/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- * * The contents of this file are subject to the Netscape Public License * Version 1.0 (the "NPL"); you may not use this file except in * compliance with the NPL. You may obtain a copy of the NPL at * http://www.mozilla.org/NPL/ * * Software distributed under the NPL is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the NPL * for the specific language governing rights and limitations under the * NPL. * * The Initial Developer of this code under the NPL is Netscape * Communications Corporation. Portions created by Netscape are * Copyright (C) 1998 Netscape Communications Corporation. All Rights * Reserved. */ #include "BasicTableLayoutStrategy.h" #include "nsTableFrame.h" #include "nsTableColFrame.h" #include "nsTableCellFrame.h" #include "nsIStyleContext.h" #include "nsStyleConsts.h" #include "nsVoidArray.h" #include "nsHTMLIIDs.h" static const PRBool gsDebug = PR_FALSE; #ifdef gsDebug static PRInt32 debugCount = 0; #endif /* ---------- BasicTableLayoutStrategy ---------- */ /* return true if the style indicates that the width is fixed * for the purposes of column width determination */ inline PRBool BasicTableLayoutStrategy::IsFixedWidth(const nsStylePosition* aStylePosition, const nsStyleTable* aStyleTable) { return PRBool ((eStyleUnit_Coord==aStylePosition->mWidth.GetUnit()) || (eStyleUnit_Coord==aStyleTable->mSpanWidth.GetUnit())); } BasicTableLayoutStrategy::BasicTableLayoutStrategy(nsTableFrame *aFrame, PRBool aIsNavQuirks) { NS_ASSERTION(nsnull != aFrame, "bad frame arg"); mTableFrame = aFrame; mMinTableContentWidth = 0; mMaxTableContentWidth = 0; mCellSpacingTotal = 0; mIsNavQuirksMode = aIsNavQuirks; } BasicTableLayoutStrategy::~BasicTableLayoutStrategy() { } PRBool BasicTableLayoutStrategy::Initialize(nsSize* aMaxElementSize, PRInt32 aNumCols, nscoord aMaxWidth) { ContinuingFrameCheck(); PRBool result = PR_TRUE; // re-init instance variables mNumCols = aNumCols; mMinTableContentWidth = 0; mMaxTableContentWidth = 0; mCellSpacingTotal = 0; mCols = mTableFrame->GetEffectiveCOLSAttribute(); // assign the width of all fixed-width columns AssignPreliminaryColumnWidths(aMaxWidth); // set aMaxElementSize here because we compute mMinTableWidth in AssignPreliminaryColumnWidths if (nsnull != aMaxElementSize) { SetMaxElementSize(aMaxElementSize); } return result; } void BasicTableLayoutStrategy::SetMaxElementSize(nsSize* aMaxElementSize) { if (nsnull != aMaxElementSize) { aMaxElementSize->height = 0; nsMargin borderPadding; const nsStylePosition* tablePosition; const nsStyleSpacing* tableSpacing; mTableFrame->GetStyleData(eStyleStruct_Position, ((const nsStyleStruct *&)tablePosition)); mTableFrame->GetStyleData(eStyleStruct_Spacing , ((const nsStyleStruct *&)tableSpacing)); mTableFrame->GetTableBorder(borderPadding); nsMargin padding; tableSpacing->GetPadding(padding); borderPadding += padding; nscoord horBorderPadding = borderPadding.left + borderPadding.right; if (tablePosition->mWidth.GetUnit() == eStyleUnit_Coord) { aMaxElementSize->width = tablePosition->mWidth.GetCoordValue(); if (mMinTableContentWidth + horBorderPadding > aMaxElementSize->width) { aMaxElementSize->width = mMinTableContentWidth + horBorderPadding; } } else { aMaxElementSize->width = mMinTableContentWidth + horBorderPadding; } } } void BasicTableLayoutStrategy::ContinuingFrameCheck() { #ifdef NS_DEBUG nsIFrame* tablePIF = nsnull; mTableFrame->GetPrevInFlow(&tablePIF); NS_ASSERTION(!tablePIF, "never ever call me on a continuing frame!"); #endif } PRBool BCW_Wrapup(BasicTableLayoutStrategy* aStrategy, nsTableFrame* aTableFrame, PRInt32* aAllocTypes) { delete [] aAllocTypes; //aStrategy->Dump(0); //aTableFrame->Dump(PR_TRUE, PR_FALSE); return PR_TRUE; } PRBool BasicTableLayoutStrategy::BalanceColumnWidths(nsIStyleContext* aTableStyle, const nsHTMLReflowState& aReflowState, nscoord aMaxWidthIn) { //mTableFrame->Dump(PR_TRUE, PR_TRUE); ContinuingFrameCheck(); if (!aTableStyle) { NS_ASSERTION(aTableStyle, "bad style arg"); return PR_FALSE; } // determine if the table is auto/fixed and get the fixed width if available nscoord maxWidth = aMaxWidthIn; nscoord specifiedTableWidth = 0; PRBool tableIsAutoWidth = nsTableFrame::TableIsAutoWidth(mTableFrame, aTableStyle, aReflowState, specifiedTableWidth); // a specifiedTableWidth of <= 0 indicates percentage based if (!tableIsAutoWidth && (specifiedTableWidth > 0)) { maxWidth = PR_MIN(specifiedTableWidth, aMaxWidthIn); // specifiedWidth usually == aMaxWidthIn for fixed table } // reduce the maxWidth by border and padding in some cases, since we will be dealing with content width if (!tableIsAutoWidth && (maxWidth != NS_UNCONSTRAINEDSIZE)) { const nsStylePosition* position; mTableFrame->GetStyleData(eStyleStruct_Position, ((const nsStyleStruct *&)position)); if (eStyleUnit_Percent != position->mWidth.GetUnit()) { const nsStyleSpacing* spacing; mTableFrame->GetStyleData(eStyleStruct_Spacing, (const nsStyleStruct *&)spacing); nsMargin borderPadding; spacing->CalcBorderPaddingFor(mTableFrame, borderPadding); maxWidth -= borderPadding.left + borderPadding.right; maxWidth = PR_MAX(0, maxWidth); } } // set the table's columns to the min width // initialize the col percent and cell percent values to 0. PRInt32 colX; for (colX = 0; colX < mNumCols; colX++) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(colX); nscoord colMinWidth = colFrame->GetMinWidth(); mTableFrame->SetColumnWidth(colX, colMinWidth); colFrame->SetWidth(PCT, WIDTH_NOT_SET); colFrame->SetWidth(PCT_ADJ, WIDTH_NOT_SET); } // if the max width available is less than the min content width for fixed table, we're done if (!tableIsAutoWidth && (maxWidth < mMinTableContentWidth)) { return PR_FALSE; } // set PCT and PCT_ADJ widths on col frames and for an auto table return // a new table width based on percent cells/cols if they exist nscoord perAdjTableWidth = (maxWidth != NS_UNCONSTRAINEDSIZE) ? AssignPercentageColumnWidths(maxWidth - mCellSpacingTotal, tableIsAutoWidth) : 0; // if the max width available is less than the min content width for auto table // that had no % cells/cols, we're done if (tableIsAutoWidth && (maxWidth < mMinTableContentWidth) & (0 == perAdjTableWidth)) { return PR_TRUE; } PRInt32 cellSpacingTotal; // the following are of size NUM_WIDTHS, but only MIN_CON, DES_CON, FIX, PCT // are used and they account for colspan ADJusted values PRInt32 totalWidths[NUM_WIDTHS]; // sum of col widths of a particular type PRInt32 totalCounts[NUM_WIDTHS]; // num of cols of a particular type PRInt32 minWidths[NUM_WIDTHS]; PRInt32 num0Proportional; CalculateTotals(cellSpacingTotal, totalCounts, totalWidths, minWidths, num0Proportional); // auto width table's adjusted width needs cell spacing if (tableIsAutoWidth && perAdjTableWidth > 0) { perAdjTableWidth = PR_MIN(perAdjTableWidth + cellSpacingTotal, maxWidth); } nscoord totalAllocated = totalWidths[MIN_CON] + cellSpacingTotal; // allocate and initialize arrays indicating what col gets set PRInt32* allocTypes = new PRInt32[mNumCols]; if (!allocTypes) return PR_FALSE; for (colX = 0; colX < mNumCols; colX++) { allocTypes[colX] = -1; } // allocate percentage cols if (totalCounts[PCT] > 0) { if (totalAllocated + totalWidths[PCT] - minWidths[PCT] <= maxWidth) { AllocateFully(totalAllocated, allocTypes, PCT); NS_ASSERTION(totalAllocated <= maxWidth, "over allocated"); } else { AllocateConstrained(maxWidth - totalAllocated, PCT, totalCounts[PCT], totalWidths[PCT], PR_FALSE, allocTypes); return BCW_Wrapup(this, mTableFrame, allocTypes); } } // allocate fixed cols if (totalAllocated < maxWidth && totalCounts[FIX] > 0) { if (totalAllocated + totalWidths[FIX] - minWidths[FIX] <= maxWidth) { AllocateFully(totalAllocated, allocTypes, FIX); NS_ASSERTION(totalAllocated <= maxWidth, "over allocated"); } else { AllocateConstrained(maxWidth - totalAllocated, FIX, totalCounts[FIX], totalWidths[FIX], PR_TRUE, allocTypes); return BCW_Wrapup(this, mTableFrame, allocTypes); } } // allocate proportional cols up to their min proportional value if (totalAllocated < maxWidth && totalCounts[MIN_PRO] > 0) { if (totalAllocated + totalWidths[MIN_PRO] - minWidths[MIN_PRO] <= maxWidth) { AllocateFully(totalAllocated, allocTypes, MIN_PRO, PR_FALSE); NS_ASSERTION(totalAllocated <= maxWidth, "over allocated"); } else { AllocateConstrained(maxWidth - totalAllocated, MIN_PRO, totalCounts[MIN_PRO], totalWidths[MIN_PRO], PR_FALSE, allocTypes); return BCW_Wrapup(this, mTableFrame, allocTypes); } } // allocate auto cols, considering even those that are proportional if (totalAllocated < maxWidth && totalCounts[DES_CON] > 0) { if (totalAllocated + totalWidths[DES_CON] - minWidths[DES_CON]<= maxWidth) { AllocateFully(totalAllocated, allocTypes, DES_CON); NS_ASSERTION(totalAllocated <= maxWidth, "over allocated"); } else { AllocateConstrained(maxWidth - totalAllocated, DES_CON, totalCounts[DES_CON], totalWidths[DES_CON], PR_FALSE, allocTypes); return BCW_Wrapup(this, mTableFrame, allocTypes); } } // if this is a nested table and pass1 reflow, we are done if (maxWidth == NS_UNCONSTRAINEDSIZE) { return PR_TRUE; } // allocate the rest unconstrained PRBool skip0Proportional = totalCounts[DES_CON] > num0Proportional; if ( (tableIsAutoWidth && (perAdjTableWidth - totalAllocated > 0)) || (!tableIsAutoWidth && (totalAllocated < maxWidth)) ) { if (totalCounts[PCT] != mNumCols) { PRBool onlyAuto = (totalCounts[DES_CON] > 0) && !mIsNavQuirksMode; for (colX = 0; colX < mNumCols; colX++) { if (PCT == allocTypes[colX]) { allocTypes[colX] = -1; } else if ((FIX == allocTypes[colX]) && onlyAuto) { allocTypes[colX] = -1; } } } if (tableIsAutoWidth) { AllocateUnconstrained(perAdjTableWidth - totalAllocated, allocTypes, skip0Proportional); } else { AllocateUnconstrained(maxWidth - totalAllocated, allocTypes, skip0Proportional); } } // give the proportional cols the rest up to the max width in quirks mode else if (tableIsAutoWidth && mIsNavQuirksMode && (totalCounts[MIN_PRO] > 0)) { for (colX = 0; colX < mNumCols; colX++) { if (DES_CON != allocTypes[colX]) { allocTypes[colX] = -1; } } AllocateUnconstrained(maxWidth - totalAllocated, allocTypes, skip0Proportional); } return BCW_Wrapup(this, mTableFrame, allocTypes); } // Allocate aWidthType values to all cols available in aIsAllocated void BasicTableLayoutStrategy::AllocateFully(nscoord& aTotalAllocated, PRInt32* aAllocTypes, PRInt32 aWidthType, PRBool aMarkAllocated) { for (PRInt32 colX = 0; colX < mNumCols; colX++) { if (-1 != aAllocTypes[colX]) { continue; } nsTableColFrame* colFrame = mTableFrame->GetColFrame(colX); nscoord oldWidth = mTableFrame->GetColumnWidth(colX); nscoord newWidth = colFrame->GetWidth(aWidthType); // account for col span overrides with DES_CON and FIX if (DES_CON == aWidthType) { newWidth = PR_MAX(newWidth, colFrame->GetWidth(DES_ADJ)); } else if (FIX == aWidthType) { newWidth = PR_MAX(newWidth, colFrame->GetWidth(FIX_ADJ)); } else if (PCT == aWidthType) { newWidth = PR_MAX(newWidth, colFrame->GetWidth(PCT_ADJ)); } if (WIDTH_NOT_SET == newWidth) { continue; } if (newWidth > oldWidth) { mTableFrame->SetColumnWidth(colX, newWidth); aTotalAllocated += newWidth - oldWidth; } if (aMarkAllocated) { aAllocTypes[colX] = aWidthType; } } } void BasicTableLayoutStrategy::AllocateUnconstrained(PRInt32 aAllocAmount, PRInt32* aAllocTypes, PRBool aSkip0Proportional) { nscoord divisor = 0; PRInt32 numAvail = 0; PRInt32 colX; for (colX = 0; colX < mNumCols; colX++) { if (-1 != aAllocTypes[colX]) { divisor += mTableFrame->GetColumnWidth(colX); numAvail++; } } for (colX = 0; colX < mNumCols; colX++) { if (-1 != aAllocTypes[colX]) { if (aSkip0Proportional) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(colX); if (e0ProportionConstraint == colFrame->GetConstraint()) { continue; } } nscoord oldWidth = mTableFrame->GetColumnWidth(colX); float percent = (divisor == 0) ? (1.0f / ((float)numAvail)) : ((float)oldWidth) / ((float)divisor); nscoord addition = NSToCoordRound(((float)aAllocAmount) * percent); mTableFrame->SetColumnWidth(colX, oldWidth + addition); } } } // Determine min, desired, fixed, and proportional sizes for the cols and // and calculate min/max table width PRBool BasicTableLayoutStrategy::AssignPreliminaryColumnWidths(nscoord aMaxWidth) { PRBool rv = PR_FALSE; PRInt32 numRows = mTableFrame->GetRowCount(); nscoord spacingX = mTableFrame->GetCellSpacingX(); PRInt32 colX, rowX; PRUint32 widthX; mCellSpacingTotal = 0; PRInt32 propTotal = 0; // total of numbers of the type 1*, 2*, etc PRInt32 propTotalMin = 0; PRInt32 numColsForColsAttr = 0; // Nav Quirks cols attribute for equal width cols if (NS_STYLE_TABLE_COLS_NONE != mCols) { numColsForColsAttr = (NS_STYLE_TABLE_COLS_ALL == mCols) ? mNumCols : mCols; } // For every column, determine it's min and desired width based on cell style // base on cells which do not span cols. Also, determine mCellSpacingTotal for (colX = 0; colX < mNumCols; colX++) { nscoord minWidth = 0; nscoord desWidth = 0; nscoord fixWidth = WIDTH_NOT_SET; // Get column information nsTableColFrame* colFrame = mTableFrame->GetColFrame(colX); NS_ASSERTION(nsnull != colFrame, "bad col frame"); colFrame->SetConstraint(eNoConstraint); if (mTableFrame->GetNumCellsOriginatingIn(colX) > 0) { mCellSpacingTotal += spacingX; } // Scan the cells in the col that have colspan = 1 and find the maximum // min, desired, and fixed cells. for (rowX = 0; rowX < numRows; rowX++) { nsTableCellFrame* cellFrame; PRBool originates; PRInt32 colSpan; mTableFrame->GetCellInfoAt(rowX, colX, cellFrame, originates, colSpan); // skip cells that don't originate at (rowX, colX); colspans are handled in the // next pass, row spans don't need to be handled if (!cellFrame || !originates || (colSpan > 1)) { continue; } // these values include borders and padding minWidth = PR_MAX(minWidth, cellFrame->GetPass1MaxElementSize().width); desWidth = PR_MAX(desWidth, cellFrame->GetPass1DesiredSize().width); // see if the cell has a style width specified const nsStylePosition* cellPosition; cellFrame->GetStyleData(eStyleStruct_Position, (const nsStyleStruct *&)cellPosition); if (eStyleUnit_Coord == cellPosition->mWidth.GetUnit()) { nscoord coordValue = cellPosition->mWidth.GetCoordValue(); if (coordValue > 0) { // ignore if width == 0 // need to add padding into fixed width const nsStyleSpacing* spacing; cellFrame->GetStyleData(eStyleStruct_Spacing,(const nsStyleStruct *&)spacing); nsMargin paddingMargin; spacing->CalcPaddingFor(cellFrame, paddingMargin); nscoord padding = paddingMargin.left + paddingMargin.right; fixWidth = PR_MAX(fixWidth, coordValue + padding); fixWidth = PR_MAX(fixWidth, minWidth); } } } desWidth = PR_MAX(desWidth, minWidth); // cache the computed column info colFrame->SetWidth(MIN_CON, minWidth); colFrame->SetWidth(DES_CON, desWidth); if (fixWidth > 0) { colFrame->SetWidth(FIX, PR_MAX(fixWidth, minWidth)); } // determine if there is a proportional column either from html4 // proportional width on a col or Nav Quirks cols attr if (fixWidth <= 0) { nscoord proportion = WIDTH_NOT_SET; const nsStylePosition* colPosition; colFrame->GetStyleData(eStyleStruct_Position, (const nsStyleStruct *&)colPosition); if (eStyleUnit_Proportional == colPosition->mWidth.GetUnit()) { proportion = colPosition->mWidth.GetIntValue(); } else if (colX < numColsForColsAttr) { proportion = 1; if ((eStyleUnit_Percent == colPosition->mWidth.GetUnit()) && (colPosition->mWidth.GetPercentValue() > 0.0f)) { proportion = WIDTH_NOT_SET; } } if (proportion >= 0) { colFrame->SetWidth(MIN_PRO, proportion); if (proportion > 0) { propTotal += proportion; colFrame->SetConstraint(eProportionConstraint); } else { colFrame->SetConstraint(e0ProportionConstraint); // override the desired, proportional widths nscoord minWidth = colFrame->GetWidth(MIN_CON); colFrame->SetWidth(DES_CON, minWidth); colFrame->SetWidth(MIN_PRO, minWidth); } } } } if (mCellSpacingTotal > 0) { mCellSpacingTotal += spacingX; // add last cell spacing on right } // figure the proportional width for porportional cols if (propTotal > 0) { nscoord minPropTotal = 0; nscoord desPropTotal = 0; // figure the totals of all proportional cols which support every min and desired width for (colX = 0; colX < mNumCols; colX++) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(colX); nscoord colProp = colFrame->GetWidth(MIN_PRO); if (colProp > 0) { nscoord minWidth = colFrame->GetWidth(MIN_CON); nscoord desWidth = colFrame->GetWidth(DES_CON); minPropTotal = PR_MAX(minPropTotal, NSToCoordRound(((float)propTotal * minWidth) / (float)colProp)); desPropTotal = PR_MAX(desPropTotal, NSToCoordRound(((float)propTotal * desWidth) / (float)colProp)); } } // store a ratio to allow going from a min to a desired proportional width if (minPropTotal > 0) { mMinToDesProportionRatio = ((float)desPropTotal) / ((float)minPropTotal); } // figure the cols proportional min width based on the new totals for (colX = 0; colX < mNumCols; colX++) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(colX); nscoord colProp = colFrame->GetWidth(MIN_PRO); if (colProp > 0) { nscoord minWidth = colFrame->GetWidth(MIN_CON); nscoord minProp = NSToCoordRound(((float)colProp * minPropTotal) / (float)propTotal); colFrame->SetWidth(MIN_PRO, minProp); colFrame->SetWidth(DES_CON, NSToCoordRound(((float)minProp) * mMinToDesProportionRatio)); } } } // For each col, consider the cells originating in it with colspans > 1. // Adjust the cols that each cell spans if necessary. Iterate backwards // so that nested and/or overlaping col spans handle the inner ones first, // ensuring more accurated calculations. for (colX = mNumCols - 1; colX >= 0; colX--) { for (rowX = 0; rowX < numRows; rowX++) { nsTableCellFrame* cellFrame; PRBool originates; PRInt32 colSpan; mTableFrame->GetCellInfoAt(rowX, colX, cellFrame, originates, colSpan); if (!originates || (1 == colSpan)) { continue; } nscoord cellWidths[NUM_WIDTHS]; cellWidths[MIN_CON] = cellFrame->GetPass1MaxElementSize().width; cellWidths[DES_CON] = cellFrame->GetPass1DesiredSize().width; cellWidths[FIX] = WIDTH_NOT_SET; // see if the cell has a style width specified const nsStylePosition* cellPosition; cellFrame->GetStyleData(eStyleStruct_Position, (const nsStyleStruct *&)cellPosition); if (eStyleUnit_Coord == cellPosition->mWidth.GetUnit()) { // need to add padding into fixed width const nsStyleSpacing* spacing; cellFrame->GetStyleData(eStyleStruct_Spacing,(const nsStyleStruct *&)spacing); nsMargin paddingMargin; spacing->CalcPaddingFor(cellFrame, paddingMargin); nscoord padding = paddingMargin.left + paddingMargin.right; cellWidths[FIX] = cellPosition->mWidth.GetCoordValue() + padding; cellWidths[FIX] = PR_MAX(cellWidths[FIX], cellWidths[MIN_CON]); } // set MIN_ADJ, DES_ADJ nscoord spanCellSpacing = 0; for (widthX = 0; widthX < NUM_MAJOR_WIDTHS; widthX++) { // skip des if there is a fix if ((DES_CON == widthX) && (cellWidths[FIX] > 0)) continue; nscoord spanTotal = 0; nscoord divisor = 0; PRInt32 spanX; for (spanX = 0; spanX < colSpan; spanX++) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(colX + spanX); nscoord colWidth = colFrame->GetWidth(widthX); // need to get a contribution for every cell colWidth = PR_MAX(colWidth, colFrame->GetMinWidth()); spanTotal += colWidth; // accumulate divisor if (widthX == FIX) { colWidth = PR_MAX(colWidth, colFrame->GetDesWidth()); } else if (widthX == DES_CON) { nscoord fixWidth = colFrame->GetFixWidth(); if (fixWidth > 0) { colWidth = fixWidth; } //colWidth = PR_MAX(colWidth, colFrame->GetFixWidth()); } else if (widthX == MIN_CON) { colWidth = PR_MAX(colWidth, colFrame->GetFixWidth()); } divisor += colWidth; if ((0 == widthX) && (spanX > 0) && (mTableFrame->GetNumCellsOriginatingIn(colX + spanX) > 0)) { spanCellSpacing += spacingX; } } spanTotal -= spanCellSpacing; nscoord cellWidth = cellWidths[widthX] - spanCellSpacing; if ((cellWidth > 0) && !((widthX == MIN_CON) && (cellWidth <= spanTotal))) { for (PRInt32 spanX = 0; spanX < colSpan; spanX++) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(colX + spanX); nscoord colWidth = colFrame->GetWidth(widthX); nscoord minWidth = colFrame->GetMinWidth(); // accumulate numerator similarly to divisor colWidth = PR_MAX(colWidth, colFrame->GetMinWidth()); if (widthX == FIX) { colWidth = PR_MAX(colWidth, colFrame->GetDesWidth()); } else if (widthX == DES_CON) { nscoord fixWidth = colFrame->GetFixWidth(); if (fixWidth > 0) { colWidth = fixWidth; } //colWidth = PR_MAX(colWidth, colFrame->GetFixWidth()); } else if (widthX == MIN_CON) { colWidth = PR_MAX(colWidth, colFrame->GetFixWidth()); } nscoord colAdjWidth = colFrame->GetWidth(widthX + NUM_MAJOR_WIDTHS); nscoord newColAdjWidth = (0 >= spanTotal) ? NSToCoordRound( ((float)cellWidth) / ((float)colSpan) ) : NSToCoordRound( (((float)colWidth) / ((float)divisor)) * cellWidth); if ((newColAdjWidth > colAdjWidth) && (newColAdjWidth > 0)) { newColAdjWidth = PR_MAX(newColAdjWidth, minWidth); if (FIX != widthX) colFrame->SetWidth(widthX + NUM_MAJOR_WIDTHS, newColAdjWidth); // the following ensures that a spanned cell will reach its full desired width // in an auto table, since allocations are done on fixed cols before auto cols if (DES_CON == widthX) { nscoord fixWidth = colFrame->GetFixWidth(); if ((fixWidth > 0) && (newColAdjWidth > fixWidth) && (newColAdjWidth > 0)) { colFrame->SetWidth(FIX_ADJ, newColAdjWidth); } } else if (FIX == widthX) { nscoord desWidth = colFrame->GetDesWidth(); if ((newColAdjWidth > desWidth) && (newColAdjWidth > 0)) { colFrame->SetWidth(DES_ADJ, newColAdjWidth); } } } } } } } } for (colX = 0; colX < mNumCols; colX++) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(colX); nscoord desAdjWidth = colFrame->GetWidth(DES_ADJ); nscoord fixWidth = colFrame->GetWidth(FIX); if ((fixWidth >= 0) && (desAdjWidth > fixWidth)) { colFrame->SetWidth(FIX, WIDTH_NOT_SET); } } // Set the col's fixed width if present // Set the table col width for each col to the content min. for (colX = 0; colX < mNumCols; colX++) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(colX); nscoord fixColWidth = colFrame->GetWidth(FIX); // use the style width of a col only if the col hasn't gotten a fixed width from any cell if (fixColWidth <= 0) { const nsStylePosition* colPosition; colFrame->GetStyleData(eStyleStruct_Position, (const nsStyleStruct*&)colPosition); if (eStyleUnit_Coord == colPosition->mWidth.GetUnit()) { fixColWidth = colPosition->mWidth.GetCoordValue(); if (fixColWidth > 0) { colFrame->SetWidth(FIX, fixColWidth); } } } nscoord minWidth = colFrame->GetMinWidth(); mTableFrame->SetColumnWidth(colX, minWidth); } SetMinAndMaxTableContentWidths(); return rv; } // Determine percentage col widths for each col frame nscoord BasicTableLayoutStrategy::AssignPercentageColumnWidths(nscoord aBasisIn, PRBool aTableIsAutoWidth) { PRInt32 numRows = mTableFrame->GetRowCount(); nscoord spacingX = mTableFrame->GetCellSpacingX(); PRInt32 colX, rowX; nscoord basis = aBasisIn; // For an auto table, determine the potentially new percent adjusted width based // on percent cells/cols. if (aTableIsAutoWidth) { nscoord fixWidthTotal = 0; basis = 0; PRInt32 numPerCols = 0; for (colX = 0; colX < mNumCols; colX++) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(colX); nscoord colBasis = -1; // Scan the cells in the col for (rowX = 0; rowX < numRows; rowX++) { nsTableCellFrame* cellFrame; PRBool originates; PRInt32 colSpan; mTableFrame->GetCellInfoAt(rowX, colX, cellFrame, originates, colSpan); if (!originates) { // skip cells that don't originate in the col continue; } // see if the cell has a style percent width specified const nsStylePosition* cellPosition; cellFrame->GetStyleData(eStyleStruct_Position, (const nsStyleStruct *&)cellPosition); if (eStyleUnit_Percent == cellPosition->mWidth.GetUnit()) { float percent = cellPosition->mWidth.GetPercentValue(); colBasis = 0; if (percent > 0.0f) { nscoord desWidth = colFrame->GetDesWidth(); if (colSpan > 1) { // sum up the DES_ADJ widths of the spanned cols for (PRInt32 spanX = 1; spanX < colSpan; spanX++) { nsTableColFrame* spanFrame = mTableFrame->GetColFrame(colX + spanX); desWidth += spanFrame->GetWidth(DES_ADJ); } } colBasis = NSToCoordRound((float)desWidth / percent); } } } if (-1 == colBasis) { // see if the col has a style percent width specified const nsStylePosition* colPosition; colFrame->GetStyleData(eStyleStruct_Position, (const nsStyleStruct *&)colPosition); if (eStyleUnit_Percent == colPosition->mWidth.GetUnit()) { float percent = colPosition->mWidth.GetPercentValue(); colBasis = 0; if (percent > 0.0f) { nscoord desWidth = colFrame->GetDesWidth(); colBasis = NSToCoordRound((float)desWidth / percent); } } } basis = PR_MAX(basis, colBasis); if (colBasis >= 0) { numPerCols++; } fixWidthTotal += colFrame->GetFixWidth(); } // end for (colX .. // If there is only one col and it is % based, it won't affect anything if ((1 == mNumCols) && (mNumCols == numPerCols)) { return 0; } basis = PR_MAX(basis, fixWidthTotal); basis = PR_MIN(basis, aBasisIn); } nscoord colPctTotal = 0; nscoord* colPcts = new nscoord[mNumCols]; if (!colPcts) return 0; // Determine the percentage contribution for cols and for cells with colspan = 1 // Iterate backwards, similarly to the reasoning in AssignPreliminaryColumnWidths for (colX = mNumCols - 1; colX >= 0; colX--) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(colX); nscoord maxColPctWidth = WIDTH_NOT_SET; float maxColPct = 0.0f; colPcts[colX] = 0; // Scan the cells in the col that have colspan = 1; assign PER widths for (rowX = 0; rowX < numRows; rowX++) { nsTableCellFrame* cellFrame; PRBool originates; PRInt32 colSpan; mTableFrame->GetCellInfoAt(rowX, colX, cellFrame, originates, colSpan); // skip cells that don't originate at (rowX, colX); colspans are handled in the // next pass, row spans don't need to be handled if (!cellFrame || !originates || (colSpan > 1)) { continue; } // see if the cell has a style percent width specified const nsStylePosition* cellPosition; cellFrame->GetStyleData(eStyleStruct_Position, (const nsStyleStruct *&)cellPosition); if (eStyleUnit_Percent == cellPosition->mWidth.GetUnit()) { float percent = cellPosition->mWidth.GetPercentValue(); if (percent > maxColPct) { maxColPct = percent; maxColPctWidth = NSToCoordRound( ((float)basis) * maxColPct ); if (!mIsNavQuirksMode) { // need to add padding const nsStyleSpacing* spacing; cellFrame->GetStyleData(eStyleStruct_Spacing,(const nsStyleStruct *&)spacing); nsMargin paddingMargin; spacing->CalcPaddingFor(cellFrame, paddingMargin); maxColPctWidth += paddingMargin.left + paddingMargin.right; } } } } if (WIDTH_NOT_SET == maxColPctWidth) { // see if the col has a style percent width specified const nsStylePosition* colPosition; colFrame->GetStyleData(eStyleStruct_Position, (const nsStyleStruct *&)colPosition); if (eStyleUnit_Percent == colPosition->mWidth.GetUnit()) { maxColPct = colPosition->mWidth.GetPercentValue(); maxColPctWidth = NSToCoordRound( ((float)basis) * maxColPct ); } } // conflicting pct/fixed widths are recorded. Nav 4.x may be changing the // fixed width value if it exceeds the pct value and not recording the pct // value. This is not being done and IE5 doesn't do it either. if (maxColPctWidth > 0) { nscoord minWidth = colFrame->GetMinWidth(); if (minWidth > maxColPctWidth) { maxColPctWidth = minWidth; colPcts[colX] = NSToCoordRound( 100.0f * ((float)maxColPctWidth) / ((float)basis) ); } else { colPcts[colX] = NSToCoordRound(maxColPct * 100.0f); } colFrame->SetWidth(PCT, maxColPctWidth); colPctTotal += colPcts[colX]; } } // For each col, consider the cells originating in it with colspans > 1. // Adjust the cols that each cell spans if necessary. for (colX = 0; colX < mNumCols; colX++) { for (rowX = 0; rowX < numRows; rowX++) { nsTableCellFrame* cellFrame; PRBool originates; PRInt32 colSpan; mTableFrame->GetCellInfoAt(rowX, colX, cellFrame, originates, colSpan); if (!originates || (1 == colSpan)) { continue; } nscoord cellPctWidth = WIDTH_NOT_SET; // see if the cell has a style percentage width specified const nsStylePosition* cellPosition; cellFrame->GetStyleData(eStyleStruct_Position, (const nsStyleStruct *&)cellPosition); float cellPct = 0.0f; if (eStyleUnit_Percent == cellPosition->mWidth.GetUnit()) { cellPct = cellPosition->mWidth.GetPercentValue(); cellPctWidth = NSToCoordRound( ((float)basis) * cellPct ); if (!mIsNavQuirksMode) { // need to add padding const nsStyleSpacing* spacing; cellFrame->GetStyleData(eStyleStruct_Spacing,(const nsStyleStruct *&)spacing); nsMargin paddingMargin; spacing->CalcPaddingFor(cellFrame, paddingMargin); cellPctWidth += paddingMargin.left + paddingMargin.right; } } if (cellPctWidth > 0) { nscoord spanCellSpacing = 0; nscoord spanTotal = 0; nscoord colPctWidthTotal = 0; // accumulate the spanTotal as the max of MIN, DES, FIX, PCT for (PRInt32 spanX = 0; spanX < colSpan; spanX++) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(colX + spanX); nscoord colPctWidth = colFrame->GetWidth(PCT); if (colPctWidth > 0) { // skip pct cols colPctWidthTotal += colPctWidth; continue; } nscoord colWidth = PR_MAX(colFrame->GetMinWidth(), colFrame->GetFixWidth()); colWidth = PR_MAX(colWidth, colFrame->GetDesWidth()); //colWidth = PR_MAX(colWidth, colFrame->GetPctWidth()); spanTotal += colWidth; if ((spanX > 0) && (mTableFrame->GetNumCellsOriginatingIn(colX + spanX) > 0)) { spanCellSpacing += spacingX; } } cellPctWidth += spanCellSpacing; // add it back in since it was subtracted from aBasisIn if (cellPctWidth <= 0) { continue; } if (colPctWidthTotal < cellPctWidth) { // record the percent contributions for the spanned cols for (PRInt32 spanX = 0; spanX < colSpan; spanX++) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(colX + spanX); if (colFrame->GetWidth(PCT) > 0) { // skip pct cols continue; } nscoord minWidth = colFrame->GetMinWidth(); nscoord colWidth = PR_MAX(minWidth, colFrame->GetFixWidth()); colWidth = PR_MAX(colWidth, colFrame->GetDesWidth()); float colPctAdj = (0 == spanTotal) ? cellPctWidth / ((float) colSpan) : cellPct * ((float)colWidth) / (float)spanTotal; if (colPctAdj > 0) { nscoord colPctAdjWidth = colFrame->GetWidth(PCT_ADJ); nscoord newColPctAdjWidth = NSToCoordRound(colPctAdj * (float)basis); if (newColPctAdjWidth > colPctAdjWidth) { if (colPctAdjWidth > 0) { // remove its contribution colPctTotal -= colPcts[colX + spanX]; } if (minWidth > newColPctAdjWidth) { newColPctAdjWidth = minWidth; colPcts[colX + spanX] = NSToCoordRound( 100.0f * ((float)newColPctAdjWidth) / ((float)basis) ); } else { colPcts[colX + spanX] = NSToCoordRound( 100.0f * colPctAdj ); } colFrame->SetWidth(PCT_ADJ, newColPctAdjWidth); colPctTotal += colPcts[colX + spanX]; } } } } } } // end for (rowX .. } // end for (colX .. // if the percent total went over 100%, adjustments need to be made to right most cols if (colPctTotal > 100) { for (colX = mNumCols - 1; colX >= 0; colX--) { if (colPcts[colX] > 0) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(colX); nscoord fixWidth = colFrame->GetFixWidth(); nscoord pctWidth = colFrame->GetWidth(PCT); nscoord pctAdjWidth = colFrame->GetWidth(PCT_ADJ); nscoord newPct = colPcts[colX] - (colPctTotal - 100); if (newPct > 0) { // this col has enough percent alloc to handle it nscoord newPctWidth = NSToCoordRound( ((float)basis) * ((float)newPct) / 100.0f ); newPctWidth = PR_MAX(newPctWidth, colFrame->GetMinWidth()); // since we don't care which one contributed, set both colFrame->SetWidth(PCT, newPctWidth); colFrame->SetWidth(PCT_ADJ, newPctWidth); break; } else { // this col cannot handle all the reduction, reduce it down to zero colFrame->SetWidth(PCT, WIDTH_NOT_SET); colFrame->SetWidth(PCT_ADJ, WIDTH_NOT_SET); colPctTotal -= colPcts[colX]; if (colPctTotal <= 100) { break; } } } } } delete [] colPcts; return basis; } void BasicTableLayoutStrategy::SetMinAndMaxTableContentWidths() { mMinTableContentWidth = 0; mMaxTableContentWidth = 0; nscoord spacingX = mTableFrame->GetCellSpacingX(); for (PRInt32 colX = 0; colX < mNumCols; colX++) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(colX); mMinTableContentWidth += colFrame->GetMinWidth(); mMaxTableContentWidth += colFrame->GetDesWidth(); if (mTableFrame->GetNumCellsOriginatingIn(colX) > 0) { mMaxTableContentWidth += spacingX; mMinTableContentWidth += spacingX; } } // if it is not a degenerate table, add the last spacing on the right if (mMinTableContentWidth > 0) { mMinTableContentWidth += spacingX; mMaxTableContentWidth += spacingX; } } // calculate totals by width type. A width type of a higher precedence will // preclude one of a lower precedence for all types except MIN_CON void BasicTableLayoutStrategy::CalculateTotals(PRInt32& aCellSpacing, PRInt32* aTotalCounts, PRInt32* aTotalWidths, PRInt32* aMinWidths, PRInt32& a0ProportionalCount) { //mTableFrame->Dump(PR_TRUE, PR_FALSE); aCellSpacing = 0; for (PRInt32 widthX = 0; widthX < NUM_WIDTHS; widthX++) { aTotalCounts[widthX] = 0; aTotalWidths[widthX] = 0; aMinWidths[widthX] = 0; } a0ProportionalCount = 0; nscoord spacingX = mTableFrame->GetCellSpacingX(); for (PRInt32 colX = 0; colX < mNumCols; colX++) { nsTableColFrame* colFrame = mTableFrame->GetColFrame(colX); if (mTableFrame->GetNumCellsOriginatingIn(colX) > 0) { aCellSpacing += spacingX; } nscoord minCol = colFrame->GetMinWidth(); aTotalCounts[MIN_CON]++; aTotalWidths[MIN_CON] += minCol; if (e0ProportionConstraint == colFrame->GetConstraint()) { a0ProportionalCount++; } nscoord pctCol = colFrame->GetPctWidth(); nscoord fixCol = colFrame->GetFixWidth(); // pct wins in conflict with fix if (pctCol > 0) { aTotalCounts[PCT]++; aTotalWidths[PCT] += pctCol; aMinWidths[PCT] += minCol; continue; } else if (fixCol > 0) { aTotalCounts[FIX]++; aTotalWidths[FIX] += fixCol; aMinWidths[FIX] += minCol; continue; } if (eProportionConstraint == colFrame->GetConstraint()) { nscoord minProp = colFrame->GetWidth(MIN_PRO); aTotalCounts[MIN_PRO]++; aTotalWidths[MIN_PRO] += minProp; aTotalCounts[DES_CON]++; aTotalWidths[DES_CON] += NSToCoordRound(((float)minProp) * mMinToDesProportionRatio); aMinWidths[MIN_PRO] += minCol; aMinWidths[DES_CON] += minProp; } else { nscoord desCol = colFrame->GetDesWidth(); aTotalCounts[DES_CON]++; aTotalWidths[DES_CON] += desCol; aMinWidths[DES_CON] += minCol; } } // if it is not a degenerate table, add the last spacing on the right if (mNumCols > 0) { aCellSpacing += spacingX; } } struct nsColInfo { nsColInfo(nsTableColFrame* aFrame, PRInt32 aIndex, PRInt32 aMinWidth, PRInt32 aWidth, PRInt32 aMaxWidth) : mFrame(aFrame), mIndex(aIndex), mMinWidth(aMinWidth), mWidth(aWidth), mMaxWidth(aMaxWidth), mWeight(0) {} nsTableColFrame* mFrame; PRInt32 mIndex; PRInt32 mMinWidth; PRInt32 mWidth; PRInt32 mMaxWidth; float mWeight; }; void AC_Wrapup(nsTableFrame* aTableFrame, PRInt32 aNumItems, nsColInfo** aColInfo, PRBool aAbort = PR_FALSE) { if (aColInfo) { for (PRInt32 i = 0; i < aNumItems; i++) { if (aColInfo[i]) { if (!aAbort) { aTableFrame->SetColumnWidth(aColInfo[i]->mIndex, aColInfo[i]->mWidth); } delete aColInfo[i]; } } delete [] aColInfo; } } void AC_Increase(PRInt32 aNumAutoCols, nsColInfo** aColInfo, PRInt32 aDivisor, PRInt32& aAvailWidth) { for (PRInt32 i = 0; i < aNumAutoCols; i++) { if ((aAvailWidth <= 0) || (aDivisor <= 0)) { break; } float percent = ((float)aColInfo[i]->mMaxWidth) / (float)aDivisor; aDivisor -= aColInfo[i]->mMaxWidth; nscoord addition = PR_MIN(aAvailWidth, NSToCoordRound(((float)(aAvailWidth)) * percent)); addition = PR_MIN(addition, aColInfo[i]->mMaxWidth - aColInfo[i]->mWidth); // don't let the total additions exceed what is available if (i == aNumAutoCols - 1) { addition = PR_MIN(addition, aAvailWidth); } aColInfo[i]->mWidth += addition; aAvailWidth -= addition; } } void AC_Decrease(PRInt32 aNumAutoCols, nsColInfo** aColInfo, PRInt32 aDivisor, PRInt32& aExcess) { for (PRInt32 i = 0; i < aNumAutoCols; i++) { if ((aExcess <= 0) || (aDivisor <= 0)) { break; } float percent = ((float)aColInfo[i]->mMaxWidth) / (float)aDivisor; aDivisor -= aColInfo[i]->mMaxWidth; nscoord reduction = PR_MIN(aExcess, NSToCoordRound(((float)(aExcess)) * percent)); // don't go over the col min reduction = PR_MIN(reduction, aColInfo[i]->mWidth - aColInfo[i]->mMinWidth); // don't let the total reductions exceed what is available if (i == aNumAutoCols - 1) { reduction = PR_MIN(reduction, aExcess); } aColInfo[i]->mWidth -= reduction; aExcess -= reduction; } } void AC_Sort(nsColInfo** aColInfo, PRInt32 aNumCols) { // sort the cols based on the Weight for (PRInt32 j = aNumCols - 1; j > 0; j--) { for (PRInt32 i = 0; i < j; i++) { if (aColInfo[i]->mWeight < aColInfo[i+1]->mWeight) { // swap them nsColInfo* save = aColInfo[i]; aColInfo[i] = aColInfo[i+1]; aColInfo[i+1] = save; } } } } // this assumes that the table has set the width for each col to be its min void BasicTableLayoutStrategy::AllocateConstrained(PRInt32 aAvailWidth, PRInt32 aWidthType, PRInt32 aNumConstrainedCols, PRInt32 aSumMaxConstraints, PRBool aStartAtMin, PRInt32* aAllocTypes) { if ((0 == aAvailWidth) || (aWidthType < 0) || (aWidthType >= NUM_WIDTHS) || (aNumConstrainedCols <= 0) || (aSumMaxConstraints <= 0)) { NS_ASSERTION(PR_TRUE, "invalid args to AllocateConstrained"); return; } // allocate storage for the affected cols. Only they get adjusted. nsColInfo** colInfo = new nsColInfo*[aNumConstrainedCols]; if (!colInfo) { return; } memset(colInfo, 0, aNumConstrainedCols * sizeof(nsColInfo *)); PRInt32 maxMinDiff = 0; PRInt32 constrColX = 0; // set the col info entries for each constrained col for (PRInt32 colX = 0; colX < mNumCols; colX++) { if (-1 != aAllocTypes[colX]) { continue; } nsTableColFrame* colFrame = mTableFrame->GetColFrame(colX); //nscoord minWidth = colFrame->GetMinWidth(); nscoord minWidth = mTableFrame->GetColumnWidth(colX); nscoord maxWidth = colFrame->GetWidth(aWidthType); if (DES_CON == aWidthType) { maxWidth = PR_MAX(maxWidth, colFrame->GetWidth(DES_ADJ)); } else if (FIX == aWidthType) { maxWidth = PR_MAX(maxWidth, colFrame->GetWidth(FIX_ADJ)); } else if (PCT == aWidthType) { maxWidth = PR_MAX(maxWidth, colFrame->GetWidth(PCT_ADJ)); } if (maxWidth <= 0) { continue; } if (constrColX >= aNumConstrainedCols) { NS_ASSERTION(PR_FALSE, "AllocateConstrained called incorrectly"); break; } maxWidth = PR_MAX(maxWidth, minWidth); maxMinDiff += maxWidth - minWidth; nscoord startWidth = (aStartAtMin) ? minWidth : maxWidth; colInfo[constrColX++] = new nsColInfo(colFrame, colX, minWidth, startWidth, maxWidth); if (!colInfo[constrColX]) { AC_Wrapup(mTableFrame, aNumConstrainedCols, colInfo, PR_TRUE); return; } aAllocTypes[colX] = aWidthType; } if (constrColX < aNumConstrainedCols) { // some of the constrainted cols might have been 0 and skipped aNumConstrainedCols = constrColX; } PRInt32 i; if (aStartAtMin) { // allocate extra space nscoord availWidth = aAvailWidth; for (i = 0; i < aNumConstrainedCols; i++) { // the weight here is a relative metric for determining when cols reach their max constraint. // A col with a larger weight will reach its max before one with a smaller value. nscoord delta = colInfo[i]->mMaxWidth - colInfo[i]->mWidth; colInfo[i]->mWeight = (delta <= 0) ? 1000000 // cols which have already reached their max get a large value : ((float)colInfo[i]->mMaxWidth) / ((float)delta); } // sort the cols based on the weight so that in one pass cols with higher // weights will get their max earlier than ones with lower weights // This is an innefficient bubble sort, but unless there are an unlikely // large number of cols, it is not an issue. AC_Sort(colInfo, aNumConstrainedCols); // compute the proportion to be added to each column, don't go beyond the col's // max. This algorithm assumes that the Weight works as stated above AC_Increase(aNumConstrainedCols, colInfo, aSumMaxConstraints, availWidth); } else { // reduce each col width nscoord reduceWidth = maxMinDiff - aAvailWidth; if (reduceWidth < 0) { NS_ASSERTION(PR_TRUE, "AllocateConstrained called incorrectly"); AC_Wrapup(mTableFrame, aNumConstrainedCols, colInfo, PR_TRUE); return; } for (i = 0; i < aNumConstrainedCols; i++) { // the weight here is a relative metric for determining when cols reach their min. // A col with a larger weight will reach its min before one with a smaller value. nscoord delta = colInfo[i]->mWidth - colInfo[i]->mMinWidth; colInfo[i]->mWeight = (delta <= 0) ? 1000000 // cols which have already reached their min get a large value : ((float)colInfo[i]->mWidth) / ((float)delta); } // sort the cols based on the Weight AC_Sort(colInfo, aNumConstrainedCols); // compute the proportion to be subtracted from each column, don't go beyond // the col's min. This algorithm assumes that the Weight works as stated above AC_Decrease(aNumConstrainedCols, colInfo, aSumMaxConstraints, reduceWidth); } AC_Wrapup(mTableFrame, aNumConstrainedCols, colInfo); } PRBool BasicTableLayoutStrategy::IsColumnInList(const PRInt32 colIndex, PRInt32* colIndexes, PRInt32 aNumFixedColumns) { PRBool result = PR_FALSE; for (PRInt32 i = 0; i < aNumFixedColumns; i++) { if (colIndex == colIndexes[i]) { result = PR_TRUE; break; } else if (colIndexGetColumnFrame(aColIndex, colFrame); const nsStylePosition* colPosition; colFrame->GetStyleData(eStyleStruct_Position, (const nsStyleStruct*&)colPosition); switch (colPosition->mWidth.GetUnit()) { case eStyleUnit_Coord: if (0 == colPosition->mWidth.GetCoordValue()) { result = PR_TRUE; } break; case eStyleUnit_Percent: { // total hack for now for 0% and 1% specifications // should compare percent to available parent width and see that it is below minimum // for this column float percent = colPosition->mWidth.GetPercentValue(); if (0.0f == percent || 0.01f == percent) { result = PR_TRUE; } break; } case eStyleUnit_Proportional: if (0 == colPosition->mWidth.GetIntValue()) { result = PR_TRUE; } default: break; } return result; } void BasicTableLayoutStrategy::Dump(PRInt32 aIndent) { char* indent = new char[aIndent + 1]; for (PRInt32 i = 0; i < aIndent + 1; i++) { indent[i] = ' '; } indent[aIndent] = 0; printf("%s**START BASIC STRATEGY DUMP** table=%X cols=%d numCols=%d", indent, mTableFrame, mCols, mNumCols); printf("\n%s minConWidth=%d maxConWidth=%d cellSpacing=%d propRatio=%.2f navQuirks=%d", indent, mMinTableContentWidth, mMaxTableContentWidth, mCellSpacingTotal, mMinToDesProportionRatio, mIsNavQuirksMode); printf(" **END BASIC STRATEGY DUMP** \n"); delete [] indent; }