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gwt / gwt / 6cf58a81d131d617ba2b823d29b44384d97865ad / . / 2.1 / user / src / com / google / gwt / resources / rg / CssResourceGenerator.java
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/*
* Copyright 2008 Google Inc.
*
* 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.gwt.resources.rg;
import com.google.gwt.core.ext.BadPropertyValueException;
import com.google.gwt.core.ext.ConfigurationProperty;
import com.google.gwt.core.ext.Generator;
import com.google.gwt.core.ext.PropertyOracle;
import com.google.gwt.core.ext.TreeLogger;
import com.google.gwt.core.ext.UnableToCompleteException;
import com.google.gwt.core.ext.typeinfo.JClassType;
import com.google.gwt.core.ext.typeinfo.JMethod;
import com.google.gwt.core.ext.typeinfo.JPrimitiveType;
import com.google.gwt.core.ext.typeinfo.NotFoundException;
import com.google.gwt.core.ext.typeinfo.TypeOracle;
import com.google.gwt.dev.util.DefaultTextOutput;
import com.google.gwt.dev.util.Util;
import com.google.gwt.dom.client.Element;
import com.google.gwt.dom.client.StyleInjector;
import com.google.gwt.i18n.client.LocaleInfo;
import com.google.gwt.resources.client.CssResource;
import com.google.gwt.resources.client.CssResource.ClassName;
import com.google.gwt.resources.client.CssResource.Import;
import com.google.gwt.resources.client.CssResource.ImportedWithPrefix;
import com.google.gwt.resources.client.CssResource.NotStrict;
import com.google.gwt.resources.client.CssResource.Shared;
import com.google.gwt.resources.css.ClassRenamer;
import com.google.gwt.resources.css.CssGenerationVisitor;
import com.google.gwt.resources.css.DefsCollector;
import com.google.gwt.resources.css.ExternalClassesCollector;
import com.google.gwt.resources.css.GenerateCssAst;
import com.google.gwt.resources.css.IfEvaluator;
import com.google.gwt.resources.css.MergeIdenticalSelectorsVisitor;
import com.google.gwt.resources.css.MergeRulesByContentVisitor;
import com.google.gwt.resources.css.RequirementsCollector;
import com.google.gwt.resources.css.RtlVisitor;
import com.google.gwt.resources.css.SplitRulesVisitor;
import com.google.gwt.resources.css.Spriter;
import com.google.gwt.resources.css.SubstitutionCollector;
import com.google.gwt.resources.css.SubstitutionReplacer;
import com.google.gwt.resources.css.ast.CollapsedNode;
import com.google.gwt.resources.css.ast.CssCompilerException;
import com.google.gwt.resources.css.ast.CssDef;
import com.google.gwt.resources.css.ast.CssIf;
import com.google.gwt.resources.css.ast.CssNode;
import com.google.gwt.resources.css.ast.CssProperty;
import com.google.gwt.resources.css.ast.CssRule;
import com.google.gwt.resources.css.ast.CssStylesheet;
import com.google.gwt.resources.css.ast.HasNodes;
import com.google.gwt.resources.css.ast.CssProperty.DotPathValue;
import com.google.gwt.resources.css.ast.CssProperty.ListValue;
import com.google.gwt.resources.css.ast.CssProperty.NumberValue;
import com.google.gwt.resources.css.ast.CssProperty.Value;
import com.google.gwt.resources.ext.AbstractResourceGenerator;
import com.google.gwt.resources.ext.ClientBundleRequirements;
import com.google.gwt.resources.ext.ResourceContext;
import com.google.gwt.resources.ext.ResourceGeneratorUtil;
import com.google.gwt.user.rebind.SourceWriter;
import com.google.gwt.user.rebind.StringSourceWriter;
import java.io.Serializable;
import java.net.URL;
import java.util.Arrays;
import java.util.Comparator;
import java.util.HashMap;
import java.util.IdentityHashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.SortedSet;
import java.util.TreeSet;
import java.util.zip.Adler32;
/**
* Provides implementations of CSSResources.
*/
public final class CssResourceGenerator extends AbstractResourceGenerator {
@SuppressWarnings("serial")
static class JClassOrderComparator implements Comparator<JClassType>,
Serializable {
public int compare(JClassType o1, JClassType o2) {
return o1.getQualifiedSourceName().compareTo(o2.getQualifiedSourceName());
}
}
/**
* A lookup table of base-32 chars we use to encode CSS idents. Because CSS
* class selectors may be case-insensitive, we don't have enough characters to
* use a base-64 encoding.
* <p>
* Note that the character {@value #RESERVED_IDENT_CHAR} is intentionally
* missing from this array. It is used to prefix identifiers produced by
* {@link #makeIdent} if they conflict with reserved class-name prefixes.
*/
static final char[] BASE32_CHARS = new char[] {
'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N',
'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', '-', '0', '1',
'2', '3', '4', '5'};
/**
* This value is used by {@link #concatOp} to help create a more balanced AST
* tree by producing parenthetical expressions.
*/
private static final int CONCAT_EXPRESSION_LIMIT = 20;
/**
* These constants are used to cache obfuscated class names.
*/
private static final String KEY_BY_CLASS_AND_METHOD = "classAndMethod";
private static final String KEY_CLASS_PREFIX = "prefix";
private static final String KEY_CLASS_COUNTER = "counter";
private static final String KEY_HAS_CACHED_DATA = "hasCachedData";
private static final String KEY_SHARED_METHODS = "sharedMethods";
private static final String KEY_RESERVED_PREFIXES = "CssResource.reservedClassPrefixes";
/**
* This character must not appear in {@link #BASE32_CHARS}.
*/
private static final char RESERVED_IDENT_CHAR = 'Z';
/**
* Returns the import prefix for a type, including the trailing hyphen.
*/
public static String getImportPrefix(JClassType importType) {
String prefix = importType.getSimpleSourceName();
ImportedWithPrefix exp = importType.getAnnotation(ImportedWithPrefix.class);
if (exp != null) {
prefix = exp.value();
}
return prefix + "-";
}
public static boolean haveCommonProperties(CssRule a, CssRule b) {
if (a.getProperties().size() == 0 || b.getProperties().size() == 0) {
return false;
}
SortedSet<String> aProperties = new TreeSet<String>();
SortedSet<String> bProperties = new TreeSet<String>();
for (CssProperty p : a.getProperties()) {
aProperties.add(p.getName());
}
for (CssProperty p : b.getProperties()) {
bProperties.add(p.getName());
}
Iterator<String> ai = aProperties.iterator();
Iterator<String> bi = bProperties.iterator();
String aName = ai.next();
String bName = bi.next();
for (;;) {
int comp = aName.compareToIgnoreCase(bName);
if (comp == 0) {
return true;
} else if (comp > 0) {
if (aName.startsWith(bName + "-")) {
return true;
}
if (!bi.hasNext()) {
break;
}
bName = bi.next();
} else {
if (bName.startsWith(aName + "-")) {
return true;
}
if (!ai.hasNext()) {
break;
}
aName = ai.next();
}
}
return false;
}
public static void main(String[] args) {
for (int i = 0; i < 1000; i++) {
System.out.println(makeIdent(i));
}
}
/**
* Compute an obfuscated CSS class name that is guaranteed not to conflict
* with a set of reserved prefixes. Visible for testing.
*/
static String computeObfuscatedClassName(String classPrefix,
Counter classCounter, SortedSet<String> reservedPrefixes) {
String obfuscatedClassName = classPrefix + makeIdent(classCounter.next());
/*
* Ensure that the name won't conflict with any reserved prefixes. We can't
* just keep incrementing the counter, because that could take an
* arbitrarily long amount of time to return a good value.
*/
String conflict = stringStartsWithAny(obfuscatedClassName, reservedPrefixes);
while (conflict != null) {
Adler32 hash = new Adler32();
hash.update(Util.getBytes(conflict));
/*
* Compute a new prefix for the identifier to mask the prefix and add the
* reserved identifier character to prevent conflicts with makeIdent().
*
* Assuming "gwt-" is a reserved prefix: gwt-A -> ab32ZA
*/
String newPrefix = makeIdent(hash.getValue()).substring(0,
conflict.length())
+ RESERVED_IDENT_CHAR;
obfuscatedClassName = newPrefix
+ obfuscatedClassName.substring(conflict.length());
conflict = stringStartsWithAny(obfuscatedClassName, reservedPrefixes);
}
return obfuscatedClassName;
}
/**
* Create a Java expression that evaluates to a string representation of the
* given node. Visible only for testing.
*/
static <T extends CssNode & HasNodes> String makeExpression(
TreeLogger logger, ResourceContext context, JClassType cssResourceType,
T node, boolean prettyOutput) throws UnableToCompleteException {
// Generate the CSS template
DefaultTextOutput out = new DefaultTextOutput(!prettyOutput);
CssGenerationVisitor v = new CssGenerationVisitor(out);
v.accept(node);
// Generate the final Java expression
String template = out.toString();
StringBuilder b = new StringBuilder();
int start = 0;
/*
* Very large concatenation expressions using '+' cause the GWT compiler to
* overflow the stack due to deep AST nesting. The workaround for now is to
* force it to be more balanced using intermediate concatenation groupings.
*
* This variable is used to track the number of subexpressions within the
* current parenthetical expression.
*/
int numExpressions = 0;
b.append('(');
for (Map.Entry<Integer, List<CssNode>> entry : v.getSubstitutionPositions().entrySet()) {
// Add the static section between start and the substitution point
b.append('"');
b.append(Generator.escape(template.substring(start, entry.getKey())));
b.append('\"');
numExpressions = concatOp(numExpressions, b);
// Add the nodes at the substitution point
for (CssNode x : entry.getValue()) {
TreeLogger loopLogger = logger.branch(TreeLogger.DEBUG,
"Performing substitution in node " + x.toString());
if (x instanceof CssIf) {
CssIf asIf = (CssIf) x;
// Generate the sub-expressions
String expression = makeExpression(loopLogger, context,
cssResourceType, new CollapsedNode(asIf), prettyOutput);
String elseExpression;
if (asIf.getElseNodes().isEmpty()) {
// We'll treat an empty else block as an empty string
elseExpression = "\"\"";
} else {
elseExpression = makeExpression(loopLogger, context,
cssResourceType, new CollapsedNode(asIf.getElseNodes()),
prettyOutput);
}
// ((expr) ? "CSS" : "elseCSS") +
b.append("((" + asIf.getExpression() + ") ? " + expression + " : "
+ elseExpression + ") ");
numExpressions = concatOp(numExpressions, b);
} else if (x instanceof CssProperty) {
CssProperty property = (CssProperty) x;
validateValue(loopLogger, context.getClientBundleType(),
property.getValues());
// (expr) +
b.append("(" + property.getValues().getExpression() + ") ");
numExpressions = concatOp(numExpressions, b);
} else {
// This indicates that some magic node is slipping by our visitors
loopLogger.log(TreeLogger.ERROR, "Unhandled substitution "
+ x.getClass());
throw new UnableToCompleteException();
}
}
start = entry.getKey();
}
// Add the remaining parts of the template
b.append('"');
b.append(Generator.escape(template.substring(start)));
b.append('"');
b.append(')');
return b.toString();
}
/**
* Check if number of concat expressions currently exceeds limit and either
* append '+' if the limit isn't reached or ') + (' if it is.
*
* @return numExpressions + 1 or 0 if limit was exceeded.
*/
private static int concatOp(int numExpressions, StringBuilder b) {
/*
* TODO: Fix the compiler to better handle arbitrarily long concatenation
* expressions.
*/
if (numExpressions >= CONCAT_EXPRESSION_LIMIT) {
b.append(") + (");
return 0;
}
b.append(" + ");
return numExpressions + 1;
}
private static String makeIdent(long id) {
assert id >= 0;
StringBuilder b = new StringBuilder();
// Use only guaranteed-alpha characters for the first character
b.append(BASE32_CHARS[(int) (id & 0xf)]);
id >>= 4;
while (id != 0) {
b.append(BASE32_CHARS[(int) (id & 0x1f)]);
id >>= 5;
}
return b.toString();
}
/**
* Returns <code>true</code> if <code>target</code> starts with any of the
* prefixes in the supplied set. The check is performed in a case-insensitive
* manner, assuming that the values in <code>prefixes</code> have already been
* converted to lower-case.
*/
private static String stringStartsWithAny(String target,
SortedSet<String> prefixes) {
if (prefixes.isEmpty()) {
return null;
}
/*
* The headSet() method returns values strictly less than the search value,
* so we want to append a trailing character to the end of the search in
* case the obfuscated class name is exactly equal to one of the prefixes.
*/
String search = target.toString().toLowerCase() + " ";
SortedSet<String> headSet = prefixes.headSet(search);
if (!headSet.isEmpty()) {
String prefix = headSet.last();
if (search.startsWith(prefix)) {
return prefix;
}
}
return null;
}
/**
* This function validates any context-sensitive Values.
*/
private static void validateValue(TreeLogger logger,
JClassType resourceBundleType, Value value)
throws UnableToCompleteException {
ListValue list = value.isListValue();
if (list != null) {
for (Value v : list.getValues()) {
validateValue(logger, resourceBundleType, v);
}
return;
}
DotPathValue dot = value.isDotPathValue();
if (dot != null) {
try {
// This will either succeed or throw an exception
ResourceGeneratorUtil.getMethodByPath(resourceBundleType,
dot.getParts(), null);
} catch (NotFoundException e) {
logger.log(TreeLogger.ERROR, e.getMessage());
throw new UnableToCompleteException();
}
}
}
private Counter classCounter;
private JClassType cssResourceType;
private JClassType elementType;
private boolean enableMerge;
private boolean prettyOutput;
private Map<JClassType, Map<JMethod, String>> replacementsByClassAndMethod;
private Map<JMethod, String> replacementsForSharedMethods;
private JClassType stringType;
private Map<JMethod, CssStylesheet> stylesheetMap;
@Override
public String createAssignment(TreeLogger logger, ResourceContext context,
JMethod method) throws UnableToCompleteException {
TypeOracle typeOracle = context.getGeneratorContext().getTypeOracle();
SourceWriter sw = new StringSourceWriter();
// Write the expression to create the subtype.
sw.println("new " + method.getReturnType().getQualifiedSourceName()
+ "() {");
sw.indent();
JClassType cssResourceSubtype = method.getReturnType().isInterface();
assert cssResourceSubtype != null;
Map<String, Map<JMethod, String>> replacementsWithPrefix = new HashMap<String, Map<JMethod, String>>();
replacementsWithPrefix.put("",
computeReplacementsForType(cssResourceSubtype));
Import imp = method.getAnnotation(Import.class);
if (imp != null) {
boolean fail = false;
for (Class<? extends CssResource> clazz : imp.value()) {
JClassType importType = typeOracle.findType(clazz.getName().replace(
'$', '.'));
assert importType != null : "TypeOracle does not have type "
+ clazz.getName();
String prefix = getImportPrefix(importType);
if (replacementsWithPrefix.put(prefix,
computeReplacementsForType(importType)) != null) {
logger.log(TreeLogger.ERROR,
"Multiple imports that would use the prefix " + prefix);
fail = true;
}
}
if (fail) {
throw new UnableToCompleteException();
}
}
// Methods defined by CssResource interface
writeEnsureInjected(sw);
writeGetName(method, sw);
sw.println("public String getText() {");
sw.indent();
boolean strict = isStrict(logger, method);
Map<JMethod, String> actualReplacements = new IdentityHashMap<JMethod, String>();
String cssExpression = makeExpression(logger, context, cssResourceSubtype,
stylesheetMap.get(method), replacementsWithPrefix, strict,
actualReplacements);
sw.println("return " + cssExpression + ";");
sw.outdent();
sw.println("}");
/*
* getOverridableMethods is used to handle CssResources extending
* non-CssResource types. See the discussion in computeReplacementsForType.
*/
writeUserMethods(logger, sw, stylesheetMap.get(method),
cssResourceSubtype.getOverridableMethods(), actualReplacements);
sw.outdent();
sw.println("}");
return sw.toString();
}
@Override
public void init(TreeLogger logger, ResourceContext context)
throws UnableToCompleteException {
String classPrefix;
try {
PropertyOracle propertyOracle = context.getGeneratorContext().getPropertyOracle();
ConfigurationProperty styleProp = propertyOracle.getConfigurationProperty("CssResource.style");
String style = styleProp.getValues().get(0);
prettyOutput = style.equals("pretty");
ConfigurationProperty mergeProp = propertyOracle.getConfigurationProperty("CssResource.mergeEnabled");
String merge = mergeProp.getValues().get(0);
enableMerge = merge.equals("true");
ConfigurationProperty classPrefixProp = propertyOracle.getConfigurationProperty("CssResource.obfuscationPrefix");
classPrefix = classPrefixProp.getValues().get(0);
} catch (BadPropertyValueException e) {
logger.log(TreeLogger.ERROR, "Unable to query module property", e);
throw new UnableToCompleteException();
}
// Find all of the types that we care about in the type system
TypeOracle typeOracle = context.getGeneratorContext().getTypeOracle();
cssResourceType = typeOracle.findType(CssResource.class.getName());
assert cssResourceType != null;
elementType = typeOracle.findType(Element.class.getName());
assert elementType != null;
stringType = typeOracle.findType(String.class.getName());
assert stringType != null;
stylesheetMap = new IdentityHashMap<JMethod, CssStylesheet>();
initReplacements(logger, context, classPrefix);
}
@Override
public void prepare(TreeLogger logger, ResourceContext context,
ClientBundleRequirements requirements, JMethod method)
throws UnableToCompleteException {
if (method.getReturnType().isInterface() == null) {
logger.log(TreeLogger.ERROR, "Return type must be an interface");
throw new UnableToCompleteException();
}
URL[] resources = ResourceGeneratorUtil.findResources(logger, context,
method);
if (resources.length == 0) {
logger.log(TreeLogger.ERROR, "At least one source must be specified");
throw new UnableToCompleteException();
}
// Create the AST and do a quick scan for requirements
CssStylesheet sheet = GenerateCssAst.exec(logger, resources);
stylesheetMap.put(method, sheet);
(new RequirementsCollector(logger, requirements)).accept(sheet);
}
/**
* Determine the class prefix that will be used. If a value is automatically
* computed, the <code>reservedPrefixes</code> set will be cleared because the
* returned value is guaranteed to not conflict with any reserved prefixes.
*/
private String computeClassPrefix(String classPrefix,
SortedSet<JClassType> cssResourceSubtypes,
TreeSet<String> reservedPrefixes) {
if ("default".equals(classPrefix)) {
classPrefix = null;
} else if ("empty".equals(classPrefix)) {
classPrefix = "";
}
if (classPrefix == null) {
/*
* Note that the checksum will miss some or all of the subtypes generated
* by other generators.
*/
Adler32 checksum = new Adler32();
for (JClassType type : cssResourceSubtypes) {
checksum.update(Util.getBytes(type.getQualifiedSourceName()));
}
final int seed = Math.abs((int) checksum.getValue());
classPrefix = "G" + computeObfuscatedClassName("", new Counter() {
@Override
int next() {
return seed;
}
}, reservedPrefixes);
// No conflicts are possible now
reservedPrefixes.clear();
}
return classPrefix;
}
/**
* Each distinct type of CssResource has a unique collection of values that it
* will return, excepting for those methods that are defined within an
* interface that is tagged with {@code @Shared}.
*/
private void computeObfuscatedNames(TreeLogger logger, String classPrefix,
SortedSet<String> reservedPrefixes, Set<JClassType> cssResourceSubtypes) {
logger = logger.branch(TreeLogger.DEBUG, "Computing CSS class replacements");
for (JClassType type : cssResourceSubtypes) {
if (replacementsByClassAndMethod.containsKey(type)) {
continue;
}
Map<JMethod, String> replacements = new IdentityHashMap<JMethod, String>();
replacementsByClassAndMethod.put(type, replacements);
for (JMethod method : type.getOverridableMethods()) {
String name = method.getName();
if ("getName".equals(name) || "getText".equals(name)
|| !stringType.equals(method.getReturnType())) {
continue;
}
// The user provided the class name to use
ClassName classNameOverride = method.getAnnotation(ClassName.class);
if (classNameOverride != null) {
name = classNameOverride.value();
}
String obfuscatedClassName = computeObfuscatedClassName(classPrefix,
classCounter, reservedPrefixes);
if (prettyOutput) {
obfuscatedClassName += "-"
+ type.getQualifiedSourceName().replaceAll("[.$]", "-") + "-"
+ name;
}
replacements.put(method, obfuscatedClassName);
if (method.getEnclosingType() == type) {
Shared shared = type.getAnnotation(Shared.class);
if (shared != null) {
replacementsForSharedMethods.put(method, obfuscatedClassName);
}
}
logger.log(TreeLogger.SPAM, "Mapped " + type.getQualifiedSourceName()
+ "." + name + " to " + obfuscatedClassName);
}
}
}
/**
* Returns all interfaces derived from CssResource, sorted by qualified name.
* <p>
* We'll ignore concrete implementations of CssResource, which include types
* previously-generated by CssResourceGenerator and user-provided
* implementations of CssResource, which aren't valid for use with
* CssResourceGenerator anyway. By ignoring newly-generated CssResource types,
* we'll ensure a stable ordering, regardless of the actual execution order
* used by the Generator framework.
* <p>
* It is still possible that additional pure-interfaces could be introduced by
* other generators, which would change the result of this computation, but
* there is presently no way to determine when, or by what means, a type was
* added to the TypeOracle.
*/
private SortedSet<JClassType> computeOperableTypes(TreeLogger logger) {
logger = logger.branch(TreeLogger.DEBUG,
"Finding operable CssResource subtypes");
SortedSet<JClassType> toReturn = new TreeSet<JClassType>(
new JClassOrderComparator());
JClassType[] cssResourceSubtypes = cssResourceType.getSubtypes();
for (JClassType type : cssResourceSubtypes) {
if (type.isInterface() != null) {
logger.log(TreeLogger.SPAM, "Added " + type.getQualifiedSourceName());
toReturn.add(type);
} else {
logger.log(TreeLogger.SPAM, "Ignored " + type.getQualifiedSourceName());
}
}
return toReturn;
}
/**
* Compute the mapping of original class names to obfuscated type names for a
* given subtype of CssResource. Mappings are inherited from the type's
* supertypes.
*/
private Map<JMethod, String> computeReplacementsForType(JClassType type) {
Map<JMethod, String> toReturn = new IdentityHashMap<JMethod, String>();
/*
* We check to see if the type is derived from CssResource so that we can
* handle the case of a CssResource type being derived from a
* non-CssResource base type. This basically collapses the non-CssResource
* base types into their least-derived CssResource subtypes.
*/
if (type == null || !derivedFromCssResource(type)) {
return toReturn;
}
if (replacementsByClassAndMethod.containsKey(type)) {
toReturn.putAll(replacementsByClassAndMethod.get(type));
}
/*
* Replacements for methods defined in shared types will override any
* locally-computed values.
*/
for (JMethod method : type.getOverridableMethods()) {
if (replacementsForSharedMethods.containsKey(method)) {
assert toReturn.containsKey(method);
toReturn.put(method, replacementsForSharedMethods.get(method));
}
}
return toReturn;
}
/**
* Determine if a type is derived from CssResource.
*/
private boolean derivedFromCssResource(JClassType type) {
List<JClassType> superInterfaces = Arrays.asList(type.getImplementedInterfaces());
if (superInterfaces.contains(cssResourceType)) {
return true;
}
JClassType superClass = type.getSuperclass();
if (superClass != null) {
if (derivedFromCssResource(superClass)) {
return true;
}
}
for (JClassType superInterface : superInterfaces) {
if (derivedFromCssResource(superInterface)) {
return true;
}
}
return false;
}
/**
* This method will initialize the maps that contain the obfuscated class
* names.
*/
@SuppressWarnings("unchecked")
private void initReplacements(TreeLogger logger, ResourceContext context,
String classPrefix) {
/*
* This code was originally written to take a snapshot of all the
* CssResource descendants in the TypeOracle on its first run and calculate
* the obfuscated names in one go, to ensure that the same obfuscation would
* result regardless of the order in which the generators fired. (It no
* longer behaves that way, as that scheme prevented the generation of new
* CssResource interfaces, but the complexity lives on.)
*
* TODO(rjrjr,bobv) These days scottb tells us we're guaranteed that the
* recompiling the same code will fire the generators in a consistent order,
* so the old gymnastics aren't really justified anyway. It would probably
* be be worth the effort to simplify this.
*/
SortedSet<JClassType> cssResourceSubtypes = computeOperableTypes(logger);
if (context.getCachedData(KEY_HAS_CACHED_DATA, Boolean.class) != Boolean.TRUE) {
ConfigurationProperty prop;
TreeSet<String> reservedPrefixes = new TreeSet<String>();
try {
prop = context.getGeneratorContext().getPropertyOracle().getConfigurationProperty(
KEY_RESERVED_PREFIXES);
for (String value : prop.getValues()) {
value = value.trim();
if (value.length() == 0) {
logger.log(TreeLogger.WARN,
"Ignoring nonsensical empty string value for "
+ KEY_RESERVED_PREFIXES + " configuration property");
continue;
}
// Strip leading dots
if (value.startsWith(".")) {
value = value.substring(1);
}
reservedPrefixes.add(value.toLowerCase());
}
} catch (BadPropertyValueException e) {
// Do nothing. Unexpected, but we can live with it.
}
String computedPrefix = computeClassPrefix(classPrefix,
cssResourceSubtypes, reservedPrefixes);
context.putCachedData(KEY_BY_CLASS_AND_METHOD,
new IdentityHashMap<JClassType, Map<JMethod, String>>());
context.putCachedData(KEY_CLASS_PREFIX, computedPrefix);
context.putCachedData(KEY_CLASS_COUNTER, new Counter());
context.putCachedData(KEY_HAS_CACHED_DATA, Boolean.TRUE);
context.putCachedData(KEY_RESERVED_PREFIXES, reservedPrefixes);
context.putCachedData(KEY_SHARED_METHODS,
new IdentityHashMap<JMethod, String>());
}
classCounter = context.getCachedData(KEY_CLASS_COUNTER, Counter.class);
replacementsByClassAndMethod = context.getCachedData(
KEY_BY_CLASS_AND_METHOD, Map.class);
replacementsForSharedMethods = context.getCachedData(KEY_SHARED_METHODS,
Map.class);
classPrefix = context.getCachedData(KEY_CLASS_PREFIX, String.class);
SortedSet<String> reservedPrefixes = context.getCachedData(
KEY_RESERVED_PREFIXES, SortedSet.class);
computeObfuscatedNames(logger, classPrefix, reservedPrefixes,
cssResourceSubtypes);
}
/**
* Check for the presence of the NotStrict annotation on the method. This will
* also perform some limited sanity-checking for the now-deprecated Strict
* annotation.
*/
@SuppressWarnings("deprecation")
// keep references to deprecated Strict annotation local
private boolean isStrict(TreeLogger logger, JMethod method) {
com.google.gwt.resources.client.CssResource.Strict strictAnnotation = method.getAnnotation(com.google.gwt.resources.client.CssResource.Strict.class);
NotStrict nonStrictAnnotation = method.getAnnotation(NotStrict.class);
boolean strict = true;
if (strictAnnotation != null && nonStrictAnnotation != null) {
// Both annotations
logger.log(TreeLogger.WARN, "Contradictory annotations "
+ com.google.gwt.resources.client.CssResource.Strict.class.getName()
+ " and " + NotStrict.class.getName()
+ " applied to the CssResource accessor method; assuming strict");
} else if (nonStrictAnnotation != null) {
// Only the non-strict annotation
strict = false;
}
return strict;
}
/**
* Create a Java expression that evaluates to the string representation of the
* stylesheet resource.
*
* @param actualReplacements An out parameter that will be populated by the
* obfuscated class names that should be used for the particular
* instance of the CssResource, based on any substitution
* modifications encoded in the source CSS file
*/
private String makeExpression(TreeLogger logger, ResourceContext context,
JClassType cssResourceType, CssStylesheet sheet,
Map<String, Map<JMethod, String>> classReplacementsWithPrefix,
boolean strict, Map<JMethod, String> actualReplacements)
throws UnableToCompleteException {
try {
// Create CSS sprites
(new Spriter(logger, context)).accept(sheet);
// Perform @def and @eval substitutions
SubstitutionCollector collector = new SubstitutionCollector();
collector.accept(sheet);
(new SubstitutionReplacer(logger, context, collector.getSubstitutions())).accept(sheet);
// Evaluate @if statements based on deferred binding properties
(new IfEvaluator(logger,
context.getGeneratorContext().getPropertyOracle())).accept(sheet);
/*
* Rename css .class selectors. We look for all @external declarations in
* the stylesheet and then compute the per-instance replacements.
*/
ExternalClassesCollector externalClasses = new ExternalClassesCollector();
externalClasses.accept(sheet);
ClassRenamer renamer = new ClassRenamer(logger,
classReplacementsWithPrefix, strict, externalClasses.getClasses());
renamer.accept(sheet);
actualReplacements.putAll(renamer.getReplacements());
// Combine rules with identical selectors
if (enableMerge) {
(new SplitRulesVisitor()).accept(sheet);
(new MergeIdenticalSelectorsVisitor()).accept(sheet);
(new MergeRulesByContentVisitor()).accept(sheet);
}
String standard = makeExpression(logger, context, cssResourceType, sheet,
prettyOutput);
(new RtlVisitor()).accept(sheet);
String reversed = makeExpression(logger, context, cssResourceType, sheet,
prettyOutput);
return LocaleInfo.class.getName() + ".getCurrentLocale().isRTL() ? ("
+ reversed + ") : (" + standard + ")";
} catch (CssCompilerException e) {
// Take this as a sign that one of the visitors was unhappy, but only
// log the stack trace if there's a causal (i.e. unknown) exception.
logger.log(TreeLogger.ERROR, "Unable to process CSS",
e.getCause() == null ? null : e);
throw new UnableToCompleteException();
}
}
/**
* Write the CssResource accessor method for simple String return values.
*/
private void writeClassAssignment(SourceWriter sw, JMethod toImplement,
Map<JMethod, String> classReplacements) {
String replacement = classReplacements.get(toImplement);
assert replacement != null : "Missing replacement for "
+ toImplement.getName();
sw.println(toImplement.getReadableDeclaration(false, true, true, true, true)
+ "{");
sw.indent();
sw.println("return \"" + replacement + "\";");
sw.outdent();
sw.println("}");
}
private void writeDefAssignment(TreeLogger logger, SourceWriter sw,
JMethod toImplement, CssStylesheet cssStylesheet)
throws UnableToCompleteException {
SubstitutionCollector collector = new SubstitutionCollector();
collector.accept(cssStylesheet);
String name = toImplement.getName();
// TODO: Annotation for override
CssDef def = collector.getSubstitutions().get(name);
if (def == null) {
logger.log(TreeLogger.ERROR, "No @def rule for name " + name);
throw new UnableToCompleteException();
}
// TODO: Allow returning an array of values
if (def.getValues().size() != 1) {
logger.log(TreeLogger.ERROR, "@def rule " + name
+ " must define exactly one value");
throw new UnableToCompleteException();
}
NumberValue numberValue = def.getValues().get(0).isNumberValue();
String returnExpr = "";
JClassType classReturnType = toImplement.getReturnType().isClass();
if (classReturnType != null
&& "java.lang.String".equals(classReturnType.getQualifiedSourceName())) {
returnExpr = "\"" + Generator.escape(def.getValues().get(0).toString())
+ "\"";
} else {
JPrimitiveType returnType = toImplement.getReturnType().isPrimitive();
if (returnType == null) {
logger.log(TreeLogger.ERROR, toImplement.getName()
+ ": Return type must be primitive type or String for "
+ "@def accessors");
throw new UnableToCompleteException();
}
if (returnType == JPrimitiveType.INT || returnType == JPrimitiveType.LONG) {
returnExpr = "" + Math.round(numberValue.getValue());
} else if (returnType == JPrimitiveType.FLOAT) {
returnExpr = numberValue.getValue() + "F";
} else if (returnType == JPrimitiveType.DOUBLE) {
returnExpr = "" + numberValue.getValue();
} else {
logger.log(TreeLogger.ERROR, returnType.getQualifiedSourceName()
+ " is not a valid primitive return type for @def accessors");
throw new UnableToCompleteException();
}
}
sw.print(toImplement.getReadableDeclaration(false, false, false, false,
true));
sw.println(" {");
sw.indent();
sw.println("return " + returnExpr + ";");
sw.outdent();
sw.println("}");
}
private void writeEnsureInjected(SourceWriter sw) {
sw.println("private boolean injected;");
sw.println("public boolean ensureInjected() {");
sw.indent();
sw.println("if (!injected) {");
sw.indentln("injected = true;");
sw.indentln(StyleInjector.class.getName() + ".inject(getText());");
sw.indentln("return true;");
sw.println("}");
sw.println("return false;");
sw.outdent();
sw.println("}");
}
private void writeGetName(JMethod method, SourceWriter sw) {
sw.println("public String getName() {");
sw.indent();
sw.println("return \"" + method.getName() + "\";");
sw.outdent();
sw.println("}");
}
/**
* Write all of the user-defined methods in the CssResource subtype.
*/
private void writeUserMethods(TreeLogger logger, SourceWriter sw,
CssStylesheet sheet, JMethod[] methods,
Map<JMethod, String> obfuscatedClassNames)
throws UnableToCompleteException {
// Get list of @defs
DefsCollector collector = new DefsCollector();
collector.accept(sheet);
Set<String> defs = collector.getDefs();
for (JMethod toImplement : methods) {
String name = toImplement.getName();
if ("getName".equals(name) || "getText".equals(name)
|| "ensureInjected".equals(name)) {
continue;
}
// Bomb out if there is a collision between @def and a style name
if (defs.contains(name) && obfuscatedClassNames.containsKey(toImplement)) {
logger.log(TreeLogger.ERROR, "@def shadows CSS class name: " + name
+ ". Fix by renaming the @def name or the CSS class name.");
throw new UnableToCompleteException();
}
if (defs.contains(toImplement.getName())
&& toImplement.getParameters().length == 0) {
writeDefAssignment(logger, sw, toImplement, sheet);
} else if (toImplement.getReturnType().equals(stringType)
&& toImplement.getParameters().length == 0) {
writeClassAssignment(sw, toImplement, obfuscatedClassNames);
} else {
logger.log(TreeLogger.ERROR, "Don't know how to implement method "
+ toImplement.getName());
throw new UnableToCompleteException();
}
}
}
}