io.virtdata.api.BasicFunctionalLibrary Maven / Gradle / Ivy
package io.virtdata.api;
import io.virtdata.annotations.ThreadSafeMapper;
import io.virtdata.core.ResolvedFunction;
import org.apache.commons.lang3.ClassUtils;
import org.reflections.Reflections;
import org.reflections.scanners.ResourcesScanner;
import org.reflections.scanners.SubTypesScanner;
import org.reflections.util.ClasspathHelper;
import org.reflections.util.ConfigurationBuilder;
import org.reflections.util.FilterBuilder;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import java.lang.reflect.Array;
import java.lang.reflect.Constructor;
import java.lang.reflect.Method;
import java.lang.reflect.Modifier;
import java.util.*;
import java.util.stream.Collectors;
public abstract class BasicFunctionalLibrary implements VirtDataFunctionLibrary {
private final static Logger logger = LoggerFactory.getLogger(BasicFunctionalLibrary.class);
@Override
public abstract String getName();
public abstract List getSearchPackages();
@Override
public List resolveFunctions(Class returnType, Class inputType, String functionName, Object... parameters) {
// TODO: Make this look for both assignment compatible matches as well as exact assignment matches, and only
// TODO: return assignment compatible matches when there are none exact matching.
// TODO: Further, make lambda construction honor exact matches first as well.
List resolvedFunctions = new ArrayList<>();
List> matchingClasses = getSearchPackages().stream()
.map(p -> p.getName() + "." + functionName)
.map(this::maybeClassForName)
.filter(Objects::nonNull)
.collect(Collectors.toList());
List> matchingConstructors = matchingClasses.stream()
.filter(c -> {
// This form for debugging
boolean isFunctional = isFunctionalInterface(c);
boolean canAssignInput = inputType==null || canAssignInputType(c, inputType);
boolean canAssignReturn = returnType==null ||canAssignReturnType(c, returnType);
boolean matchesSignature = isFunctional && canAssignInput && canAssignReturn;
return matchesSignature;
})
.flatMap(c -> Arrays.stream(c.getDeclaredConstructors()))
.filter(c -> {
boolean canAssignArgv = canAssignArguments(c, parameters);
return canAssignArgv;
})
.collect(Collectors.toList());
if (returnType != null && inputType != null && matchingConstructors.size() > 1) {
throw new RuntimeException(
"found more than one (" + matchingConstructors.size() + ") matching constructor for " +
"return type '" + returnType + "', " +
"inputType '" + inputType + "', " +
"function name '" + functionName + ", " +
"and parameter types '" + Arrays.toString(parameters) + "', " +
"ctors: " + matchingConstructors);
}
for (Constructor ctor : matchingConstructors) {
Object[] args=parameters;
if (ctor.isVarArgs()) {
args = new Object[ctor.getParameterCount()];
int varArgsCount = (parameters.length - ctor.getParameterCount())+1;
Class varargArrayType = ctor.getParameterTypes()[ctor.getParameterTypes().length - 1];
Class varArgType = varargArrayType.getComponentType();
Object varArgs = Array.newInstance(varArgType, varArgsCount);
for (int i = 0; i < parameters.length; i++) {
if (i c) {
Optional applyMethods = Arrays.stream(c.getMethods())
.filter(m -> {
boolean isNotDefault = !m.isDefault();
boolean isNotBridge = !m.isBridge();
boolean isNotSynthetic = !m.isSynthetic();
boolean isPublic = (m.getModifiers()&Modifier.PUBLIC)>0;
boolean isNotString = !m.getName().equals("toString");
boolean isApplyMethod = m.getName().startsWith("apply");
boolean isFunctional = isNotDefault && isNotBridge && isNotSynthetic && isPublic && isNotString && isApplyMethod;
return isFunctional;
})
.findFirst();
return applyMethods.isPresent();
}
// TODO: Make this work with varargs constructors
private boolean canAssignArguments(Constructor targetConstructor, Object[] sourceParameters) {
boolean isAssignable=true;
Class[] targetTypes = targetConstructor.getParameterTypes();
if (!targetConstructor.isVarArgs() && sourceParameters.length != targetTypes.length) {
logger.trace(targetConstructor.toString() + " does not match source parameters (size): " + Arrays.toString(sourceParameters));
return false;
}
Class[] sourceTypes = new Class[sourceParameters.length];
for (int i = 0; i < sourceTypes.length; i++) {
sourceTypes[i]=sourceParameters[i].getClass();
}
if (targetConstructor.isVarArgs()) {
for (int i = 0; i < targetTypes.length - 1; i++) {
if (!ClassUtils.isAssignable(sourceTypes[i],targetTypes[i])) {
isAssignable=false;
break;
}
}
Class componentType = targetTypes[targetTypes.length-1].getComponentType();
for (int i = targetTypes.length-1; i < sourceTypes.length; i++) {
if (!ClassUtils.isAssignable(sourceTypes[i],componentType,true)) {
isAssignable=false;
break;
}
}
} else {
isAssignable = ClassUtils.isAssignable(sourceTypes, targetTypes, true);
}
return isAssignable;
}
private boolean canAssignReturnType(Class functionalClass, Class returnType) {
Class sourceType = toFunctionalMethod(functionalClass).getReturnType();
boolean isAssignable = returnType.isAssignableFrom(sourceType);
return isAssignable;
}
private Class getInputClass(Class functionalClass) {
return toFunctionalMethod(functionalClass).getParameterTypes()[0];
}
private Class getOutputClas(Class functionClass) {
return toFunctionalMethod(functionClass).getReturnType();
}
private boolean canAssignInputType(Class functionalClass, Class inputType) {
boolean isAssignable = toFunctionalMethod(functionalClass).getParameterTypes()[0].isAssignableFrom(inputType);
return isAssignable;
}
private Class maybeClassForName(String className) {
try {
return Class.forName(className);
} catch (ClassNotFoundException e) {
return null;
}
}
private Method toFunctionalMethod(Class clazz) {
Optional foundMethod = Arrays.stream(clazz.getMethods())
.filter(m -> !m.isDefault() && !m.isBridge() && !m.isSynthetic())
.filter(m -> m.getName().startsWith("apply"))
.findFirst();
return foundMethod.orElseThrow(
() -> new RuntimeException(
"Unable to find the function method on " + clazz.getCanonicalName()
)
);
}
@Override
public List getDataMapperNames() {
List classLoadersList = new LinkedList<>();
classLoadersList.add(ClasspathHelper.contextClassLoader());
classLoadersList.add(ClasspathHelper.staticClassLoader());
ConfigurationBuilder cb = new ConfigurationBuilder();
cb.setScanners(new SubTypesScanner(false /* don't exclude Object.class */), new ResourcesScanner());
cb.setUrls(ClasspathHelper.forClassLoader(classLoadersList.toArray(new ClassLoader[0])));
FilterBuilder fb = new FilterBuilder();
for (Package aPackage : getSearchPackages()) {
fb.include(FilterBuilder.prefix(aPackage.getName()));
}
cb.filterInputsBy(fb);
Reflections reflections = new Reflections(cb);
Set> subTypesOf =
reflections.getSubTypesOf(Object.class);
ArrayList collected = subTypesOf.stream()
.map(Class::getSimpleName)
.collect(Collectors.toCollection(ArrayList::new));
return collected;
}
public String toString() {
return getName();
}
}
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