/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ // vim:cindent:ts=2:et:sw=2: /* 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/. */ /* * Algorithms that determine column and table inline sizes used for * CSS2's 'table-layout: fixed'. */ #include "FixedTableLayoutStrategy.h" #include "nsStyleConsts.h" #include "nsTableFrame.h" #include "nsTableColFrame.h" #include "nsTableCellFrame.h" #include "WritingModes.h" #include using namespace mozilla; FixedTableLayoutStrategy::FixedTableLayoutStrategy(nsTableFrame* aTableFrame) : nsITableLayoutStrategy(nsITableLayoutStrategy::Fixed), mTableFrame(aTableFrame) { MarkIntrinsicISizesDirty(); } /* virtual */ FixedTableLayoutStrategy::~FixedTableLayoutStrategy() = default; /* virtual */ nscoord FixedTableLayoutStrategy::GetMinISize(gfxContext* aRenderingContext) { DISPLAY_MIN_INLINE_SIZE(mTableFrame, mMinISize); if (mMinISize != NS_INTRINSIC_ISIZE_UNKNOWN) { return mMinISize; } // It's theoretically possible to do something much better here that // depends only on the columns and the first row (where we look at // intrinsic inline sizes inside the first row and then reverse the // algorithm to find the narrowest inline size that would hold all of // those intrinsic inline sizes), but it wouldn't be compatible with // other browsers, or with the use of GetMinISize by // nsTableFrame::ComputeSize to determine the inline size of a fixed // layout table, since CSS2.1 says: // The width of the table is then the greater of the value of the // 'width' property for the table element and the sum of the column // widths (plus cell spacing or borders). // XXX Should we really ignore 'min-inline-size' and 'max-inline-size'? // XXX Should we really ignore inline sizes on column groups? nsTableCellMap* cellMap = mTableFrame->GetCellMap(); int32_t colCount = cellMap->GetColCount(); nscoord result = 0; if (colCount > 0) { result += mTableFrame->GetColSpacing(-1, colCount); } WritingMode wm = mTableFrame->GetWritingMode(); for (int32_t col = 0; col < colCount; ++col) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(col); if (!colFrame) { NS_ERROR("column frames out of sync with cell map"); continue; } nscoord spacing = mTableFrame->GetColSpacing(col); const auto* styleISize = &colFrame->StylePosition()->ISize(wm); if (styleISize->ConvertsToLength()) { result += styleISize->ToLength(); } else if (styleISize->ConvertsToPercentage()) { // do nothing } else { NS_ASSERTION(styleISize->IsAuto() || styleISize->IsExtremumLength() || styleISize->HasLengthAndPercentage(), "bad inline size"); // The 'table-layout: fixed' algorithm considers only cells in the // first row. bool originates; int32_t colSpan; nsTableCellFrame* cellFrame = cellMap->GetCellInfoAt(0, col, &originates, &colSpan); if (cellFrame) { styleISize = &cellFrame->StylePosition()->ISize(wm); if (styleISize->ConvertsToLength() || (styleISize->IsExtremumLength() && (styleISize->AsExtremumLength() == StyleExtremumLength::MaxContent || styleISize->AsExtremumLength() == StyleExtremumLength::MinContent))) { nscoord cellISize = nsLayoutUtils::IntrinsicForContainer( aRenderingContext, cellFrame, IntrinsicISizeType::MinISize); if (colSpan > 1) { // If a column-spanning cell is in the first row, split up // the space evenly. (XXX This isn't quite right if some of // the columns it's in have specified inline sizes. Should // we care?) cellISize = ((cellISize + spacing) / colSpan) - spacing; } result += cellISize; } else if (styleISize->ConvertsToPercentage()) { if (colSpan > 1) { // XXX Can this force columns to negative inline sizes? result -= spacing * (colSpan - 1); } } // else, for 'auto', '-moz-available', '-moz-fit-content', // and 'calc()' with both lengths and percentages, do nothing } } } return (mMinISize = result); } /* virtual */ nscoord FixedTableLayoutStrategy::GetPrefISize(gfxContext* aRenderingContext, bool aComputingSize) { // It's theoretically possible to do something much better here that // depends only on the columns and the first row (where we look at // intrinsic inline sizes inside the first row and then reverse the // algorithm to find the narrowest inline size that would hold all of // those intrinsic inline sizes), but it wouldn't be compatible with // other browsers. nscoord result = nscoord_MAX; DISPLAY_PREF_INLINE_SIZE(mTableFrame, result); return result; } /* virtual */ void FixedTableLayoutStrategy::MarkIntrinsicISizesDirty() { mMinISize = NS_INTRINSIC_ISIZE_UNKNOWN; mLastCalcISize = nscoord_MIN; } static inline nscoord AllocateUnassigned(nscoord aUnassignedSpace, float aShare) { if (aShare == 1.0f) { // This happens when the numbers we're dividing to get aShare are // equal. We want to return unassignedSpace exactly, even if it // can't be precisely round-tripped through float. return aUnassignedSpace; } return NSToCoordRound(float(aUnassignedSpace) * aShare); } /* virtual */ void FixedTableLayoutStrategy::ComputeColumnISizes( const ReflowInput& aReflowInput) { nscoord tableISize = aReflowInput.ComputedISize(); if (mLastCalcISize == tableISize) { return; } mLastCalcISize = tableISize; nsTableCellMap* cellMap = mTableFrame->GetCellMap(); int32_t colCount = cellMap->GetColCount(); if (colCount == 0) { // No Columns - nothing to compute return; } // border-spacing isn't part of the basis for percentages. tableISize -= mTableFrame->GetColSpacing(-1, colCount); // store the old column inline sizes. We might call SetFinalISize // multiple times on the columns, due to this we can't compare at the // last call that the inline size has changed with respect to the last // call to ComputeColumnISizes. In order to overcome this we store the // old values in this array. A single call to SetFinalISize would make // it possible to call GetFinalISize before and to compare when // setting the final inline size. nsTArray oldColISizes; // XXX This ignores the 'min-width' and 'max-width' properties // throughout. Then again, that's what the CSS spec says to do. // XXX Should we really ignore widths on column groups? uint32_t unassignedCount = 0; nscoord unassignedSpace = tableISize; const nscoord unassignedMarker = nscoord_MIN; // We use the PrefPercent on the columns to store the percentages // used to compute column inline sizes in case we need to shrink or // expand the columns. float pctTotal = 0.0f; // Accumulate the total specified (non-percent) on the columns for // distributing excess inline size to the columns. nscoord specTotal = 0; WritingMode wm = mTableFrame->GetWritingMode(); for (int32_t col = 0; col < colCount; ++col) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(col); if (!colFrame) { oldColISizes.AppendElement(0); NS_ERROR("column frames out of sync with cell map"); continue; } oldColISizes.AppendElement(colFrame->GetFinalISize()); colFrame->ResetPrefPercent(); const auto* styleISize = &colFrame->StylePosition()->ISize(wm); nscoord colISize; if (styleISize->ConvertsToLength()) { colISize = styleISize->ToLength(); specTotal += colISize; } else if (styleISize->ConvertsToPercentage()) { float pct = styleISize->ToPercentage(); colISize = NSToCoordFloor(pct * float(tableISize)); colFrame->AddPrefPercent(pct); pctTotal += pct; } else { NS_ASSERTION(styleISize->IsAuto() || styleISize->IsExtremumLength() || (styleISize->IsLengthPercentage() && !styleISize->ConvertsToLength()), "bad inline size"); // The 'table-layout: fixed' algorithm considers only cells in the // first row. bool originates; int32_t colSpan; nsTableCellFrame* cellFrame = cellMap->GetCellInfoAt(0, col, &originates, &colSpan); if (cellFrame) { const nsStylePosition* cellStylePos = cellFrame->StylePosition(); styleISize = &cellStylePos->ISize(wm); if (styleISize->ConvertsToLength() || (styleISize->IsExtremumLength() && (styleISize->AsExtremumLength() == StyleExtremumLength::MaxContent || styleISize->AsExtremumLength() == StyleExtremumLength::MinContent))) { // XXX This should use real percentage padding // Note that the difference between MinISize and PrefISize // shouldn't matter for any of these values of styleISize; use // MIN_ISIZE for symmetry with GetMinISize above, just in case // there is a difference. colISize = nsLayoutUtils::IntrinsicForContainer( aReflowInput.mRenderingContext, cellFrame, IntrinsicISizeType::MinISize); } else if (styleISize->ConvertsToPercentage()) { // XXX This should use real percentage padding float pct = styleISize->ToPercentage(); colISize = NSToCoordFloor(pct * float(tableISize)); if (cellStylePos->mBoxSizing == StyleBoxSizing::Content) { nsIFrame::IntrinsicSizeOffsetData offsets = cellFrame->IntrinsicISizeOffsets(); colISize += offsets.padding + offsets.border; } pct /= float(colSpan); colFrame->AddPrefPercent(pct); pctTotal += pct; } else { // 'auto', '-moz-available', '-moz-fit-content', and 'calc()' // with percentages colISize = unassignedMarker; } if (colISize != unassignedMarker) { if (colSpan > 1) { // If a column-spanning cell is in the first row, split up // the space evenly. (XXX This isn't quite right if some of // the columns it's in have specified iSizes. Should we // care?) nscoord spacing = mTableFrame->GetColSpacing(col); colISize = ((colISize + spacing) / colSpan) - spacing; if (colISize < 0) { colISize = 0; } } if (!styleISize->ConvertsToPercentage()) { specTotal += colISize; } } } else { colISize = unassignedMarker; } } colFrame->SetFinalISize(colISize); if (colISize == unassignedMarker) { ++unassignedCount; } else { unassignedSpace -= colISize; } } if (unassignedSpace < 0) { if (pctTotal > 0) { // If the columns took up too much space, reduce those that had // percentage inline sizes. The spec doesn't say to do this, but // we've always done it in the past, and so does WinIE6. nscoord pctUsed = NSToCoordFloor(pctTotal * float(tableISize)); nscoord reduce = std::min(pctUsed, -unassignedSpace); float reduceRatio = float(reduce) / pctTotal; for (int32_t col = 0; col < colCount; ++col) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(col); if (!colFrame) { NS_ERROR("column frames out of sync with cell map"); continue; } nscoord colISize = colFrame->GetFinalISize(); colISize -= NSToCoordFloor(colFrame->GetPrefPercent() * reduceRatio); if (colISize < 0) { colISize = 0; } colFrame->SetFinalISize(colISize); } } unassignedSpace = 0; } if (unassignedCount > 0) { // The spec says to distribute the remaining space evenly among // the columns. nscoord toAssign = unassignedSpace / unassignedCount; for (int32_t col = 0; col < colCount; ++col) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(col); if (!colFrame) { NS_ERROR("column frames out of sync with cell map"); continue; } if (colFrame->GetFinalISize() == unassignedMarker) { colFrame->SetFinalISize(toAssign); } } } else if (unassignedSpace > 0) { // The spec doesn't say how to distribute the unassigned space. if (specTotal > 0) { // Distribute proportionally to non-percentage columns. nscoord specUndist = specTotal; for (int32_t col = 0; col < colCount; ++col) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(col); if (!colFrame) { NS_ERROR("column frames out of sync with cell map"); continue; } if (colFrame->GetPrefPercent() == 0.0f) { NS_ASSERTION(colFrame->GetFinalISize() <= specUndist, "inline sizes don't add up"); nscoord toAdd = AllocateUnassigned( unassignedSpace, float(colFrame->GetFinalISize()) / float(specUndist)); specUndist -= colFrame->GetFinalISize(); colFrame->SetFinalISize(colFrame->GetFinalISize() + toAdd); unassignedSpace -= toAdd; if (specUndist <= 0) { NS_ASSERTION(specUndist == 0, "math should be exact"); break; } } } NS_ASSERTION(unassignedSpace == 0, "failed to redistribute"); } else if (pctTotal > 0) { // Distribute proportionally to percentage columns. float pctUndist = pctTotal; for (int32_t col = 0; col < colCount; ++col) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(col); if (!colFrame) { NS_ERROR("column frames out of sync with cell map"); continue; } if (pctUndist < colFrame->GetPrefPercent()) { // This can happen with floating-point math. NS_ASSERTION(colFrame->GetPrefPercent() - pctUndist < 0.0001, "inline sizes don't add up"); pctUndist = colFrame->GetPrefPercent(); } nscoord toAdd = AllocateUnassigned( unassignedSpace, colFrame->GetPrefPercent() / pctUndist); colFrame->SetFinalISize(colFrame->GetFinalISize() + toAdd); unassignedSpace -= toAdd; pctUndist -= colFrame->GetPrefPercent(); if (pctUndist <= 0.0f) { break; } } NS_ASSERTION(unassignedSpace == 0, "failed to redistribute"); } else { // Distribute equally to the zero-iSize columns. int32_t colsRemaining = colCount; for (int32_t col = 0; col < colCount; ++col) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(col); if (!colFrame) { NS_ERROR("column frames out of sync with cell map"); continue; } NS_ASSERTION(colFrame->GetFinalISize() == 0, "yikes"); nscoord toAdd = AllocateUnassigned(unassignedSpace, 1.0f / float(colsRemaining)); colFrame->SetFinalISize(toAdd); unassignedSpace -= toAdd; --colsRemaining; } NS_ASSERTION(unassignedSpace == 0, "failed to redistribute"); } } for (int32_t col = 0; col < colCount; ++col) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(col); if (!colFrame) { NS_ERROR("column frames out of sync with cell map"); continue; } if (oldColISizes.ElementAt(col) != colFrame->GetFinalISize()) { mTableFrame->DidResizeColumns(); break; } } }