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gecko/layout/style/CSSCalc.h

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/* vim: set shiftwidth=2 tabstop=8 autoindent cindent expandtab: */
/* ***** BEGIN LICENSE BLOCK *****
* Version: MPL 1.1/GPL 2.0/LGPL 2.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (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.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is CSSCalc.h.
*
* The Initial Developer of the Original Code is the Mozilla Foundation.
* Portions created by the Initial Developer are Copyright (C) 2009
* the Initial Developer. All Rights Reserved.
*
* Contributor(s):
* L. David Baron <dbaron@dbaron.org>, Mozilla Corporation (original author)
*
* Alternatively, the contents of this file may be used under the terms of
* either the GNU General Public License Version 2 or later (the "GPL"), or
* the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
* in which case the provisions of the GPL or the LGPL are applicable instead
* of those above. If you wish to allow use of your version of this file only
* under the terms of either the GPL or the LGPL, and not to allow others to
* use your version of this file under the terms of the MPL, indicate your
* decision by deleting the provisions above and replace them with the notice
* and other provisions required by the GPL or the LGPL. If you do not delete
* the provisions above, a recipient may use your version of this file under
* the terms of any one of the MPL, the GPL or the LGPL.
*
* ***** END LICENSE BLOCK ***** */
#ifndef CSSCalc_h_
#define CSSCalc_h_
#include "nsCSSValue.h"
#include <math.h>
namespace mozilla {
namespace css {
/**
* ComputeCalc computes the result of a calc() expression tree.
*
* It is templatized over a CalcOps class that is expected to provide:
*
* typedef ... result_type;
*
* result_type
* MergeAdditive(nsCSSUnit aCalcFunction,
* result_type aValue1, result_type aValue2);
*
* result_type
* MergeMultiplicativeL(nsCSSUnit aCalcFunction,
* float aValue1, result_type aValue2);
*
* result_type
* MergeMultiplicativeR(nsCSSUnit aCalcFunction,
* result_type aValue1, float aValue2);
*
* result_type
* ComputeLeafValue(const nsCSSValue& aValue);
*
* float
* ComputeNumber(const nsCSSValue& aValue);
*
* The CalcOps methods might compute the calc() expression down to a
* number, reduce some parts of it to a number but replicate other
* parts, or produce a tree with a different data structure (for
* example, nsCSS* for specified values vs nsStyle* for computed
* values).
*
* For each leaf in the calc() expression, ComputeCalc will call either
* ComputeNumber (when the leaf is the left side of a Times_L or the
* right side of a Times_R or Divided) or ComputeLeafValue (otherwise).
* (The CalcOps in the CSS parser that reduces purely numeric
* expressions in turn calls ComputeCalc on numbers; other ops can
* presume that expressions in the number positions have already been
* normalized to a single numeric value and derive from
* NumbersAlreadyNormalizedCalcOps.)
*
* For non-leaves, one of the Merge functions will be called:
* MergeAdditive for Plus, Minus, Minimum, and Maximum
* MergeMultiplicativeL for Times_L (number * value)
* MergeMultiplicativeR for Times_R (value * number) and Divided
*/
template <class CalcOps>
static typename CalcOps::result_type
ComputeCalc(const nsCSSValue& aValue, CalcOps &aOps)
{
switch (aValue.GetUnit()) {
case eCSSUnit_Calc: {
nsCSSValue::Array *arr = aValue.GetArrayValue();
NS_ABORT_IF_FALSE(arr->Count() == 1, "unexpected length");
return ComputeCalc(arr->Item(0), aOps);
}
case eCSSUnit_Calc_Plus:
case eCSSUnit_Calc_Minus: {
nsCSSValue::Array *arr = aValue.GetArrayValue();
NS_ABORT_IF_FALSE(arr->Count() == 2, "unexpected length");
typename CalcOps::result_type lhs = ComputeCalc(arr->Item(0), aOps),
rhs = ComputeCalc(arr->Item(1), aOps);
return aOps.MergeAdditive(aValue.GetUnit(), lhs, rhs);
}
case eCSSUnit_Calc_Times_L: {
nsCSSValue::Array *arr = aValue.GetArrayValue();
NS_ABORT_IF_FALSE(arr->Count() == 2, "unexpected length");
float lhs = aOps.ComputeNumber(arr->Item(0));
typename CalcOps::result_type rhs = ComputeCalc(arr->Item(1), aOps);
return aOps.MergeMultiplicativeL(aValue.GetUnit(), lhs, rhs);
}
case eCSSUnit_Calc_Times_R:
case eCSSUnit_Calc_Divided: {
nsCSSValue::Array *arr = aValue.GetArrayValue();
NS_ABORT_IF_FALSE(arr->Count() == 2, "unexpected length");
typename CalcOps::result_type lhs = ComputeCalc(arr->Item(0), aOps);
float rhs = aOps.ComputeNumber(arr->Item(1));
return aOps.MergeMultiplicativeR(aValue.GetUnit(), lhs, rhs);
}
case eCSSUnit_Calc_Minimum:
case eCSSUnit_Calc_Maximum: {
nsCSSValue::Array *arr = aValue.GetArrayValue();
typename CalcOps::result_type result = ComputeCalc(arr->Item(0), aOps);
for (PRUint32 i = 1, i_end = arr->Count(); i < i_end; ++i) {
typename CalcOps::result_type tmp = ComputeCalc(arr->Item(i), aOps);
result = aOps.MergeAdditive(aValue.GetUnit(), result, tmp);
}
return result;
}
default: {
return aOps.ComputeLeafValue(aValue);
}
}
}
/**
* Basic*CalcOps provide a partial implementation of the CalcOps
* template parameter to ComputeCalc, for those callers whose merging
* just consists of mathematics (rather than tree construction).
*/
template <typename T>
struct BasicCalcOpsAdditive
{
typedef T result_type;
result_type
MergeAdditive(nsCSSUnit aCalcFunction,
result_type aValue1, result_type aValue2)
{
if (aCalcFunction == eCSSUnit_Calc_Plus) {
return aValue1 + aValue2;
}
if (aCalcFunction == eCSSUnit_Calc_Minus) {
return aValue1 - aValue2;
}
if (aCalcFunction == eCSSUnit_Calc_Minimum) {
return NS_MIN(aValue1, aValue2);
}
NS_ABORT_IF_FALSE(aCalcFunction == eCSSUnit_Calc_Maximum,
"unexpected unit");
return NS_MAX(aValue1, aValue2);
}
};
struct BasicCoordCalcOps : public BasicCalcOpsAdditive<nscoord>
{
result_type
MergeMultiplicativeL(nsCSSUnit aCalcFunction,
float aValue1, result_type aValue2)
{
NS_ABORT_IF_FALSE(aCalcFunction == eCSSUnit_Calc_Times_L,
"unexpected unit");
return NSToCoordRound(aValue1 * aValue2);
}
result_type
MergeMultiplicativeR(nsCSSUnit aCalcFunction,
result_type aValue1, float aValue2)
{
if (aCalcFunction == eCSSUnit_Calc_Times_R) {
return NSToCoordRound(aValue1 * aValue2);
}
NS_ABORT_IF_FALSE(aCalcFunction == eCSSUnit_Calc_Divided,
"unexpected unit");
return NSToCoordRound(aValue1 / aValue2);
}
};
struct BasicFloatCalcOps : public BasicCalcOpsAdditive<float>
{
result_type
MergeMultiplicativeL(nsCSSUnit aCalcFunction,
float aValue1, result_type aValue2)
{
NS_ABORT_IF_FALSE(aCalcFunction == eCSSUnit_Calc_Times_L,
"unexpected unit");
return aValue1 * aValue2;
}
result_type
MergeMultiplicativeR(nsCSSUnit aCalcFunction,
result_type aValue1, float aValue2)
{
if (aCalcFunction == eCSSUnit_Calc_Times_R) {
return aValue1 * aValue2;
}
NS_ABORT_IF_FALSE(aCalcFunction == eCSSUnit_Calc_Divided,
"unexpected unit");
return aValue1 / aValue2;
}
};
/**
* A ComputeNumber implementation for callers that can assume numbers
* are already normalized (i.e., anything past the parser).
*/
struct NumbersAlreadyNormalizedOps
{
float ComputeNumber(const nsCSSValue& aValue)
{
NS_ABORT_IF_FALSE(aValue.GetUnit() == eCSSUnit_Number, "unexpected unit");
return aValue.GetFloatValue();
}
};
}
}
#endif /* !defined(CSSCalc_h_) */
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