gecko-dev/layout/style/CSSVariableResolver.cpp

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Bug 773296 - Part 8: Resolve and compute CSS variables. r=dbaron We add a new class CSSVariableResolver whose job is to take the inherited computed variables and the specified variable declarations and to perform cycle removal and resolution of the variables, storing the result in the CSSVariableValues object on an nsStyleVariables. We use CSSVariableResolver in nsRuleNode::ComputeVariablesData. The variable resolver does this: 1. Asks the CSSVariableValues and CSSVariableDeclarations objects to add their variables to it. 2. Calls in to a new nsCSSParser function EnumerateVariableReferences that informs the resolver which other variables a given variable references, and by doing so, builds a graph of variable dependencies. 3. Removes variables involved in cyclic references using Tarjan's strongly connected component algorithm, setting those variables to have an invalid value. 4. Calls in to a new nsCSSParser function ResolveVariableValue to resolve the remaining valid variables by substituting variable references. We extend nsCSSParser::ParseValueWithVariables to take a callback function to be invoked when encountering a variable reference. This lets EnumerateVariableReferences re-use ParseValueWithVariables. CSSParserImpl::ResolveValueWithVariableReferences needs different error handling behaviour from ParseValueWithVariables, so we don't re-use it. CSSParserImpl::AppendImpliedEOFCharacters is used to take the value returned from nsCSSScanner::GetImpliedEOFCharacters while resolving variable references that were declared using custom properties that encountered EOF before being closed properly. The SeparatorRequiredBetweenTokens helper function in nsCSSParser.cpp implements the serialization rules in CSS Syntax Module Level 3: https://dvcs.w3.org/hg/csswg/raw-file/3479cdefc59a/css-syntax/Overview.html#serialization
2013-12-12 06:09:41 +04:00
/* vim: set shiftwidth=2 tabstop=8 autoindent cindent expandtab: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/* object that resolves CSS variables using specified and inherited variable
* values
*/
#include "CSSVariableResolver.h"
#include "CSSVariableDeclarations.h"
#include "CSSVariableValues.h"
#include "mozilla/PodOperations.h"
#include <algorithm>
namespace mozilla {
/**
* Data used by the EnumerateVariableReferences callback. Reset must be called
* on it before it is used.
*/
class EnumerateVariableReferencesData
{
public:
EnumerateVariableReferencesData(CSSVariableResolver& aResolver)
: mResolver(aResolver)
, mReferences(new bool[aResolver.mVariables.Length()])
{
}
/**
* Resets the data so that it can be passed to another call of
* EnumerateVariableReferences for a different variable.
*/
void Reset()
{
PodZero(mReferences.get(), mResolver.mVariables.Length());
mReferencesNonExistentVariable = false;
}
void RecordVariableReference(const nsAString& aVariableName)
{
size_t id;
if (mResolver.mVariableIDs.Get(aVariableName, &id)) {
mReferences[id] = true;
} else {
mReferencesNonExistentVariable = true;
}
}
bool HasReferenceToVariable(size_t aID) const
{
return mReferences[aID];
}
bool ReferencesNonExistentVariable() const
{
return mReferencesNonExistentVariable;
}
private:
CSSVariableResolver& mResolver;
// Array of booleans, where each index is a variable ID. If an element is
// true, it indicates that the variable we have called
// EnumerateVariableReferences for has a reference to the variable with
// that ID.
nsAutoArrayPtr<bool> mReferences;
// Whether the variable we have called EnumerateVariableReferences for
// references a variable that does not exist in the resolver.
bool mReferencesNonExistentVariable;
};
static void
RecordVariableReference(const nsAString& aVariableName,
void* aData)
{
static_cast<EnumerateVariableReferencesData*>(aData)->
RecordVariableReference(aVariableName);
}
void
CSSVariableResolver::RemoveCycles(size_t v)
{
mVariables[v].mIndex = mNextIndex;
mVariables[v].mLowLink = mNextIndex;
mVariables[v].mInStack = true;
mStack.AppendElement(v);
mNextIndex++;
for (size_t i = 0, n = mReferences[v].Length(); i < n; i++) {
size_t w = mReferences[v][i];
if (!mVariables[w].mIndex) {
RemoveCycles(w);
mVariables[v].mLowLink = std::min(mVariables[v].mLowLink,
mVariables[w].mLowLink);
} else if (mVariables[w].mInStack) {
mVariables[v].mLowLink = std::min(mVariables[v].mLowLink,
mVariables[w].mIndex);
}
}
if (mVariables[v].mLowLink == mVariables[v].mIndex) {
if (mStack.LastElement() == v) {
// A strongly connected component consisting of a single variable is not
// necessarily invalid. We handle variables that reference themselves
// earlier, in CSSVariableResolver::Resolve.
mVariables[mStack.LastElement()].mInStack = false;
mStack.TruncateLength(mStack.Length() - 1);
} else {
size_t w;
do {
w = mStack.LastElement();
mVariables[w].mValue.Truncate(0);
mVariables[w].mInStack = false;
mStack.TruncateLength(mStack.Length() - 1);
} while (w != v);
}
}
}
void
CSSVariableResolver::ResolveVariable(size_t aID)
{
if (mVariables[aID].mValue.IsEmpty() || mVariables[aID].mWasInherited) {
// The variable is invalid or was inherited. We can just copy the value
// and its first/last token information across.
mOutput->Put(mVariables[aID].mVariableName,
mVariables[aID].mValue,
mVariables[aID].mFirstToken,
mVariables[aID].mLastToken);
} else {
// Otherwise we need to resolve the variable references, after resolving
// all of our dependencies first. We do this even for variables that we
// know do not reference other variables so that we can find their
// first/last token.
//
// XXX We might want to do this first/last token finding during
// EnumerateVariableReferences, so that we can avoid calling
// ResolveVariableValue and parsing the value again.
for (size_t i = 0, n = mReferences[aID].Length(); i < n; i++) {
size_t j = mReferences[aID][i];
if (aID != j && !mVariables[j].mResolved) {
ResolveVariable(j);
}
}
nsString resolvedValue;
nsCSSTokenSerializationType firstToken, lastToken;
if (!mParser.ResolveVariableValue(mVariables[aID].mValue, mOutput,
resolvedValue, firstToken, lastToken)) {
resolvedValue.Truncate(0);
}
mOutput->Put(mVariables[aID].mVariableName, resolvedValue,
firstToken, lastToken);
}
mVariables[aID].mResolved = true;
}
void
CSSVariableResolver::Resolve(const CSSVariableValues* aInherited,
const CSSVariableDeclarations* aSpecified)
{
MOZ_ASSERT(!mResolved);
// The only time we would be worried about having a null aInherited is
// for the root, but in that case nsRuleNode::ComputeVariablesData will
// happen to pass in whatever we're using as mOutput for aInherited,
// which will initially be empty.
MOZ_ASSERT(aInherited);
MOZ_ASSERT(aSpecified);
aInherited->AddVariablesToResolver(this);
aSpecified->AddVariablesToResolver(this);
// First we look at each variable's value and record which other variables
// it references.
size_t n = mVariables.Length();
mReferences.SetLength(n);
EnumerateVariableReferencesData data(*this);
for (size_t id = 0; id < n; id++) {
data.Reset();
if (!mVariables[id].mWasInherited &&
!mVariables[id].mValue.IsEmpty()) {
if (mParser.EnumerateVariableReferences(mVariables[id].mValue,
RecordVariableReference,
&data)) {
// Convert the boolean array of dependencies in |data| to a list
// of dependencies.
for (size_t i = 0; i < n; i++) {
if (data.HasReferenceToVariable(i)) {
mReferences[id].AppendElement(i);
}
}
// Also record whether it referenced any variables that don't exist
// in the resolver, so that we can ensure we still resolve its value
// in ResolveVariable, even though its mReferences list is empty.
mVariables[id].mReferencesNonExistentVariable =
data.ReferencesNonExistentVariable();
} else {
MOZ_ASSERT(false, "EnumerateVariableReferences should not have failed "
"if we previously parsed the specified value");
mVariables[id].mValue.Truncate(0);
}
}
}
// Next we remove any cycles in variable references using Tarjan's strongly
// connected components finding algorithm, setting variables in cycles to
// have an invalid value.
mNextIndex = 1;
for (size_t id = 0; id < n; id++) {
if (!mVariables[id].mIndex) {
RemoveCycles(id);
MOZ_ASSERT(mStack.IsEmpty());
}
}
// Finally we construct the computed value for the variable by substituting
// any variable references.
for (size_t id = 0; id < n; id++) {
if (!mVariables[id].mResolved) {
ResolveVariable(id);
}
}
mResolved = true;
}
void
CSSVariableResolver::Put(const nsAString& aVariableName,
nsString aValue,
nsCSSTokenSerializationType aFirstToken,
nsCSSTokenSerializationType aLastToken,
bool aWasInherited)
{
MOZ_ASSERT(!mResolved);
size_t id;
if (mVariableIDs.Get(aVariableName, &id)) {
MOZ_ASSERT(mVariables[id].mWasInherited && !aWasInherited,
"should only overwrite inherited variables with specified "
"variables");
mVariables[id].mValue = aValue;
mVariables[id].mFirstToken = aFirstToken;
mVariables[id].mLastToken = aLastToken;
mVariables[id].mWasInherited = aWasInherited;
} else {
id = mVariables.Length();
mVariableIDs.Put(aVariableName, id);
mVariables.AppendElement(Variable(aVariableName, aValue,
aFirstToken, aLastToken, aWasInherited));
}
}
}