/*
* Copyright 2006 The Closure Compiler Authors.
*
* 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.javascript.jscomp;
import com.google.common.base.Joiner;
import com.google.common.base.Preconditions;
import com.google.common.base.Predicates;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.Lists;
import com.google.javascript.jscomp.CodeChangeHandler.RecentChange;
import com.google.javascript.jscomp.CompilerOptions.LanguageMode;
import com.google.javascript.jscomp.type.ReverseAbstractInterpreter;
import com.google.javascript.jscomp.type.SemanticReverseAbstractInterpreter;
import com.google.javascript.rhino.Node;
import com.google.javascript.rhino.testing.BaseJSTypeTestCase;
import junit.framework.TestCase;
import java.io.IOException;
import java.util.List;
/**
*
Base class for testing JS compiler classes that change
* the node tree of a compiled JS input.
*
* Pulls in shared functionality from different test cases. Also supports
* node tree comparison for input and output (instead of string comparison),
* which makes it easier to write tests b/c you don't have to get the syntax
* exactly correct to the spacing.
*
*/
public abstract class CompilerTestCase extends TestCase {
/** Externs for the test */
private final List externsInputs;
/** Whether to compare input and output as trees instead of strings */
private final boolean compareAsTree;
/** Whether to parse type info from JSDoc comments */
protected boolean parseTypeInfo;
/** Whether we check warnings without source information. */
private boolean allowSourcelessWarnings = false;
/** True iff closure pass runs before pass being tested. */
private boolean closurePassEnabled = false;
/** True iff type checking pass runs before pass being tested. */
private boolean typeCheckEnabled = false;
/** Error level reported by type checker. */
private CheckLevel typeCheckLevel;
/** Whether the Normalize pass runs before pass being tested. */
private boolean normalizeEnabled = false;
/** Whether the expected JS strings should be normalized. */
private boolean normalizeExpected = false;
/** Whether to check that all line number information is preserved. */
private boolean checkLineNumbers = true;
/**
* An expected symbol table error. Only useful for testing the
* symbol table error-handling.
*/
private DiagnosticType expectedSymbolTableError = null;
/**
* Whether the MarkNoSideEffectsCalls pass runs before the pass being tested
*/
private boolean markNoSideEffects = false;
/** The most recently used Compiler instance. */
private Compiler lastCompiler;
/**
* Whether to acceptES5 source.
*/
private boolean acceptES5 = true;
/**
* Whether externs changes should be allowed for this pass.
*/
private boolean allowExternsChanges = false;
/**
* Whether the AST should be validated.
*/
private boolean astValidationEnabled = true;
private String filename = "testcode";
/**
* Constructs a test.
*
* @param externs Externs JS as a string
* @param compareAsTree True to compare output & expected as a node tree.
* 99% of the time you want to compare as a tree. There are a few
* special cases where you don't, like if you want to test the code
* printing of "unnatural" syntax trees. For example,
*
*
* IF
* IF
* STATEMENT
* ELSE
* STATEMENT
*
*/
protected CompilerTestCase(String externs, boolean compareAsTree) {
this.externsInputs = ImmutableList.of(
SourceFile.fromCode("externs", externs));
this.compareAsTree = compareAsTree;
this.parseTypeInfo = false;
}
/**
* Constructs a test. Uses AST comparison.
* @param externs Externs JS as a string
*/
protected CompilerTestCase(String externs) {
this(externs, true);
}
/**
* Constructs a test. Uses AST comparison and no externs.
*/
protected CompilerTestCase() {
this("", true);
}
/**
* Gets the compiler pass instance to use for a test.
*
* @param compiler The compiler
* @return The pass to test
*/
protected abstract CompilerPass getProcessor(Compiler compiler);
/**
* Gets the compiler options to use for this test. Use getProcessor to
* determine what passes should be run.
*/
protected CompilerOptions getOptions() {
return getOptions(new CompilerOptions());
}
/**
* Gets the compiler options to use for this test. Use getProcessor to
* determine what passes should be run.
*/
protected CompilerOptions getOptions(CompilerOptions options) {
if (this.acceptES5) {
options.setLanguageIn(LanguageMode.ECMASCRIPT5);
}
// This doesn't affect whether checkSymbols is run--it just affects
// whether variable warnings are filtered.
options.checkSymbols = true;
options.setWarningLevel(
DiagnosticGroups.MISSING_PROPERTIES, CheckLevel.WARNING);
options.setWarningLevel(
DiagnosticGroups.CAST, CheckLevel.WARNING);
options.setCodingConvention(getCodingConvention());
return options;
}
protected CodingConvention getCodingConvention() {
return new GoogleCodingConvention();
}
public void setFilename(String filename) {
this.filename = filename;
}
/**
* Returns the number of times the pass should be run before results are
* verified.
*/
protected int getNumRepetitions() {
// Since most compiler passes should be idempotent, we run each pass twice
// by default.
return 2;
}
/** Expect warnings without source information. */
void allowSourcelessWarnings() {
allowSourcelessWarnings = true;
}
/** The most recently used JSComp instance. */
Compiler getLastCompiler() {
return lastCompiler;
}
/**
* Whether to allow ECMASCRIPT5 source parsing.
*/
protected void enableEcmaScript5(boolean acceptES5) {
this.acceptES5 = acceptES5;
}
/**
* Whether to allow externs changes.
*/
protected void allowExternsChanges(boolean allowExternsChanges) {
this.allowExternsChanges = allowExternsChanges;
}
/**
* Perform type checking before running the test pass. This will check
* for type errors and annotate nodes with type information.
*
* @param level the level of severity to report for type errors
*
* @see TypeCheck
*/
public void enableTypeCheck(CheckLevel level) {
typeCheckEnabled = true;
typeCheckLevel = level;
}
/**
* Check to make sure that line numbers were preserved.
*/
public void enableLineNumberCheck(boolean newVal) {
checkLineNumbers = newVal;
}
/**
* Do not run type checking before running the test pass.
*
* @see TypeCheck
*/
void disableTypeCheck() {
typeCheckEnabled = false;
}
/**
* Process closure library primitives.
*/
// TODO(nicksantos): Fix other passes to use this when appropriate.
void enableClosurePass() {
closurePassEnabled = true;
}
/**
* Perform AST normalization before running the test pass, and anti-normalize
* after running it.
*
* @see Normalize
*/
protected void enableNormalize() {
enableNormalize(true);
}
/**
* Perform AST normalization before running the test pass, and anti-normalize
* after running it.
*
* @param normalizeExpected Whether to perform normalization on the
* expected JS result.
* @see Normalize
*/
protected void enableNormalize(boolean normalizeExpected) {
normalizeEnabled = true;
this.normalizeExpected = normalizeExpected;
}
/**
* Don't perform AST normalization before running the test pass.
* @see Normalize
*/
protected void disableNormalize() {
normalizeEnabled = false;
}
/**
* Run the MarkSideEffectCalls pass before running the test pass.
*
* @see MarkNoSideEffectCalls
*/
void enableMarkNoSideEffects() {
markNoSideEffects = true;
}
/**
* Whether to allow Validate the AST after each run of the pass.
*/
protected void enableAstValidation(boolean validate) {
astValidationEnabled = validate;
}
/** Returns a newly created TypeCheck. */
private static TypeCheck createTypeCheck(Compiler compiler,
CheckLevel level) {
ReverseAbstractInterpreter rai =
new SemanticReverseAbstractInterpreter(compiler.getCodingConvention(),
compiler.getTypeRegistry());
return new TypeCheck(compiler, rai, compiler.getTypeRegistry(),
level, CheckLevel.OFF);
}
/**
* Verifies that the compiler pass's JS output matches the expected output.
*
* @param js Input
* @param expected Expected JS output
*/
public void test(String js, String expected) {
test(js, expected, (DiagnosticType) null);
}
/**
* Verifies that the compiler pass's JS output matches the expected output,
* or that an expected error is encountered.
*
* @param js Input
* @param expected Expected output, or null if an error is expected
* @param error Expected error, or null if no error is expected
*/
public void test(String js, String expected, DiagnosticType error) {
test(js, expected, error, null);
}
/**
* Verifies that the compiler pass's JS output matches the expected output,
* or that an expected error is encountered.
*
* @param js Input
* @param expected Expected output, or null if an error is expected
* @param error Expected error, or null if no error is expected
* @param warning Expected warning, or null if no warning is expected
* @param description The content of the error expected
*/
public void test(String js, String expected, DiagnosticType error,
DiagnosticType warning, String description) {
test(externsInputs, js, expected, error, warning, description);
}
/**
* Verifies that the compiler pass's JS output matches the expected output
* and (optionally) that an expected warning is issued. Or, if an error is
* expected, this method just verifies that the error is encountered.
*
* @param js Input
* @param expected Expected output, or null if an error is expected
* @param error Expected error, or null if no error is expected
* @param warning Expected warning, or null if no warning is expected
*/
public void test(String js, String expected,
DiagnosticType error, DiagnosticType warning) {
test(externsInputs, js, expected, error, warning, null);
}
/**
* Verifies that the compiler pass's JS output matches the expected output
* and (optionally) that an expected warning is issued. Or, if an error is
* expected, this method just verifies that the error is encountered.
*
* @param externs Externs input
* @param js Input
* @param expected Expected output, or null if an error is expected
* @param error Expected error, or null if no error is expected
* @param warning Expected warning, or null if no warning is expected
*/
public void test(String externs, String js, String expected,
DiagnosticType error, DiagnosticType warning) {
test(externs, js, expected, error, warning, null);
}
/**
* Verifies that the compiler pass's JS output matches the expected output
* and (optionally) that an expected warning is issued. Or, if an error is
* expected, this method just verifies that the error is encountered.
*
* @param externs Externs input
* @param js Input
* @param expected Expected output, or null if an error is expected
* @param error Expected error, or null if no error is expected
* @param warning Expected warning, or null if no warning is expected
* @param description The description of the expected warning,
* or null if no warning is expected or if the warning's description
* should not be examined
*/
public void test(String externs, String js, String expected,
DiagnosticType error, DiagnosticType warning,
String description) {
List externsInputs = ImmutableList.of(
SourceFile.fromCode("externs", externs));
test(externsInputs, js, expected, error, warning, description);
}
/**
* Verifies that the compiler pass's JS output matches the expected output
* and (optionally) that an expected warning is issued. Or, if an error is
* expected, this method just verifies that the error is encountered.
*
* @param externs Externs inputs
* @param js Input
* @param expected Expected output, or null if an error is expected
* @param error Expected error, or null if no error is expected
* @param warning Expected warning, or null if no warning is expected
* @param description The description of the expected warning,
* or null if no warning is expected or if the warning's description
* should not be examined
*/
public void test(List externs, String js, String expected,
DiagnosticType error,
DiagnosticType warning, String description) {
Compiler compiler = createCompiler();
lastCompiler = compiler;
CompilerOptions options = getOptions();
if (this.acceptES5) {
options.setLanguageIn(LanguageMode.ECMASCRIPT5);
}
// Note that in this context, turning on the checkTypes option won't
// actually cause the type check to run.
options.checkTypes = parseTypeInfo;
compiler.init(externs, ImmutableList.of(
SourceFile.fromCode(filename, js)), options);
BaseJSTypeTestCase.addNativeProperties(compiler.getTypeRegistry());
test(compiler, maybeCreateArray(expected), error, warning, description);
}
private String[] maybeCreateArray(String expected) {
if (expected != null) {
return new String[] { expected };
}
return null;
}
/**
* Verifies that the compiler pass's JS output matches the expected output.
*
* @param js Inputs
* @param expected Expected JS output
*/
public void test(String[] js, String[] expected) {
test(js, expected, null);
}
/**
* Verifies that the compiler pass's JS output matches the expected output,
* or that an expected error is encountered.
*
* @param js Inputs
* @param expected Expected JS output
* @param error Expected error, or null if no error is expected
*/
public void test(String[] js, String[] expected, DiagnosticType error) {
test(js, expected, error, null);
}
/**
* Verifies that the compiler pass's JS output matches the expected output
* and (optionally) that an expected warning is issued. Or, if an error is
* expected, this method just verifies that the error is encountered.
*
* @param js Inputs
* @param expected Expected JS output
* @param error Expected error, or null if no error is expected
* @param warning Expected warning, or null if no warning is expected
*/
public void test(String[] js, String[] expected, DiagnosticType error,
DiagnosticType warning) {
test(js, expected, error, warning, null);
}
/**
* Verifies that the compiler pass's JS output matches the expected output
* and (optionally) that an expected warning is issued. Or, if an error is
* expected, this method just verifies that the error is encountered.
*
* @param js Inputs
* @param expected Expected JS output
* @param error Expected error, or null if no error is expected
* @param warning Expected warning, or null if no warning is expected
* @param description The description of the expected warning,
* or null if no warning is expected or if the warning's description
* should not be examined
*/
public void test(String[] js, String[] expected, DiagnosticType error,
DiagnosticType warning, String description) {
Compiler compiler = createCompiler();
lastCompiler = compiler;
List inputs = Lists.newArrayList();
for (int i = 0; i < js.length; i++) {
inputs.add(SourceFile.fromCode("input" + i, js[i]));
}
compiler.init(externsInputs, inputs, getOptions());
test(compiler, expected, error, warning, description);
}
/**
* Verifies that the compiler pass's JS output matches the expected output.
*
* @param modules Module inputs
* @param expected Expected JS outputs (one per module)
*/
public void test(JSModule[] modules, String[] expected) {
test(modules, expected, null);
}
/**
* Verifies that the compiler pass's JS output matches the expected output,
* or that an expected error is encountered.
*
* @param modules Module inputs
* @param expected Expected JS outputs (one per module)
* @param error Expected error, or null if no error is expected
*/
public void test(JSModule[] modules, String[] expected,
DiagnosticType error) {
test(modules, expected, error, null);
}
/**
* Verifies that the compiler pass's JS output matches the expected output
* and (optionally) that an expected warning is issued. Or, if an error is
* expected, this method just verifies that the error is encountered.
*
* @param modules Module inputs
* @param expected Expected JS outputs (one per module)
* @param error Expected error, or null if no error is expected
* @param warning Expected warning, or null if no warning is expected
*/
public void test(JSModule[] modules, String[] expected,
DiagnosticType error, DiagnosticType warning) {
Compiler compiler = createCompiler();
lastCompiler = compiler;
compiler.initModules(
externsInputs, Lists.newArrayList(modules), getOptions());
test(compiler, expected, error, warning);
}
/**
* Verifies that the compiler pass's JS output is the same as its input.
*
* @param js Input and output
*/
public void testSame(String js) {
test(js, js);
}
/**
* Verifies that the compiler pass's JS output is the same as its input
* and (optionally) that an expected warning is issued.
*
* @param js Input and output
* @param warning Expected warning, or null if no warning is expected
*/
public void testSame(String js, DiagnosticType warning) {
test(js, js, null, warning);
}
/**
* Verifies that the compiler pass's JS output is the same as its input
* and (optionally) that an expected warning is issued.
*
* @param js Input and output
* @param diag Expected error or warning, or null if none is expected
* @param error true if diag is an error, false if it is a warning
*/
public void testSame(String js, DiagnosticType diag, boolean error) {
if (error) {
test(js, js, diag);
} else {
test(js, js, null, diag);
}
}
/**
* Verifies that the compiler pass's JS output is the same as its input
* and (optionally) that an expected warning is issued.
*
* @param externs Externs input
* @param js Input and output
* @param warning Expected warning, or null if no warning is expected
*/
public void testSame(String externs, String js, DiagnosticType warning) {
testSame(externs, js, warning, null);
}
/**
* Verifies that the compiler pass's JS output is the same as its input
* and (optionally) that an expected warning is issued.
*
* @param externs Externs input
* @param js Input and output
* @param diag Expected error or warning, or null if none is expected
* @param error true if diag is an error, false if it is a warning
*/
public void testSame(
String externs, String js, DiagnosticType diag, boolean error) {
if (error) {
test(externs, js, js, diag, null);
} else {
test(externs, js, js, null, diag);
}
}
/**
* Verifies that the compiler pass's JS output is the same as its input
* and (optionally) that an expected warning and description is issued.
*
* @param externs Externs input
* @param js Input and output
* @param warning Expected warning, or null if no warning is expected
* @param description The description of the expected warning,
* or null if no warning is expected or if the warning's description
* should not be examined
*/
public void testSame(String externs, String js, DiagnosticType warning,
String description) {
List externsInputs = ImmutableList.of(
SourceFile.fromCode("externs", externs));
test(externsInputs, js, js, null, warning, description);
}
/**
* Verifies that the compiler pass's JS output is the same as its input.
*
* @param js Inputs and outputs
*/
public void testSame(String[] js) {
test(js, js);
}
/**
* Verifies that the compiler pass's JS output is the same as its input,
* and emits the given error.
*
* @param js Inputs and outputs
* @param error Expected error, or null if no error is expected
*/
public void testSame(String[] js, DiagnosticType error) {
test(js, js, error);
}
/**
* Verifies that the compiler pass's JS output is the same as its input,
* and emits the given error and warning.
*
* @param js Inputs and outputs
* @param error Expected error, or null if no error is expected
* @param warning Expected warning, or null if no warning is expected
*/
public void testSame(
String[] js, DiagnosticType error, DiagnosticType warning) {
test(js, js, error, warning);
}
/**
* Verifies that the compiler pass's JS output is the same as the input.
*
* @param modules Module inputs
*/
public void testSame(JSModule[] modules) {
testSame(modules, null);
}
/**
* Verifies that the compiler pass's JS output is the same as the input.
*
* @param modules Module inputs
* @param warning A warning, or null for no expected warning.
*/
public void testSame(JSModule[] modules, DiagnosticType warning) {
try {
String[] expected = new String[modules.length];
for (int i = 0; i < modules.length; i++) {
expected[i] = "";
for (CompilerInput input : modules[i].getInputs()) {
expected[i] += input.getSourceFile().getCode();
}
}
test(modules, expected, null, warning);
} catch (IOException e) {
throw new RuntimeException(e);
}
}
/**
* Verifies that the compiler pass's JS output matches the expected output
* and (optionally) that an expected warning is issued. Or, if an error is
* expected, this method just verifies that the error is encountered.
*
* @param compiler A compiler that has been initialized via
* {@link Compiler#init}
* @param expected Expected output, or null if an error is expected
* @param error Expected error, or null if no error is expected
* @param warning Expected warning, or null if no warning is expected
*/
protected void test(Compiler compiler, String[] expected,
DiagnosticType error, DiagnosticType warning) {
test(compiler, expected, error, warning, null);
}
/**
* Verifies that the compiler pass's JS output matches the expected output
* and (optionally) that an expected warning is issued. Or, if an error is
* expected, this method just verifies that the error is encountered.
*
* @param compiler A compiler that has been initialized via
* {@link Compiler#init}
* @param expected Expected output, or null if an error is expected
* @param error Expected error, or null if no error is expected
* @param warning Expected warning, or null if no warning is expected
* @param description The description of the expected warning,
* or null if no warning is expected or if the warning's description
* should not be examined
*/
private void test(Compiler compiler, String[] expected,
DiagnosticType error, DiagnosticType warning,
String description) {
RecentChange recentChange = new RecentChange();
compiler.addChangeHandler(recentChange);
Node root = compiler.parseInputs();
assertTrue("Unexpected parse error(s): " +
Joiner.on("\n").join(compiler.getErrors()), root != null);
if (astValidationEnabled) {
(new AstValidator()).validateRoot(root);
}
Node externsRoot = root.getFirstChild();
Node mainRoot = root.getLastChild();
// Save the tree for later comparison.
Node rootClone = root.cloneTree();
Node externsRootClone = rootClone.getFirstChild();
Node mainRootClone = rootClone.getLastChild();
int numRepetitions = getNumRepetitions();
ErrorManager[] errorManagers = new ErrorManager[numRepetitions];
int aggregateWarningCount = 0;
List aggregateWarnings = Lists.newArrayList();
boolean hasCodeChanged = false;
assertFalse("Code should not change before processing",
recentChange.hasCodeChanged());
for (int i = 0; i < numRepetitions; ++i) {
if (compiler.getErrorCount() == 0) {
errorManagers[i] = new BlackHoleErrorManager(compiler);
// Only run process closure primitives once, if asked.
if (closurePassEnabled && i == 0) {
recentChange.reset();
new ProcessClosurePrimitives(compiler, null, CheckLevel.ERROR)
.process(null, mainRoot);
hasCodeChanged = hasCodeChanged || recentChange.hasCodeChanged();
}
// Only run the type checking pass once, if asked.
// Running it twice can cause unpredictable behavior because duplicate
// objects for the same type are created, and the type system
// uses reference equality to compare many types.
if (typeCheckEnabled && i == 0) {
TypeCheck check = createTypeCheck(compiler, typeCheckLevel);
check.processForTesting(externsRoot, mainRoot);
}
// Only run the normalize pass once, if asked.
if (normalizeEnabled && i == 0) {
normalizeActualCode(compiler, externsRoot, mainRoot);
}
if (markNoSideEffects && i == 0) {
MarkNoSideEffectCalls mark = new MarkNoSideEffectCalls(compiler);
mark.process(externsRoot, mainRoot);
}
recentChange.reset();
getProcessor(compiler).process(externsRoot, mainRoot);
if (astValidationEnabled) {
(new AstValidator()).validateRoot(root);
}
if (checkLineNumbers) {
(new LineNumberCheck(compiler)).process(externsRoot, mainRoot);
}
hasCodeChanged = hasCodeChanged || recentChange.hasCodeChanged();
aggregateWarningCount += errorManagers[i].getWarningCount();
aggregateWarnings.addAll(Lists.newArrayList(compiler.getWarnings()));
if (normalizeEnabled) {
boolean verifyDeclaredConstants = true;
new Normalize.VerifyConstants(compiler, verifyDeclaredConstants)
.process(externsRoot, mainRoot);
}
}
}
if (error == null) {
assertEquals(
"Unexpected error(s): " + Joiner.on("\n").join(compiler.getErrors()),
0, compiler.getErrorCount());
// Verify the symbol table.
ErrorManager symbolTableErrorManager =
new BlackHoleErrorManager(compiler);
Node expectedRoot = null;
if (expected != null) {
expectedRoot = parseExpectedJs(expected);
expectedRoot.detachFromParent();
}
JSError[] stErrors = symbolTableErrorManager.getErrors();
if (expectedSymbolTableError != null) {
assertEquals("There should be one error.", 1, stErrors.length);
assertEquals(expectedSymbolTableError, stErrors[0].getType());
} else {
assertEquals("Unexpected symbol table error(s): " +
Joiner.on("\n").join(stErrors),
0, stErrors.length);
}
if (warning == null) {
assertEquals(
"Unexpected warning(s): " + Joiner.on("\n").join(aggregateWarnings),
0, aggregateWarningCount);
} else {
assertEquals("There should be one warning, repeated " + numRepetitions +
" time(s).", numRepetitions, aggregateWarningCount);
for (int i = 0; i < numRepetitions; ++i) {
JSError[] warnings = errorManagers[i].getWarnings();
JSError actual = warnings[0];
assertEquals(warning, actual.getType());
// Make sure that source information is always provided.
if (!allowSourcelessWarnings) {
assertTrue("Missing source file name in warning",
actual.sourceName != null && !actual.sourceName.isEmpty());
assertTrue("Missing line number in warning",
-1 != actual.lineNumber);
assertTrue("Missing char number in warning",
-1 != actual.getCharno());
}
if (description != null) {
assertEquals(description, actual.description);
}
}
}
if (normalizeEnabled) {
normalizeActualCode(compiler, externsRootClone, mainRootClone);
}
boolean codeChange = !mainRootClone.isEquivalentTo(mainRoot);
boolean externsChange = !externsRootClone.isEquivalentTo(externsRoot);
// Generally, externs should not be change by the compiler passes.
if (externsChange && !allowExternsChanges) {
String explanation = externsRootClone.checkTreeEquals(externsRoot);
fail("Unexpected changes to externs" +
"\nExpected: " + compiler.toSource(externsRootClone) +
"\nResult: " + compiler.toSource(externsRoot) +
"\n" + explanation);
}
if (!codeChange && !externsChange) {
assertFalse(
"compiler.reportCodeChange() was called " +
"even though nothing changed",
hasCodeChanged);
} else {
assertTrue("compiler.reportCodeChange() should have been called",
hasCodeChanged);
}
if (expected != null) {
if (compareAsTree) {
String explanation = expectedRoot.checkTreeEquals(mainRoot);
assertNull("\nExpected: " + compiler.toSource(expectedRoot) +
"\nResult: " + compiler.toSource(mainRoot) +
"\n" + explanation, explanation);
} else if (expected != null) {
assertEquals(
Joiner.on("").join(expected), compiler.toSource(mainRoot));
}
}
// Verify normalization is not invalidated.
Node normalizeCheckRootClone = root.cloneTree();
Node normalizeCheckExternsRootClone = root.getFirstChild();
Node normalizeCheckMainRootClone = root.getLastChild();
new PrepareAst(compiler).process(
normalizeCheckExternsRootClone, normalizeCheckMainRootClone);
String explanation =
normalizeCheckMainRootClone.checkTreeEquals(mainRoot);
assertNull("Node structure normalization invalidated.\nExpected: " +
compiler.toSource(normalizeCheckMainRootClone) +
"\nResult: " + compiler.toSource(mainRoot) +
"\n" + explanation, explanation);
// TODO(johnlenz): enable this for most test cases.
// Currently, this invalidates test for while-loops, for-loop
// initializers, and other naming. However, a set of code
// (FoldConstants, etc) runs before the Normalize pass, so this can't be
// force on everywhere.
if (normalizeEnabled) {
new Normalize(compiler, true).process(
normalizeCheckExternsRootClone, normalizeCheckMainRootClone);
explanation = normalizeCheckMainRootClone.checkTreeEquals(mainRoot);
assertNull("Normalization invalidated.\nExpected: " +
compiler.toSource(normalizeCheckMainRootClone) +
"\nResult: " + compiler.toSource(mainRoot) +
"\n" + explanation, explanation);
}
} else {
String errors = "";
for (JSError actualError : compiler.getErrors()) {
errors += actualError.description + "\n";
}
assertEquals("There should be one error. " + errors,
1, compiler.getErrorCount());
assertEquals(errors, error, compiler.getErrors()[0].getType());
if (warning != null) {
String warnings = "";
for (JSError actualError : compiler.getWarnings()) {
warnings += actualError.description + "\n";
}
assertEquals("There should be one warning. " + warnings,
1, compiler.getWarningCount());
assertEquals(warnings, warning, compiler.getWarnings()[0].getType());
}
}
}
private void normalizeActualCode(
Compiler compiler, Node externsRoot, Node mainRoot) {
Normalize normalize = new Normalize(compiler, false);
normalize.process(externsRoot, mainRoot);
}
/**
* Parses expected JS inputs and returns the root of the parse tree.
*/
protected Node parseExpectedJs(String[] expected) {
Compiler compiler = createCompiler();
List inputs = Lists.newArrayList();
for (int i = 0; i < expected.length; i++) {
inputs.add(SourceFile.fromCode("expected" + i, expected[i]));
}
compiler.init(externsInputs, inputs, getOptions());
Node root = compiler.parseInputs();
assertTrue("Unexpected parse error(s): " +
Joiner.on("\n").join(compiler.getErrors()), root != null);
Node externsRoot = root.getFirstChild();
Node mainRoot = externsRoot.getNext();
// Only run the normalize pass, if asked.
if (normalizeEnabled && normalizeExpected && !compiler.hasErrors()) {
Normalize normalize = new Normalize(compiler, false);
normalize.process(externsRoot, mainRoot);
}
return mainRoot;
}
protected Node parseExpectedJs(String expected) {
return parseExpectedJs(new String[] {expected});
}
/**
* Generates a list of modules from a list of inputs, such that each module
* depends on the module before it.
*/
static JSModule[] createModuleChain(String... inputs) {
JSModule[] modules = createModules(inputs);
for (int i = 1; i < modules.length; i++) {
modules[i].addDependency(modules[i - 1]);
}
return modules;
}
/**
* Generates a list of modules from a list of inputs, such that each module
* depends on the first module.
*/
static JSModule[] createModuleStar(String... inputs) {
JSModule[] modules = createModules(inputs);
for (int i = 1; i < modules.length; i++) {
modules[i].addDependency(modules[0]);
}
return modules;
}
/**
* Generates a list of modules from a list of inputs, such that modules
* form a bush formation. In a bush formation, module 2 depends
* on module 1, and all other modules depend on module 2.
*/
static JSModule[] createModuleBush(String ... inputs) {
Preconditions.checkState(inputs.length > 2);
JSModule[] modules = createModules(inputs);
for (int i = 1; i < modules.length; i++) {
modules[i].addDependency(modules[i == 1 ? 0 : 1]);
}
return modules;
}
/**
* Generates a list of modules from a list of inputs, such that modules
* form a tree formation. In a tree formation, module N depends on
* module `floor(N/2)`, So the modules form a balanced binary tree.
*/
static JSModule[] createModuleTree(String ... inputs) {
JSModule[] modules = createModules(inputs);
for (int i = 1; i < modules.length; i++) {
modules[i].addDependency(modules[(i - 1) / 2]);
}
return modules;
}
/**
* Generates a list of modules from a list of inputs. Does not generate any
* dependencies between the modules.
*/
static JSModule[] createModules(String... inputs) {
JSModule[] modules = new JSModule[inputs.length];
for (int i = 0; i < inputs.length; i++) {
JSModule module = modules[i] = new JSModule("m" + i);
module.add(SourceFile.fromCode("i" + i, inputs[i]));
}
return modules;
}
private static class BlackHoleErrorManager extends BasicErrorManager {
private BlackHoleErrorManager(Compiler compiler) {
compiler.setErrorManager(this);
}
@Override
public void println(CheckLevel level, JSError error) {}
@Override
public void printSummary() {}
}
Compiler createCompiler() {
Compiler compiler = new Compiler();
return compiler;
}
protected void setExpectedSymbolTableError(DiagnosticType type) {
this.expectedSymbolTableError = type;
}
/** Finds the first matching qualified name node in post-traversal order. */
protected final Node findQualifiedNameNode(final String name, Node root) {
final List matches = Lists.newArrayList();
NodeUtil.visitPostOrder(root,
new NodeUtil.Visitor() {
@Override public void visit(Node n) {
if (name.equals(n.getQualifiedName())) {
matches.add(n);
}
}
},
Predicates.alwaysTrue());
return matches.get(0);
}
}