// Copyright 2014 The Bazel Authors. All rights reserved. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package com.google.devtools.build.lib.syntax; import com.google.common.annotations.VisibleForTesting; import com.google.common.collect.ImmutableList; import com.google.common.collect.ImmutableMap; import com.google.common.collect.Iterables; import com.google.common.collect.Ordering; import com.google.devtools.build.lib.collect.nestedset.NestedSet; import com.google.devtools.build.lib.concurrent.ThreadSafety.Immutable; import com.google.devtools.build.lib.events.Location; import com.google.devtools.build.lib.skylarkinterface.SkylarkModule; import com.google.devtools.build.lib.skylarkinterface.SkylarkValue; import com.google.devtools.build.lib.syntax.compiler.ByteCodeUtils; import com.google.devtools.build.lib.util.Preconditions; import com.google.devtools.build.lib.vfs.PathFragment; import java.util.Collection; import java.util.List; import java.util.Map; import net.bytebuddy.implementation.bytecode.StackManipulation; /** * Utilities used by the evaluator. */ public final class EvalUtils { private EvalUtils() {} /** * The exception that SKYLARK_COMPARATOR might throw. This is an unchecked exception * because Comparator doesn't let us declare exceptions. It should normally be caught * and wrapped in an EvalException. */ public static class ComparisonException extends RuntimeException { public ComparisonException(String msg) { super(msg); } } /** * Compare two Skylark objects. * *

It may throw an unchecked exception ComparisonException that should be wrapped in * an EvalException. */ public static final Ordering SKYLARK_COMPARATOR = new Ordering() { private int compareLists(SkylarkList o1, SkylarkList o2) { for (int i = 0; i < Math.min(o1.size(), o2.size()); i++) { int cmp = compare(o1.get(i), o2.get(i)); if (cmp != 0) { return cmp; } } return Integer.compare(o1.size(), o2.size()); } @Override @SuppressWarnings("unchecked") public int compare(Object o1, Object o2) { o1 = SkylarkType.convertToSkylark(o1, /*env=*/ null); o2 = SkylarkType.convertToSkylark(o2, /*env=*/ null); if (o1 instanceof SkylarkList && o2 instanceof SkylarkList && ((SkylarkList) o1).isTuple() == ((SkylarkList) o2).isTuple()) { return compareLists((SkylarkList) o1, (SkylarkList) o2); } try { return ((Comparable) o1).compareTo(o2); } catch (ClassCastException e) { return compareByClass(o1, o2); } } }; public static final int compareByClass(Object o1, Object o2) { try { // Different types -> let the class names decide return o1.getClass().getName().compareTo(o2.getClass().getName()); } catch (NullPointerException ex) { throw new ComparisonException( "Cannot compare " + getDataTypeName(o1) + " with " + EvalUtils.getDataTypeName(o2)); } } public static final StackManipulation checkValidDictKey = ByteCodeUtils.invoke(EvalUtils.class, "checkValidDictKey", Object.class); /** * Checks that an Object is a valid key for a Skylark dict. * @param o an Object to validate * @throws EvalException if o is not a valid key */ public static void checkValidDictKey(Object o) throws EvalException { // TODO(bazel-team): check that all recursive elements are both Immutable AND Comparable. if (isImmutable(o)) { return; } // Same error message as Python (that makes it a TypeError). throw new EvalException(null, Printer.format("unhashable type: '%r'", o.getClass())); } /** * Is this object known or assumed to be recursively immutable by Skylark? * @param o an Object * @return true if the object is known to be an immutable value. */ // NB: This is used as the basis for accepting objects in SkylarkNestedSet-s, // as well as for accepting objects as keys for Skylark dict-s. public static boolean isImmutable(Object o) { if (o instanceof SkylarkValue) { return ((SkylarkValue) o).isImmutable(); } return isImmutable(o.getClass()); } /** * Is this class known to be *recursively* immutable by Skylark? * For instance, class Tuple is not it, because it can contain mutable values. * @param c a Class * @return true if the class is known to represent only recursively immutable values. */ // NB: This is used as the basis for accepting objects in SkylarkNestedSet-s, // as well as for accepting objects as keys for Skylark dict-s. static boolean isImmutable(Class c) { return c.isAnnotationPresent(Immutable.class) // TODO(bazel-team): beware of containers! || c.equals(String.class) || c.equals(Integer.class) || c.equals(Boolean.class); } /** * Returns true if the type is acceptable to be returned to the Skylark language. */ public static boolean isSkylarkAcceptable(Class c) { return SkylarkValue.class.isAssignableFrom(c) // implements SkylarkValue || c.equals(String.class) // basic values || c.equals(Integer.class) || c.equals(Boolean.class) || c.isAnnotationPresent(SkylarkModule.class) // registered Skylark class || ImmutableMap.class.isAssignableFrom(c) // will be converted to SkylarkDict || NestedSet.class.isAssignableFrom(c) // will be converted to SkylarkNestedSet || c.equals(PathFragment.class); // other known class } /** * Returns a transitive superclass or interface implemented by c which is annotated * with SkylarkModule. Returns null if no such class or interface exists. */ @VisibleForTesting static Class getParentWithSkylarkModule(Class c) { if (c == null) { return null; } if (c.isAnnotationPresent(SkylarkModule.class)) { return c; } Class parent = getParentWithSkylarkModule(c.getSuperclass()); if (parent != null) { return parent; } for (Class ifparent : c.getInterfaces()) { ifparent = getParentWithSkylarkModule(ifparent); if (ifparent != null) { return ifparent; } } return null; } // TODO(bazel-team): move the following few type-related functions to SkylarkType /** * Return the Skylark-type of {@code c} * *

The result will be a type that Skylark understands and is either equal to {@code c} * or is a supertype of it. For example, all instances of (all subclasses of) SkylarkList * are considered to be SkylarkLists. * *

Skylark's type validation isn't equipped to deal with inheritance so we must tell it which * of the superclasses or interfaces of {@code c} is the one that matters for type compatibility. * * @param c a class * @return a super-class of c to be used in validation-time type inference. */ public static Class getSkylarkType(Class c) { // TODO(bazel-team): replace these with SkylarkValue-s if (String.class.equals(c) || Boolean.class.equals(c) || Integer.class.equals(c) || Iterable.class.equals(c) || Class.class.equals(c)) { return c; } // TODO(bazel-team): also unify all implementations of ClassObject, // that we used to all print the same as "struct"? // // Check if one of the superclasses or implemented interfaces has the SkylarkModule // annotation. If yes return that class. Class parent = getParentWithSkylarkModule(c); if (parent != null) { return parent; } Preconditions.checkArgument(SkylarkValue.class.isAssignableFrom(c), "%s is not allowed as a Skylark value", c); return c; } /** * Returns a pretty name for the datatype of object 'o' in the Build language. */ public static String getDataTypeName(Object o) { return getDataTypeName(o, false); } /** * Returns a pretty name for the datatype of object {@code object} in Skylark * or the BUILD language, with full details if the {@code full} boolean is true. */ public static String getDataTypeName(Object object, boolean fullDetails) { Preconditions.checkNotNull(object); if (fullDetails) { if (object instanceof SkylarkNestedSet) { SkylarkNestedSet set = (SkylarkNestedSet) object; return "set of " + set.getContentType() + "s"; } if (object instanceof SelectorList) { SelectorList list = (SelectorList) object; return "select of " + getDataTypeNameFromClass(list.getType()); } } return getDataTypeNameFromClass(object.getClass()); } /** * Returns a pretty name for the datatype equivalent of class 'c' in the Build language. */ public static String getDataTypeNameFromClass(Class c) { return getDataTypeNameFromClass(c, true); } /** * Returns a pretty name for the datatype equivalent of class 'c' in the Build language. * @param highlightNameSpaces Determines whether the result should also contain a special comment * when the given class identifies a Skylark name space. */ public static String getDataTypeNameFromClass(Class c, boolean highlightNameSpaces) { if (c.isAnnotationPresent(SkylarkModule.class)) { SkylarkModule module = c.getAnnotation(SkylarkModule.class); return c.getAnnotation(SkylarkModule.class).name() + ((module.namespace() && highlightNameSpaces) ? " (a language module)" : ""); } else if (c.equals(Object.class)) { return "unknown"; } else if (c.equals(String.class)) { return "string"; } else if (c.equals(Integer.class)) { return "int"; } else if (c.equals(Boolean.class)) { return "bool"; } else if (List.class.isAssignableFrom(c)) { // This is a Java List that isn't a SkylarkList return "List"; // This case shouldn't happen in normal code, but we keep it for debugging. } else if (Map.class.isAssignableFrom(c)) { // This is a Java Map that isn't a SkylarkDict return "Map"; // This case shouldn't happen in normal code, but we keep it for debugging. } else if (BaseFunction.class.isAssignableFrom(c)) { return "function"; } else if (c.equals(SelectorValue.class)) { return "select"; } else if (NestedSet.class.isAssignableFrom(c) || SkylarkNestedSet.class.isAssignableFrom(c)) { // TODO(bazel-team): no one should be seeing naked NestedSet at all. return "set"; } else { if (c.getSimpleName().isEmpty()) { return c.getName(); } else { return c.getSimpleName(); } } } public static Object checkNotNull(Expression expr, Object obj) throws EvalException { if (obj == null) { throw new EvalException(expr.getLocation(), "Unexpected null value, please send a bug report. " + "This was generated by '" + expr + "'"); } return obj; } public static final StackManipulation toBoolean = ByteCodeUtils.invoke(EvalUtils.class, "toBoolean", Object.class); /** * @return the truth value of an object, according to Python rules. * http://docs.python.org/2/library/stdtypes.html#truth-value-testing */ public static boolean toBoolean(Object o) { if (o == null || o == Runtime.NONE) { return false; } else if (o instanceof Boolean) { return (Boolean) o; } else if (o instanceof String) { return !((String) o).isEmpty(); } else if (o instanceof Integer) { return (Integer) o != 0; } else if (o instanceof Collection) { return !((Collection) o).isEmpty(); } else if (o instanceof Map) { return !((Map) o).isEmpty(); } else if (o instanceof NestedSet) { return !((NestedSet) o).isEmpty(); } else if (o instanceof SkylarkNestedSet) { return !((SkylarkNestedSet) o).isEmpty(); } else if (o instanceof Iterable) { return !(Iterables.isEmpty((Iterable) o)); } else { return true; } } public static final StackManipulation toCollection = ByteCodeUtils.invoke(EvalUtils.class, "toCollection", Object.class, Location.class); public static Collection toCollection(Object o, Location loc) throws EvalException { if (o instanceof Collection) { return (Collection) o; } else if (o instanceof SkylarkList) { return ((SkylarkList) o).getImmutableList(); } else if (o instanceof Map) { // For dictionaries we iterate through the keys only // For determinism, we sort the keys. try { return SKYLARK_COMPARATOR.sortedCopy(((Map) o).keySet()); } catch (ComparisonException e) { throw new EvalException(loc, e); } } else if (o instanceof SkylarkNestedSet) { return ((SkylarkNestedSet) o).toCollection(); } else { throw new EvalException(loc, "type '" + getDataTypeName(o) + "' is not a collection"); } } public static final StackManipulation toIterable = ByteCodeUtils.invoke(EvalUtils.class, "toIterable", Object.class, Location.class); public static Iterable toIterable(Object o, Location loc) throws EvalException { if (o instanceof String) { // This is not as efficient as special casing String in for and dict and list comprehension // statements. However this is a more unified way. return split((String) o); } else if (o instanceof Iterable) { return (Iterable) o; } else if (o instanceof Map) { return toCollection(o, loc); } else { throw new EvalException(loc, "type '" + getDataTypeName(o) + "' is not iterable"); } } private static ImmutableList split(String value) { ImmutableList.Builder builder = new ImmutableList.Builder<>(); for (char c : value.toCharArray()) { builder.add(String.valueOf(c)); } return builder.build(); } /** * @return the size of the Skylark object or -1 in case the object doesn't have a size. */ public static int size(Object arg) { if (arg instanceof String) { return ((String) arg).length(); } else if (arg instanceof Map) { return ((Map) arg).size(); } else if (arg instanceof SkylarkList) { return ((SkylarkList) arg).size(); } else if (arg instanceof Iterable) { // Iterables.size() checks if arg is a Collection so it's efficient in that sense. return Iterables.size((Iterable) arg); } return -1; } /** @return true if x is Java null or Skylark None */ public static boolean isNullOrNone(Object x) { return x == null || x == Runtime.NONE; } /** * Build a SkylarkDict of kwarg arguments from a list, removing null-s or None-s. * * @param env the Environment in which this map can be mutated. * @param init a series of key, value pairs (as consecutive arguments) * as in {@code optionMap(k1, v1, k2, v2, k3, v3)} * where each key is a String, each value is an arbitrary Objet. * @return a {@code Map} that has all the specified entries, * where key, value pairs appearing earlier have precedence, * i.e. {@code k1, v1} may override {@code k3, v3}. * * Ignore any entry where the value is null or None. * Keys cannot be null. */ @SuppressWarnings("unchecked") public static SkylarkDict optionMap(Environment env, Object... init) { ImmutableMap.Builder b = new ImmutableMap.Builder<>(); Preconditions.checkState(init.length % 2 == 0); for (int i = init.length - 2; i >= 0; i -= 2) { K key = (K) Preconditions.checkNotNull(init[i]); V value = (V) init[i + 1]; if (!isNullOrNone(value)) { b.put(key, value); } } return SkylarkDict.copyOf(env, b.build()); } }