value - ((NaiveNumber)subtrahend).value);
+    public NumberInterface subtractInternal(NumberInterface subtrahend) {
+        return new NaiveNumber(value - ((NaiveNumber) subtrahend).value);
     }
 
     @Override
-    public NumberInterface negate() {
+    public NumberInterface negateInternal() {
         return new NaiveNumber(-value);
     }
 
     @Override
-    public NumberInterface intPow(int exponent) {
-        if(exponent == 0){
+    public NumberInterface intPowInternal(int exponent) {
+        if (exponent == 0) {
             return NaiveNumber.ONE;
         }
         boolean takeReciprocal = exponent < 0;
         exponent = Math.abs(exponent);
         NumberInterface power = this;
-        for(int currentExponent = 1; currentExponent < exponent; currentExponent++){
+        for (int currentExponent = 1; currentExponent < exponent; currentExponent++) {
             power = power.multiply(this);
         }
-        if(takeReciprocal){
+        if (takeReciprocal) {
             power = NaiveNumber.ONE.divide(power);
         }
         return power;
@@ -93,18 +95,42 @@ public class NaiveNumber implements NumberInterface {
     }
 
     @Override
-    public NumberInterface promoteTo(Class<? extends NumberInterface> toClass) {
-        if(toClass == this.getClass()) return this;
-        else if(toClass == PreciseNumber.class){
+    public NumberInterface ceilingInternal() {
+        return new NaiveNumber(Math.ceil(value));
+    }
+
+    @Override
+    public NumberInterface floorInternal() {
+        return new NaiveNumber(Math.floor(value));
+    }
+
+    @Override
+    public NumberInterface fractionalPartInternal() {
+        return new NaiveNumber(value - Math.floor(value));
+    }
+
+    @Override
+    public int intValue() {
+        return (int) value;
+    }
+
+    @Override
+    public NumberInterface promoteToInternal(Class<? extends NumberInterface> toClass) {
+        if (toClass == this.getClass()) return this;
+        else if (toClass == PreciseNumber.class) {
             return new PreciseNumber(Double.toString(value));
         }
         return null;
     }
 
-    public String toString(){
+    public String toString() {
         double shiftBy = Math.pow(10, 10);
         return Double.toString(Math.round(value * shiftBy) / shiftBy);
     }
 
+    @Override
+    public NumberInterface getMaxError() {
+        return new NaiveNumber(Math.pow(10, -18));
+    }
 }
 

core/src/main/java/org/nwapw/abacus/number/NumberInterface.java

@@ -0,0 +1,270 @@
+package org.nwapw.abacus.number;
+
+/**
+ * An interface used to represent a number.
+ */
+public abstract class NumberInterface {
+
+    /**
+     * Check if the thread was interrupted and
+     * throw an exception to end the computation.
+     */
+    private static void checkInterrupted() {
+        if (Thread.currentThread().isInterrupted())
+            throw new ComputationInterruptedException();
+    }
+
+    /**
+     * The maximum precision to which this number operates.
+     *
+     * @return the precision.
+     */
+    public abstract int getMaxPrecision();
+
+    /**
+     * Multiplies this number by another, returning
+     * a new number instance.
+     *
+     * @param multiplier the multiplier
+     * @return the result of the multiplication.
+     */
+    protected abstract NumberInterface multiplyInternal(NumberInterface multiplier);
+
+    /**
+     * Multiplies this number by another, returning
+     * a new number instance. Also, checks if the
+     * thread has been interrupted, and if so, throws
+     * an exception.
+     *
+     * @param multiplier the multiplier
+     * @return the result of the multiplication.
+     */
+    public final NumberInterface multiply(NumberInterface multiplier) {
+        checkInterrupted();
+        return multiplyInternal(multiplier);
+    }
+
+    /**
+     * Divides this number by another, returning
+     * a new number instance.
+     *
+     * @param divisor the divisor
+     * @return the result of the division.
+     */
+    protected abstract NumberInterface divideInternal(NumberInterface divisor);
+
+    /**
+     * Divides this number by another, returning
+     * a new number instance. Also, checks if the
+     * thread has been interrupted, and if so, throws
+     * an exception.
+     *
+     * @param divisor the divisor
+     * @return the result of the division.
+     */
+    public final NumberInterface divide(NumberInterface divisor) {
+        checkInterrupted();
+        return divideInternal(divisor);
+    }
+
+    /**
+     * Adds this number to another, returning
+     * a new number instance.
+     *
+     * @param summand the summand
+     * @return the result of the summation.
+     */
+    protected abstract NumberInterface addInternal(NumberInterface summand);
+
+    /**
+     * Adds this number to another, returning
+     * a new number instance. Also, checks if the
+     * thread has been interrupted, and if so, throws
+     * an exception.
+     *
+     * @param summand the summand
+     * @return the result of the summation.
+     */
+    public final NumberInterface add(NumberInterface summand) {
+        checkInterrupted();
+        return addInternal(summand);
+    }
+
+    /**
+     * Subtracts another number from this number,
+     * a new number instance.
+     *
+     * @param subtrahend the subtrahend.
+     * @return the result of the subtraction.
+     */
+    protected abstract NumberInterface subtractInternal(NumberInterface subtrahend);
+
+    /**
+     * Subtracts another number from this number,
+     * a new number instance. Also, checks if the
+     * thread has been interrupted, and if so, throws
+     * an exception.
+     *
+     * @param subtrahend the subtrahend.
+     * @return the result of the subtraction.
+     */
+    public final NumberInterface subtract(NumberInterface subtrahend) {
+        checkInterrupted();
+        return subtractInternal(subtrahend);
+    }
+
+    /**
+     * Returns a new instance of this number with
+     * the sign flipped.
+     *
+     * @return the new instance.
+     */
+    protected abstract NumberInterface negateInternal();
+
+
+    /**
+     * Returns a new instance of this number with
+     * the sign flipped. Also, checks if the
+     * thread has been interrupted, and if so, throws
+     * an exception.
+     *
+     * @return the new instance.
+     */
+    public final NumberInterface negate() {
+        checkInterrupted();
+        return negateInternal();
+    }
+
+    /**
+     * Raises this number to an integer power.
+     *
+     * @param exponent the exponent to which to take the number.
+     * @return the resulting value.
+     */
+    protected abstract NumberInterface intPowInternal(int exponent);
+
+    /**
+     * Raises this number to an integer power. Also, checks if the
+     * thread has been interrupted, and if so, throws
+     * an exception.
+     *
+     * @param exponent the exponent to which to take the number.
+     * @return the resulting value.
+     */
+    public final NumberInterface intPow(int exponent) {
+        checkInterrupted();
+        return intPowInternal(exponent);
+    }
+
+    /**
+     * Compares this number to another.
+     *
+     * @param number the number to compare to.
+     * @return same as Integer.compare();
+     */
+    public abstract int compareTo(NumberInterface number);
+
+    /**
+     * Same as Math.signum().
+     *
+     * @return 1 if this number is positive, -1 if this number is negative, 0 if this number is 0.
+     */
+    public abstract int signum();
+
+    /**
+     * Returns the least integer greater than or equal to the number.
+     *
+     * @return the least integer greater or equal to the number, if int can hold the value.
+     */
+    protected abstract NumberInterface ceilingInternal();
+
+    /**
+     * Returns the least integer greater than or equal to the number.
+     * Also, checks if the thread has been interrupted, and if so, throws
+     * an exception.
+     *
+     * @return the least integer bigger or equal to the number.
+     */
+    public final NumberInterface ceiling() {
+        checkInterrupted();
+        return ceilingInternal();
+    }
+
+    /**
+     * Return the greatest integer less than or equal to the number.
+     *
+     * @return the greatest integer smaller or equal the number.
+     */
+    protected abstract NumberInterface floorInternal();
+
+    /**
+     * Return the greatest integer less than or equal to the number.
+     * Also, checks if the thread has been interrupted, and if so, throws
+     * an exception.
+     *
+     * @return the greatest int smaller than or equal to the number.
+     */
+    public final NumberInterface floor() {
+        checkInterrupted();
+        return floorInternal();
+    }
+
+    /**
+     * Returns the fractional part of the number.
+     *
+     * @return the fractional part of the number.
+     */
+    protected abstract NumberInterface fractionalPartInternal();
+
+    /**
+     * Returns the fractional part of the number, specifically x - floor(x).
+     * Also, checks if the thread has been interrupted,
+     * and if so, throws an exception.
+     *
+     * @return the fractional part of the number.
+     */
+    public final NumberInterface fractionalPart() {
+        checkInterrupted();
+        return fractionalPartInternal();
+    }
+
+    /**
+     * Returns the integer representation of this number, discarding any fractional part,
+     * if int can hold the value.
+     *
+     * @return the integer value of this number.
+     */
+    public abstract int intValue();
+
+    /**
+     * Promotes this class to another number class.
+     *
+     * @param toClass the class to promote to.
+     * @return the resulting new instance.
+     */
+    @Deprecated
+    protected abstract NumberInterface promoteToInternal(Class<? extends NumberInterface> toClass);
+
+    /**
+     * Promotes this class to another number class. Also, checks if the
+     * thread has been interrupted, and if so, throws
+     * an exception.
+     *
+     * @param toClass the class to promote to.
+     * @return the resulting new instance.
+     */
+    @Deprecated
+    public final NumberInterface promoteTo(Class<? extends NumberInterface> toClass) {
+        checkInterrupted();
+        return promoteToInternal(toClass);
+    }
+
+    /**
+     * Returns the smallest error this instance can tolerate depending
+     * on its precision and value.
+     *
+     * @return the smallest error that should be permitted in calculations.
+     */
+    public abstract NumberInterface getMaxError();
+
+}

core/src/main/java/org/nwapw/abacus/number/PreciseNumber.java

@@ -0,0 +1,172 @@
+package org.nwapw.abacus.number;
+
+import java.math.BigDecimal;
+import java.math.MathContext;
+
+/**
+ * A number that uses a BigDecimal to store its value,
+ * leading to infinite possible precision.
+ */
+public class PreciseNumber extends NumberInterface {
+
+    /**
+     * The number one.
+     */
+    public static final PreciseNumber ONE = new PreciseNumber(BigDecimal.ONE);
+    /**
+     * The number zero.
+     */
+    public static final PreciseNumber ZERO = new PreciseNumber(BigDecimal.ZERO);
+    /**
+     * The number ten.
+     */
+    public static final PreciseNumber TEN = new PreciseNumber(BigDecimal.TEN);
+
+    /**
+     * The number of extra significant figures kept in calculations before rounding for output.
+     */
+    private static int numExtraInternalSigFigs = 15;
+
+    /**
+     * MathContext that is used when rounding a number prior to output.
+     */
+    private static MathContext outputContext = new MathContext(50);
+
+    /**
+     * MathContext that is actually used in calculations.
+     */
+    private static MathContext internalContext = new MathContext(outputContext.getPrecision() + numExtraInternalSigFigs);
+
+    /**
+     * The value of the PreciseNumber.
+     */
+    BigDecimal value;
+
+    /**
+     * Constructs a precise number from the given string.
+     *
+     * @param string a string representation of the number meeting the same conditions
+     *               as the BidDecimal(String) constructor.
+     */
+    public PreciseNumber(String string) {
+        value = new BigDecimal(string);
+    }
+
+    /**
+     * Constructs a precise number from the given BigDecimal.
+     *
+     * @param value a BigDecimal object representing the value of the number.
+     */
+    public PreciseNumber(BigDecimal value) {
+        this.value = value;
+    }
+
+    @Override
+    public int getMaxPrecision() {
+        return internalContext.getPrecision();
+    }
+
+    @Override
+    public NumberInterface multiplyInternal(NumberInterface multiplier) {
+        return new PreciseNumber(this.value.multiply(((PreciseNumber) multiplier).value));
+    }
+
+    @Override
+    public NumberInterface divideInternal(NumberInterface divisor) {
+        return new PreciseNumber(value.divide(((PreciseNumber) divisor).value, internalContext));
+    }
+
+    @Override
+    public NumberInterface addInternal(NumberInterface summand) {
+        return new PreciseNumber(value.add(((PreciseNumber) summand).value));
+    }
+
+    @Override
+    public NumberInterface subtractInternal(NumberInterface subtrahend) {
+        return new PreciseNumber(value.subtract(((PreciseNumber) subtrahend).value));
+    }
+
+    @Override
+    public NumberInterface intPowInternal(int exponent) {
+        if (exponent == 0) {
+            return PreciseNumber.ONE;
+        }
+        boolean takeReciprocal = exponent < 0;
+        exponent = Math.abs(exponent);
+        NumberInterface power = this;
+        for (int currentExponent = 1; currentExponent < exponent; currentExponent++) {
+            power = power.multiply(this);
+        }
+        if (takeReciprocal) {
+            power = PreciseNumber.ONE.divide(power);
+        }
+        return power;
+    }
+
+    @Override
+    public int compareTo(NumberInterface number) {
+        return value.compareTo(((PreciseNumber) number).value);
+    }
+
+    @Override
+    public int signum() {
+        return value.signum();
+    }
+
+    @Override
+    public NumberInterface ceilingInternal() {
+        String str = value.toPlainString();
+        int decimalIndex = str.indexOf('.');
+        if (decimalIndex != -1) {
+            return this.floor().add(ONE);
+        }
+        return this;
+    }
+
+    @Override
+    public NumberInterface floorInternal() {
+        String str = value.toPlainString();
+        int decimalIndex = str.indexOf('.');
+        if (decimalIndex != -1) {
+            NumberInterface floor = new PreciseNumber(str.substring(0, decimalIndex));
+            if (signum() == -1) {
+                floor = floor.subtract(ONE);
+            }
+            return floor;
+        }
+        return this;
+    }
+
+    @Override
+    public NumberInterface fractionalPartInternal() {
+        return this.subtractInternal(floorInternal());
+    }
+
+    @Override
+    public int intValue() {
+        return value.intValue();
+    }
+
+    @Override
+    public NumberInterface negateInternal() {
+        return new PreciseNumber(value.negate());
+    }
+
+    @Override
+    public NumberInterface promoteToInternal(Class<? extends NumberInterface> toClass) {
+        if (toClass == this.getClass()) {
+            return this;
+        }
+        return null;
+    }
+
+    @Override
+    public String toString() {
+        return value.round(outputContext).toString();
+    }
+
+    @Override
+    public NumberInterface getMaxError() {
+        return new PreciseNumber(value.ulp()).multiplyInternal(TEN.intPowInternal(value.precision() - internalContext.getPrecision()));
+    }
+}

core/src/main/java/org/nwapw/abacus/parsing/LexerTokenizer.java

@@ -29,7 +29,7 @@ public class LexerTokenizer implements Tokenizer<Match<TokenType>>, PluginListen
     /**
      * Creates a new lexer tokenizer.
      */
-    public LexerTokenizer(){
+    public LexerTokenizer() {
         lexer = new Lexer<TokenType>() {{
             register(" ", TokenType.WHITESPACE);
             register(",", TokenType.COMMA);
@@ -46,20 +46,20 @@ public class LexerTokenizer implements Tokenizer<Match<TokenType>>, PluginListen
 
     @Override
     public void onLoad(PluginManager manager) {
-        for(String operator : manager.getAllOperators()){
-           lexer.register(Pattern.sanitize(operator), TokenType.OP);
+        for (String operator : manager.getAllOperators()) {
+            lexer.register(Pattern.sanitize(operator), TokenType.OP);
         }
-        for(String function : manager.getAllFunctions()){
+        for (String function : manager.getAllFunctions()) {
             lexer.register(Pattern.sanitize(function), TokenType.FUNCTION);
         }
     }
 
     @Override
     public void onUnload(PluginManager manager) {
-        for(String operator : manager.getAllOperators()){
+        for (String operator : manager.getAllOperators()) {
             lexer.unregister(Pattern.sanitize(operator), TokenType.OP);
         }
-        for(String function : manager.getAllFunctions()){
+        for (String function : manager.getAllFunctions()) {
             lexer.unregister(Pattern.sanitize(function), TokenType.FUNCTION);
         }
     }

core/src/main/java/org/nwapw/abacus/parsing/Parser.java

@@ -7,12 +7,14 @@ import java.util.List;
 /**
  * An itnerface that provides the ability to convert a list of tokens
  * into a parse tree.
+ *
  * @param <T> the type of tokens accepted by this parser.
  */
 public interface Parser<T> {
 
     /**
      * Constructs a tree out of the given tokens.
+     *
      * @param tokens the tokens to construct a tree from.
      * @return the constructed tree, or null on error.
      */

core/src/main/java/org/nwapw/abacus/parsing/ShuntingYardParser.java

@@ -36,9 +36,10 @@ public class ShuntingYardParser implements Parser<Match<TokenType>>, PluginListe
 
     /**
      * Creates a new Shunting Yard parser with the given Abacus instance.
+     *
      * @param abacus the abacus instance.
      */
-    public ShuntingYardParser(Abacus abacus){
+    public ShuntingYardParser(Abacus abacus) {
         this.abacus = abacus;
         precedenceMap = new HashMap<>();
         associativityMap = new HashMap<>();
@@ -47,39 +48,49 @@ public class ShuntingYardParser implements Parser<Match<TokenType>>, PluginListe
 
     /**
      * Rearranges tokens into a postfix list, using Shunting Yard.
+     *
      * @param from the tokens to be rearranged.
      * @return the resulting list of rearranged tokens.
      */
-    public List<Match<TokenType>> intoPostfix(List<Match<TokenType>> from){
+    public List<Match<TokenType>> intoPostfix(List<Match<TokenType>> from) {
         ArrayList<Match<TokenType>> output = new ArrayList<>();
         Stack<Match<TokenType>> tokenStack = new Stack<>();
-        while(!from.isEmpty()){
+        TokenType previousType;
+        TokenType matchType = null;
+        while (!from.isEmpty()) {
             Match<TokenType> match = from.remove(0);
-            TokenType matchType = match.getType();
-            if(matchType == TokenType.NUM) {
+            previousType = matchType;
+            matchType = match.getType();
+            if (matchType == TokenType.NUM) {
                 output.add(match);
-            } else if(matchType == TokenType.FUNCTION) {
-                output.add(new Match<>("" , TokenType.INTERNAL_FUNCTION_END));
+            } else if (matchType == TokenType.FUNCTION) {
+                output.add(new Match<>("", TokenType.INTERNAL_FUNCTION_END));
                 tokenStack.push(match);
-            } else if(matchType == TokenType.OP){
+            } else if (matchType == TokenType.OP) {
                 String tokenString = match.getContent();
                 OperatorType type = typeMap.get(tokenString);
                 int precedence = precedenceMap.get(tokenString);
                 OperatorAssociativity associativity = associativityMap.get(tokenString);
 
-                if(type == OperatorType.UNARY_POSTFIX){
+                if (type == OperatorType.UNARY_POSTFIX) {
                     output.add(match);
                     continue;
                 }
 
-                while(!tokenStack.empty()) {
+                if (tokenString.equals("-") && (previousType == null || previousType == TokenType.OP ||
+                        previousType == TokenType.OPEN_PARENTH)) {
+                    from.add(0, new Match<>("`", TokenType.OP));
+                    continue;
+                }
+
+                while (!tokenStack.empty() && type == OperatorType.BINARY_INFIX) {
                     Match<TokenType> otherMatch = tokenStack.peek();
                     TokenType otherMatchType = otherMatch.getType();
-                    if(!(otherMatchType == TokenType.OP || otherMatchType == TokenType.FUNCTION)) break;
+                    if (!(otherMatchType == TokenType.OP || otherMatchType == TokenType.FUNCTION)) break;
 
-                    if(otherMatchType == TokenType.OP){
-                        int otherPrecedence = precedenceMap.get(match.getContent());
-                        if(otherPrecedence < precedence ||
+                    if (otherMatchType == TokenType.OP) {
+                        int otherPrecedence = precedenceMap.get(otherMatch.getContent());
+                        if (otherPrecedence < precedence ||
                                 (associativity == OperatorAssociativity.RIGHT && otherPrecedence == precedence)) {
                             break;
                         }
@@ -87,22 +98,22 @@ public class ShuntingYardParser implements Parser<Match<TokenType>>, PluginListe
                     output.add(tokenStack.pop());
                 }
                 tokenStack.push(match);
-            } else if(matchType == TokenType.OPEN_PARENTH){
+            } else if (matchType == TokenType.OPEN_PARENTH) {
                 tokenStack.push(match);
-            } else if(matchType == TokenType.CLOSE_PARENTH || matchType == TokenType.COMMA){
-                while(!tokenStack.empty() && tokenStack.peek().getType() != TokenType.OPEN_PARENTH){
+            } else if (matchType == TokenType.CLOSE_PARENTH || matchType == TokenType.COMMA) {
+                while (!tokenStack.empty() && tokenStack.peek().getType() != TokenType.OPEN_PARENTH) {
                     output.add(tokenStack.pop());
                 }
-                if(tokenStack.empty()) return null;
-                if(matchType == TokenType.CLOSE_PARENTH){
+                if (tokenStack.empty()) return null;
+                if (matchType == TokenType.CLOSE_PARENTH) {
                     tokenStack.pop();
                 }
             }
         }
-        while(!tokenStack.empty()){
+        while (!tokenStack.empty()) {
             Match<TokenType> match = tokenStack.peek();
-            TokenType matchType = match.getType();
-            if(!(matchType == TokenType.OP || matchType == TokenType.FUNCTION)) return null;
+            TokenType newMatchType = match.getType();
+            if (!(newMatchType == TokenType.OP || newMatchType == TokenType.FUNCTION)) return null;
             output.add(tokenStack.pop());
         }
         return output;
@@ -110,37 +121,38 @@ public class ShuntingYardParser implements Parser<Match<TokenType>>, PluginListe
 
     /**
      * Constructs a tree recursively from a list of tokens.
+     *
      * @param matches the list of tokens from the source string.
      * @return the construct tree expression.
      */
-    public TreeNode constructRecursive(List<Match<TokenType>> matches){
-        if(matches.size() == 0) return null;
+    public TreeNode constructRecursive(List<Match<TokenType>> matches) {
+        if (matches.size() == 0) return null;
         Match<TokenType> match = matches.remove(0);
         TokenType matchType = match.getType();
-        if(matchType == TokenType.OP){
+        if (matchType == TokenType.OP) {
             String operator = match.getContent();
             OperatorType type = typeMap.get(operator);
-            if(type == OperatorType.BINARY_INFIX){
+            if (type == OperatorType.BINARY_INFIX) {
                 TreeNode right = constructRecursive(matches);
                 TreeNode left = constructRecursive(matches);
-                if(left == null || right == null) return null;
-                else return new BinaryInfixNode(operator, left, right);
+                if (left == null || right == null) return null;
+                else return new BinaryNode(operator, left, right);
             } else {
                 TreeNode applyTo = constructRecursive(matches);
-                if(applyTo == null) return null;
-                else return new UnaryPrefixNode(operator, applyTo);
+                if (applyTo == null) return null;
+                else return new UnaryNode(operator, applyTo);
             }
-        } else if(matchType == TokenType.NUM){
+        } else if (matchType == TokenType.NUM) {
             return new NumberNode(abacus.numberFromString(match.getContent()));
-        } else if(matchType == TokenType.FUNCTION){
+        } else if (matchType == TokenType.FUNCTION) {
             String functionName = match.getContent();
             FunctionNode node = new FunctionNode(functionName);
-            while(!matches.isEmpty() && matches.get(0).getType() != TokenType.INTERNAL_FUNCTION_END){
+            while (!matches.isEmpty() && matches.get(0).getType() != TokenType.INTERNAL_FUNCTION_END) {
                 TreeNode argument = constructRecursive(matches);
-                if(argument == null) return null;
+                if (argument == null) return null;
                 node.prependChild(argument);
             }
-            if(matches.isEmpty()) return null;
+            if (matches.isEmpty()) return null;
             matches.remove(0);
             return node;
         }
@@ -150,13 +162,15 @@ public class ShuntingYardParser implements Parser<Match<TokenType>>, PluginListe
     @Override
     public TreeNode constructTree(List<Match<TokenType>> tokens) {
         tokens = intoPostfix(new ArrayList<>(tokens));
+        if (tokens == null) return null;
         Collections.reverse(tokens);
-        return constructRecursive(tokens);
+        TreeNode constructedTree = constructRecursive(tokens);
+        return tokens.size() == 0 ? constructedTree : null;
     }
 
     @Override
     public void onLoad(PluginManager manager) {
-        for(String operator : manager.getAllOperators()){
+        for (String operator : manager.getAllOperators()) {
             Operator operatorInstance = manager.operatorFor(operator);
             precedenceMap.put(operator, operatorInstance.getPrecedence());
             associativityMap.put(operator, operatorInstance.getAssociativity());

core/src/main/java/org/nwapw/abacus/parsing/Tokenizer.java

@@ -4,12 +4,14 @@ import java.util.List;
 
 /**
  * Interface that provides the ability to convert a string into a list of tokens.
+ *
  * @param <T> the type of the tokens produced.
  */
 public interface Tokenizer<T> {
 
     /**
      * Converts a string into tokens.
+     *
      * @param string the string to convert.
      * @return the list of tokens, or null on error.
      */

core/src/main/java/org/nwapw/abacus/parsing/TreeBuilder.java

@@ -0,0 +1,50 @@
+package org.nwapw.abacus.parsing;
+
+import org.nwapw.abacus.tree.TreeNode;
+
+import java.util.List;
+
+/**
+ * TreeBuilder class used to piece together a Tokenizer and
+ * Parser of the same kind. This is used to essentially avoid
+ * working with any parameters at all, and the generics
+ * in this class are used only to ensure the tokenizer and parser
+ * are of the same type.
+ *
+ * @param <T> the type of tokens created by the tokenizer and used by the parser.
+ */
+public class TreeBuilder<T> {
+
+    /**
+     * The tokenizer used to convert a string into tokens.
+     */
+    private Tokenizer<T> tokenizer;
+    /**
+     * The parser used to parse a list of tokens into a tree.
+     */
+    private Parser<T> parser;
+
+    /**
+     * Create a new Tree Builder with the given tokenizer and parser
+     *
+     * @param tokenizer the tokenizer to turn strings into tokens
+     * @param parser    the parser to turn tokens into a tree
+     */
+    public TreeBuilder(Tokenizer<T> tokenizer, Parser<T> parser) {
+        this.tokenizer = tokenizer;
+        this.parser = parser;
+    }
+
+    /**
+     * Parse the given string into a tree.
+     *
+     * @param input the string to parse into a tree.
+     * @return the resulting tree.
+     */
+    public TreeNode fromString(String input) {
+        List<T> tokens = tokenizer.tokenizeString(input);
+        if (tokens == null) return null;
+        return parser.constructTree(tokens);
+    }
+
+}

core/src/main/java/org/nwapw/abacus/plugin/ClassFinder.java

@@ -20,9 +20,10 @@ public class ClassFinder {
 
     /**
      * Loads all the plugin classes from the given plugin folder.
+     *
      * @param filePath the path for the plugin folder.
      * @return the list of all loaded classes.
-     * @throws IOException thrown if an error occurred scanning the plugin folder.
+     * @throws IOException            thrown if an error occurred scanning the plugin folder.
      * @throws ClassNotFoundException thrown if the class listed in the file doesn't get loaded.
      */
     public static List<Class<?>> loadJars(String filePath) throws IOException, ClassNotFoundException {
@@ -31,19 +32,20 @@ public class ClassFinder {
 
     /**
      * Loads all the plugin classes from the given plugin folder.
+     *
      * @param pluginFolderPath the folder in which to look for plugins.
      * @return the list of all loaded classes.
-     * @throws IOException thrown if an error occurred scanning the plugin folder.
+     * @throws IOException            thrown if an error occurred scanning the plugin folder.
      * @throws ClassNotFoundException thrown if the class listed in the file doesn't get loaded.
      */
     public static List<Class<?>> loadJars(File pluginFolderPath) throws IOException, ClassNotFoundException {
         ArrayList<Class<?>> toReturn = new ArrayList<>();
-        if(!pluginFolderPath.exists()) return toReturn;
+        if (!pluginFolderPath.exists()) return toReturn;
         ArrayList<File> files = Files.walk(pluginFolderPath.toPath())
                 .map(Path::toFile)
                 .filter(f -> f.getName().endsWith(".jar"))
                 .collect(Collectors.toCollection(ArrayList::new));
-        for (File file : files){
+        for (File file : files) {
             toReturn.addAll(loadJar(file));
         }
         return toReturn;
@@ -51,9 +53,10 @@ public class ClassFinder {
 
     /**
      * Loads the classes from a single path, given by the file.
+     *
      * @param jarLocation the location of the jar to load.
      * @return the list of loaded classes loaded from the jar.
-     * @throws IOException thrown if there was an error reading the file
+     * @throws IOException            thrown if there was an error reading the file
      * @throws ClassNotFoundException thrown if the class could not be loaded.
      */
     public static List<Class<?>> loadJar(File jarLocation) throws IOException, ClassNotFoundException {

core/src/main/java/org/nwapw/abacus/plugin/NumberImplementation.java

@@ -0,0 +1,81 @@
+package org.nwapw.abacus.plugin;
+
+import org.nwapw.abacus.number.NumberInterface;
+
+import java.util.HashMap;
+import java.util.Map;
+import java.util.function.Function;
+
+/**
+ * A class that holds data about a number implementation.
+ */
+public abstract class NumberImplementation {
+
+    /**
+     * The list of paths through which this implementation can be promoted.
+     */
+    private Map<Class<? extends NumberInterface>, Function<NumberInterface, NumberInterface>> promotionPaths;
+    /**
+     * The implementation class for this implementation.
+     */
+    private Class<? extends NumberInterface> implementation;
+    /**
+     * The priority of converting into this number implementation.
+     */
+    private int priority;
+
+    /**
+     * Creates a new number implementation with the given data.
+     *
+     * @param implementation the implementation class.
+     * @param priority       the priority, higher means more likely to be converted into.
+     */
+    public NumberImplementation(Class<? extends NumberInterface> implementation, int priority) {
+        this.implementation = implementation;
+        this.priority = priority;
+        promotionPaths = new HashMap<>();
+    }
+
+    /**
+     * Gets the list of all promotion paths this implementation can take.
+     *
+     * @return the map of documentation paths.
+     */
+    public final Map<Class<? extends NumberInterface>, Function<NumberInterface, NumberInterface>> getPromotionPaths() {
+        return promotionPaths;
+    }
+
+    /**
+     * Gets the implementation class used by this implementation.
+     *
+     * @return the implementation class.
+     */
+    public final Class<? extends NumberInterface> getImplementation() {
+        return implementation;
+    }
+
+    /**
+     * Gets the priority of this number implementation.
+     *
+     * @return the priority.
+     */
+    public final int getPriority() {
+        return priority;
+    }
+
+    /**
+     * Abstract function to create a new instance from a string.
+     *
+     * @param string the string to create a number from.
+     * @return the resulting number.
+     */
+    public abstract NumberInterface instanceForString(String string);
+
+    /**
+     * Get the instance of pi with the given implementation.
+     *
+     * @return pi
+     */
+    public abstract NumberInterface instanceForPi();
+
+}

core/src/main/java/org/nwapw/abacus/plugin/Plugin.java

@@ -1,13 +1,11 @@
 package org.nwapw.abacus.plugin;
 
+import org.nwapw.abacus.function.Documentation;
+import org.nwapw.abacus.function.DocumentationType;
 import org.nwapw.abacus.function.Function;
 import org.nwapw.abacus.function.Operator;
 import org.nwapw.abacus.number.NumberInterface;
 
-import java.util.HashMap;
-import java.util.Map;
-import java.util.Set;
-
 /**
  * A plugin class that can be externally implemented and loaded via the
  * plugin manager. Plugins provide functionality to the calculator
@@ -17,18 +15,6 @@ import java.util.Set;
  */
 public abstract class Plugin {
 
-    /**
-     * A hash map of functions mapped to their string names.
-     */
-    private Map<String, Function> functions;
-    /**
-     * A hash map of operators mapped to their string names.
-     */
-    private Map<String, Operator> operators;
-    /**
-     * A hash map of operators mapped to their string names.
-     */
-    private Map<String, Class<? extends NumberInterface>> numbers;
     /**
      * The plugin manager in which to search for functions
      * not inside this package,
@@ -39,77 +25,25 @@ public abstract class Plugin {
      */
     private boolean enabled;
 
-    private Plugin(){ }
+    private Plugin() {
+    }
 
     /**
      * Creates a new plugin with the given PluginManager.
+     *
      * @param manager the manager controlling this plugin.
      */
     public Plugin(PluginManager manager) {
         this.manager = manager;
-        functions = new HashMap<>();
-        operators = new HashMap<>();
-        numbers = new HashMap<>();
         enabled = false;
     }
 
-    /**
-     * Gets the list of functions provided by this plugin.
-     * @return the list of registered functions.
-     */
-    public final Set<String> providedFunctions(){
-        return functions.keySet();
-    }
-
-    /**
-     * Gets the list of functions provided by this plugin.
-     * @return the list of registered functions.
-     */
-    public final Set<String> providedOperators(){
-        return operators.keySet();
-    }
-
-    /**
-     * Gets the list of all numbers provided by this plugin.
-     * @return the list of registered numbers.
-     */
-    public final Set<String> providedNumbers(){
-        return numbers.keySet();
-    }
-
-    /**
-     * Gets a function under the given function name.
-     * @param functionName the name of the function to get
-     * @return the function, or null if this plugin doesn't provide it.
-     */
-    public final Function getFunction(String functionName) {
-        return functions.get(functionName);
-    }
-
-    /**
-     * Gets an operator under the given operator name.
-     * @param operatorName the name of the operator to get.
-     * @return the operator, or null if this plugin doesn't provide it.
-     */
-    public final Operator getOperator(String operatorName) {
-        return operators.get(operatorName);
-    }
-
-    /**
-     * Gets the class under the given name.
-     * @param numberName the name of the class.
-     * @return the class, or null if the plugin doesn't provide it.
-     */
-    public final Class<? extends NumberInterface> getNumber(String numberName){
-        return numbers.get(numberName);
-    }
-
     /**
      * Enables the function, loading the necessary instances
      * of functions.
      */
-    public final void enable(){
-        if(enabled) return;
+    public final void enable() {
+        if (enabled) return;
         onEnable();
         enabled = true;
     }
@@ -118,51 +52,61 @@ public abstract class Plugin {
      * Disables the plugin, clearing loaded data store by default
      * and calling its disable() method.
      */
-    public final void disable(){
-        if(!enabled) return;
+    public final void disable() {
+        if (!enabled) return;
         onDisable();
-        functions.clear();
-        operators.clear();
         enabled = false;
     }
 
     /**
      * To be used in load(). Registers a function abstract class with the
      * plugin internally, which makes it accessible to the plugin manager.
-     * @param name the name to register by.
+     *
+     * @param name       the name to register by.
      * @param toRegister the function implementation.
      */
     protected final void registerFunction(String name, Function toRegister) {
-        functions.put(name, toRegister);
+        manager.registerFunction(name, toRegister);
     }
 
     /**
      * To be used in load(). Registers an operator abstract class
      * with the plugin internally, which makes it accessible to
      * the plugin manager.
-     * @param name the name of the operator.
+     *
+     * @param name     the name of the operator.
      * @param operator the operator to register.
      */
     protected final void registerOperator(String name, Operator operator) {
-        operators.put(name, operator);
+        manager.registerOperator(name, operator);
     }
 
     /**
-     * To be used in load(). Registers a number class
-     * with the plugin internally, which makes it possible
-     * for the user to select it as an "implementation" for the
-     * number that they would like to use.
-     * @param name the name to register it under.
-     * @param toRegister the class to register.
+     * To be used in load(). Registers a new number implementation with the plugin.
+     * This makes it accessible to the plugin manager.
+     *
+     * @param name           the name of the implementation.
+     * @param implementation the actual implementation class to register.
      */
-    protected final void registerNumber(String name, Class<? extends NumberInterface> toRegister){
-        numbers.put(name, toRegister);
+    protected final void registerNumberImplementation(String name, NumberImplementation implementation) {
+        manager.registerNumberImplementation(name, implementation);
+    }
+
+    /**
+     * To be used in load(). Registers a documentation instance
+     * used to explain some element of the plugin to the user.
+     *
+     * @param documentation the documentation instance.
+     */
+    protected final void registerDocumentation(Documentation documentation) {
+        manager.registerDocumentation(documentation);
     }
 
     /**
      * Searches the PluginManager for the given function name.
      * This can be used by the plugins internally in order to call functions
      * they do not provide.
+     *
      * @param name the name for which to search
      * @return the resulting function, or null if none was found for that name.
      */
@@ -174,6 +118,7 @@ public abstract class Plugin {
      * Searches the PluginManager for the given operator name.
      * This can be used by the plugins internally in order to call
      * operations they do not provide.
+     *
      * @param name the name for which to search
      * @return the resulting operator, or null if none was found for that name.
      */
@@ -181,6 +126,42 @@ public abstract class Plugin {
         return manager.operatorFor(name);
     }
 
+    /**
+     * Searches the PluginManager for the given number implementation
+     * name. This can be used by the plugins internally in order to find
+     * implementations that they do not provide.
+     *
+     * @param name the name for which to search.
+     * @return the resulting number implementation, or null if none was found.
+     */
+    protected final NumberImplementation numberImplementationFor(String name) {
+        return manager.numberImplementationFor(name);
+    }
+
+    /**
+     * Searches the PluginManager for the given documentation name and type.
+     *
+     * @param name the name for which to search.
+     * @param type the type of documentation to search for.
+     * @return the found documentation, or null if none was found.
+     */
+    protected final Documentation documentationFor(String name, DocumentationType type) {
+        return manager.documentationFor(name, type);
+    }
+
+    /**
+     * Searches the plugin manager for a Pi value for the given number implementation.
+     * This is done so that number implementations with various degrees of precision
+     * can provide their own pi values, without losing said precision by
+     * promoting NaiveNumbers.
+     *
+     * @param forClass the class to which to find the pi instance.
+     * @return the pi value for the given class.
+     */
+    protected final NumberInterface piFor(Class<? extends NumberInterface> forClass) {
+        return manager.piFor(forClass);
+    }
+
     /**
      * Abstract method to be overridden by plugin implementation, in which the plugins
      * are supposed to register the functions they provide and do any other

core/src/main/java/org/nwapw/abacus/plugin/PluginListener.java

@@ -7,12 +7,14 @@ public interface PluginListener {
 
     /**
      * Called when the PluginManager loads plugins.
+     *
      * @param manager the manager that fired the event.
      */
     public void onLoad(PluginManager manager);
 
     /**
      * Called when the PluginManager unloads all its plugins.
+     *
      * @param manager the manager that fired the event.
      */
     public void onUnload(PluginManager manager);

core/src/main/java/org/nwapw/abacus/plugin/PluginManager.java

@@ -0,0 +1,350 @@
+package org.nwapw.abacus.plugin;
+
+import org.nwapw.abacus.Abacus;
+import org.nwapw.abacus.function.Documentation;
+import org.nwapw.abacus.function.DocumentationType;
+import org.nwapw.abacus.function.Function;
+import org.nwapw.abacus.function.Operator;
+import org.nwapw.abacus.number.NumberInterface;
+
+import java.lang.reflect.InvocationTargetException;
+import java.util.HashMap;
+import java.util.HashSet;
+import java.util.Map;
+import java.util.Set;
+
+/**
+ * A class that controls instances of plugins, allowing for them
+ * to interact with each other and the calculator.
+ */
+public class PluginManager {
+
+    /**
+     * List of classes loaded by this manager.
+     */
+    private Set<Class<?>> loadedPluginClasses;
+    /**
+     * A list of loaded plugins.
+     */
+    private Set<Plugin> plugins;
+    /**
+     * The map of functions registered by the plugins.
+     */
+    private Map<String, Function> registeredFunctions;
+    /**
+     * The map of operators registered by the plugins
+     */
+    private Map<String, Operator> registeredOperators;
+    /**
+     * The map of number implementations registered by the plugins.
+     */
+    private Map<String, NumberImplementation> registeredNumberImplementations;
+    /**
+     * The map of documentation for functions registered by the plugins.
+     */
+    private Set<Documentation> registeredDocumentation;
+    /**
+     * The list of number implementations that have been
+     * found by their implementation class.
+     */
+    private Map<Class<? extends NumberInterface>, NumberImplementation> cachedInterfaceImplementations;
+    /**
+     * The pi values for each implementation class that have already been computer.
+     */
+    private Map<Class<? extends NumberInterface>, NumberInterface> cachedPi;
+    /**
+     * The list of plugin listeners attached to this instance.
+     */
+    private Set<PluginListener> listeners;
+    /**
+     * The abacus instance used to access other
+     * components of the application.
+     */
+    private Abacus abacus;
+
+    /**
+     * Creates a new plugin manager.
+     *
+     * @param abacus the abacus instance.
+     */
+    public PluginManager(Abacus abacus) {
+        this.abacus = abacus;
+        loadedPluginClasses = new HashSet<>();
+        plugins = new HashSet<>();
+        registeredFunctions = new HashMap<>();
+        registeredOperators = new HashMap<>();
+        registeredNumberImplementations = new HashMap<>();
+        registeredDocumentation = new HashSet<>();
+        cachedInterfaceImplementations = new HashMap<>();
+        cachedPi = new HashMap<>();
+        listeners = new HashSet<>();
+    }
+
+    /**
+     * Registers a function under the given name.
+     *
+     * @param name     the name of the function.
+     * @param function the function to register.
+     */
+    public void registerFunction(String name, Function function) {
+        registeredFunctions.put(name, function);
+    }
+
+    /**
+     * Registers an operator under the given name.
+     *
+     * @param name     the name of the operator.
+     * @param operator the operator to register.
+     */
+    public void registerOperator(String name, Operator operator) {
+        registeredOperators.put(name, operator);
+    }
+
+    /**
+     * Registers a number implementation under the given name.
+     *
+     * @param name           the name of the number implementation.
+     * @param implementation the number implementation to register.
+     */
+    public void registerNumberImplementation(String name, NumberImplementation implementation) {
+        registeredNumberImplementations.put(name, implementation);
+    }
+
+    /**
+     * Registers the given documentation with the plugin manager,
+     * making it accessible to the plugin manager etc.
+     *
+     * @param documentation the documentation to register.
+     */
+    public void registerDocumentation(Documentation documentation) {
+        registeredDocumentation.add(documentation);
+    }
+
+    /**
+     * Gets the function registered under the given name.
+     *
+     * @param name the name of the function.
+     * @return the function, or null if it was not found.
+     */
+    public Function functionFor(String name) {
+        return registeredFunctions.get(name);
+    }
+
+    /**
+     * Gets the operator registered under the given name.
+     *
+     * @param name the name of the operator.
+     * @return the operator, or null if it was not found.
+     */
+    public Operator operatorFor(String name) {
+        return registeredOperators.get(name);
+    }
+
+    /**
+     * Gets the number implementation registered under the given name.
+     *
+     * @param name the name of the number implementation.
+     * @return the number implementation, or null if it was not found.
+     */
+    public NumberImplementation numberImplementationFor(String name) {
+        return registeredNumberImplementations.get(name);
+    }
+
+    /**
+     * Gets the documentation for the given entity of the given type.
+     *
+     * @param name the name of the entity to search for.
+     * @param type the type that this entity is, to filter out similarly named documentation.
+     * @return the documentation object.
+     */
+    public Documentation documentationFor(String name, DocumentationType type) {
+        Documentation toReturn = null;
+        for (Documentation entry : registeredDocumentation) {
+            if (entry.getCodeName().equals(name) && entry.getType() == type) {
+                toReturn = entry;
+                break;
+            }
+        }
+        if (toReturn == null) {
+            toReturn = new Documentation(name, "", "", "", type);
+            registerDocumentation(toReturn);
+        }
+        return toReturn;
+    }
+
+    /**
+     * Gets the number implementation for the given implementation class.
+     *
+     * @param name the class for which to find the implementation.
+     * @return the implementation.
+     */
+    public NumberImplementation interfaceImplementationFor(Class<? extends NumberInterface> name) {
+        if (cachedInterfaceImplementations.containsKey(name)) return cachedInterfaceImplementations.get(name);
+        NumberImplementation toReturn = null;
+        for (String key : registeredNumberImplementations.keySet()) {
+            NumberImplementation implementation = registeredNumberImplementations.get(key);
+            if (implementation.getImplementation() == name) {
+                toReturn = implementation;
+                break;
+            }
+        }
+        cachedInterfaceImplementations.put(name, toReturn);
+        return toReturn;
+    }
+
+    /**
+     * Gets the mathematical constant pi for the given implementation class.
+     *
+     * @param forClass the class for which to find pi.
+     * @return pi
+     */
+    public NumberInterface piFor(Class<? extends NumberInterface> forClass) {
+        if (cachedPi.containsKey(forClass)) return cachedPi.get(forClass);
+        NumberImplementation implementation = interfaceImplementationFor(forClass);
+        NumberInterface generatedPi = null;
+        if (implementation != null) {
+            generatedPi = implementation.instanceForPi();
+        }
+        cachedPi.put(forClass, generatedPi);
+        return generatedPi;
+    }
+
+    /**
+     * Adds an instance of Plugin that already has been instantiated.
+     *
+     * @param plugin the plugin to add.
+     */
+    public void addInstantiated(Plugin plugin) {
+        if (loadedPluginClasses.contains(plugin.getClass())) return;
+        plugins.add(plugin);
+        loadedPluginClasses.add(plugin.getClass());
+    }
+
+    /**
+     * Instantiates a class of plugin, and adds it to this
+     * plugin manager.
+     *
+     * @param newClass the new class to instantiate.
+     */
+    public void addClass(Class<?> newClass) {
+        if (!Plugin.class.isAssignableFrom(newClass) || newClass == Plugin.class) return;
+        try {
+            addInstantiated((Plugin) newClass.getConstructor(PluginManager.class).newInstance(this));
+        } catch (InstantiationException | IllegalAccessException | NoSuchMethodException | InvocationTargetException e) {
+            e.printStackTrace();
+        }
+    }
+
+    /**
+     * Removes the plugin with the given class from the manager.
+     *
+     * @param toRemove the plugin to remove.
+     */
+    public void removeClass(Class<? extends Plugin> toRemove) {
+        if (!loadedPluginClasses.contains(toRemove)) return;
+        plugins.removeIf(plugin -> plugin.getClass() == toRemove);
+        loadedPluginClasses.remove(toRemove);
+    }
+
+    /**
+     * Removes all plugins from this plugin manager.
+     */
+    public void removeAll() {
+        loadedPluginClasses.clear();
+        plugins.clear();
+    }
+
+    /**
+     * Loads all the plugins in the PluginManager.
+     */
+    public void load() {
+        Set<String> disabledPlugins = abacus.getConfiguration().getDisabledPlugins();
+        for (Plugin plugin : plugins) {
+            if (disabledPlugins.contains(plugin.getClass().getName())) continue;
+            plugin.enable();
+        }
+        listeners.forEach(e -> e.onLoad(this));
+    }
+
+    /**
+     * Unloads all the plugins in the PluginManager.
+     */
+    public void unload() {
+        listeners.forEach(e -> e.onUnload(this));
+        Set<String> disabledPlugins = abacus.getConfiguration().getDisabledPlugins();
+        for (Plugin plugin : plugins) {
+            if (disabledPlugins.contains(plugin.getClass().getName())) continue;
+            plugin.disable();
+        }
+        registeredFunctions.clear();
+        registeredOperators.clear();
+        registeredNumberImplementations.clear();
+        registeredDocumentation.clear();
+        cachedInterfaceImplementations.clear();
+        cachedPi.clear();
+        listeners.forEach(e -> e.onUnload(this));
+    }
+
+    /**
+     * Reloads all the plugins in the PluginManager.
+     */
+    public void reload() {
+        unload();
+        load();
+    }
+
+    /**
+     * Gets all the functions loaded by the Plugin Manager.
+     *
+     * @return the set of all functions that were loaded.
+     */
+    public Set<String> getAllFunctions() {
+        return registeredFunctions.keySet();
+    }
+
+    /**
+     * Gets all the operators loaded by the Plugin Manager.
+     *
+     * @return the set of all operators that were loaded.
+     */
+    public Set<String> getAllOperators() {
+        return registeredOperators.keySet();
+    }
+
+    /**
+     * Gets all the number implementations loaded by the Plugin Manager.
+     *
+     * @return the set of all implementations that were loaded.
+     */
+    public Set<String> getAllNumberImplementations() {
+        return registeredNumberImplementations.keySet();
+    }
+
+    /**
+     * Adds a plugin change listener to this plugin manager.
+     *
+     * @param listener the listener to add.
+     */
+    public void addListener(PluginListener listener) {
+        listeners.add(listener);
+    }
+
+    /**
+     * Remove the plugin change listener from this plugin manager.
+     *
+     * @param listener the listener to remove.
+     */
+    public void removeListener(PluginListener listener) {
+        listeners.remove(listener);
+    }
+
+    /**
+     * Gets a list of all the plugin class files that have been
+     * added to the plugin manager.
+     *
+     * @return the list of all the added plugin classes.
+     */
+    public Set<Class<?>> getLoadedPluginClasses() {
+        return loadedPluginClasses;
+    }
+}

core/src/main/java/org/nwapw/abacus/plugin/StandardPlugin.java

@@ -0,0 +1,837 @@
+package org.nwapw.abacus.plugin;
+
+import org.nwapw.abacus.function.*;
+import org.nwapw.abacus.number.NaiveNumber;
+import org.nwapw.abacus.number.NumberInterface;
+import org.nwapw.abacus.number.PreciseNumber;
+
+import java.util.ArrayList;
+import java.util.HashMap;
+import java.util.function.BiFunction;
+
+/**
+ * The plugin providing standard functions such as addition and subtraction to
+ * the calculator.
+ */
+public class StandardPlugin extends Plugin {
+
+    /**
+     * The addition operator, +
+     */
+    public static final Operator OP_ADD = new Operator(OperatorAssociativity.LEFT, OperatorType.BINARY_INFIX, 0, new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length >= 1;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            NumberInterface sum = params[0];
+            for (int i = 1; i < params.length; i++) {
+                sum = sum.add(params[i]);
+            }
+            return sum;
+        }
+    });
+    /**
+     * The subtraction operator, -
+     */
+    public static final Operator OP_SUBTRACT = new Operator(OperatorAssociativity.LEFT, OperatorType.BINARY_INFIX, 0, new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 2;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            return params[0].subtract(params[1]);
+
+        }
+    });
+    /**
+     * The negation operator, -
+     */
+    public static final Operator OP_NEGATE = new Operator(OperatorAssociativity.LEFT, OperatorType.UNARY_PREFIX, 0, new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 1;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            return params[0].negate();
+        }
+    });
+    /**
+     * The multiplication operator, *
+     */
+    public static final Operator OP_MULTIPLY = new Operator(OperatorAssociativity.LEFT, OperatorType.BINARY_INFIX, 1, new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length >= 1;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            NumberInterface product = params[0];
+            for (int i = 1; i < params.length; i++) {
+                product = product.multiply(params[i]);
+            }
+            return product;
+        }
+    });
+    /**
+     * The combination operator.
+     */
+    public static final Operator OP_NCR = new Operator(OperatorAssociativity.RIGHT, OperatorType.BINARY_INFIX, 0, new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 2 && params[0].fractionalPart().signum() == 0
+                    && params[1].fractionalPart().signum() == 0;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            return OP_NPR.getFunction().apply(params).divide(OP_FACTORIAL.getFunction().apply(params[1]));
+        }
+    });
+    /**
+     * The implementation for double-based naive numbers.
+     */
+    public static final NumberImplementation IMPLEMENTATION_NAIVE = new NumberImplementation(NaiveNumber.class, 0) {
+        @Override
+        public NumberInterface instanceForString(String string) {
+            return new NaiveNumber(string);
+        }
+
+        @Override
+        public NumberInterface instanceForPi() {
+            return new NaiveNumber(Math.PI);
+        }
+    };
+    /**
+     * The implementation for the infinite-precision BigDecimal.
+     */
+    public static final NumberImplementation IMPLEMENTATION_PRECISE = new NumberImplementation(PreciseNumber.class, 0) {
+        @Override
+        public NumberInterface instanceForString(String string) {
+            return new PreciseNumber(string);
+        }
+
+        @Override
+        public NumberInterface instanceForPi() {
+            NumberInterface C = FUNCTION_SQRT.apply(new PreciseNumber("10005")).multiply(new PreciseNumber("426880"));
+            NumberInterface M = PreciseNumber.ONE;
+            NumberInterface L = new PreciseNumber("13591409");
+            NumberInterface X = M;
+            NumberInterface sum = L;
+            int termsNeeded = C.getMaxPrecision() / 13 + 1;
+
+            NumberInterface lSummand = new PreciseNumber("545140134");
+            NumberInterface xMultiplier = new PreciseNumber("262537412")
+                    .multiply(new PreciseNumber("1000000000"))
+                    .add(new PreciseNumber("640768000"))
+                    .negate();
+            for (int i = 0; i < termsNeeded; i++) {
+                M = M
+                        .multiply(new PreciseNumber((12 * i + 2) + ""))
+                        .multiply(new PreciseNumber((12 * i + 6) + ""))
+                        .multiply(new PreciseNumber((12 * i + 10) + ""))
+                        .divide(new PreciseNumber(Math.pow(i + 1, 3) + ""));
+                L = L.add(lSummand);
+                X = X.multiply(xMultiplier);
+                sum = sum.add(M.multiply(L).divide(X));
+            }
+            return C.divide(sum);
+        }
+    };
+    /**
+     * Stores objects of NumberInterface with integer values for reuse.
+     */
+    private final static HashMap<Class<? extends NumberInterface>, HashMap<Integer, NumberInterface>> integerValues = new HashMap<>();
+    /**
+     * The division operator, /
+     */
+    public static final Operator OP_DIVIDE = new Operator(OperatorAssociativity.LEFT, OperatorType.BINARY_INFIX, 1, new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 2 && params[1].compareTo(fromInt(params[0].getClass(), 0)) != 0;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            return params[0].divide(params[1]);
+        }
+    });
+    /**
+     * The factorial operator, !
+     */
+    public static final Operator OP_FACTORIAL = new Operator(OperatorAssociativity.RIGHT, OperatorType.UNARY_POSTFIX, 0, new Function() {
+        //private HashMap<Class<? extends NumberInterface>, ArrayList<NumberInterface>> storedList = new HashMap<Class<? extends NumberInterface>, ArrayList<NumberInterface>>();
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 1
+                    && params[0].fractionalPart().compareTo(fromInt(params[0].getClass(), 0)) == 0
+                    && params[0].signum() >= 0;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            if (params[0].signum() == 0) {
+                return fromInt(params[0].getClass(), 1);
+            }
+            NumberInterface one = fromInt(params[0].getClass(), 1);
+            NumberInterface factorial = params[0];
+            NumberInterface multiplier = params[0];
+            //It is necessary to later prevent calls of factorial on anything but non-negative integers.
+            while ((multiplier = multiplier.subtract(one)).signum() == 1) {
+                factorial = factorial.multiply(multiplier);
+            }
+            return factorial;
+                /*if(!storedList.containsKey(params[0].getClass())){
+                    storedList.put(params[0].getClass(), new ArrayList<NumberInterface>());
+                    storedList.get(params[0].getClass()).add(NaiveNumber.ONE.promoteTo(params[0].getClass()));
+                    storedList.get(params[0].getClass()).add(NaiveNumber.ONE.promoteTo(params[0].getClass()));
+                }*/
+        }
+    });
+    /**
+     * The permutation operator.
+     */
+    public static final Operator OP_NPR = new Operator(OperatorAssociativity.RIGHT, OperatorType.BINARY_INFIX, 0, new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 2 && params[0].fractionalPart().signum() == 0
+                    && params[1].fractionalPart().signum() == 0;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            if (params[0].compareTo(params[1]) < 0 ||
+                    params[0].signum() < 0 ||
+                    (params[0].signum() == 0 && params[1].signum() != 0)) return fromInt(params[0].getClass(), 0);
+            NumberInterface total = fromInt(params[0].getClass(), 1);
+            NumberInterface multiplyBy = params[0];
+            NumberInterface remainingMultiplications = params[1];
+            NumberInterface halfway = params[0].divide(fromInt(params[0].getClass(), 2));
+            if (remainingMultiplications.compareTo(halfway) > 0) {
+                remainingMultiplications = params[0].subtract(remainingMultiplications);
+            }
+            while (remainingMultiplications.signum() > 0) {
+                total = total.multiply(multiplyBy);
+                remainingMultiplications = remainingMultiplications.subtract(fromInt(params[0].getClass(), 1));
+                multiplyBy = multiplyBy.subtract(fromInt(params[0].getClass(), 1));
+            }
+            return total;
+        }
+    });
+    /**
+     * The absolute value function, abs(-3) = 3
+     */
+    public static final Function FUNCTION_ABS = new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 1;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            return params[0].multiply(fromInt(params[0].getClass(), params[0].signum()));
+        }
+    };
+    /**
+     * The natural log function.
+     */
+    public static final Function FUNCTION_LN = new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 1 && params[0].compareTo(fromInt(params[0].getClass(), 0)) > 0;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            NumberInterface param = params[0];
+            NumberInterface one = fromInt(param.getClass(), 1);
+            int powersOf2 = 0;
+            while (FUNCTION_ABS.apply(param.subtract(one)).compareTo(new NaiveNumber(0.1).promoteTo(param.getClass())) >= 0) {
+                if (param.subtract(one).signum() == 1) {
+                    param = param.divide(fromInt(param.getClass(), 2));
+                    powersOf2++;
+                    if (param.subtract(one).signum() != 1) {
+                        break;
+                        //No infinite loop for you.
+                    }
+                } else {
+                    param = param.multiply(fromInt(param.getClass(), 2));
+                    powersOf2--;
+                    if (param.subtract(one).signum() != -1) {
+                        break;
+                        //No infinite loop for you.
+                    }
+                }
+            }
+            return getLog2(param).multiply(fromInt(param.getClass(), powersOf2)).add(getLogPartialSum(param));
+        }
+
+        /**
+         * Returns the partial sum of the Taylor series for logx (around x=1).
+         * Automatically determines the number of terms needed based on the precision of x.
+         * @param x value at which the series is evaluated. 0 < x < 2. (x=2 is convergent but impractical.)
+         * @return the partial sum.
+         */
+        private NumberInterface getLogPartialSum(NumberInterface x) {
+
+            NumberInterface maxError = x.getMaxError();
+            x = x.subtract(fromInt(x.getClass(), 1)); //Terms used are for log(x+1).
+            NumberInterface currentNumerator = x, currentTerm = x, sum = x;
+            int n = 1;
+            while (FUNCTION_ABS.apply(currentTerm).compareTo(maxError) > 0) {
+                n++;
+                currentNumerator = currentNumerator.multiply(x).negate();
+                currentTerm = currentNumerator.divide(fromInt(x.getClass(), n));
+                sum = sum.add(currentTerm);
+            }
+            return sum;
+        }
+
+        /**
+         * Returns natural log of 2 to the required precision of the class of number.
+         * @param number a number of the same type as the return type. (Used for precision.)
+         * @return the value of log(2) with the appropriate precision.
+         */
+        private NumberInterface getLog2(NumberInterface number) {
+            NumberInterface maxError = number.getMaxError();
+            //NumberInterface errorBound = fromInt(number.getClass(), 1);
+            //We'll use the series \sigma_{n >= 1) ((1/3^n + 1/4^n) * 1/n)
+            //In the following, a=1/3^n, b=1/4^n, c = 1/n.
+            //a is also an error bound.
+            NumberInterface a = fromInt(number.getClass(), 1), b = a, c = a;
+            NumberInterface sum = fromInt(number.getClass(), 0);
+            NumberInterface one = fromInt(number.getClass(), 1);
+            int n = 0;
+            while (a.compareTo(maxError) >= 1) {
+                n++;
+                a = a.divide(fromInt(number.getClass(), 3));
+                b = b.divide(fromInt(number.getClass(), 4));
+                c = one.divide(fromInt(number.getClass(), n));
+                sum = sum.add(a.add(b).multiply(c));
+            }
+            return sum;
+        }
+    };
+    /**
+     * Gets a random number smaller or equal to the given number's integer value.
+     */
+    public static final Function FUNCTION_RAND_INT = new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 1;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            return fromInt(params[0].getClass(), (int) Math.round(Math.random() * params[0].floor().intValue()));
+        }
+    };
+    /**
+     * The caret / pow operator, ^
+     */
+    public static final Operator OP_CARET = new Operator(OperatorAssociativity.RIGHT, OperatorType.BINARY_INFIX, 2, new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            NumberInterface zero = fromInt(params[0].getClass(), 0);
+            return params.length == 2
+                    && !(params[0].compareTo(zero) == 0
+                    && params[1].compareTo(zero) == 0)
+                    && !(params[0].signum() == -1 && params[1].fractionalPart().compareTo(zero) != 0);
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            NumberInterface zero = fromInt(params[0].getClass(), 0);
+            if (params[0].compareTo(zero) == 0)
+                return zero;
+            else if (params[1].compareTo(zero) == 0)
+                return fromInt(params[0].getClass(), 1);
+            //Detect integer bases:
+            if (params[0].fractionalPart().compareTo(fromInt(params[0].getClass(), 0)) == 0
+                    && FUNCTION_ABS.apply(params[1]).compareTo(fromInt(params[0].getClass(), Integer.MAX_VALUE)) < 0
+                    && FUNCTION_ABS.apply(params[1]).compareTo(fromInt(params[1].getClass(), 1)) >= 0) {
+                NumberInterface[] newParams = {params[0], params[1].fractionalPart()};
+                return params[0].intPow(params[1].floor().intValue()).multiply(applyInternal(newParams));
+            }
+            return FUNCTION_EXP.apply(FUNCTION_LN.apply(FUNCTION_ABS.apply(params[0])).multiply(params[1]));
+        }
+    });
+    /**
+     * The square root function.
+     */
+    public static final Function FUNCTION_SQRT = new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 1;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            return OP_CARET.getFunction().apply(params[0], ((new NaiveNumber(0.5)).promoteTo(params[0].getClass())));
+        }
+    };
+    private static final HashMap<Class<? extends NumberInterface>, ArrayList<NumberInterface>> FACTORIAL_LISTS = new HashMap<>();
+    /**
+     * The exponential function, exp(1) = e^1 = 2.71...
+     */
+    public static final Function FUNCTION_EXP = new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 1;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            NumberInterface maxError = params[0].getMaxError();
+            int n = 0;
+            if (params[0].signum() < 0) {
+                NumberInterface[] negatedParams = {params[0].negate()};
+                return fromInt(params[0].getClass(), 1).divide(applyInternal(negatedParams));
+            } else {
+                //We need n such that x^(n+1) * 3^ceil(x) <= maxError * (n+1)!.
+                //right and left refer to lhs and rhs in the above inequality.
+                NumberInterface sum = fromInt(params[0].getClass(), 1);
+                NumberInterface nextNumerator = params[0];
+                NumberInterface left = params[0].multiply(fromInt(params[0].getClass(), 3).intPow(params[0].ceiling().intValue())), right = maxError;
+                do {
+                    sum = sum.add(nextNumerator.divide(factorial(params[0].getClass(), n + 1)));
+                    n++;
+                    nextNumerator = nextNumerator.multiply(params[0]);
+                    left = left.multiply(params[0]);
+                    NumberInterface nextN = fromInt(params[0].getClass(), n + 1);
+                    right = right.multiply(nextN);
+                    //System.out.println(left + ", " + right);
+                }
+                while (left.compareTo(right) > 0);
+                //System.out.println(n+1);
+                return sum;
+            }
+        }
+    };
+    /**
+     * The sine function (the argument is interpreted in radians).
+     */
+    public final Function functionSin = new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 1;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            NumberInterface pi = piFor(params[0].getClass());
+            NumberInterface twoPi = pi.multiply(fromInt(pi.getClass(), 2));
+            NumberInterface theta = getSmallAngle(params[0], pi);
+            //System.out.println(theta);
+            if (theta.compareTo(pi.multiply(new NaiveNumber(1.5).promoteTo(twoPi.getClass()))) >= 0) {
+                theta = theta.subtract(twoPi);
+            } else if (theta.compareTo(pi.divide(fromInt(pi.getClass(), 2))) > 0) {
+                theta = pi.subtract(theta);
+            }
+            //System.out.println(theta);
+            return sinTaylor(theta);
+        }
+    };
+    /**
+     * The cosine function (the argument is in radians).
+     */
+    public final Function functionCos = new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 1;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            return functionSin.apply(piFor(params[0].getClass()).divide(fromInt(params[0].getClass(), 2))
+                    .subtract(params[0]));
+        }
+    };
+    /**
+     * The tangent function (the argument is in radians).
+     */
+    public final Function functionTan = new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 1;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            return functionSin.apply(params[0]).divide(functionCos.apply(params[0]));
+        }
+    };
+    /**
+     * The secant function (the argument is in radians).
+     */
+    public final Function functionSec = new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 1;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            return fromInt(params[0].getClass(), 1).divide(functionCos.apply(params[0]));
+        }
+    };
+    /**
+     * The cosecant function (the argument is in radians).
+     */
+    public final Function functionCsc = new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 1;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            return fromInt(params[0].getClass(), 1).divide(functionSin.apply(params[0]));
+        }
+    };
+    /**
+     * The cotangent function (the argument is in radians).
+     */
+    public final Function functionCot = new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 1;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            return functionCos.apply(params[0]).divide(functionSin.apply(params[0]));
+        }
+    };
+
+    /**
+     * The arcsine function (return type in radians).
+     */
+    public final Function functionArcsin = new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 1
+                    && FUNCTION_ABS.apply(params[0]).compareTo(fromInt(params[0].getClass(), 1)) <= 0;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            if (FUNCTION_ABS.apply(params[0]).compareTo(new NaiveNumber(0.8).promoteTo(params[0].getClass())) >= 0) {
+                NumberInterface[] newParams = {FUNCTION_SQRT.apply(fromInt(params[0].getClass(), 1).subtract(params[0].multiply(params[0])))};
+                return piFor(params[0].getClass()).divide(fromInt(params[0].getClass(), 2))
+                        .subtract(applyInternal(newParams)).multiply(fromInt(params[0].getClass(), params[0].signum()));
+            }
+            NumberInterface currentTerm = params[0], sum = currentTerm,
+                    multiplier = currentTerm.multiply(currentTerm), summandBound = sum.getMaxError().multiply(fromInt(sum.getClass(), 1).subtract(multiplier)),
+                    power = currentTerm, coefficient = fromInt(params[0].getClass(), 1);
+            int exponent = 1;
+            while (FUNCTION_ABS.apply(currentTerm).compareTo(summandBound) > 0) {
+                exponent += 2;
+                power = power.multiply(multiplier);
+                coefficient = coefficient.multiply(fromInt(params[0].getClass(), exponent - 2))
+                        .divide(fromInt(params[0].getClass(), exponent - 1));
+                currentTerm = power.multiply(coefficient).divide(fromInt(power.getClass(), exponent));
+                sum = sum.add(currentTerm);
+            }
+            return sum;
+        }
+    };
+
+    /**
+     * The arccosine function.
+     */
+    public final Function functionArccos = new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 1 && FUNCTION_ABS.apply(params[0]).compareTo(fromInt(params[0].getClass(), 1)) <= 0;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            return piFor(params[0].getClass()).divide(fromInt(params[0].getClass(), 2))
+                    .subtract(functionArcsin.apply(params));
+        }
+    };
+
+    /**
+     * The arccosecant function.
+     */
+    public final Function functionArccsc = new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 1 && FUNCTION_ABS.apply(params[0]).compareTo(fromInt(params[0].getClass(), 1)) >= 0;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            NumberInterface[] reciprocalParamArr = {fromInt(params[0].getClass(), 1).divide(params[0])};
+            return functionArcsin.apply(reciprocalParamArr);
+        }
+    };
+
+    /**
+     * The arcsecant function.
+     */
+    public final Function functionArcsec = new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 1 && FUNCTION_ABS.apply(params[0]).compareTo(fromInt(params[0].getClass(), 1)) >= 0;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            NumberInterface[] reciprocalParamArr = {fromInt(params[0].getClass(), 1).divide(params[0])};
+            return functionArccos.apply(reciprocalParamArr);
+        }
+    };
+
+    /**
+     * The arctangent function.
+     */
+    public final Function functionArctan = new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 1;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            if (params[0].signum() == -1) {
+                NumberInterface[] negatedParams = {params[0].negate()};
+                return applyInternal(negatedParams).negate();
+            }
+            if (params[0].compareTo(fromInt(params[0].getClass(), 1)) > 0) {
+                NumberInterface[] reciprocalParams = {fromInt(params[0].getClass(), 1).divide(params[0])};
+                return piFor(params[0].getClass()).divide(fromInt(params[0].getClass(), 2))
+                        .subtract(applyInternal(reciprocalParams));
+            }
+            if (params[0].compareTo(fromInt(params[0].getClass(), 1)) == 0) {
+                return piFor(params[0].getClass()).divide(fromInt(params[0].getClass(), 4));
+            }
+            if (params[0].compareTo(new NaiveNumber(0.9).promoteTo(params[0].getClass())) >= 0) {
+                NumberInterface[] newParams = {params[0].multiply(fromInt(params[0].getClass(), 2))
+                        .divide(fromInt(params[0].getClass(), 1).subtract(params[0].multiply(params[0])))};
+                return applyInternal(newParams).divide(fromInt(params[0].getClass(), 2));
+            }
+            NumberInterface currentPower = params[0], currentTerm = currentPower, sum = currentTerm,
+                    maxError = params[0].getMaxError(), multiplier = currentPower.multiply(currentPower).negate();
+            int n = 1;
+            while (FUNCTION_ABS.apply(currentTerm).compareTo(maxError) > 0) {
+                n += 2;
+                currentPower = currentPower.multiply(multiplier);
+                currentTerm = currentPower.divide(fromInt(currentPower.getClass(), n));
+                sum = sum.add(currentTerm);
+            }
+            return sum;
+        }
+    };
+
+    /**
+     * The arccotangent function. Range: (0, pi).
+     */
+    public final Function functionArccot = new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 1;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            return piFor(params[0].getClass()).divide(fromInt(params[0].getClass(), 2))
+                    .subtract(functionArctan.apply(params));
+        }
+    };
+
+    public StandardPlugin(PluginManager manager) {
+        super(manager);
+    }
+
+    /**
+     * Returns a partial sum of a series whose terms are given by the nthTermFunction, evaluated at x.
+     *
+     * @param x               the value at which the series is evaluated.
+     * @param nthTermFunction the function that returns the nth term of the series, in the format term(x, n).
+     * @param n               the number of terms in the partial sum.
+     * @return the value of the partial sum that has the same class as x.
+     */
+    private static NumberInterface sumSeries(NumberInterface x, BiFunction<Integer, NumberInterface, NumberInterface> nthTermFunction, int n) {
+        NumberInterface sum = fromInt(x.getClass(), 0);
+        for (int i = 0; i <= n; i++) {
+            sum = sum.add(nthTermFunction.apply(i, x));
+        }
+        return sum;
+    }
+
+    /**
+     * A factorial function that uses memoization for each number class; it efficiently
+     * computes factorials of non-negative integers.
+     *
+     * @param numberClass type of number to return.
+     * @param n           non-negative integer.
+     * @return a number of numClass with value n factorial.
+     */
+    public static NumberInterface factorial(Class<? extends NumberInterface> numberClass, int n) {
+        if (!FACTORIAL_LISTS.containsKey(numberClass)) {
+            FACTORIAL_LISTS.put(numberClass, new ArrayList<>());
+            FACTORIAL_LISTS.get(numberClass).add(fromInt(numberClass, 1));
+            FACTORIAL_LISTS.get(numberClass).add(fromInt(numberClass, 1));
+        }
+        ArrayList<NumberInterface> list = FACTORIAL_LISTS.get(numberClass);
+        if (n >= list.size()) {
+            while (list.size() < n + 16) {
+                list.add(list.get(list.size() - 1).multiply(fromInt(numberClass, list.size())));
+            }
+        }
+        return list.get(n);
+    }
+
+    /**
+     * Returns the value of the Taylor series for sin (centered at 0) at x.
+     *
+     * @param x where the series is evaluated.
+     * @return the value of the series
+     */
+    private static NumberInterface sinTaylor(NumberInterface x) {
+        NumberInterface power = x, multiplier = x.multiply(x).negate(), currentTerm = x, sum = x;
+        NumberInterface maxError = x.getMaxError();
+        int n = 1;
+        do {
+            n += 2;
+            power = power.multiply(multiplier);
+            currentTerm = power.divide(factorial(x.getClass(), n));
+            sum = sum.add(currentTerm);
+        } while (FUNCTION_ABS.apply(currentTerm).compareTo(maxError) > 0);
+        return sum;
+    }
+
+    /**
+     * Returns an equivalent angle in the interval [0, 2pi)
+     *
+     * @param phi an angle (in radians).
+     * @return theta in [0, 2pi) that differs from phi by a multiple of 2pi.
+     */
+    private static NumberInterface getSmallAngle(NumberInterface phi, NumberInterface pi) {
+        NumberInterface twoPi = pi.multiply(fromInt(pi.getClass(), 2));
+        NumberInterface theta = FUNCTION_ABS.apply(phi).subtract(twoPi
+                .multiply(FUNCTION_ABS.apply(phi).divide(twoPi).floor())); //Now theta is in [0, 2pi).
+        if (phi.signum() < 0) {
+            theta = twoPi.subtract(theta);
+        }
+        return theta;
+    }
+
+    /**
+     * Returns a number of class numType with value n.
+     *
+     * @param numType class of number to return.
+     * @param n       value of returned number.
+     * @return numClass instance with value n.
+     */
+    private static NumberInterface fromInt(Class<? extends NumberInterface> numType, int n) {
+        if (!integerValues.containsKey(numType)) {
+            integerValues.put(numType, new HashMap<>());
+        }
+        if (!integerValues.get(numType).containsKey(n)) {
+            integerValues.get(numType).put(n, new NaiveNumber(n).promoteTo(numType));
+        }
+        return integerValues.get(numType).get(n);
+    }
+
+    @Override
+    public void onEnable() {
+        registerNumberImplementation("naive", IMPLEMENTATION_NAIVE);
+        registerNumberImplementation("precise", IMPLEMENTATION_PRECISE);
+
+        registerOperator("+", OP_ADD);
+        registerOperator("-", OP_SUBTRACT);
+        registerOperator("`", OP_NEGATE);
+        registerOperator("*", OP_MULTIPLY);
+        registerOperator("/", OP_DIVIDE);
+        registerOperator("^", OP_CARET);
+        registerOperator("!", OP_FACTORIAL);
+
+        registerOperator("nPr", OP_NPR);
+        registerOperator("nCr", OP_NCR);
+
+        registerFunction("abs", FUNCTION_ABS);
+        registerFunction("exp", FUNCTION_EXP);
+        registerFunction("ln", FUNCTION_LN);
+        registerFunction("sqrt", FUNCTION_SQRT);
+
+        registerFunction("sin", functionSin);
+        registerFunction("cos", functionCos);
+        registerFunction("tan", functionTan);
+        registerFunction("sec", functionSec);
+        registerFunction("csc", functionCsc);
+        registerFunction("cot", functionCot);
+
+        registerFunction("arcsin", functionArcsin);
+        registerFunction("arccos", functionArccos);
+        registerFunction("arctan", functionArctan);
+        registerFunction("arcsec", functionArcsec);
+        registerFunction("arccsc", functionArccsc);
+        registerFunction("arccot", functionArccot);
+
+        registerFunction("random_int", FUNCTION_RAND_INT);
+
+        registerDocumentation(new Documentation("abs", "Absolute Value", "Finds the distance " +
+                "from zero of a number.", "Given a number, this function finds the distance form " +
+                "zero of a number, effectively turning negative numbers into positive ones.\n\n" +
+                "Example: abs(-2) -> 2", DocumentationType.FUNCTION));
+        registerDocumentation(new Documentation("exp", "Exponentiate", "Brings e to the given power.",
+                "This function evaluates e to the power of the given value, and is the inverse " +
+                        "of the natural logarithm.\n\n" +
+                        "Example: exp(1) -> 2.718...", DocumentationType.FUNCTION));
+        registerDocumentation(new Documentation("ln", "Natural Logarithm", "Gets the natural " +
+                "logarithm of the given value.", "The natural logarithm of a number is " +
+                "the power that e has to be brought to to be equal to the number.\n\n" +
+                "Example: ln(2.718) -> 1", DocumentationType.FUNCTION));
+        registerDocumentation(new Documentation("sqrt", "Square Root", "Finds the square root " +
+                "of the number.", "A square root a of a number is defined as the non-negative a such that a times a is equal " +
+                "to that number.\n\n" +
+                "Example: sqrt(4) -> 2", DocumentationType.FUNCTION));
+        registerDocumentation(new Documentation("sin", "Sine", "Computes the sine of the given angle, " +
+                "in radians.", "Example: sin(pi/6) -> 0.5", DocumentationType.FUNCTION));
+        registerDocumentation(new Documentation("cos", "Cosine", "Computes the cosine of the given angle, " +
+                "in radians.", "Example: cos(pi/6) -> 0.866... (the exact result is sqrt(3)/2)", DocumentationType.FUNCTION));
+        registerDocumentation(new Documentation("tan", "Tangent", "Computes the tangent of the given angle, " +
+                "in radians.", "Example: tan(pi/6) -> 0.577... (the exact result is 1/sqrt(3))", DocumentationType.FUNCTION));
+        registerDocumentation(new Documentation("sec", "Secant", "Computes the secant of the given angle, " +
+                "in radians.", "Example: sec(pi/6) -> 1.154... (the exact result is 2/sqrt(3))", DocumentationType.FUNCTION));
+        registerDocumentation(new Documentation("csc", "Cosecant", "Computes the cosecant of the given angle, " +
+                "in radians.", "Example: csc(pi/6) -> 2", DocumentationType.FUNCTION));
+        registerDocumentation(new Documentation("cot", "Cotangent", "Computes the cotangent of the given angle, " +
+                "in radians.", "Example: cot(pi/6) -> 1.732... (the exact result is sqrt(3))", DocumentationType.FUNCTION));
+        registerDocumentation(new Documentation("random_int", "Random Integer", "Generates a random integer [0, n].",
+                "Generates a pseudorandom number using the standard JVM random mechanism, keeping it less than or " +
+                        "equal to the given number.\n\n" +
+                        "Example: random_int(5) -> 4\n" +
+                        "random_int(5) -> 3\n" +
+                        "random_int(5) -> 3\n", DocumentationType.FUNCTION));
+        registerDocumentation(new Documentation("arcsin", "Arcsine", "Computes the arcsine of x. (The result is in radians.)",
+                "Example: arcsin(0.5) -> 0.523... (the exact result is pi/6)", DocumentationType.FUNCTION));
+        registerDocumentation(new Documentation("arccos", "Arccosine", "Computes the arccosine of x. (The result is in radians.)",
+                "Example: arccos(0.5) -> 1.047... (the exact result is pi/3)", DocumentationType.FUNCTION));
+        registerDocumentation(new Documentation("arctan", "Arctangent", "Computes the arctangent of x. (The result is in radians.)",
+                "Example: arctan(1) -> 0.785... (the exact result is pi/4)", DocumentationType.FUNCTION));
+        registerDocumentation(new Documentation("arcsec", "Arcsecant", "Computes the arcsecant of x. (The result is in radians.)",
+                "Example: arcsec(2) -> 1.047... (the exact result is pi/3)", DocumentationType.FUNCTION));
+        registerDocumentation(new Documentation("arccsc", "Arccosecant", "Computes the arcscosecant of x. (The result is in radians.)",
+                "Example: arccsc(2) -> 0.523... (the exact result is pi/6)", DocumentationType.FUNCTION));
+        registerDocumentation(new Documentation("arccot", "Arccotangent", "Computes the arccotangent of x. (The result is in radians," +
+                " in the range (0, pi).)",
+                "Example: arccot(0) -> 1.570... (the exact result is pi/2)", DocumentationType.FUNCTION));
+    }
+
+    @Override
+    public void onDisable() {
+
+    }
+}

core/src/main/java/org/nwapw/abacus/tree/NumberReducer.java

@@ -17,34 +17,35 @@ public class NumberReducer implements Reducer<NumberInterface> {
 
     /**
      * Creates a new number reducer.
+     *
      * @param abacus the calculator instance.
      */
-    public NumberReducer(Abacus abacus){
+    public NumberReducer(Abacus abacus) {
         this.abacus = abacus;
     }
 
     @Override
     public NumberInterface reduceNode(TreeNode node, Object... children) {
-        if(node instanceof NumberNode) {
+        if (node instanceof NumberNode) {
             return ((NumberNode) node).getNumber();
-        } else if(node instanceof BinaryInfixNode){
+        } else if (node instanceof BinaryNode) {
             NumberInterface left = (NumberInterface) children[0];
             NumberInterface right = (NumberInterface) children[1];
-            Function function = abacus.getPluginManager().operatorFor(((BinaryInfixNode) node).getOperation()).getFunction();
-            if(function == null) return null;
+            Function function = abacus.getPluginManager().operatorFor(((BinaryNode) node).getOperation()).getFunction();
+            if (function == null) return null;
             return function.apply(left, right);
-        } else if(node instanceof UnaryPrefixNode) {
+        } else if (node instanceof UnaryNode) {
             NumberInterface child = (NumberInterface) children[0];
-            Function functionn = abacus.getPluginManager().operatorFor(((UnaryPrefixNode) node).getOperation()).getFunction();
-            if(functionn == null) return null;
+            Function functionn = abacus.getPluginManager().operatorFor(((UnaryNode) node).getOperation()).getFunction();
+            if (functionn == null) return null;
             return functionn.apply(child);
-        } else if(node instanceof FunctionNode){
+        } else if (node instanceof FunctionNode) {
             NumberInterface[] convertedChildren = new NumberInterface[children.length];
-            for(int i = 0; i < convertedChildren.length; i++){
+            for (int i = 0; i < convertedChildren.length; i++) {
                 convertedChildren[i] = (NumberInterface) children[i];
             }
             Function function = abacus.getPluginManager().functionFor(((FunctionNode) node).getFunction());
-            if(function == null) return null;
+            if (function == null) return null;
             return function.apply(convertedChildren);
         }
         return null;

core/src/main/java/org/nwapw/abacus/tree/TokenType.java

@@ -16,9 +16,10 @@ public enum TokenType {
 
     /**
      * Creates a new token type with the given priority.
+     *
      * @param priority the priority of this token type.
      */
-    TokenType(int priority){
+    TokenType(int priority) {
         this.priority = priority;
     }
 

core/src/main/kotlin/org/nwapw/abacus/function/Documentation.kt

@@ -0,0 +1,26 @@
+package org.nwapw.abacus.function
+
+/**
+ * A data class used for storing information about a function.
+ *
+ * The Documentation class holds the information necessary to display the information
+ * about a function to the user.
+ *
+ * @param codeName the name of the function as it occurs in code.
+ * @param name the name of the function in English.
+ * @param description the short description of this function.
+ * @param longDescription the full description of this function.
+ * @param type the things this documentation maps to.
+ */
+data class Documentation(val codeName: String, val name: String,
+                         val description: String, val longDescription: String,
+                         val type: DocumentationType) {
+
+    fun matches(other: String): Boolean {
+        return codeName.toLowerCase().contains(other.toLowerCase()) ||
+                name.toLowerCase().contains(other.toLowerCase()) ||
+                description.toLowerCase().contains(other.toLowerCase()) ||
+                longDescription.toLowerCase().contains(other.toLowerCase())
+    }
+
+}

core/src/main/kotlin/org/nwapw/abacus/function/Operator.kt

@@ -0,0 +1,14 @@
+package org.nwapw.abacus.function
+
+/**
+ * A single operator that can be used by Abacus.
+ *
+ * This is a data class that holds the information about a single operator, such as a plus or minus.
+ *
+ * @param associativity the associativity of this operator, used for order of operations;.
+ * @param type the type of this operator, used for parsing (infix / prefix / postfix and binary / unary)
+ * @param precedence the precedence of this operator, used for order of operations.
+ * @param function the function this operator applies to its arguments.
+ */
+data class Operator(val associativity: OperatorAssociativity, val type: OperatorType,
+                    val precedence: Int, val function: Function)

core/src/main/kotlin/org/nwapw/abacus/tree/BinaryNode.kt

@@ -0,0 +1,26 @@
+package org.nwapw.abacus.tree
+
+/**
+ * A tree node that holds a binary operation.
+ *
+ * This node represents any binary operation, such as binary infix or binary postfix. The only
+ * currently implemented into Abacus is binary infix, but that has more to do with the parser than
+ * this class, which doesn't care about the order that its operation and nodes were found in text.
+ *
+ * @param operation the operation this node performs on its children.
+ * @param left the left node.
+ * @param right the right node.
+ */
+data class BinaryNode(val operation: String, val left: TreeNode? = null, val right: TreeNode?) : TreeNode() {
+
+    override fun <T : Any> reduce(reducer: Reducer<T>): T? {
+        val leftReduce = left?.reduce(reducer) ?: return null
+        val rightReduce = right?.reduce(reducer) ?: return null
+        return reducer.reduceNode(this, leftReduce, rightReduce)
+    }
+
+    override fun toString(): String {
+        return "(" + (left?.toString() ?: "null") + operation + (right?.toString() ?: "null") + ")"
+    }
+
+}

core/src/main/kotlin/org/nwapw/abacus/tree/FunctionNode.kt

@@ -0,0 +1,52 @@
+package org.nwapw.abacus.tree
+
+/**
+ * A tree node that holds a function call.
+ *
+ * The function call node can hold any number of children, and passes the to the appropriate reducer,
+ * but that is its sole purpose.
+ *
+ * @param function the function string.
+ */
+data class FunctionNode(val function: String) : TreeNode() {
+
+    /**
+     * List of function parameters added to this node.
+     */
+    val children: MutableList<TreeNode> = mutableListOf()
+
+    override fun <T : Any> reduce(reducer: Reducer<T>): T? {
+        val children = Array<Any>(children.size, { children[it].reduce(reducer) ?: return null; })
+        return reducer.reduceNode(this, *children)
+    }
+
+    override fun toString(): String {
+        val buffer = StringBuffer()
+        buffer.append(function)
+        buffer.append('(')
+        for (i in 0 until children.size) {
+            buffer.append(children[i].toString())
+            buffer.append(if (i == children.size - 1) ")" else ",")
+        }
+        return buffer.toString()
+    }
+
+    /**
+     * Appends a child to this node's list of children.
+     *
+     * @node the node to append.
+     */
+    fun appendChild(node: TreeNode) {
+        children.add(node)
+    }
+
+    /**
+     * Prepends a child to this node's list of children.
+     *
+     * @node the node to prepend.
+     */
+    fun prependChild(node: TreeNode) {
+        children.add(0, node)
+    }
+
+}

core/src/main/kotlin/org/nwapw/abacus/tree/NumberNode.kt

@@ -0,0 +1,23 @@
+package org.nwapw.abacus.tree
+
+import org.nwapw.abacus.number.NumberInterface
+
+/**
+ * A tree node that holds a single number value.
+ *
+ * This is a tree node that holds a single NumberInterface, which represents any number,
+ * and is not defined during compile time.
+ *
+ * @number the number value of this node.
+ */
+data class NumberNode(val number: NumberInterface) : TreeNode() {
+
+    override fun <T : Any> reduce(reducer: Reducer<T>): T? {
+        return reducer.reduceNode(this)
+    }
+
+    override fun toString(): String {
+        return number.toString()
+    }
+
+}

core/src/main/kotlin/org/nwapw/abacus/tree/Reducer.kt

@@ -0,0 +1,19 @@
+package org.nwapw.abacus.tree
+
+/**
+ * Reducer interface that takes a tree and returns a single value.
+ *
+ * The reducer walks the tree, visiting the children first, converting them into
+ * a value, and then attempts to reduce the parent. Eventually, the single final value is returned.
+ */
+interface Reducer<out T> {
+
+    /**
+     * Reduces the given tree node, given its already reduced children.
+     *
+     * @param treeNode the tree node to reduce.
+     * @param children the list of children, of type T.
+     */
+    fun reduceNode(treeNode: TreeNode, vararg children: Any): T?
+
+}

core/src/main/kotlin/org/nwapw/abacus/tree/TreeNode.kt

@@ -0,0 +1,10 @@
+package org.nwapw.abacus.tree
+
+/**
+ * A tree node.
+ */
+abstract class TreeNode {
+
+    abstract fun <T : Any> reduce(reducer: Reducer<T>): T?
+
+}

core/src/main/kotlin/org/nwapw/abacus/tree/UnaryNode.kt

@@ -0,0 +1,23 @@
+package org.nwapw.abacus.tree
+
+/**
+ * A tree node that holds a unary operation.
+ *
+ * This node holds a single operator applied to a single parameter, and does not care
+ * whether the operation was found before or after the parameter in the text.
+ *
+ * @param operation the operation applied to the given node.
+ * @param applyTo the node to which the operation will be applied.
+ */
+data class UnaryNode(val operation: String, val applyTo: TreeNode? = null) : TreeNode() {
+
+    override fun <T : Any> reduce(reducer: Reducer<T>): T? {
+        val reducedChild = applyTo?.reduce(reducer) ?: return null
+        return reducer.reduceNode(this, reducedChild)
+    }
+
+    override fun toString(): String {
+        return "(" + (applyTo?.toString() ?: "null") + ")" + operation
+    }
+
+}

core/src/main/resources/abacus.fxml

@@ -0,0 +1,76 @@
+<?xml version="1.0" encoding="UTF-8"?>
+
+<?import javafx.geometry.Insets?>
+<?import javafx.scene.control.*?>
+<?import javafx.scene.layout.*?>
+<?import javafx.scene.text.Text?>
+<BorderPane xmlns:fx="http://javafx.com/fxml"
+            xmlns="http://javafx.com/javafx"
+            fx:controller="org.nwapw.abacus.fx.AbacusController">
+    <center>
+        <TabPane fx:id="coreTabPane">
+            <Tab fx:id="calculateTab" text="Calculator" closable="false">
+                <BorderPane>
+                    <center>
+                        <TableView fx:id="historyTable">
+                            <columnResizePolicy>
+                                <TableView fx:constant="CONSTRAINED_RESIZE_POLICY"/>
+                            </columnResizePolicy>
+                            <columns>
+                                <TableColumn fx:id="inputColumn" text="Input" sortable="false"/>
+                                <TableColumn fx:id="parsedColumn" text="Parsed" sortable="false"/>
+                                <TableColumn fx:id="outputColumn" text="Output" sortable="false"/>
+                            </columns>
+                        </TableView>
+                    </center>
+                    <bottom>
+                        <VBox>
+                            <ScrollPane prefHeight="50" vbarPolicy="NEVER">
+                                <padding>
+                                    <Insets top="10" bottom="10" left="10" right="10"/>
+                                </padding>
+                                <Text fx:id="outputText"/>
+                            </ScrollPane>
+                            <TextField fx:id="inputField" onAction="#performCalculation"/>
+                            <Button fx:id="inputButton" text="Calculate" maxWidth="Infinity"
+                                    onAction="#performCalculation"/>
+                            <Button fx:id="stopButton" text="Stop" maxWidth="Infinity"
+                                    onAction="#performStop" disable="true"/>
+                        </VBox>
+                    </bottom>
+                </BorderPane>
+            </Tab>
+            <Tab fx:id="settingsTab" text="Settings" closable="false">
+                <GridPane hgap="10" vgap="10">
+                    <padding>
+                        <Insets left="10" right="10" top="10" bottom="10"/>
+                    </padding>
+                    <Label text="Number Implementation" GridPane.columnIndex="0" GridPane.rowIndex="0"/>
+                    <ComboBox fx:id="numberImplementationBox" GridPane.columnIndex="1" GridPane.rowIndex="0"/>
+                    <ListView fx:id="enabledPluginView"
+                              GridPane.rowIndex="1" GridPane.columnIndex="0"
+                              GridPane.columnSpan="2" maxHeight="100"/>
+                    <Text GridPane.columnIndex="0" GridPane.rowIndex="2" text="Computation Limit"/>
+                    <TextField fx:id="computationLimitField" GridPane.columnIndex="1" GridPane.rowIndex="2"/>
+                    <FlowPane GridPane.columnIndex="0" GridPane.columnSpan="2" GridPane.rowIndex="3" hgap="10"
+                              vgap="10">
+                        <Button text="Apply" onAction="#performSave"/>
+                        <Button text="Reload Plugins" onAction="#performReload"/>
+                        <Button text="Apply and Reload" onAction="#performSaveAndReload"/>
+                        <Button text="Scan Plugins" onAction="#performScan"/>
+                    </FlowPane>
+                </GridPane>
+            </Tab>
+            <Tab fx:id="functionListTab" text="Functions" closable="false">
+                <VBox spacing="10">
+                    <padding>
+                        <Insets left="10" right="10" top="10" bottom="10"/>
+                    </padding>
+                    <TextField fx:id="functionListSearchField" maxWidth="Infinity"/>
+                    <ListView maxWidth="Infinity" fx:id="functionListView"/>
+                </VBox>
+            </Tab>
+        </TabPane>
+    </center>
+
+</BorderPane>

core/src/test/java/org/nwapw/abacus/tests/CalculationTests.java

@@ -0,0 +1,107 @@
+package org.nwapw.abacus.tests;
+
+import org.junit.Assert;
+import org.junit.BeforeClass;
+import org.junit.Test;
+import org.nwapw.abacus.Abacus;
+import org.nwapw.abacus.config.Configuration;
+import org.nwapw.abacus.number.NumberInterface;
+import org.nwapw.abacus.plugin.StandardPlugin;
+import org.nwapw.abacus.tree.TreeNode;
+
+public class CalculationTests {
+
+    private static Abacus abacus = new Abacus(new Configuration(0, "precise", new String[]{}));
+
+    @BeforeClass
+    public static void prepareTests() {
+        abacus.getPluginManager().addInstantiated(new StandardPlugin(abacus.getPluginManager()));
+        abacus.getPluginManager().load();
+    }
+
+    private void testOutput(String input, String parseOutput, String output) {
+        TreeNode parsedTree = abacus.parseString(input);
+        Assert.assertNotNull(parsedTree);
+        Assert.assertEquals(parsedTree.toString(), parseOutput);
+        NumberInterface result = abacus.evaluateTree(parsedTree);
+        Assert.assertNotNull(result);
+        Assert.assertTrue(result.toString().startsWith(output));
+    }
+
+    private void testEvalError(String input, String parseOutput) {
+        TreeNode parsedTree = abacus.parseString(input);
+        Assert.assertNotNull(parsedTree);
+        Assert.assertEquals(parsedTree.toString(), parseOutput);
+        Assert.assertNull(abacus.evaluateTree(parsedTree));
+    }
+
+    @Test
+    public void testAddition() {
+        testOutput("9.5+10", "(9.5+10)", "19.5");
+    }
+
+    @Test
+    public void testSubtraction() {
+        testOutput("9.5-10", "(9.5-10)", "-0.5");
+    }
+
+    @Test
+    public void testMultiplication() {
+        testOutput("9.5*10", "(9.5*10)", "95");
+    }
+
+    @Test
+    public void testDivision() {
+        testOutput("9.5/2", "(9.5/2)", "4.75");
+    }
+
+    @Test
+    public void testNegation() {
+        testOutput("-9.5", "(9.5)`", "-9.5");
+    }
+
+    @Test
+    public void testFactorial() {
+        testOutput("7!", "(7)!", "5040");
+    }
+
+    @Test
+    public void testAbs() {
+        testOutput("abs(-1)", "abs((1)`)", "1");
+        testOutput("abs(1)", "abs(1)", "1");
+    }
+
+    @Test
+    public void testLn() {
+        testEvalError("ln(-1)", "ln((1)`)");
+        testOutput("ln2", "ln(2)", "0.6931471805599453094172321214581765680755");
+    }
+
+    @Test
+    public void testSqrt() {
+        testOutput("sqrt0", "sqrt(0)", "0");
+        testOutput("sqrt4", "sqrt(4)", "2");
+        testOutput("sqrt2", "sqrt(2)", "1.4142135623730950488016887242096980785696");
+    }
+
+    @Test
+    public void testExp() {
+        testOutput("exp0", "exp(0)", "1");
+        testOutput("exp1", "exp(1)", "2.718281828459045235360287471352662497757247");
+        testOutput("exp300", "exp(300)", "1.9424263952412559365842088360176992193662086");
+        testOutput("exp(-500)", "exp((500)`)", "7.1245764067412855315491573771227552469277568");
+    }
+
+    @Test
+    public void testPow() {
+        testOutput("0^2", "(0^2)", "0");
+        testOutput("2^0", "(2^0)", "1");
+        testOutput("2^1", "(2^1)", "2");
+        testOutput("2^-1", "(2^(1)`)", "0.5");
+        testOutput("2^50", "(2^50)", "112589990684262");
+        testOutput("7^(-sqrt2*17)", "(7^((sqrt(2)*17))`)", "4.81354609155297814551845300063563");
+        testEvalError("0^0", "(0^0)");
+        testEvalError("(-13)^.9999", "((13)`^0.9999)");
+    }
+
+}

core/src/test/java/org/nwapw/abacus/tests/LexerTests.java

@@ -0,0 +1,133 @@
+package org.nwapw.abacus.tests;
+
+import org.junit.Assert;
+import org.junit.Test;
+import org.nwapw.abacus.lexing.Lexer;
+import org.nwapw.abacus.lexing.pattern.Match;
+
+import java.util.List;
+
+public class LexerTests {
+
+    @Test
+    public void testBasicSuccess() {
+        Lexer<Integer> lexer = new Lexer<>();
+        lexer.register("abc", 0);
+        lexer.register("def", 1);
+        List<Match<Integer>> matchedIntegers = lexer.lexAll("abcdefabc", 0, Integer::compare);
+        Assert.assertNotNull(matchedIntegers);
+        Assert.assertEquals(matchedIntegers.get(0).getType(), Integer.valueOf(0));
+        Assert.assertEquals(matchedIntegers.get(1).getType(), Integer.valueOf(1));
+        Assert.assertEquals(matchedIntegers.get(2).getType(), Integer.valueOf(0));
+    }
+
+    @Test
+    public void testBasicFailure() {
+        Lexer<Integer> lexer = new Lexer<>();
+        lexer.register("abc", 0);
+        lexer.register("def", 1);
+        Assert.assertNull(lexer.lexAll("abcdefabcz", 0, Integer::compare));
+    }
+
+    @Test
+    public void testNoPatterns() {
+        Lexer<Integer> lexer = new Lexer<>();
+        Assert.assertNull(lexer.lexAll("abcdefabc", 0, Integer::compare));
+    }
+
+    @Test
+    public void testEmptyMatches() {
+        Lexer<Integer> lexer = new Lexer<>();
+        lexer.register("a?", 0);
+        Assert.assertNull(lexer.lexAll("", 0, Integer::compare));
+    }
+
+    @Test
+    public void testOneOrMore() {
+        Lexer<Integer> lexer = new Lexer<>();
+        lexer.register("a+", 0);
+        List<Match<Integer>> tokens = lexer.lexAll("aaaa", 0, Integer::compare);
+        Assert.assertNotNull(tokens);
+        Assert.assertEquals(tokens.size(), 1);
+    }
+
+    @Test
+    public void testZeroOrMore() {
+        Lexer<Integer> lexer = new Lexer<>();
+        lexer.register("a*", 0);
+        List<Match<Integer>> tokens = lexer.lexAll("aaaa", 0, Integer::compare);
+        Assert.assertNotNull(tokens);
+        Assert.assertEquals(tokens.size(), 1);
+    }
+
+    @Test
+    public void testZeroOrOne() {
+        Lexer<Integer> lexer = new Lexer<>();
+        lexer.register("a?", 0);
+        List<Match<Integer>> tokens = lexer.lexAll("aaaa", 0, Integer::compare);
+        Assert.assertNotNull(tokens);
+        Assert.assertEquals(tokens.size(), 4);
+    }
+
+    @Test
+    public void testGreedyMatching() {
+        Lexer<Integer> lexer = new Lexer<>();
+        lexer.register("a*a", 0);
+        List<Match<Integer>> tokens = lexer.lexAll("aaaa", 0, Integer::compare);
+        Assert.assertNotNull(tokens);
+        Assert.assertEquals(tokens.size(), 1);
+    }
+
+    @Test
+    public void testAnyCharacter() {
+        String testString = "abcdef";
+        Lexer<Integer> lexer = new Lexer<>();
+        lexer.register(".", 0);
+        List<Match<Integer>> tokens = lexer.lexAll(testString, 0, Integer::compare);
+        Assert.assertNotNull(tokens);
+        Assert.assertEquals(tokens.size(), testString.length());
+        for (int i = 0; i < tokens.size(); i++) {
+            Assert.assertEquals(testString.substring(i, i + 1), tokens.get(i).getContent());
+        }
+    }
+
+    @Test
+    public void testBasicGroup() {
+        Lexer<Integer> lexer = new Lexer<>();
+        lexer.register("(abc)", 0);
+        List<Match<Integer>> tokens = lexer.lexAll("abc", 0, Integer::compare);
+        Assert.assertNotNull(tokens);
+        Assert.assertEquals(tokens.size(), 1);
+        Assert.assertEquals(tokens.get(0).getContent(), "abc");
+    }
+
+    @Test
+    public void testBasicRangeSuccess() {
+        String testString = "abcdef";
+        Lexer<Integer> lexer = new Lexer<>();
+        lexer.register("[a-f]", 0);
+        List<Match<Integer>> tokens = lexer.lexAll(testString, 0, Integer::compare);
+        Assert.assertNotNull(tokens);
+        Assert.assertEquals(testString.length(), tokens.size());
+        for (int i = 0; i < tokens.size(); i++) {
+            Assert.assertEquals(testString.substring(i, i + 1), tokens.get(i).getContent());
+        }
+    }
+
+    @Test
+    public void testBasicRangeFailure() {
+        Lexer<Integer> lexer = new Lexer<>();
+        lexer.register("[a-f]", 0);
+        Assert.assertNull(lexer.lexAll("g", 0, Integer::compare));
+    }
+
+    @Test
+    public void testGroupAndOperator() {
+        Lexer<Integer> lexer = new Lexer<>();
+        lexer.register("(abc)+", 0);
+        List<Match<Integer>> tokens = lexer.lexAll("abcabc", 0, Integer::compare);
+        Assert.assertNotNull(tokens);
+        Assert.assertEquals(tokens.size(), 1);
+    }
+
+}

core/src/test/java/org/nwapw/abacus/tests/TokenizerTests.java

@@ -0,0 +1,125 @@
+package org.nwapw.abacus.tests;
+
+import org.junit.Assert;
+import org.junit.BeforeClass;
+import org.junit.Test;
+import org.nwapw.abacus.Abacus;
+import org.nwapw.abacus.config.Configuration;
+import org.nwapw.abacus.function.Function;
+import org.nwapw.abacus.function.Operator;
+import org.nwapw.abacus.function.OperatorAssociativity;
+import org.nwapw.abacus.function.OperatorType;
+import org.nwapw.abacus.lexing.pattern.Match;
+import org.nwapw.abacus.number.NumberInterface;
+import org.nwapw.abacus.parsing.LexerTokenizer;
+import org.nwapw.abacus.plugin.Plugin;
+import org.nwapw.abacus.tree.TokenType;
+
+import java.util.List;
+
+public class TokenizerTests {
+
+    private static Abacus abacus = new Abacus(new Configuration(0, "precise", new String[]{}));
+    private static LexerTokenizer lexerTokenizer = new LexerTokenizer();
+    private static Function subtractFunction = new Function() {
+        @Override
+        protected boolean matchesParams(NumberInterface[] params) {
+            return params.length == 2;
+        }
+
+        @Override
+        protected NumberInterface applyInternal(NumberInterface[] params) {
+            return params[0].subtract(params[1]);
+        }
+    };
+    private static Plugin testPlugin = new Plugin(abacus.getPluginManager()) {
+        @Override
+        public void onEnable() {
+            registerOperator("+", new Operator(OperatorAssociativity.LEFT, OperatorType.BINARY_INFIX,
+                    0, subtractFunction));
+            registerOperator("-", new Operator(OperatorAssociativity.LEFT, OperatorType.BINARY_INFIX,
+                    0, subtractFunction));
+            registerFunction("subtract", subtractFunction);
+        }
+
+        @Override
+        public void onDisable() {
+
+        }
+    };
+
+    private static void assertTokensMatch(List<Match<TokenType>> tokenList, TokenType[] expectedTypes) {
+        Assert.assertNotNull(tokenList);
+        Assert.assertEquals(tokenList.size(), expectedTypes.length);
+        for (int i = 0; i < expectedTypes.length; i++) {
+            Assert.assertEquals(expectedTypes[i], tokenList.get(i).getType());
+        }
+    }
+
+    @BeforeClass
+    public static void prepareTests() {
+        abacus.getPluginManager().addListener(lexerTokenizer);
+        abacus.getPluginManager().addInstantiated(testPlugin);
+        abacus.getPluginManager().load();
+    }
+
+    @Test
+    public void testInteger() {
+        assertTokensMatch(lexerTokenizer.tokenizeString("11"), new TokenType[]{TokenType.NUM});
+    }
+
+    @Test
+    public void testLeadingZeroDecimal() {
+        assertTokensMatch(lexerTokenizer.tokenizeString("0.1"), new TokenType[]{TokenType.NUM});
+    }
+
+    @Test
+    public void testNonLeadingDecimal() {
+        assertTokensMatch(lexerTokenizer.tokenizeString(".1"), new TokenType[]{TokenType.NUM});
+    }
+
+    @Test
+    public void testSimpleChars() {
+        TokenType[] types = {
+                TokenType.OPEN_PARENTH,
+                TokenType.WHITESPACE,
+                TokenType.COMMA,
+                TokenType.CLOSE_PARENTH
+        };
+        assertTokensMatch(lexerTokenizer.tokenizeString("( ,)"), types);
+    }
+
+    @Test
+    public void testFunctionParsing() {
+        TokenType[] types = {
+                TokenType.FUNCTION,
+                TokenType.OPEN_PARENTH,
+                TokenType.NUM,
+                TokenType.COMMA,
+                TokenType.NUM,
+                TokenType.CLOSE_PARENTH
+        };
+        assertTokensMatch(lexerTokenizer.tokenizeString("subtract(1,2)"), types);
+    }
+
+    @Test
+    public void testOperatorParsing() {
+        TokenType[] types = {
+                TokenType.NUM,
+                TokenType.OP,
+                TokenType.NUM
+        };
+        assertTokensMatch(lexerTokenizer.tokenizeString("1-1"), types);
+    }
+
+    @Test
+    public void testSanitizedOperators() {
+        TokenType[] types = {
+                TokenType.NUM,
+                TokenType.OP,
+                TokenType.NUM
+        };
+        assertTokensMatch(lexerTokenizer.tokenizeString("1+1"), types);
+    }
+
+}

docs/404.html

@@ -0,0 +1,7 @@
+---
+layout: base 
+---
+<h1>404</h1>
+
+<p><strong>Page not found :(</strong></p>
+<p>The requested page could not be found.</p>

docs/Gemfile

@@ -0,0 +1,27 @@
+source "https://rubygems.org"
+
+# Hello! This is where you manage which Jekyll version is used to run.
+# When you want to use a different version, change it below, save the
+# file and run `bundle install`. Run Jekyll with `bundle exec`, like so:
+#
+#     bundle exec jekyll serve
+#
+# This will help ensure the proper Jekyll version is running.
+# Happy Jekylling!
+gem "jekyll", "3.5.2"
+
+# This is the default theme for new Jekyll sites. You may change this to anything you like.
+gem "minima", "~> 2.0"
+
+# If you want to use GitHub Pages, remove the "gem "jekyll"" above and
+# uncomment the line below. To upgrade, run `bundle update github-pages`.
+# gem "github-pages", group: :jekyll_plugins
+
+# If you have any plugins, put them here!
+group :jekyll_plugins do
+   gem "jekyll-feed", "~> 0.6"
+end
+
+# Windows does not include zoneinfo files, so bundle the tzinfo-data gem
+gem 'tzinfo-data', platforms: [:mingw, :mswin, :x64_mingw, :jruby]
+

docs/Gemfile.lock

@@ -0,0 +1,58 @@
+GEM
+  remote: https://rubygems.org/
+  specs:
+    addressable (2.5.1)
+      public_suffix (~> 2.0, >= 2.0.2)
+    colorator (1.1.0)
+    ffi (1.9.18)
+    forwardable-extended (2.6.0)
+    jekyll (3.5.2)
+      addressable (~> 2.4)
+      colorator (~> 1.0)
+      jekyll-sass-converter (~> 1.0)
+      jekyll-watch (~> 1.1)
+      kramdown (~> 1.3)
+      liquid (~> 4.0)
+      mercenary (~> 0.3.3)
+      pathutil (~> 0.9)
+      rouge (~> 1.7)
+      safe_yaml (~> 1.0)
+    jekyll-feed (0.9.2)
+      jekyll (~> 3.3)
+    jekyll-sass-converter (1.5.0)
+      sass (~> 3.4)
+    jekyll-watch (1.5.0)
+      listen (~> 3.0, < 3.1)
+    kramdown (1.14.0)
+    liquid (4.0.0)
+    listen (3.0.8)
+      rb-fsevent (~> 0.9, >= 0.9.4)
+      rb-inotify (~> 0.9, >= 0.9.7)
+    mercenary (0.3.6)
+    minima (2.1.1)
+      jekyll (~> 3.3)
+    pathutil (0.14.0)
+      forwardable-extended (~> 2.6)
+    public_suffix (2.0.5)
+    rb-fsevent (0.10.2)
+    rb-inotify (0.9.10)
+      ffi (>= 0.5.0, < 2)
+    rouge (1.11.1)
+    safe_yaml (1.0.4)
+    sass (3.5.1)
+      sass-listen (~> 4.0.0)
+    sass-listen (4.0.0)
+      rb-fsevent (~> 0.9, >= 0.9.4)
+      rb-inotify (~> 0.9, >= 0.9.7)
+
+PLATFORMS
+  ruby
+
+DEPENDENCIES
+  jekyll (= 3.5.2)
+  jekyll-feed (~> 0.6)
+  minima (~> 2.0)
+  tzinfo-data
+
+BUNDLED WITH
+   1.15.3

docs/_config.yml

@@ -0,0 +1,43 @@
+# Welcome to Jekyll!
+#
+# This config file is meant for settings that affect your whole blog, values
+# which you are expected to set up once and rarely edit after that. If you find
+# yourself editing this file very often, consider using Jekyll's data files
+# feature for the data you need to update frequently.
+#
+# For technical reasons, this file is *NOT* reloaded automatically when you use
+# 'bundle exec jekyll serve'. If you change this file, please restart the server process.
+
+# Site settings
+# These are used to personalize your new site. If you look in the HTML files,
+# you will see them accessed via {{ site.title }}, {{ site.email }}, and so on.
+# You can create any custom variable you would like, and they will be accessible
+# in the templates via {{ site.myvariable }}.
+title: Abacus
+email: danila.fedorin@gmail.com
+description: > # this means to ignore newlines until "baseurl:"
+  This is the home page of Abacus,
+  a calculator developed during
+  the summer of 2017 as a tool
+  for the more tech-savvy users.
+baseurl: "/abacus" # the subpath of your site, e.g. /blog
+url: "htts://danilafe.github.io" # the base hostname & protocol for your site, e.g. http://example.com
+github_username: DanilaFe 
+include: ['_pages']
+
+# Build settings
+markdown: kramdown
+plugins:
+  - jekyll-feed
+
+# Exclude from processing.
+# The following items will not be processed, by default. Create a custom list
+# to override the default setting.
+# exclude:
+#   - Gemfile
+#   - Gemfile.lock
+#   - node_modules
+#   - vendor/bundle/
+#   - vendor/cache/
+#   - vendor/gems/
+#   - vendor/ruby/

docs/_includes/head.html

@@ -0,0 +1,17 @@
+<head>
+  <meta charset="utf-8">
+  <meta http-equiv="X-UA-Compatible" content="IE=edge">
+  <meta name="viewport" content="width=device-width, initial-scale=1">
+
+  <title>{% if page.title %}{{ page.title | escape }}{% else %}{{ site.title | escape }}{% endif %}</title>
+  <meta name="description" content="{{ page.excerpt | default: site.description | strip_html | normalize_whitespace | truncate: 160 | escape }}">
+
+  <link rel="stylesheet" href="{{ "assets/css/main.css" | relative_url }}">
+  <link rel="canonical" href="{{ page.url | replace:'index.html','' | absolute_url }}">
+  <link rel="alternate" type="application/rss+xml" title="{{ site.title | escape }}" href="{{ "/feed.xml" | relative_url }}">
+  
+  {% if jekyll.environment == 'production' and site.google_analytics %}
+  {% include google-analytics.html %}
+  {% endif %}
+</head>
+

docs/_includes/header.html

@@ -0,0 +1,10 @@
+<nav>
+  <div class="center">
+    <a href="{{ "/" | relative_url }}" class="primary-link">{{ site.title }}</a>
+    {% for page in site.pages %}
+    {% if page.in_header %}
+    <a href="{{ page.url | relative_url }}">{{ page.title }}</a>
+    {% endif %}
+    {% endfor %}
+  </div>
+</nav>

docs/_layouts/base.html

@@ -0,0 +1,17 @@
+<!DOCTYPE html>
+<html>
+
+  {% include head.html %}
+
+  <body>
+    {% include header.html %}
+
+    <div class="content center">
+      {{ content }}
+    </div>
+
+    {% include footer.html %}
+  </body>
+
+
+</html>

docs/_layouts/home.html

@@ -0,0 +1,46 @@
+<!DOCTYPE html>
+<html>
+  {% include head.html %}
+  <style>
+  body {
+    margin-top: 100px;
+    color: white;
+    text-align: center;
+  }
+  h1, h2, h3, h4, h5, h6 {
+    font-family: "Source Code Pro"
+  }
+
+  img {
+    margin: auto;
+    width: 100%;
+    max-width: 432px;
+  }
+
+  div#buttons {
+    margin-top: 40px;
+    margin-bottom: 40px;
+  }
+
+  a {
+    background-color: white;
+    color: #06e8a4;
+  }
+
+  a:hover {
+    background-color: #06e8a4;
+    color: white;
+  }
+  </style>
+  <body>
+  <h1>Abacus</h1>
+  <h2>The programmer's calculator</h2>
+  <div id="buttons">
+    <a class="button inverted" href="{{ "/download" | relative_url }}">Download</a>
+    <a class="button inverted" href="{{ "/about" | relative_url }}">About</a>
+    <a class="button inverted" href="https://github.com/DanilaFe/abacus">Contribute</a>
+    <a class="button inverted" href="https://github.com/DanilaFe/abacus/wiki">Wiki</a>
+  </div>
+  <img src="http://i.imgur.com/Min70QY.png" title="source: imgur.com" />
+  </body>
+</html>

docs/_layouts/page.html

@@ -0,0 +1,5 @@
+---
+layout: base
+---
+<h1>{{ page.title }}</h1>
+{{ content }}

docs/_pages/about.md

@@ -0,0 +1,27 @@
+---
+in_header: true
+layout: page
+title: About
+permalink: /about/
+---
+
+## So... what IS Abacus?
+It's a calculator. Obviously. But what makes it better than
+what already exists? There's a few things. Abacus is:
+* Programmable, and not in TI Basic.
+* Precise. With the "precise" option, Abacus can keep up to 50 significant figures.
+* Capable. Ever wonder what 2<sup>700</sup> is? How about 8!!? Abacus can tell you!
+* Offline. While Wolfram Alpha can do powerful math, it needs internet connection!
+* Built for the desktop. Why use buttons on the screen when there's buttons on the keyboard?
+* Open source. Don't like something? Help is always welcome!
+
+## Why was Abacus made?
+The initial project was proposed for the [Northwest Advanced Programming Workshop](http://nwapw.org/about/).
+You can read the project proposal on the main GitHub page, although the idea has
+changed quite a bit, mostly in shifting from "fast" to "precise".
+
+## What is Abacus made with?
+Java and Kotlin. Java provides a good layer of abstraction and a great standard
+library, while Kotlin allows for the reduction of boilerplate code and null
+safety. Using JVM-based languages also allows Abacus to expose its entire
+API to plugins, and load them at runtime.

docs/_pages/download.md

@@ -0,0 +1,34 @@
+---
+in_header: true
+layout: page
+title: Download
+permalink: /download/
+---
+
+Currently, we do not provide standalone executables due to our unfamiliarity with
+including 3rd-party software. Abacus uses a number of open source libraries,
+and we do not want to breach the license terms for any of them. As soon as
+as we figure out the correct way to distribute Abacus, we will make a
+standalone distribution available. In the meantime, please use the below
+steps to run Abacus from source.
+
+## Getting the Code
+Abacus is an open source project, and is distributed under the MIT license.
+If you would like to download the source code, simply clone it from
+[GitHub](https://github.com/DanilaFe/abacus).
+Alternatively, if you don't want the bleeding edge version, check out the
+[releases](https://github.com/DanilaFe/abacus/releases).
+
+## Running from Source
+Once you have unpacked the source code, you can simply run it from
+the command line via the shell command:
+```
+./gradlew run
+```
+If you're on Windows, the command is similar:
+```
+gradlew run
+```
+This should download a distribution of Gradle, a build system that is
+used to compile Abacus. After some time, the Abacus window should appear.
+From there, you can use it normally.

docs/assets/css/main.scss

@@ -0,0 +1,119 @@
+---
+---
+@import url('https://fonts.googleapis.com/css?family=Source+Code+Pro|Open+Sans|Raleway');
+
+$background-color: #19d69e;
+$code-color: #efefef;
+$accent-color: #00AFE8;
+$clear-color: white;
+$title-font: "Open Sans";
+$text-font: Helvetica;
+$code-font: "Source Code Pro";
+$max-width: 850px;
+
+a {
+  text-decoration: none;
+  color: $background-color;
+
+  &.button {
+    display: inline-block;
+    background-color: $background-color;
+    color: $clear-color;
+    padding: 10px;
+    text-decoration: none;
+    border-radius: 2px;
+
+    margin: 10px;
+    transition: background-color .25s;
+
+    &:hover {
+      background-color: $clear-color;
+      color: $background-color;
+    }
+
+    &.inverted {
+      background-color: $clear-color;
+      color: $background-color;
+
+      &:hover {
+        background-color: $background-color;
+        color: $clear-color;
+      }
+    }
+  }
+}
+
+h1, h2, h3, h4, h5, h6 {
+  font: {
+    family: $title-font;
+  }
+}
+
+h1 {
+  font-size: 50px;
+}
+
+nav {
+  box-sizing: border-box;
+  background-color: $clear-color;
+  width: 100%;
+  padding: 20px;
+
+  a {
+    text-decoration: none;
+    color: $background-color;
+    font-size: 20px;
+    margin-right: 10px;
+
+    &.primary-link {
+      font-size: 30px;
+      margin-right: 20px;
+    }
+
+    &:hover {
+      color: $accent-color;
+    }
+
+    transition: color .25s;
+  }
+}
+
+body {
+  background-color: $background-color;
+  font: {
+    family: $text-font;
+  }
+  margin: 0px;
+}
+
+.center {
+  box-sizing: border-box;
+  width: 100%;
+  max-width: $max-width;
+
+  @media (min-width: $max-width) {
+    margin: {
+      left: auto;
+      right: auto;
+    }
+  }
+}
+
+.content {
+  margin-top: 20px;
+  padding: 30px;
+  background-color: $clear-color;
+}
+
+code {
+  background-color: $code-color;
+  display: inline-block;
+  padding: 5px;
+  font-family: $code-font;
+
+  pre & {
+    padding: 10px;
+    display: block;
+    width: 100%;
+  }
+}

docs/index.md

@@ -0,0 +1,6 @@
+---
+# You don't need to edit this file, it's empty on purpose.
+# Edit theme's home layout instead if you wanna make some changes
+# See: https://jekyllrb.com/docs/themes/#overriding-theme-defaults
+layout: home
+---

fx/build.gradle

@@ -0,0 +1,10 @@
+plugins {
+    id 'org.jetbrains.kotlin.jvm' version '1.1.3'
+}
+apply plugin: 'application'
+
+dependencies {
+    compile project(':core')
+}
+
+mainClassName = 'org.nwapw.abacus.fx.AbacusApplication'

fx/src/main/java/org/nwapw/abacus/fx/AbacusApplication.java

@@ -0,0 +1,41 @@
+package org.nwapw.abacus.fx;
+
+import javafx.application.Application;
+import javafx.fxml.FXMLLoader;
+import javafx.scene.Parent;
+import javafx.scene.Scene;
+import javafx.stage.Stage;
+
+/**
+ * The main application class for JavaFX responsible for loading
+ * and displaying the fxml file.
+ */
+public class AbacusApplication extends Application {
+
+    /**
+     * The controller currently managing the application.
+     */
+    private AbacusController controller;
+
+    public static void main(String[] args) {
+        launch(args);
+    }
+
+    @Override
+    public void start(Stage primaryStage) throws Exception {
+        FXMLLoader loader = new FXMLLoader(getClass().getResource("/abacus.fxml"));
+        Parent parent = loader.load();
+        controller = loader.getController();
+        Scene mainScene = new Scene(parent, 320, 480);
+        primaryStage.setScene(mainScene);
+        primaryStage.setTitle("Abacus");
+        primaryStage.show();
+    }
+
+    @Override
+    public void stop() throws Exception {
+        super.stop();
+        controller.performStop();
+    }
+
+}

fx/src/main/java/org/nwapw/abacus/fx/AbacusController.java

@@ -0,0 +1,373 @@
+package org.nwapw.abacus.fx;
+
+import javafx.application.Platform;
+import javafx.collections.FXCollections;
+import javafx.collections.ObservableList;
+import javafx.collections.transformation.FilteredList;
+import javafx.fxml.FXML;
+import javafx.scene.control.*;
+import javafx.scene.control.cell.CheckBoxListCell;
+import javafx.scene.text.Text;
+import javafx.util.Callback;
+import javafx.util.StringConverter;
+import org.nwapw.abacus.Abacus;
+import org.nwapw.abacus.config.Configuration;
+import org.nwapw.abacus.function.Documentation;
+import org.nwapw.abacus.function.DocumentationType;
+import org.nwapw.abacus.number.ComputationInterruptedException;
+import org.nwapw.abacus.number.NumberInterface;
+import org.nwapw.abacus.plugin.ClassFinder;
+import org.nwapw.abacus.plugin.PluginListener;
+import org.nwapw.abacus.plugin.PluginManager;
+import org.nwapw.abacus.plugin.StandardPlugin;
+import org.nwapw.abacus.tree.TreeNode;
+
+import java.io.File;
+import java.io.IOException;
+import java.util.ArrayList;
+import java.util.Comparator;
+import java.util.Set;
+import java.util.stream.Collectors;
+
+
+/**
+ * The controller for the abacus FX UI, responsible
+ * for all the user interaction.
+ */
+public class AbacusController implements PluginListener {
+
+    /**
+     * The file used for saving and loading configuration.
+     */
+    public static final File CONFIG_FILE = new File("config.toml");
+    /**
+     * The title for the apply alert dialog.
+     */
+    private static final String APPLY_MSG_TITLE = "\"Apply\" Needed";
+    /**
+     * The text for the header of the apply alert dialog.
+     */
+    private static final String APPLY_MSG_HEADER = "The settings have not been applied.";
+    /**
+     * The text for the dialog that is shown if settings haven't been applied.
+     */
+    private static final String APPLY_MSG_TEXT = "You have made changes to the configuration, however, you haven't pressed \"Apply\". " +
+            "The changes to the configuration will not be present in the calculator until \"Apply\" is pressed.";
+    /**
+     * Constant string that is displayed if the text could not be lexed or parsed.
+     */
+    private static final String ERR_SYNTAX = "Syntax Error";
+    /**
+     * Constant string that is displayed if the tree could not be reduced.
+     */
+    private static final String ERR_EVAL = "Evaluation Error";
+    /**
+     * Constant string that is displayed if the calculations are stopped before they are done.
+     */
+    private static final String ERR_STOP = "Stopped";
+    /**
+     * Constant string that is displayed if the calculations are interrupted by an exception.
+     */
+    private static final String ERR_EXCEPTION = "Exception Thrown";
+    @FXML
+    private TabPane coreTabPane;
+    @FXML
+    private Tab calculateTab;
+    @FXML
+    private Tab settingsTab;
+    @FXML
+    private Tab functionListTab;
+    @FXML
+    private TableView<HistoryModel> historyTable;
+    @FXML
+    private TableColumn<HistoryModel, String> inputColumn;
+    @FXML
+    private TableColumn<HistoryModel, String> parsedColumn;
+    @FXML
+    private TableColumn<HistoryModel, String> outputColumn;
+    @FXML
+    private Text outputText;
+    @FXML
+    private TextField inputField;
+    @FXML
+    private Button inputButton;
+    @FXML
+    private Button stopButton;
+    @FXML
+    private ComboBox<String> numberImplementationBox;
+    @FXML
+    private ListView<ToggleablePlugin> enabledPluginView;
+    @FXML
+    private TextField computationLimitField;
+    @FXML
+    private ListView<Documentation> functionListView;
+    @FXML
+    private TextField functionListSearchField;
+
+    /**
+     * The list of history entries, created by the users.
+     */
+    private ObservableList<HistoryModel> historyData;
+
+    /**
+     * The abacus instance used for calculations and all
+     * other main processing code.
+     */
+    private ObservableList<String> numberImplementationOptions;
+
+    /**
+     * The list of plugin objects that can be toggled on and off,
+     * and, when reloaded, get added to the plugin manager's black list.
+     */
+    private ObservableList<ToggleablePlugin> enabledPlugins;
+    /**
+     * The list of functions that are registered in the calculator.
+     */
+    private ObservableList<Documentation> functionList;
+    /**
+     * The filtered list displayed to the user.
+     */
+    private FilteredList<Documentation> functionFilter;
+
+    /**
+     * The abacus instance used for changing the plugin configuration.
+     */
+    private Abacus abacus;
+    /**
+     * The runnable used to perform the calculation.
+     */
+    private final Runnable CALCULATION_RUNNABLE = new Runnable() {
+
+        private String attemptCalculation() {
+            try {
+                TreeNode constructedTree = abacus.parseString(inputField.getText());
+                if (constructedTree == null) {
+                    return ERR_SYNTAX;
+                }
+                NumberInterface evaluatedNumber = abacus.evaluateTree(constructedTree);
+                if (evaluatedNumber == null) {
+                    return ERR_EVAL;
+                }
+                String resultingString = evaluatedNumber.toString();
+                historyData.add(new HistoryModel(inputField.getText(), constructedTree.toString(), resultingString));
+                return resultingString;
+            } catch (ComputationInterruptedException exception) {
+                return ERR_STOP;
+            } catch (RuntimeException exception) {
+                exception.printStackTrace();
+                return ERR_EXCEPTION;
+            }
+        }
+
+        @Override
+        public void run() {
+            String calculation = attemptCalculation();
+            Platform.runLater(() -> {
+                outputText.setText(calculation);
+                inputField.setText("");
+                inputButton.setDisable(false);
+                stopButton.setDisable(true);
+            });
+        }
+    };
+    /**
+     * Boolean which represents whether changes were made to the configuration.
+     */
+    private boolean changesMade;
+    /**
+     * Whether an alert about changes to the configuration was already shown.
+     */
+    private boolean reloadAlertShown;
+    /**
+     * The alert shown when a press to "apply" is needed.
+     */
+    private Alert reloadAlert;
+    /**
+     * The thread that is waiting to pause the calculation.
+     */
+    private Thread computationLimitThread;
+    /**
+     * The thread in which the computation runs.
+     */
+    private Thread calculationThread;
+    /**
+     * The runnable that takes care of killing computations that take too long.
+     */
+    private final Runnable TIMER_RUNNABLE = () -> {
+        try {
+            Configuration abacusConfig = abacus.getConfiguration();
+            if (abacusConfig.getComputationDelay() == 0) return;
+            Thread.sleep((long) (abacusConfig.getComputationDelay() * 1000));
+            performStop();
+        } catch (InterruptedException e) {
+        }
+    };
+
+    /**
+     * Alerts the user if the changes they made
+     * have not yet been applied.
+     */
+    private void alertIfApplyNeeded(boolean ignorePrevious) {
+        if (changesMade && (!reloadAlertShown || ignorePrevious)) {
+            reloadAlertShown = true;
+            reloadAlert.showAndWait();
+        }
+    }
+
+    @FXML
+    public void initialize() {
+        Callback<TableColumn<HistoryModel, String>, TableCell<HistoryModel, String>> cellFactory =
+                param -> new CopyableCell<>();
+        Callback<ListView<ToggleablePlugin>, ListCell<ToggleablePlugin>> pluginCellFactory =
+                param -> new CheckBoxListCell<>(ToggleablePlugin::getEnabledProperty, new StringConverter<ToggleablePlugin>() {
+                    @Override
+                    public String toString(ToggleablePlugin object) {
+                        return object.getClassName().substring(object.getClassName().lastIndexOf('.') + 1);
+                    }
+
+                    @Override
+                    public ToggleablePlugin fromString(String string) {
+                        return new ToggleablePlugin(string, true);
+                    }
+                });
+        functionList = FXCollections.observableArrayList();
+        functionFilter = new FilteredList<>(functionList, (s) -> true);
+        functionListView.setItems(functionFilter);
+        functionListSearchField.textProperty().addListener((observable, oldValue, newValue) ->
+                functionFilter.setPredicate((newValue.length() == 0) ? ((s) -> true) : ((s) -> s.matches(newValue))));
+        functionListView.setCellFactory(param -> new DocumentationCell());
+        historyData = FXCollections.observableArrayList();
+        historyTable.setItems(historyData);
+        numberImplementationOptions = FXCollections.observableArrayList();
+        numberImplementationBox.setItems(numberImplementationOptions);
+        numberImplementationBox.getSelectionModel().selectedIndexProperty().addListener(e -> changesMade = true);
+        historyTable.getSelectionModel().setCellSelectionEnabled(true);
+        enabledPlugins = FXCollections.observableArrayList();
+        enabledPluginView.setItems(enabledPlugins);
+        enabledPluginView.setCellFactory(pluginCellFactory);
+        inputColumn.setCellFactory(cellFactory);
+        inputColumn.setCellValueFactory(cell -> cell.getValue().getInputProperty());
+        parsedColumn.setCellFactory(cellFactory);
+        parsedColumn.setCellValueFactory(cell -> cell.getValue().getParsedProperty());
+        outputColumn.setCellFactory(cellFactory);
+        outputColumn.setCellValueFactory(cell -> cell.getValue().getOutputProperty());
+        coreTabPane.getSelectionModel().selectedItemProperty().addListener((observable, oldValue, newValue) -> {
+            if (oldValue.equals(settingsTab)) alertIfApplyNeeded(true);
+        });
+
+        abacus = new Abacus(new Configuration(CONFIG_FILE));
+        PluginManager abacusPluginManager = abacus.getPluginManager();
+        abacusPluginManager.addListener(this);
+        performScan();
+
+        computationLimitField.setText(Double.toString(abacus.getConfiguration().getComputationDelay()));
+        computationLimitField.textProperty().addListener((observable, oldValue, newValue) -> {
+            if (!newValue.matches("(\\d+(\\.\\d*)?)?")) {
+                computationLimitField.setText(oldValue);
+            } else {
+                changesMade = true;
+            }
+        });
+
+        changesMade = false;
+        reloadAlertShown = false;
+
+        reloadAlert = new Alert(Alert.AlertType.WARNING);
+        reloadAlert.setTitle(APPLY_MSG_TITLE);
+        reloadAlert.setHeaderText(APPLY_MSG_HEADER);
+        reloadAlert.setContentText(APPLY_MSG_TEXT);
+    }
+
+    @FXML
+    public void performCalculation() {
+        inputButton.setDisable(true);
+        stopButton.setDisable(false);
+        calculationThread = new Thread(CALCULATION_RUNNABLE);
+        calculationThread.start();
+        computationLimitThread = new Thread(TIMER_RUNNABLE);
+        computationLimitThread.start();
+    }
+
+    @FXML
+    public void performStop() {
+        if (calculationThread != null) {
+            calculationThread.interrupt();
+            calculationThread = null;
+        }
+        if (computationLimitThread != null) {
+            computationLimitThread.interrupt();
+            computationLimitThread = null;
+        }
+    }
+
+    @FXML
+    public void performSaveAndReload() {
+        performSave();
+        performReload();
+        changesMade = false;
+        reloadAlertShown = false;
+    }
+
+    @FXML
+    public void performScan() {
+        PluginManager abacusPluginManager = abacus.getPluginManager();
+        abacusPluginManager.removeAll();
+        abacusPluginManager.addInstantiated(new StandardPlugin(abacus.getPluginManager()));
+        try {
+            ClassFinder.loadJars("plugins").forEach(abacusPluginManager::addClass);
+        } catch (IOException | ClassNotFoundException e) {
+            e.printStackTrace();
+        }
+        abacusPluginManager.reload();
+    }
+
+    @FXML
+    public void performReload() {
+        alertIfApplyNeeded(true);
+        abacus.getPluginManager().reload();
+    }
+
+    @FXML
+    public void performSave() {
+        Configuration configuration = abacus.getConfiguration();
+        configuration.setNumberImplementation(numberImplementationBox.getSelectionModel().getSelectedItem());
+        Set<String> disabledPlugins = configuration.getDisabledPlugins();
+        disabledPlugins.clear();
+        for (ToggleablePlugin pluginEntry : enabledPlugins) {
+            if (!pluginEntry.isEnabled()) disabledPlugins.add(pluginEntry.getClassName());
+        }
+        if (computationLimitField.getText().matches("\\d*(\\.\\d+)?") && computationLimitField.getText().length() != 0)
+            configuration.setComputationDelay(Double.parseDouble(computationLimitField.getText()));
+        configuration.saveTo(CONFIG_FILE);
+        changesMade = false;
+        reloadAlertShown = false;
+    }
+
+    @Override
+    public void onLoad(PluginManager manager) {
+        Configuration configuration = abacus.getConfiguration();
+        Set<String> disabledPlugins = configuration.getDisabledPlugins();
+        numberImplementationOptions.addAll(abacus.getPluginManager().getAllNumberImplementations());
+        String actualImplementation = configuration.getNumberImplementation();
+        String toSelect = (numberImplementationOptions.contains(actualImplementation)) ? actualImplementation : "<default>";
+        numberImplementationBox.getSelectionModel().select(toSelect);
+        for (Class<?> pluginClass : abacus.getPluginManager().getLoadedPluginClasses()) {
+            String fullName = pluginClass.getName();
+            ToggleablePlugin plugin = new ToggleablePlugin(fullName, !disabledPlugins.contains(fullName));
+            plugin.getEnabledProperty().addListener(e -> changesMade = true);
+            enabledPlugins.add(plugin);
+        }
+        PluginManager pluginManager = abacus.getPluginManager();
+        functionList.addAll(manager.getAllFunctions().stream().map(name -> pluginManager.documentationFor(name, DocumentationType.FUNCTION))
+                .collect(Collectors.toCollection(ArrayList::new)));
+        functionList.sort(Comparator.comparing(Documentation::getCodeName));
+    }
+
+    @Override
+    public void onUnload(PluginManager manager) {
+        functionList.clear();
+        enabledPlugins.clear();
+        numberImplementationOptions.clear();
+    }
+
+}

fx/src/main/java/org/nwapw/abacus/fx/CopyableCell.java

@@ -0,0 +1,36 @@
+package org.nwapw.abacus.fx;
+
+import javafx.scene.control.TableCell;
+import javafx.scene.input.MouseEvent;
+
+import java.awt.*;
+import java.awt.datatransfer.StringSelection;
+
+/**
+ * A cell that copies its value to the clipboard
+ * when double clicked.
+ *
+ * @param <S> The type of the table view generic type.
+ * @param <T> The type of the value contained in the cell.
+ */
+public class CopyableCell<S, T> extends TableCell<S, T> {
+
+    /**
+     * Creates a new copyable cell.
+     */
+    public CopyableCell() {
+        addEventFilter(MouseEvent.MOUSE_CLICKED, event -> {
+            if (event.getClickCount() == 2) {
+                Toolkit.getDefaultToolkit().getSystemClipboard()
+                        .setContents(new StringSelection(getText()), null);
+            }
+        });
+    }
+
+    @Override
+    protected void updateItem(T item, boolean empty) {
+        super.updateItem(item, empty);
+        setText((empty || item == null) ? null : item.toString());
+        setGraphic(null);
+    }
+}

fx/src/main/java/org/nwapw/abacus/fx/DocumentationCell.java

@@ -0,0 +1,59 @@
+package org.nwapw.abacus.fx;
+
+import javafx.scene.control.Label;
+import javafx.scene.control.ListCell;
+import javafx.scene.control.TitledPane;
+import javafx.scene.layout.VBox;
+import org.nwapw.abacus.function.Documentation;
+
+public class DocumentationCell extends ListCell<Documentation> {
+
+    private Label codeNameLabel;
+    private Label nameLabel;
+    private Label description;
+    private Label longDescription;
+    private TitledPane titledPane;
+
+    public DocumentationCell() {
+        VBox vbox = new VBox();
+        vbox.setSpacing(10);
+        titledPane = new TitledPane();
+        codeNameLabel = new Label();
+        nameLabel = new Label();
+        description = new Label();
+        longDescription = new Label();
+        codeNameLabel.setWrapText(true);
+        nameLabel.setWrapText(true);
+        description.setWrapText(true);
+        longDescription.setWrapText(true);
+        vbox.getChildren().add(codeNameLabel);
+        vbox.getChildren().add(nameLabel);
+        vbox.getChildren().add(description);
+        vbox.getChildren().add(longDescription);
+        titledPane.textProperty().bindBidirectional(codeNameLabel.textProperty());
+        titledPane.setContent(vbox);
+        titledPane.setExpanded(false);
+        titledPane.prefWidthProperty().bind(widthProperty().subtract(32));
+
+        visibleProperty().addListener((a, b, c) -> titledPane.setExpanded(false));
+    }
+
+    @Override
+    protected void updateItem(Documentation item, boolean empty) {
+        super.updateItem(item, empty);
+        if (empty) {
+            codeNameLabel.setText("");
+            nameLabel.setText("");
+            description.setText("");
+            longDescription.setText("");
+            setGraphic(null);
+        } else {
+            codeNameLabel.setText(item.getCodeName());
+            nameLabel.setText(item.getName());
+            description.setText(item.getDescription());
+            longDescription.setText(item.getLongDescription());
+            setGraphic(titledPane);
+        }
+        titledPane.setExpanded(false);
+    }
+}

fx/src/main/kotlin/org/nwapw/abacus/fx/HistoryModel.kt

@@ -0,0 +1,32 @@
+package org.nwapw.abacus.fx
+
+import javafx.beans.property.SimpleStringProperty
+
+/**
+ * A model representing an input / output in the calculator.
+ *
+ * The HistoryModel class stores a record of a single user-provided input,
+ * its parsed form as it was interpreted by the calculator, and the output
+ * that was provided by the calculator. These are represented as properties
+ * to allow easy access by JavaFX cells.
+ *
+ * @param input the user input
+ * @param parsed the parsed version of the input.
+ * @param output the output string.
+ */
+class HistoryModel(input: String, parsed: String, output: String) {
+
+    /**
+     * The property that holds the input.
+     */
+    val inputProperty = SimpleStringProperty(input)
+    /**
+     * The property that holds the parsed input.
+     */
+    val parsedProperty = SimpleStringProperty(parsed)
+    /**
+     * The property that holds the output.
+     */
+    val outputProperty = SimpleStringProperty(output)
+
+}

fx/src/main/kotlin/org/nwapw/abacus/fx/ToggleablePlugin.kt

@@ -0,0 +1,31 @@
+package org.nwapw.abacus.fx
+
+import javafx.beans.property.SimpleBooleanProperty
+
+/**
+ * A model representing a plugin that can be disabled or enabled.
+ *
+ * ToggleablePlugin is a model that is used to present to the user the option
+ * of disabling / enabling plugins. The class name in this plugin is stored if
+ * its "enabledPropery" is false, essentially blacklisting the plugin.
+ *
+ * @param className the name of the class that this model concerns.
+ * @param enabled whether or not the model should start enabled.
+ */
+class ToggleablePlugin(val className: String, enabled: Boolean) {
+
+    /**
+     * The property used to interact with JavaFX components.
+     */
+    val enabledProperty = SimpleBooleanProperty(enabled)
+
+    /**
+     * Checks whether this plugin is currently enabled or not.
+     *
+     * @return true if it is enabled, false otherwise.
+     */
+    fun isEnabled(): Boolean {
+        return enabledProperty.value
+    }
+
+}

settings.gradle

@@ -1 +1,2 @@
 rootProject.name = 'abacus'
+include 'core', 'fx'

src/org/nwapw/abacus/config/Configuration.java

@@ -1,14 +0,0 @@
-package org.nwapw.abacus.config;
-
-/**
- * Serializable class that will be used to load TOML
- * configurations.
- */
-public class Configuration {
-
-    /**
-     * The type of number this calculator should use.
-     */
-    public String numberType;
-
-}

src/org/nwapw/abacus/config/ConfigurationObject.java

@@ -1,105 +0,0 @@
-package org.nwapw.abacus.config;
-
-import com.moandjiezana.toml.Toml;
-import com.moandjiezana.toml.TomlWriter;
-
-import java.io.File;
-import java.io.IOException;
-
-/**
- * A configuration object, which essentially
- * manages saving, loading, and getting values
- * from the configuration. While Configuration is
- * the data model, this is the interface with it.
- */
-public class ConfigurationObject {
-
-    /**
-     * The writer used to store the configuration.
-     */
-    private static final TomlWriter TOML_WRITER = new TomlWriter();
-    /**
-     * The configuration instance being modeled.
-     */
-    private Configuration configuration;
-
-    /**
-     * Sets up the ConfigurationObject.
-     * different constructors do different things,
-     * but they all lead here.
-     * @param configuration the configuration to set up with.
-     */
-    private void setup(Configuration configuration){
-        this.configuration = configuration;
-    }
-
-    /**
-     * Creates a default configuration.
-     * @return the newly created default configuration.
-     */
-    private Configuration getDefaultConfig(){
-        configuration = new Configuration();
-        configuration.numberType = "naive";
-        return configuration;
-    }
-
-    /**
-     * Returns the implementation the user has requested to
-     * represent their numbers.
-     * @return the implementation name.
-     */
-    public String getNumberImplementation() {
-        return configuration.numberType;
-    }
-
-    /**
-     * Saves the ConfigurationObject to the given file.
-     * @param toFile the file to save ot.
-     * @return true if the save succeed, false if otherwise.
-     */
-    public boolean save(File toFile){
-        if(toFile.getParentFile() != null) toFile.getParentFile().mkdirs();
-        try {
-            TOML_WRITER.write(configuration, toFile);
-            return true;
-        } catch (IOException e) {
-            e.printStackTrace();
-        }
-        return false;
-    }
-
-    /**
-     * Creates a new configuration object with the given config.
-     * @param config the config to use.
-     */
-    public ConfigurationObject(Configuration config){
-        setup(config);
-    }
-
-    /**
-     * Create a configuration object by attempting to
-     * load a config from the given path, using the
-     * default configuration otherwise.
-     * @param path the path to attempt to load.
-     */
-    public ConfigurationObject(File path){
-        Configuration config;
-        if(!path.exists()) {
-            config = getDefaultConfig();
-        } else {
-            Toml parse = new Toml();
-            parse.read(path);
-            config = parse.to(Configuration.class);
-        }
-        setup(config);
-    }
-
-    /**
-     * Creates a new configuration object with the
-     * default configuration.
-     */
-    public ConfigurationObject(){
-        setup(getDefaultConfig());
-    }
-
-}

src/org/nwapw/abacus/function/Operator.java

@@ -1,70 +0,0 @@
-package org.nwapw.abacus.function;
-
-/**
- * A class that represents a single infix operator.
- */
-public class Operator {
-
-    /**
-     * The associativity of the operator.
-     */
-    private OperatorAssociativity associativity;
-    /**
-     * The type of this operator.
-     */
-    private OperatorType type;
-    /**
-     * The precedence of the operator.
-     */
-    private int precedence;
-    /**
-     * The function that is called by this operator.
-     */
-    private Function function;
-
-    /**
-     * Creates a new operator with the given parameters.
-     * @param associativity the associativity of the operator.
-     * @param precedence the precedence of the operator.
-     * @param function the function that the operator calls.
-     */
-    public Operator(OperatorAssociativity associativity, OperatorType operatorType, int precedence, Function function){
-        this.associativity = associativity;
-        this.type = operatorType;
-        this.precedence = precedence;
-        this.function = function;
-    }
-
-    /**
-     * Gets the operator's associativity.
-     * @return the associativity.
-     */
-    public OperatorAssociativity getAssociativity() {
-        return associativity;
-    }
-
-    /**
-     * Gets the operator's type.
-     * @return the type.
-     */
-    public OperatorType getType() {
-        return type;
-    }
-
-    /**
-     * Gets the operator's precedence.
-     * @return the precedence.
-     */
-    public int getPrecedence() {
-        return precedence;
-    }
-
-    /**
-     * Gets the operator's function.
-     * @return the function.
-     */
-    public Function getFunction() {
-        return function;
-    }
-
-}

src/org/nwapw/abacus/number/NumberInterface.java

@@ -1,77 +0,0 @@
-package org.nwapw.abacus.number;
-
-/**
- * An interface used to represent a number.
- */
-public interface NumberInterface {
-
-    /**
-     * The maximum precision to which this number operates.
-     * @return the precision.
-     */
-    int getMaxPrecision();
-
-    /**
-     * Multiplies this number by another, returning
-     * a new number instance.
-     * @param multiplier the multiplier
-     * @return the result of the multiplication.
-     */
-    NumberInterface multiply(NumberInterface multiplier);
-    /**
-     * Divides this number by another, returning
-     * a new number instance.
-     * @param divisor the divisor
-     * @return the result of the division.
-     */
-    NumberInterface divide(NumberInterface divisor);
-    /**
-     * Adds this number to another, returning
-     * a new number instance.
-     * @param summand the summand
-     * @return the result of the summation.
-     */
-    NumberInterface add(NumberInterface summand);
-    /**
-     * Subtracts another number from this number,
-     * a new number instance.
-     * @param subtrahend the subtrahend.
-     * @return the result of the subtraction.
-     */
-    NumberInterface subtract(NumberInterface subtrahend);
-
-    /**
-     * Returns a new instance of this number with
-     * the sign flipped.
-     * @return the new instance.
-     */
-    NumberInterface negate();
-
-    /**
-     * Raises this number to an integer power.
-     * @param exponent the exponent to which to take the number.
-     * @return the resulting value.
-     */
-    NumberInterface intPow(int exponent);
-
-    /**
-     * Compares this number to another.
-     * @param number the number to compare to.
-     * @return same as Integer.compare();
-     */
-    int compareTo(NumberInterface number);
-
-    /**
-     * Same as Math.signum().
-     * @return 1 if this number is positive, -1 if this number is negative, 0 if this number is 0.
-     */
-    int signum();
-
-    /**
-     * Promotes this class to another number class.
-     * @param toClass the class to promote to.
-     * @return the resulting new instance.
-     */
-    NumberInterface promoteTo(Class<? extends NumberInterface> toClass);
-
-}

src/org/nwapw/abacus/number/PreciseNumber.java

@@ -1,113 +0,0 @@
-package org.nwapw.abacus.number;
-
-import java.math.BigDecimal;
-import java.math.RoundingMode;
-
-public class PreciseNumber implements NumberInterface{
-
-    /**
-     * The number one.
-     */
-    static final PreciseNumber ONE = new PreciseNumber(BigDecimal.ONE);
-    /**
-     * The number zero.
-     */
-    static final PreciseNumber ZERO = new PreciseNumber(BigDecimal.ZERO);
-    /**
-     * The number ten.
-     */
-    static final PreciseNumber TEN = new PreciseNumber(BigDecimal.TEN);
-
-    /**
-     * The value of the PreciseNumber.
-     */
-    BigDecimal value;
-
-    /**
-     * Constructs a precise number from the given string.
-     * @param string a string representation of the number meeting the same conditions
-     *               as the BidDecimal(String) constructor.
-     */
-    public PreciseNumber(String string){
-        value = new BigDecimal(string);
-    }
-
-    /**
-     * Constructs a precise number from the given BigDecimal.
-     * @param value a BigDecimal object representing the value of the number.
-     */
-    public PreciseNumber(BigDecimal value){
-        this.value = value;
-    }
-
-    @Override
-    public int getMaxPrecision() {
-        return 54;
-    }
-
-    @Override
-    public NumberInterface multiply(NumberInterface multiplier) {
-        return new PreciseNumber(value.multiply(((PreciseNumber) multiplier).value));
-    }
-
-    @Override
-    public NumberInterface divide(NumberInterface divisor) {
-        return new PreciseNumber(value.divide(((PreciseNumber) divisor).value, this.getMaxPrecision(), RoundingMode.HALF_UP));
-    }
-
-    @Override
-    public NumberInterface add(NumberInterface summand) {
-        return new PreciseNumber(value.add(((PreciseNumber) summand).value));
-    }
-
-    @Override
-    public NumberInterface subtract(NumberInterface subtrahend) {
-        return new PreciseNumber(value.subtract(((PreciseNumber) subtrahend).value));
-    }
-
-    @Override
-    public NumberInterface intPow(int exponent) {
-        if(exponent == 0){
-            return PreciseNumber.ONE;
-        }
-        boolean takeReciprocal = exponent < 0;
-        exponent = Math.abs(exponent);
-        NumberInterface power = this;
-        for(int currentExponent = 1; currentExponent < exponent; currentExponent++){
-            power = power.multiply(this);
-        }
-        if(takeReciprocal){
-            power = PreciseNumber.ONE.divide(power);
-        }
-        return power;
-    }
-
-    @Override
-    public int compareTo(NumberInterface number) {
-        return value.compareTo(((PreciseNumber) number).value);
-    }
-
-    @Override
-    public int signum() {
-        return value.signum();
-    }
-
-    @Override
-    public NumberInterface negate(){
-        return new PreciseNumber(value.negate());
-    }
-
-    @Override
-    public NumberInterface promoteTo(Class<? extends NumberInterface> toClass) {
-        if(toClass == this.getClass()){
-            return this;
-        }
-        return null;
-    }
-
-    @Override
-    public String toString() {
-        BigDecimal rounded = value.setScale(getMaxPrecision() - 4, RoundingMode.HALF_UP);
-        return rounded.stripTrailingZeros().toPlainString();
-    }
-}

src/org/nwapw/abacus/parsing/TreeBuilder.java

@@ -1,23 +0,0 @@
-package org.nwapw.abacus.parsing;
-
-import org.nwapw.abacus.tree.TreeNode;
-
-import java.util.List;
-
-public class TreeBuilder<T> {
-
-    private Tokenizer<T> tokenizer;
-    private Parser<T> parser;
-
-    public TreeBuilder(Tokenizer<T> tokenizer, Parser<T> parser){
-        this.tokenizer = tokenizer;
-        this.parser = parser;
-    }
-
-    public TreeNode fromString(String input){
-        List<T> tokens = tokenizer.tokenizeString(input);
-        if(tokens == null) return null;
-        return parser.constructTree(tokens);
-    }
-
-}

src/org/nwapw/abacus/plugin/PluginManager.java

@@ -1,231 +0,0 @@
-package org.nwapw.abacus.plugin;
-
-import org.nwapw.abacus.Abacus;
-import org.nwapw.abacus.function.Function;
-import org.nwapw.abacus.function.Operator;
-import org.nwapw.abacus.number.NumberInterface;
-
-import java.lang.reflect.InvocationTargetException;
-import java.util.*;
-
-/**
- * A class that controls instances of plugins, allowing for them
- * to interact with each other and the calculator.
- */
-public class PluginManager {
-
-    /**
-     * List of classes loaded by this manager.
-     */
-    private Set<Class<?>> loadedPluginClasses;
-    /**
-     * A list of loaded plugins.
-     */
-    private Set<Plugin> plugins;
-    /**
-     * List of functions that have been cached,
-     * that is, found in a plugin and returned.
-     */
-    private Map<String, Function> cachedFunctions;
-    /**
-     * List of operators that have been cached,
-     * that is, found in a plugin and returned.
-     */
-    private Map<String, Operator> cachedOperators;
-    /**
-     * List of registered number implementations that have
-     * been cached, that is, found in a plugin and returned.
-     */
-    private Map<String, Class<? extends NumberInterface>> cachedNumbers;
-    /**
-     * List of all functions loaded by the plugins.
-     */
-    private Set<String> allFunctions;
-    /**
-     * List of all operators loaded by the plugins.
-     */
-    private Set<String> allOperators;
-    /**
-     * List of all numbers loaded by the plugins.
-     */
-    private Set<String> allNumbers;
-    /**
-     * The list of plugin listeners attached to this instance.
-     */
-    private Set<PluginListener> listeners;
-    /**
-     * The instance of Abacus that is used to interact with its other
-     * components.
-     */
-    private Abacus abacus;
-
-    /**
-     * Creates a new plugin manager.
-     */
-    public PluginManager(Abacus abacus){
-        this.abacus = abacus;
-        loadedPluginClasses = new HashSet<>();
-        plugins = new HashSet<>();
-        cachedFunctions = new HashMap<>();
-        cachedOperators = new HashMap<>();
-        cachedNumbers = new HashMap<>();
-        allFunctions = new HashSet<>();
-        allOperators = new HashSet<>();
-        allNumbers = new HashSet<>();
-        listeners = new HashSet<>();
-    }
-
-    /**
-     * Searches the plugin list for a certain value, retrieving the Plugin's
-     * list of items of the type using the setFunction and getting the value
-     * of it is available via getFunction. If the value is contained
-     * in the cache, it returns the cached value instead.
-     * @param plugins the plugin list to search.
-     * @param cache the cache to use
-     * @param setFunction the function to retrieve a set of available T's from the plugin
-     * @param getFunction the function to get the T value under the given name
-     * @param name the name to search for
-     * @param <T> the type of element being search
-     * @return the retrieved element, or null if it was not found.
-     */
-    private static <T> T searchCached(Collection<Plugin> plugins, Map<String, T> cache,
-                                      java.util.function.Function<Plugin, Set<String>> setFunction,
-                                      java.util.function.BiFunction<Plugin, String, T> getFunction,
-                                      String name){
-        if(cache.containsKey(name)) return cache.get(name);
-
-        T loadedValue = null;
-        for(Plugin plugin : plugins){
-            if(setFunction.apply(plugin).contains(name)){
-                loadedValue = getFunction.apply(plugin, name);
-                break;
-            }
-        }
-
-        cache.put(name, loadedValue);
-        return loadedValue;
-    }
-    /**
-     * Gets a function under the given name.
-     * @param name the name of the function
-     * @return the function under the given name.
-     */
-    public Function functionFor(String name){
-        return searchCached(plugins, cachedFunctions, Plugin::providedFunctions, Plugin::getFunction, name);
-    }
-
-    /**
-     * Gets an operator under the given name.
-     * @param name the name of the operator.
-     * @return the operator under the given name.
-     */
-    public Operator operatorFor(String name){
-        return searchCached(plugins, cachedOperators, Plugin::providedOperators, Plugin::getOperator, name);
-    }
-
-    /**
-     * Gets a numer implementation under the given name.
-     * @param name the name of the implementation.
-     * @return the implementation class
-     */
-    public Class<? extends NumberInterface> numberFor(String name){
-        return searchCached(plugins, cachedNumbers, Plugin::providedNumbers, Plugin::getNumber, name);
-    }
-
-    /**
-     * Adds an instance of Plugin that already has been instantiated.
-     * @param plugin the plugin to add.
-     */
-    public void addInstantiated(Plugin plugin){
-        if(loadedPluginClasses.contains(plugin.getClass())) return;
-        plugins.add(plugin);
-        loadedPluginClasses.add(plugin.getClass());
-    }
-
-    /**
-     * Instantiates a class of plugin, and adds it to this
-     * plugin manager.
-     * @param newClass the new class to instantiate.
-     */
-    public void addClass(Class<?> newClass){
-        if(!Plugin.class.isAssignableFrom(newClass) || newClass == Plugin.class) return;
-        try {
-            addInstantiated((Plugin) newClass.getConstructor(PluginManager.class).newInstance(this));
-        } catch (InstantiationException | IllegalAccessException | NoSuchMethodException | InvocationTargetException e) {
-            e.printStackTrace();
-        }
-    }
-
-    /**
-     * Loads all the plugins in the PluginManager.
-     */
-    public void load(){
-        for(Plugin plugin : plugins) plugin.enable();
-        for(Plugin plugin : plugins){
-            allFunctions.addAll(plugin.providedFunctions());
-            allOperators.addAll(plugin.providedOperators());
-            allNumbers.addAll(plugin.providedNumbers());
-        }
-        listeners.forEach(e -> e.onLoad(this));
-    }
-
-    /**
-     * Unloads all the plugins in the PluginManager.
-     */
-    public void unload(){
-        for(Plugin plugin : plugins) plugin.disable();
-        allFunctions.clear();
-        allOperators.clear();
-        allNumbers.clear();
-        listeners.forEach(e -> e.onUnload(this));
-    }
-
-    /**
-     * Reloads all the plugins in the PluginManager.
-     */
-    public void reload(){
-        unload();
-        reload();
-    }
-
-    /**
-     * Gets all the functions loaded by the Plugin Manager.
-     * @return the set of all functions that were loaded.
-     */
-    public Set<String> getAllFunctions() {
-        return allFunctions;
-    }
-
-    /**
-     * Gets all the operators loaded by the Plugin Manager.
-     * @return the set of all operators that were loaded.
-     */
-    public Set<String> getAllOperators() {
-        return allOperators;
-    }
-
-    /**
-     * Gets all the number implementations loaded by the Plugin Manager
-     * @return the set of all implementations that were loaded
-     */
-    public Set<String> getAllNumbers() {
-        return allNumbers;
-    }
-
-    /**
-     * Adds a plugin change listener to this plugin manager.
-     * @param listener the listener to add.
-     */
-    public void addListener(PluginListener listener){
-        listeners.add(listener);
-    }
-
-    /**
-     * Remove the plugin change listener from this plugin manager.
-     * @param listener the listener to remove.
-     */
-    public void removeListener(PluginListener listener){
-        listeners.remove(listener);
-    }
-    
-}

src/org/nwapw/abacus/plugin/StandardPlugin.java

@@ -1,302 +0,0 @@
-package org.nwapw.abacus.plugin;
-
-import org.nwapw.abacus.function.Function;
-import org.nwapw.abacus.function.Operator;
-import org.nwapw.abacus.function.OperatorAssociativity;
-import org.nwapw.abacus.function.OperatorType;
-import org.nwapw.abacus.number.NaiveNumber;
-import org.nwapw.abacus.number.NumberInterface;
-import org.nwapw.abacus.number.PreciseNumber;
-
-import java.util.function.BiFunction;
-
-/**
- * The plugin providing standard functions such as addition and subtraction to
- * the calculator.
- */
-public class StandardPlugin extends Plugin {
-
-    public StandardPlugin(PluginManager manager) {
-        super(manager);
-    }
-
-    @Override
-    public void onEnable() {
-        registerNumber("naive", NaiveNumber.class);
-        registerNumber("precise", PreciseNumber.class);
-
-        registerOperator("+", new Operator(OperatorAssociativity.LEFT, OperatorType.BINARY_INFIX, 0, new Function() {
-            @Override
-            protected boolean matchesParams(NumberInterface[] params) {
-                return params.length >= 1;
-            }
-
-            @Override
-            protected NumberInterface applyInternal(NumberInterface[] params) {
-                NumberInterface sum = params[0];
-                for(int i = 1; i < params.length; i++){
-                    sum = sum.add(params[i]);
-                }
-                return sum;
-            }
-        }));
-
-        registerOperator("-", new Operator(OperatorAssociativity.LEFT, OperatorType.BINARY_INFIX, 0, new Function() {
-            @Override
-            protected boolean matchesParams(NumberInterface[] params) {
-                return params.length == 2;
-            }
-
-            @Override
-            protected NumberInterface applyInternal(NumberInterface[] params) {
-                return params[0].subtract(params[1]);
-            }
-        }));
-
-        registerOperator("*", new Operator(OperatorAssociativity.LEFT, OperatorType.BINARY_INFIX,1, new Function() {
-            @Override
-            protected boolean matchesParams(NumberInterface[] params) {
-                return params.length >= 1;
-            }
-
-            @Override
-            protected NumberInterface applyInternal(NumberInterface[] params) {
-                NumberInterface product = params[0];
-                for(int i = 1; i < params.length; i++){
-                    product = product.multiply(params[i]);
-                }
-                return product;
-            }
-        }));
-
-        registerOperator("/", new Operator(OperatorAssociativity.LEFT, OperatorType.BINARY_INFIX,1, new Function() {
-            @Override
-            protected boolean matchesParams(NumberInterface[] params) {
-                return params.length == 2;
-            }
-
-            @Override
-            protected NumberInterface applyInternal(NumberInterface[] params) {
-                return params[0].divide(params[1]);
-            }
-        }));
-
-        registerOperator("^", new Operator(OperatorAssociativity.RIGHT, OperatorType.BINARY_INFIX, 2, new Function() {
-            @Override
-            protected boolean matchesParams(NumberInterface[] params) {
-                return params.length == 2;
-            }
-
-            @Override
-            protected NumberInterface applyInternal(NumberInterface[] params) {
-                return StandardPlugin.this.getFunction("exp").apply(StandardPlugin.this.getFunction("ln").apply(params[0]).multiply(params[1]));
-            }
-        }));
-
-        registerOperator("!", new Operator(OperatorAssociativity.RIGHT, OperatorType.UNARY_POSTFIX, 0, new Function() {
-            //private HashMap<Class<? extends NumberInterface>, ArrayList<NumberInterface>> storedList = new HashMap<Class<? extends NumberInterface>, ArrayList<NumberInterface>>();
-            @Override
-            protected boolean matchesParams(NumberInterface[] params) {
-                return params.length == 1;
-            }
-
-            @Override
-            protected NumberInterface applyInternal(NumberInterface[] params) {
-                if(params[0].signum() == 0){
-                    return (new NaiveNumber(1)).promoteTo(params[0].getClass());
-                }
-                NumberInterface factorial = params[0];
-                NumberInterface multiplier = params[0];
-                //It is necessary to later prevent calls of factorial on anything but non-negative integers.
-                while((multiplier = multiplier.subtract(NaiveNumber.ONE.promoteTo(multiplier.getClass()))).signum() == 1){
-                    factorial = factorial.multiply(multiplier);
-                }
-                return factorial;
-                /*if(!storedList.containsKey(params[0].getClass())){
-                    storedList.put(params[0].getClass(), new ArrayList<NumberInterface>());
-                    storedList.get(params[0].getClass()).add(NaiveNumber.ONE.promoteTo(params[0].getClass()));
-                    storedList.get(params[0].getClass()).add(NaiveNumber.ONE.promoteTo(params[0].getClass()));
-                }*/
-            }
-        }));
-
-        registerFunction("abs", new Function() {
-            @Override
-            protected boolean matchesParams(NumberInterface[] params) {
-                return params.length == 1;
-            }
-
-            @Override
-            protected NumberInterface applyInternal(NumberInterface[] params) {
-                return params[0].multiply((new NaiveNumber(params[0].signum())).promoteTo(params[0].getClass()));
-            }
-        });
-
-        registerFunction("exp", new Function() {
-            @Override
-            protected boolean matchesParams(NumberInterface[] params) {
-                return params.length == 1;
-            }
-
-            @Override
-            protected NumberInterface applyInternal(NumberInterface[] params) {
-                boolean takeReciprocal = params[0].signum() == -1;
-                params[0] = StandardPlugin.this.getFunction("abs").apply(params[0]);
-                NumberInterface sum = sumSeries(params[0], StandardPlugin.this::getExpSeriesTerm, getNTermsExp(getMaxError(params[0]), params[0]));
-                if(takeReciprocal){
-                    sum = NaiveNumber.ONE.promoteTo(sum.getClass()).divide(sum);
-                }
-                return sum;
-            }
-        });
-
-        registerFunction("ln", new Function() {
-            @Override
-            protected boolean matchesParams(NumberInterface[] params) {
-                return params.length == 1;
-            }
-
-            @Override
-            protected NumberInterface applyInternal(NumberInterface[] params) {
-                NumberInterface param = params[0];
-                int powersOf2 = 0;
-                while(StandardPlugin.this.getFunction("abs").apply(param.subtract(NaiveNumber.ONE.promoteTo(param.getClass()))).compareTo((new NaiveNumber(0.1)).promoteTo(param.getClass())) >= 0){
-                    if(param.subtract(NaiveNumber.ONE.promoteTo(param.getClass())).signum() == 1) {
-                        param = param.divide(new NaiveNumber(2).promoteTo(param.getClass()));
-                        powersOf2++;
-                        if(param.subtract(NaiveNumber.ONE.promoteTo(param.getClass())).signum() != 1) {
-                            break;
-                            //No infinite loop for you.
-                        }
-                    }
-                    else {
-                        param = param.multiply(new NaiveNumber(2).promoteTo(param.getClass()));
-                        powersOf2--;
-                        if(param.subtract(NaiveNumber.ONE.promoteTo(param.getClass())).signum() != 1) {
-                            break;
-                            //No infinite loop for you.
-                        }
-                    }
-                }
-                return getLog2(param).multiply((new NaiveNumber(powersOf2)).promoteTo(param.getClass())).add(getLogPartialSum(param));
-            }
-
-            /**
-             * Returns the partial sum of the Taylor series for logx (around x=1).
-             * Automatically determines the number of terms needed based on the precision of x.
-             * @param x value at which the series is evaluated. 0 < x < 2. (x=2 is convergent but impractical.)
-             * @return the partial sum.
-             */
-            private NumberInterface getLogPartialSum(NumberInterface x){
-                NumberInterface maxError = StandardPlugin.this.getMaxError(x);
-                x = x.subtract(NaiveNumber.ONE.promoteTo(x.getClass())); //Terms used are for log(x+1).
-                NumberInterface currentTerm = x, sum = x;
-                int n = 1;
-                while(StandardPlugin.this.getFunction("abs").apply(currentTerm).compareTo(maxError) > 0){
-                    n++;
-                    currentTerm = currentTerm.multiply(x).multiply((new NaiveNumber(n-1)).promoteTo(x.getClass())).divide((new NaiveNumber(n)).promoteTo(x.getClass())).negate();
-                    sum = sum.add(currentTerm);
-                }
-                return sum;
-            }
-
-            /**
-             * Returns natural log of 2 to the required precision of the class of number.
-             * @param number a number of the same type as the return type. (Used for precision.)
-             * @return the value of log(2) with the appropriate precision.
-             */
-            private NumberInterface getLog2(NumberInterface number){
-                NumberInterface maxError = StandardPlugin.this.getMaxError(number);
-                //NumberInterface errorBound = (new NaiveNumber(1)).promoteTo(number.getClass());
-                //We'll use the series \sigma_{n >= 1) ((1/3^n + 1/4^n) * 1/n)
-                //In the following, a=1/3^n, b=1/4^n, c = 1/n.
-                //a is also an error bound.
-                NumberInterface a = (new NaiveNumber(1)).promoteTo(number.getClass()), b = a, c = a;
-                NumberInterface sum = NaiveNumber.ZERO.promoteTo(number.getClass());
-                int n = 0;
-                while(a.compareTo(maxError) >= 1){
-                    n++;
-                    a = a.divide((new NaiveNumber(3)).promoteTo(number.getClass()));
-                    b = b.divide((new NaiveNumber(4)).promoteTo(number.getClass()));
-                    c = NaiveNumber.ONE.promoteTo(number.getClass()).divide((new NaiveNumber(n)).promoteTo(number.getClass()));
-                    sum = sum.add(a.add(b).multiply(c));
-                }
-                return sum;
-            }
-        });
-
-        registerFunction("sqrt", new Function() {
-            @Override
-            protected boolean matchesParams(NumberInterface[] params) {
-                return params.length == 1;
-            }
-
-            @Override
-            protected NumberInterface applyInternal(NumberInterface[] params) {
-                return StandardPlugin.this.getOperator("^").getFunction().apply(params[0], ((new NaiveNumber(0.5)).promoteTo(params[0].getClass())));
-            }
-        });
-    }
-
-    @Override
-    public void onDisable() {
-
-    }
-
-    /**
-     * Returns the nth term of the Taylor series (centered at 0) of e^x
-     * @param n the term required (n >= 0).
-     * @param x the real number at which the series is evaluated.
-     * @return the nth term of the series.
-     */
-    private NumberInterface getExpSeriesTerm(int n, NumberInterface x){
-        return x.intPow(n).divide(this.getOperator("!").getFunction().apply((new NaiveNumber(n)).promoteTo(x.getClass())));
-    }
-
-    /**
-     * Returns the number of terms needed to evaluate the exponential function (at x)
-     * such that the error is at most maxError.
-     * @param maxError Maximum error permissible (This should probably be positive.)
-     * @param x where the function is evaluated.
-     * @return the number of terms needed to evaluated the exponential function.
-     */
-    private int getNTermsExp(NumberInterface maxError, NumberInterface x) {
-        //We need n such that |x^(n+1)| <= (n+1)! * maxError
-        //The variables LHS and RHS refer to the above inequality.
-        int n = 0;
-        x = this.getFunction("abs").apply(x);
-        NumberInterface LHS = x, RHS = maxError;
-        while (LHS.compareTo(RHS) > 0) {
-            n++;
-            LHS = LHS.multiply(x);
-            RHS = RHS.multiply(new NaiveNumber(n + 1).promoteTo(RHS.getClass()));
-        }
-        return n;
-    }
-
-
-    /**
-     * Returns a partial sum of a series whose terms are given by the nthTermFunction, evaluated at x.
-     * @param x the value at which the series is evaluated.
-     * @param nthTermFunction the function that returns the nth term of the series, in the format term(x, n).
-     * @param n the number of terms in the partial sum.
-     * @return the value of the partial sum that has the same class as x.
-     */
-    private NumberInterface sumSeries(NumberInterface x, BiFunction<Integer, NumberInterface, NumberInterface> nthTermFunction, int n){
-        NumberInterface sum = NaiveNumber.ZERO.promoteTo(x.getClass());
-        for(int i = 0; i <= n; i++){
-            sum = sum.add(nthTermFunction.apply(i, x));
-        }
-        return sum;
-    }
-
-    /**
-     * Returns the maximum error based on the precision of the class of number.
-     * @param number Any instance of the NumberInterface in question (should return an appropriate precision).
-     * @return the maximum error.
-     */
-    private NumberInterface getMaxError(NumberInterface number){
-        return (new NaiveNumber(10)).promoteTo(number.getClass()).intPow(-number.getMaxPrecision());
-    }
-
-}

src/org/nwapw/abacus/tree/BinaryInfixNode.java

@@ -1,100 +0,0 @@
-package org.nwapw.abacus.tree;
-
-/**
- * A tree node that represents an operation being applied to two operands.
- */
-public class BinaryInfixNode extends TreeNode {
-
-    /**
-     * The operation being applied.
-     */
-    private String operation;
-    /**
-     * The left node of the operation.
-     */
-    private TreeNode left;
-    /**
-     * The right node of the operation.
-     */
-    private TreeNode right;
-
-    private BinaryInfixNode() {}
-
-    /**
-     * Creates a new operation node with the given operation
-     * and no child nodes.
-     * @param operation the operation.
-     */
-    public BinaryInfixNode(String operation){
-        this(operation, null, null);
-    }
-
-    /**
-     * Creates a new operation node with the given operation
-     * and child nodes.
-     * @param operation the operation.
-     * @param left the left node of the expression.
-     * @param right the right node of the expression.
-     */
-    public BinaryInfixNode(String operation, TreeNode left, TreeNode right){
-        this.operation = operation;
-        this.left = left;
-        this.right = right;
-    }
-
-    /**
-     * Gets the operation in this node.
-     * @return the operation in this node.
-     */
-    public String getOperation() {
-        return operation;
-    }
-
-    /**
-     * Gets the left sub-expression of this node.
-     * @return the left node.
-     */
-    public TreeNode getLeft() {
-        return left;
-    }
-
-    /**
-     * Sets the left sub-expression of this node.
-     * @param left the sub-expression to apply.
-     */
-    public void setLeft(TreeNode left) {
-        this.left = left;
-    }
-
-    /**
-     * Gets the right sub-expression of this node.
-     * @return the right node.
-     */
-    public TreeNode getRight() {
-        return right;
-    }
-
-    /**
-     * Sets the right sub-expression of this node.
-     * @param right the sub-expression to apply.
-     */
-    public void setRight(TreeNode right) {
-        this.right = right;
-    }
-
-    @Override
-    public <T> T reduce(Reducer<T> reducer) {
-        T leftReduce = left.reduce(reducer);
-        T rightReduce = right.reduce(reducer);
-        if(leftReduce == null || rightReduce == null) return null;
-        return reducer.reduceNode(this, leftReduce, rightReduce);
-    }
-
-    @Override
-    public String toString() {
-        String leftString = left != null ? left.toString() : "null";
-        String rightString = right != null ? right.toString() : "null";
-
-        return "(" + leftString + operation + rightString + ")";
-    }
-}

src/org/nwapw/abacus/tree/FunctionNode.java

@@ -1,80 +0,0 @@
-package org.nwapw.abacus.tree;
-
-import java.util.ArrayList;
-import java.util.List;
-
-/**
- * A node that represents a function call.
- */
-public class FunctionNode extends TreeNode {
-
-    /**
-     * The name of the function being called
-     */
-    private String function;
-    /**
-     * The list of arguments to the function.
-     */
-    private List<TreeNode> children;
-
-    /**
-     * Creates a function node with no function.
-     */
-    private FunctionNode() { }
-
-    /**
-     * Creates a new function node with the given function name.
-     * @param function the function name.
-     */
-    public FunctionNode(String function){
-        this.function = function;
-        children = new ArrayList<>();
-    }
-
-    /**
-     * Gets the function name for this node.
-     * @return the function name.
-     */
-    public String getFunction() {
-        return function;
-    }
-
-    /**
-     * Adds a child to the end of this node's child list.
-     * @param node the child to add.
-     */
-    public void appendChild(TreeNode node){
-        children.add(node);
-    }
-
-    /**
-     * Adds a new child to the beginning of this node's child list.
-     * @param node the node to add.
-     */
-    public void prependChild(TreeNode node) {
-        children.add(0, node);
-    }
-
-    @Override
-    public <T> T reduce(Reducer<T> reducer) {
-        Object[] reducedChildren = new Object[children.size()];
-        for(int i = 0; i < reducedChildren.length; i++){
-            reducedChildren[i] = children.get(i).reduce(reducer);
-            if(reducedChildren[i] == null) return null;
-        }
-        return reducer.reduceNode(this, reducedChildren);
-    }
-
-    @Override
-    public String toString() {
-        StringBuilder buffer = new StringBuilder();
-        buffer.append(function);
-        buffer.append("(");
-        for(int i = 0; i < children.size(); i++){
-            buffer.append(children.get(i));
-            buffer.append(i == children.size() - 1 ? "" : ", ");
-        }
-        buffer.append(")");
-        return buffer.toString();
-    }
-}

src/org/nwapw/abacus/tree/NumberNode.java

@@ -1,48 +0,0 @@
-package org.nwapw.abacus.tree;
-
-import org.nwapw.abacus.number.NaiveNumber;
-import org.nwapw.abacus.number.NumberInterface;
-
-/**
- * A node implementation that represents a single number.
- */
-public class NumberNode extends TreeNode {
-
-    /**
-     * The number that is represented by this number node.
-     */
-    private NumberInterface number;
-
-    /**
-     * Creates a number node with no number.
-     */
-    public NumberNode(){
-        number = null;
-    }
-
-    /**
-     * Creates a new number node with the given double value.
-     * @param newNumber the number for which to create a number node.
-     */
-    public NumberNode(NumberInterface newNumber){
-        this.number = newNumber;
-    }
-
-    /**
-     * Gets the number value of this node.
-     * @return the number value of this node.
-     */
-    public NumberInterface getNumber() {
-        return number;
-    }
-
-    @Override
-    public <T> T reduce(Reducer<T> reducer) {
-        return reducer.reduceNode(this);
-    }
-
-    @Override
-    public String toString() {
-        return number != null ? number.toString() : "null";
-    }
-}

src/org/nwapw/abacus/tree/Reducer.java

@@ -1,17 +0,0 @@
-package org.nwapw.abacus.tree;
-
-/**
- * Interface used to reduce a tree into a single value.
- * @param <T> the value to reduce into.
- */
-public interface Reducer<T> {
-
-    /**
-     * Reduces the given tree into a single value of type T.
-     * @param node the node being passed in to be reduced.
-     * @param children the already-reduced children of this node.
-     * @return the resulting value from the reduce.
-     */
-    public T reduceNode(TreeNode node, Object...children);
-
-}

src/org/nwapw/abacus/tree/TreeNode.java

@@ -1,22 +0,0 @@
-package org.nwapw.abacus.tree;
-
-import org.nwapw.abacus.function.OperatorAssociativity;
-import org.nwapw.abacus.lexing.Lexer;
-import org.nwapw.abacus.lexing.pattern.Match;
-
-import java.util.*;
-
-/**
- * An abstract class that represents an expression tree node.
- */
-public abstract class TreeNode {
-
-    /**
-     * The function that reduces a tree to a single vale.
-     * @param reducer the reducer used to reduce the tree.
-     * @param <T> the type the reducer produces.
-     * @return the result of the reduction, or null on error.
-     */
-    public abstract <T> T reduce(Reducer<T> reducer);
-
-}

src/org/nwapw/abacus/tree/UnaryPrefixNode.java

@@ -1,59 +0,0 @@
-package org.nwapw.abacus.tree;
-
-public class UnaryPrefixNode extends TreeNode {
-
-    /**
-     * The operation this node will apply.
-     */
-    private String operation;
-    /**
-     * The tree node to apply the operation to.
-     */
-    private TreeNode applyTo;
-
-    /**
-     * Creates a new node with the given operation and no child.
-     * @param operation the operation for this node.
-     */
-    public UnaryPrefixNode(String operation){
-        this(operation, null);
-    }
-
-    /**
-     * Creates a new node with the given operation and child.
-     * @param operation the operation for this node.
-     * @param applyTo the node to apply the function to.
-     */
-    public UnaryPrefixNode(String operation, TreeNode applyTo){
-        this.operation = operation;
-        this.applyTo = applyTo;
-    }
-
-    @Override
-    public <T> T reduce(Reducer<T> reducer) {
-        Object reducedChild = applyTo.reduce(reducer);
-        if(reducedChild == null) return null;
-        return reducer.reduceNode(this, reducedChild);
-    }
-
-    /**
-     * Gets the operation of this node.
-     * @return the operation this node performs.
-     */
-    public String getOperation() {
-        return operation;
-    }
-
-    /**
-     * Gets the node to which this node's operation applies.
-     * @return the tree node to which the operation will be applied.
-     */
-    public TreeNode getApplyTo() {
-        return applyTo;
-    }
-
-    @Override
-    public String toString() {
-        return "(" + (applyTo == null ? "null" : applyTo.toString()) + ")" + operation;
-    }
-}

src/org/nwapw/abacus/window/HistoryTableModel.java

@@ -1,108 +0,0 @@
-package org.nwapw.abacus.window;
-
-import org.nwapw.abacus.tree.TreeNode;
-
-import javax.swing.event.TableModelListener;
-import javax.swing.table.AbstractTableModel;
-import javax.swing.table.TableModel;
-import java.util.ArrayList;
-import java.util.List;
-
-/**
- * A table model to store data about the history of inputs
- * in the calculator.
- */
-public class HistoryTableModel extends AbstractTableModel {
-
-    /**
-     * Static array used to get the column names.
-     */
-    public static final String[] COLUMN_NAMES = {
-            "Input",
-            "Parsed Input",
-            "Output"
-    };
-
-    /**
-     * Static array used to get the class of each column.
-     */
-    public static final Class[] CLASS_TYPES = {
-            String.class,
-            TreeNode.class,
-            String.class
-    };
-
-    /**
-     * Class used specifically to hold data about
-     * the previous entries into the calculator.
-     */
-    public static class HistoryEntry {
-        public String input;
-        public TreeNode parsedInput;
-        public String output;
-
-        public HistoryEntry(String input, TreeNode parsedInput, String output){
-            this.input = input;
-            this.parsedInput = parsedInput;
-            this.output = output;
-        }
-
-        Object nthValue(int n){
-            if(n == 0) return input;
-            if(n == 1) return parsedInput;
-            if(n == 2) return output;
-            return null;
-        }
-    }
-
-    /**
-     * The list of entries.
-     */
-    List<HistoryEntry> entries;
-
-    /**
-     * Creates a new empty history table model
-     */
-    public HistoryTableModel() {
-        entries = new ArrayList<>();
-    }
-
-    /**
-     * Adds an entry to the model.
-     * @param entry the entry to add.
-     */
-    public void addEntry(HistoryEntry entry){
-        entries.add(entry);
-    }
-
-    @Override
-    public int getRowCount() {
-        return entries.size();
-    }
-
-    @Override
-    public int getColumnCount() {
-        return 3;
-    }
-
-    @Override
-    public String getColumnName(int columnIndex) {
-        return COLUMN_NAMES[columnIndex];
-    }
-
-    @Override
-    public Class<?> getColumnClass(int columnIndex) {
-        return CLASS_TYPES[columnIndex];
-    }
-
-    @Override
-    public boolean isCellEditable(int rowIndex, int columnIndex) {
-        return false;
-    }
-
-    @Override
-    public Object getValueAt(int rowIndex, int columnIndex) {
-        return entries.get(rowIndex).nthValue(columnIndex);
-    }
-
-}

src/org/nwapw/abacus/window/Window.java

@@ -1,249 +0,0 @@
-package org.nwapw.abacus.window;
-
-import org.nwapw.abacus.Abacus;
-import org.nwapw.abacus.number.NumberInterface;
-import org.nwapw.abacus.tree.TreeNode;
-
-import javax.swing.*;
-import java.awt.*;
-import java.awt.datatransfer.StringSelection;
-import java.awt.event.ActionListener;
-import java.awt.event.MouseAdapter;
-import java.awt.event.MouseEvent;
-
-/**
- * The main UI window for the calculator.
- */
-public class Window extends JFrame {
-
-    private static final String CALC_STRING = "Calculate";
-    private static final String SYNTAX_ERR_STRING = "Syntax Error";
-    private static final String EVAL_ERR_STRING = "Evaluation Error";
-    private static final String NUMBER_SYSTEM_LABEL = "Number Type:";
-    private static final String FUNCTION_LABEL = "Functions:";
-
-    /**
-     * Array of Strings to which the "calculate" button's text
-     * changes. For instance, in the graph tab, the name will
-     * be "Graph" and not "Calculate".
-     */
-    private static final String[] BUTTON_NAMES = {
-            CALC_STRING,
-            CALC_STRING
-    };
-
-    /**
-     * Array of booleans that determine whether the input
-     * field and the input button are enabled at a particular
-     * index.
-     */
-    private static boolean[] INPUT_ENABLED = {
-            true,
-            false
-    };
-
-    /**
-     * The instance of the Abacus class, used
-     * for interaction with plugins and configuration.
-     */
-    private Abacus abacus;
-    /**
-     * The last output by the calculator.
-     */
-    private String lastOutput;
-
-    /**
-     * The tabbed pane that separates calculator contexts.
-     */
-    private JTabbedPane pane;
-
-    /**
-     * The panel where the output occurs.
-     */
-    private JPanel calculationPanel;
-    /**
-     * The text area reserved for the last output.
-     */
-    private JTextArea lastOutputArea;
-    /**
-     * The table used for storing history results.
-     */
-    private JTable historyTable;
-    /**
-     * The table model used for managing history.
-     */
-    private HistoryTableModel historyModel;
-    /**
-     * The scroll pane for the history area.
-     */
-    private JScrollPane historyScroll;
-
-    /**
-     * The panel where the input occurs.
-     */
-    private JPanel inputPanel;
-    /**
-     * The input text field.
-     */
-    private JTextField inputField;
-    /**
-     * The "submit" button.
-     */
-    private JButton inputEnterButton;
-
-    /**
-     * The side panel for separate configuration.
-     */
-    private JPanel settingsPanel;
-    /**
-     * Panel for elements relating to number
-     * system selection.
-     */
-    private JPanel numberSystemPanel;
-    /**
-     * The possible list of number systems.
-     */
-    private JComboBox<String> numberSystemList;
-    /**
-     * The panel for elements relating to
-     * function selection.
-     */
-    private JPanel functionSelectPanel;
-    /**
-     * The list of functions available to the user.
-     */
-    private JComboBox<String> functionList;
-
-    /**
-     * Action listener that causes the input to be evaluated.
-     */
-    private ActionListener evaluateListener = (event) -> {
-        TreeNode parsedExpression = abacus.parseString(inputField.getText());
-        if(parsedExpression == null){
-            lastOutputArea.setText(SYNTAX_ERR_STRING);
-            return;
-        }
-        NumberInterface numberInterface = abacus.evaluateTree(parsedExpression);
-        if(numberInterface == null) {
-            lastOutputArea.setText(EVAL_ERR_STRING);
-            return;
-        }
-        lastOutput = numberInterface.toString();
-        historyModel.addEntry(new HistoryTableModel.HistoryEntry(inputField.getText(), parsedExpression, lastOutput));
-        historyTable.invalidate();
-        lastOutputArea.setText(lastOutput);
-        inputField.setText("");
-    };
-
-    /**
-     * Array of listeners that tell the input button how to behave
-     * at a given input tab.
-     */
-    private ActionListener[] listeners = {
-            evaluateListener,
-            null
-    };
-
-    /**
-     * Creates a new window with the given manager.
-     * @param abacus the calculator instance to interact with other components.
-     */
-    public Window(Abacus abacus){
-        this();
-        this.abacus = abacus;
-    }
-
-    /**
-     * Creates a new window.
-     */
-    private Window() {
-        super();
-
-        lastOutput = "";
-
-        setDefaultCloseOperation(WindowConstants.EXIT_ON_CLOSE);
-        setSize(320, 480);
-
-        inputField = new JTextField();
-        inputEnterButton = new JButton(CALC_STRING);
-
-        inputPanel = new JPanel();
-        inputPanel.setLayout(new BorderLayout());
-        inputPanel.add(inputField, BorderLayout.CENTER);
-        inputPanel.add(inputEnterButton, BorderLayout.SOUTH);
-
-        historyModel = new HistoryTableModel();
-        historyTable = new JTable(historyModel);
-        historyScroll = new JScrollPane(historyTable);
-        lastOutputArea = new JTextArea(lastOutput);
-        lastOutputArea.setEditable(false);
-
-        calculationPanel = new JPanel();
-        calculationPanel.setLayout(new BorderLayout());
-        calculationPanel.add(historyScroll, BorderLayout.CENTER);
-        calculationPanel.add(lastOutputArea, BorderLayout.SOUTH);
-
-        numberSystemList = new JComboBox<>();
-
-        numberSystemPanel = new JPanel();
-        numberSystemPanel.setAlignmentX(Component.LEFT_ALIGNMENT);
-        numberSystemPanel.setLayout(new FlowLayout());
-        numberSystemPanel.add(new JLabel(NUMBER_SYSTEM_LABEL));
-        numberSystemPanel.add(numberSystemList);
-        numberSystemPanel.setMaximumSize(numberSystemPanel.getPreferredSize());
-
-        functionList = new JComboBox<>();
-
-        functionSelectPanel = new JPanel();
-        functionSelectPanel.setAlignmentX(Component.LEFT_ALIGNMENT);
-        functionSelectPanel.setLayout(new FlowLayout());
-        functionSelectPanel.add(new JLabel(FUNCTION_LABEL));
-        functionSelectPanel.add(functionList);
-        functionSelectPanel.setMaximumSize(functionSelectPanel.getPreferredSize());
-
-        settingsPanel = new JPanel();
-        settingsPanel.setAlignmentX(Component.LEFT_ALIGNMENT);
-        settingsPanel.setLayout(new BoxLayout(settingsPanel, BoxLayout.PAGE_AXIS));
-        settingsPanel.add(numberSystemPanel);
-        settingsPanel.add(functionSelectPanel);
-
-        pane = new JTabbedPane();
-        pane.add("Calculator", calculationPanel);
-        pane.add("Settings", settingsPanel);
-        pane.addChangeListener(e -> {
-            int selectionIndex = pane.getSelectedIndex();
-            boolean enabled = INPUT_ENABLED[selectionIndex];
-            ActionListener listener = listeners[selectionIndex];
-            inputEnterButton.setText(BUTTON_NAMES[selectionIndex]);
-            inputField.setEnabled(enabled);
-            inputEnterButton.setEnabled(enabled);
-
-            for(ActionListener removingListener : inputEnterButton.getActionListeners()){
-                inputEnterButton.removeActionListener(removingListener);
-                inputField.removeActionListener(removingListener);
-            }
-            if(listener != null){
-                inputEnterButton.addActionListener(listener);
-                inputField.addActionListener(listener);
-            }
-        });
-        add(pane, BorderLayout.CENTER);
-        add(inputPanel, BorderLayout.SOUTH);
-
-        inputEnterButton.addActionListener(evaluateListener);
-        inputField.addActionListener(evaluateListener);
-        historyTable.addMouseListener(new MouseAdapter() {
-            @Override
-            public void mouseClicked(MouseEvent e) {
-                Point clickPoint = e.getPoint();
-                if(e.getClickCount() == 2){
-                    int row = historyTable.rowAtPoint(clickPoint);
-                    int column = historyTable.columnAtPoint(clickPoint);
-                    String toCopy = historyTable.getValueAt(row, column).toString();
-                    Toolkit.getDefaultToolkit().getSystemClipboard().setContents(new StringSelection(toCopy), null);
-                }
-            }
-        });
-    }
-
-}