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|
// 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.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import com.google.common.collect.Iterables;
import com.google.common.collect.Lists;
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.SkylarkInterfaceUtils;
import com.google.devtools.build.lib.skylarkinterface.SkylarkModule;
import com.google.devtools.build.lib.skylarkinterface.SkylarkValue;
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;
/**
* 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.
*
* <p>It may throw an unchecked exception ComparisonException that should be wrapped in an
* EvalException.
*/
public static final Ordering<Object> SKYLARK_COMPARATOR =
new Ordering<Object>() {
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);
}
if (!o1.getClass().equals(o2.getClass())) {
throw new ComparisonException(
"Cannot compare " + getDataTypeName(o1) + " with " + getDataTypeName(o2));
}
if (o1 instanceof ClassObject) {
throw new ComparisonException("Cannot compare structs");
}
if (o1 instanceof SkylarkNestedSet) {
throw new ComparisonException("Cannot compare depsets");
}
try {
return ((Comparable<Object>) o1).compareTo(o2);
} catch (ClassCastException e) {
throw new ComparisonException(
"Cannot compare " + getDataTypeName(o1) + " with " + getDataTypeName(o2));
}
}
};
/**
* 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)
// there is a registered Skylark ancestor class (useful e.g. when using AutoValue)
|| SkylarkInterfaceUtils.getSkylarkModule(c) != null
|| 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
}
// TODO(bazel-team): move the following few type-related functions to SkylarkType
/**
* Return the Skylark-type of {@code c}
*
* <p>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.
*
* <p>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"?
Class<?> parent = SkylarkInterfaceUtils.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 "depset 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) {
SkylarkModule module = SkylarkInterfaceUtils.getSkylarkModule(c);
if (module != null) {
return module.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)) {
// 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 expression '"
+ expr
+ "'");
}
return obj;
}
/**
* @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 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
if (o instanceof SkylarkDict) {
// SkylarkDicts handle ordering themselves
SkylarkDict<?, ?> dict = (SkylarkDict) o;
List<Object> list = Lists.newArrayListWithCapacity(dict.size());
for (Map.Entry<?, ?> entries : dict.entrySet()) {
list.add(entries.getKey());
}
return ImmutableList.copyOf(list);
}
// 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 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 SkylarkNestedSet) {
// TODO(bazel-team): Add a deprecation warning: don't implicitly flatten depsets.
return ((SkylarkNestedSet) o).toCollection();
} 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");
}
}
/**
* Given an {@link Iterable}, returns it as-is. Given a {@link SkylarkNestedSet}, returns its
* contents as an iterable. Throws {@link EvalException} for any other value.
*
* <p>This is a kludge for the change that made {@code SkylarkNestedSet} not implement {@code
* Iterable}. It is different from {@link #toIterable} in its behavior for strings and other types
* that are not strictly Java-iterable.
*
* @throws EvalException if {@code o} is not an iterable or set
* @deprecated avoid writing APIs that implicitly treat depsets as iterables. It encourages
* unnecessary flattening of depsets.
*
* <p>TODO(bazel-team): Remove this if/when implicit iteration over {@code SkylarkNestedSet} is no
* longer supported.
*/
@Deprecated
public static Iterable<?> toIterableStrict(Object o, Location loc) throws EvalException {
if (o instanceof Iterable) {
return (Iterable<?>) o;
} else if (o instanceof SkylarkNestedSet) {
// TODO(bazel-team): Add a deprecation warning: don't implicitly flatten depsets.
return ((SkylarkNestedSet) o).toCollection();
} else {
throw new EvalException(loc,
"expected Iterable or depset, but got '" + getDataTypeName(o) + "' (strings and maps "
+ "are not allowed here)");
}
}
public static void lock(Object object, Location loc) {
if (object instanceof SkylarkMutable) {
((SkylarkMutable) object).lock(loc);
}
}
public static void unlock(Object object, Location loc) {
if (object instanceof SkylarkMutable) {
((SkylarkMutable) object).unlock(loc);
}
}
private static ImmutableList<String> split(String value) {
ImmutableList.Builder<String> 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 SkylarkNestedSet) {
// TODO(bazel-team): Add a deprecation warning: don't implicitly flatten depsets.
return ((SkylarkNestedSet) arg).toCollection().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;
}
// The following functions for indexing and slicing match the behavior of Python.
/**
* Resolves a positive or negative index to an index in the range [0, length), or throws
* EvalException if it is out-of-range. If the index is negative, it counts backward from
* length.
*/
public static int getSequenceIndex(int index, int length, Location loc)
throws EvalException {
int actualIndex = index;
if (actualIndex < 0) {
actualIndex += length;
}
if (actualIndex < 0 || actualIndex >= length) {
throw new EvalException(
loc,
"index out of range (index is " + index + ", but sequence has " + length + " elements)");
}
return actualIndex;
}
/**
* Performs index resolution after verifying that the given object has index type.
*/
public static int getSequenceIndex(Object index, int length, Location loc)
throws EvalException {
if (!(index instanceof Integer)) {
throw new EvalException(
loc, "indices must be integers, not " + EvalUtils.getDataTypeName(index));
}
return getSequenceIndex(((Integer) index).intValue(), length, loc);
}
/**
* Resolves a positive or negative index to an integer that can denote the left or right boundary
* of a slice. If reverse is false, the slice has positive stride (i.e., its elements are in their
* normal order) and the result is guaranteed to be in range [0, length + 1). If reverse is true,
* the slice has negative stride and the result is in range [-1, length). In either case, if the
* index is negative, it counts backward from length. Note that an input index of -1 represents
* the last element's position, while an output integer of -1 represents the imaginary position
* to the left of the first element.
*/
public static int clampRangeEndpoint(int index, int length, boolean reverse) {
if (index < 0) {
index += length;
}
if (!reverse) {
return Math.max(Math.min(index, length), 0);
} else {
return Math.max(Math.min(index, length - 1), -1);
}
}
/**
* Resolves a positive or negative index to an integer that can denote the boundary for a
* slice with positive stride.
*/
public static int clampRangeEndpoint(int index, int length) {
return clampRangeEndpoint(index, length, false);
}
/**
* Calculates the indices of the elements that should be included in the slice [start:end:step]
* of a sequence with the given length. Each of start, end, and step must be supplied, and step
* may not be 0.
*/
public static List<Integer> getSliceIndices(int start, int end, int step, int length) {
if (step == 0) {
throw new IllegalArgumentException("Slice step cannot be zero");
}
start = clampRangeEndpoint(start, length, step < 0);
end = clampRangeEndpoint(end, length, step < 0);
ImmutableList.Builder<Integer> indices = ImmutableList.builder();
for (int current = start; step > 0 ? current < end : current > end; current += step) {
indices.add(current);
}
return indices.build();
}
/**
* Calculates the indices of the elements in a slice, after validating the arguments and replacing
* Runtime.NONE with default values. Throws an EvalException if a bad argument is given.
*/
public static List<Integer> getSliceIndices(
Object startObj, Object endObj, Object stepObj, int length, Location loc)
throws EvalException {
int start;
int end;
int step;
if (stepObj == Runtime.NONE) {
// This case is excluded by the parser, but let's handle it for completeness.
step = 1;
} else if (stepObj instanceof Integer) {
step = ((Integer) stepObj).intValue();
} else {
throw new EvalException(
loc, String.format("slice step must be an integer, not '%s'", stepObj));
}
if (step == 0) {
throw new EvalException(loc, "slice step cannot be zero");
}
if (startObj == Runtime.NONE) {
start = (step > 0) ? 0 : length - 1;
} else if (startObj instanceof Integer) {
start = ((Integer) startObj).intValue();
} else {
throw new EvalException(
loc, String.format("slice start must be an integer, not '%s'", startObj));
}
if (endObj == Runtime.NONE) {
// If step is negative, can't use -1 for end since that would be converted
// to the rightmost element's position.
end = (step > 0) ? length : -length - 1;
} else if (endObj instanceof Integer) {
end = ((Integer) endObj).intValue();
} else {
throw new EvalException(loc, String.format("slice end must be an integer, not '%s'", endObj));
}
return getSliceIndices(start, end, step, length);
}
/** @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<String, Object>} 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 <K, V> SkylarkDict<K, V> optionMap(Environment env, Object... init) {
ImmutableMap.Builder<K, V> 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.<K, V>copyOf(env, b.build());
}
}
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