// Copyright 2014 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "config.h" #include "core/rendering/style/GridResolvedPosition.h" #include "core/rendering/RenderBox.h" #include "core/rendering/style/GridCoordinate.h" namespace blink { static const NamedGridLinesMap& gridLinesForSide(const RenderStyle& style, GridPositionSide side) { return (side == ColumnStartSide || side == ColumnEndSide) ? style.namedGridColumnLines() : style.namedGridRowLines(); } static inline String implicitNamedGridLineForSide(const String& lineName, GridPositionSide side) { return lineName + ((side == ColumnStartSide || side == RowStartSide) ? "-start" : "-end"); } static bool isValidNamedLineOrArea(const String& lineName, const RenderStyle& style, GridPositionSide side) { const NamedGridLinesMap& gridLineNames = gridLinesForSide(style, side); return gridLineNames.contains(implicitNamedGridLineForSide(lineName, side)) || gridLineNames.contains(lineName); } static GridPositionSide calculateInitialPositionSide(GridTrackSizingDirection direction) { return (direction == ForColumns) ? ColumnStartSide : RowStartSide; } static GridPositionSide calculateFinalPositionSide(GridTrackSizingDirection direction) { return (direction == ForColumns) ? ColumnEndSide : RowEndSide; } void GridResolvedPosition::initialAndFinalPositionsFromStyle(const RenderStyle& gridContainerStyle, const RenderBox& gridItem, GridTrackSizingDirection direction, GridPosition& initialPosition, GridPosition& finalPosition) { initialPosition = (direction == ForColumns) ? gridItem.style()->gridColumnStart() : gridItem.style()->gridRowStart(); finalPosition = (direction == ForColumns) ? gridItem.style()->gridColumnEnd() : gridItem.style()->gridRowEnd(); GridPositionSide initialPositionSide = calculateInitialPositionSide(direction); GridPositionSide finalPositionSide = calculateFinalPositionSide(direction); // We must handle the placement error handling code here instead of in the StyleAdjuster because we don't want to // overwrite the specified values. if (initialPosition.isSpan() && finalPosition.isSpan()) finalPosition.setAutoPosition(); // Try to early detect the case of non existing named grid lines. This way we could assume later that // GridResolvedPosition::resolveGrisPositionFromStyle() always return a valid resolved position. if (initialPosition.isNamedGridArea() && !isValidNamedLineOrArea(initialPosition.namedGridLine(), gridContainerStyle, initialPositionSide)) initialPosition.setAutoPosition(); if (finalPosition.isNamedGridArea() && !isValidNamedLineOrArea(finalPosition.namedGridLine(), gridContainerStyle, finalPositionSide)) finalPosition.setAutoPosition(); // If the grid item has an automatic position and a grid span for a named line in a given dimension, instead treat the grid span as one. if (initialPosition.isAuto() && finalPosition.isSpan() && !finalPosition.namedGridLine().isNull()) finalPosition.setSpanPosition(1, String()); if (finalPosition.isAuto() && initialPosition.isSpan() && !initialPosition.namedGridLine().isNull()) initialPosition.setSpanPosition(1, String()); } GridSpan GridResolvedPosition::resolveGridPositionsFromAutoPlacementPosition(const RenderStyle& gridContainerStyle, const RenderBox& gridItem, GridTrackSizingDirection direction, const GridResolvedPosition& resolvedInitialPosition) { GridPosition initialPosition, finalPosition; initialAndFinalPositionsFromStyle(gridContainerStyle, gridItem, direction, initialPosition, finalPosition); GridPositionSide finalPositionSide = calculateFinalPositionSide(direction); // This method will only be used when both positions need to be resolved against the opposite one. ASSERT(initialPosition.shouldBeResolvedAgainstOppositePosition() && finalPosition.shouldBeResolvedAgainstOppositePosition()); GridResolvedPosition resolvedFinalPosition = resolvedInitialPosition; if (initialPosition.isSpan()) { resolvedFinalPosition = resolveGridPositionAgainstOppositePosition(gridContainerStyle, resolvedInitialPosition, initialPosition, finalPositionSide)->resolvedFinalPosition; } else if (finalPosition.isSpan()) { resolvedFinalPosition = resolveGridPositionAgainstOppositePosition(gridContainerStyle, resolvedInitialPosition, finalPosition, finalPositionSide)->resolvedFinalPosition; } return GridSpan(resolvedInitialPosition, resolvedFinalPosition); } PassOwnPtr GridResolvedPosition::resolveGridPositionsFromStyle(const RenderStyle& gridContainerStyle, const RenderBox& gridItem, GridTrackSizingDirection direction) { GridPosition initialPosition, finalPosition; initialAndFinalPositionsFromStyle(gridContainerStyle, gridItem, direction, initialPosition, finalPosition); GridPositionSide initialPositionSide = calculateInitialPositionSide(direction); GridPositionSide finalPositionSide = calculateFinalPositionSide(direction); if (initialPosition.shouldBeResolvedAgainstOppositePosition() && finalPosition.shouldBeResolvedAgainstOppositePosition()) { // FIXME: Implement properly "stack" value in auto-placement algorithm. if (gridContainerStyle.isGridAutoFlowAlgorithmStack()) return adoptPtr(new GridSpan(0, 0)); // We can't get our grid positions without running the auto placement algorithm. return nullptr; } if (initialPosition.shouldBeResolvedAgainstOppositePosition()) { // Infer the position from the final position ('auto / 1' or 'span 2 / 3' case). GridResolvedPosition finalResolvedPosition = resolveGridPositionFromStyle(gridContainerStyle, finalPosition, finalPositionSide); return resolveGridPositionAgainstOppositePosition(gridContainerStyle, finalResolvedPosition, initialPosition, initialPositionSide); } if (finalPosition.shouldBeResolvedAgainstOppositePosition()) { // Infer our position from the initial position ('1 / auto' or '3 / span 2' case). GridResolvedPosition initialResolvedPosition = resolveGridPositionFromStyle(gridContainerStyle, initialPosition, initialPositionSide); return resolveGridPositionAgainstOppositePosition(gridContainerStyle, initialResolvedPosition, finalPosition, finalPositionSide); } GridResolvedPosition resolvedInitialPosition = resolveGridPositionFromStyle(gridContainerStyle, initialPosition, initialPositionSide); GridResolvedPosition resolvedFinalPosition = resolveGridPositionFromStyle(gridContainerStyle, finalPosition, finalPositionSide); // If 'grid-after' specifies a line at or before that specified by 'grid-before', it computes to 'span 1'. if (resolvedFinalPosition < resolvedInitialPosition) resolvedFinalPosition = resolvedInitialPosition; return adoptPtr(new GridSpan(resolvedInitialPosition, resolvedFinalPosition)); } size_t GridResolvedPosition::explicitGridColumnCount(const RenderStyle& gridContainerStyle) { return gridContainerStyle.gridTemplateColumns().size(); } size_t GridResolvedPosition::explicitGridRowCount(const RenderStyle& gridContainerStyle) { return gridContainerStyle.gridTemplateRows().size(); } size_t GridResolvedPosition::explicitGridSizeForSide(const RenderStyle& gridContainerStyle, GridPositionSide side) { return (side == ColumnStartSide || side == ColumnEndSide) ? explicitGridColumnCount(gridContainerStyle) : explicitGridRowCount(gridContainerStyle); } GridResolvedPosition GridResolvedPosition::resolveNamedGridLinePositionFromStyle(const RenderStyle& gridContainerStyle, const GridPosition& position, GridPositionSide side) { ASSERT(!position.namedGridLine().isNull()); const NamedGridLinesMap& gridLinesNames = gridLinesForSide(gridContainerStyle, side); NamedGridLinesMap::const_iterator it = gridLinesNames.find(position.namedGridLine()); if (it == gridLinesNames.end()) { if (position.isPositive()) return GridResolvedPosition(0); const size_t lastLine = explicitGridSizeForSide(gridContainerStyle, side); return adjustGridPositionForSide(lastLine, side); } size_t namedGridLineIndex; if (position.isPositive()) namedGridLineIndex = std::min(position.integerPosition(), it->value.size()) - 1; else namedGridLineIndex = std::max(it->value.size() - abs(position.integerPosition()), 0); return adjustGridPositionForSide(it->value[namedGridLineIndex], side); } GridResolvedPosition GridResolvedPosition::resolveGridPositionFromStyle(const RenderStyle& gridContainerStyle, const GridPosition& position, GridPositionSide side) { switch (position.type()) { case ExplicitPosition: { ASSERT(position.integerPosition()); if (!position.namedGridLine().isNull()) return resolveNamedGridLinePositionFromStyle(gridContainerStyle, position, side); // Handle explicit position. if (position.isPositive()) return adjustGridPositionForSide(position.integerPosition() - 1, side); size_t resolvedPosition = abs(position.integerPosition()) - 1; const size_t endOfTrack = explicitGridSizeForSide(gridContainerStyle, side); // Per http://lists.w3.org/Archives/Public/www-style/2013Mar/0589.html, we clamp negative value to the first line. if (endOfTrack < resolvedPosition) return GridResolvedPosition(0); return adjustGridPositionForSide(endOfTrack - resolvedPosition, side); } case NamedGridAreaPosition: { // First attempt to match the grid area’s edge to a named grid area: if there is a named line with the name // ''-start (for grid-*-start) / -end'' (for grid-*-end), contributes the first such // line to the grid item’s placement. String namedGridLine = position.namedGridLine(); ASSERT(isValidNamedLineOrArea(namedGridLine, gridContainerStyle, side)); const NamedGridLinesMap& gridLineNames = gridLinesForSide(gridContainerStyle, side); NamedGridLinesMap::const_iterator implicitLineIter = gridLineNames.find(implicitNamedGridLineForSide(namedGridLine, side)); if (implicitLineIter != gridLineNames.end()) return adjustGridPositionForSide(implicitLineIter->value[0], side); // Otherwise, if there is a named line with the specified name, contributes the first such line to the grid // item’s placement. NamedGridLinesMap::const_iterator explicitLineIter = gridLineNames.find(namedGridLine); if (explicitLineIter != gridLineNames.end()) return adjustGridPositionForSide(explicitLineIter->value[0], side); // If none of the above works specs mandate us to treat it as auto BUT we should have detected it before calling // this function in GridResolvedPosition::resolveGridPositionsFromStyle(). We should be also covered by the // ASSERT at the beginning of this block. ASSERT_NOT_REACHED(); return GridResolvedPosition(0); } case AutoPosition: case SpanPosition: // 'auto' and span depend on the opposite position for resolution (e.g. grid-row: auto / 1 or grid-column: span 3 / "myHeader"). ASSERT_NOT_REACHED(); return GridResolvedPosition(0); } ASSERT_NOT_REACHED(); return GridResolvedPosition(0); } PassOwnPtr GridResolvedPosition::resolveGridPositionAgainstOppositePosition(const RenderStyle& gridContainerStyle, const GridResolvedPosition& resolvedOppositePosition, const GridPosition& position, GridPositionSide side) { if (position.isAuto()) return GridSpan::create(resolvedOppositePosition, resolvedOppositePosition); ASSERT(position.isSpan()); ASSERT(position.spanPosition() > 0); if (!position.namedGridLine().isNull()) { // span 2 'c' -> we need to find the appropriate grid line before / after our opposite position. return resolveNamedGridLinePositionAgainstOppositePosition(gridContainerStyle, resolvedOppositePosition, position, side); } return GridSpan::createWithSpanAgainstOpposite(resolvedOppositePosition, position, side); } PassOwnPtr GridResolvedPosition::resolveNamedGridLinePositionAgainstOppositePosition(const RenderStyle& gridContainerStyle, const GridResolvedPosition& resolvedOppositePosition, const GridPosition& position, GridPositionSide side) { ASSERT(position.isSpan()); ASSERT(!position.namedGridLine().isNull()); // Negative positions are not allowed per the specification and should have been handled during parsing. ASSERT(position.spanPosition() > 0); const NamedGridLinesMap& gridLinesNames = gridLinesForSide(gridContainerStyle, side); NamedGridLinesMap::const_iterator it = gridLinesNames.find(position.namedGridLine()); // If there is no named grid line of that name, we resolve the position to 'auto' (which is equivalent to 'span 1' in this case). // See http://lists.w3.org/Archives/Public/www-style/2013Jun/0394.html. if (it == gridLinesNames.end()) return GridSpan::create(resolvedOppositePosition, resolvedOppositePosition); return GridSpan::createWithNamedSpanAgainstOpposite(resolvedOppositePosition, position, side, it->value); } } // namespace blink