82 int indent,
int mbottom,
int tag)
125 for (pM = *ppMargin; pM && pM->
fTag != tag; pM = pM->
fPNext) {}
130 while ((pM = *ppMargin) != 0) {
134 if (oldTag == tag)
break;
154 while (*ppMarginStack && (**ppMarginStack).
fBottom >= 0 &&
155 (**ppMarginStack).fBottom <= y) {
224 if (x < minX) x = minX;
240 for (; p && p != p_end; p = p ? p->
fPNext : 0) {
245 text->
fX = x + spaceWanted;
247 if (lastBreak && x + spaceWanted + text->
fW > width)
252 x += text->
fW + spaceWanted;
262 *actualWidth = (x <= 0) ? 1 : x;
270 *actualWidth = ((x <= 0) && !isEmpty) ? 1 :
x;
273 if (spaceWanted < w && x > origin) spaceWanted = w;
283 *actualWidth = ((x <= 0) && !isEmpty) ? 1 :
x;
288 image->
fX = x + spaceWanted;
290 if (lastBreak && x + spaceWanted + image->
fW > width) {
296 x += image->
fW + spaceWanted;
299 *actualWidth = ((x <= 0) && !isEmpty) ? 1 :
x;
312 input->
fX = x + spaceWanted + input->
fPadLeft;
314 if (lastBreak && x + spaceWanted + input->
fW > width) {
320 x = input->
fX + input->
fW;
323 *actualWidth = ((x <= 0) && !isEmpty) ? 1 :
x;
342 x + spaceWanted >= 0) {
343 *actualWidth = ((x <= 0) && !isEmpty) ? 1 :
x;
352 *actualWidth = ((x <= 0) && !isEmpty) ? 1 :
x;
353 if (x + spaceWanted >= width) {
413 *actualWidth = ((x <= 0) && !isEmpty) ? 1 :
x;
420 *actualWidth = ((x <= 0) && !isEmpty) ? 1 :
x;
430 while (p && p != p_end) {
455 int actualWidth,
int lMargin,
int *max_x)
467 if (actualWidth > 0) {
469 if (p == p_end || p == 0) p = p_start;
470 maxAscent = maxTextAscent = 0;
471 for (p = p_start; p && p != p_end; p = p->
fPNext) {
474 dx = lMargin + (width - actualWidth) / 2;
476 dx = lMargin + (width - actualWidth);
486 max = text->
fX + text->
fW;
493 if (ascent2 > maxAscent) maxAscent = ascent2;
494 if (ascent2 > maxTextAscent) maxTextAscent = ascent2;
517 if (li->
fX > max) max = li->
fX;
524 max = image->
fX + image->
fW;
567 max = input->
fX + input->
fW;
569 input->
fY = dy2center - input->
fH / 2;
571 if (ascent > maxAscent) maxAscent = ascent;
582 y = maxAscent + mbottom;
585 for (p = p_start; p && p != p_end; p = p->
fPNext) {
612 image->
fAscent = maxTextAscent;
632 descent = input->
fY + input->
fH;
634 if (descent > maxDescent) maxDescent = descent;
653 return y + maxDescent;
676 if (font == 0)
return;
680 if (fHeadRoom < headroom && fBottom >
fTop)
fHeadRoom = headroom;
720 #define CLEAR_Right 1 722 #define CLEAR_First 3 750 if (newBottom < fLeftMargin->
fBottom) {
766 if (newBottom < fRightMargin->
fBottom) {
784 if (newBottom < fRightMargin->
fBottom) {
789 if (newBottom < fLeftMargin->
fBottom) {
862 if (fMaxY < y + image->fH)
fMaxY = y + image->
fH;
863 if (fMaxX < x + image->fW)
fMaxX = x + image->
fW;
868 image->
fX = x + w - image->
fW;
873 if (fMaxY < y + image->fH)
fMaxY = y + image->
fH;
874 if (fMaxX < x + image->fW)
fMaxX = x + image->
fW;
931 hr->
fH = (hrsz < 0) ? 2 : hrsz;
949 zl = z ? strlen(z) : 0;
950 if (zl > 0 && z[zl-1] ==
'%') {
951 wd = (atoi(z) * w) / 100;
953 wd = z ? atoi(z) : w;
960 hr->
fX += (w - wd) / 2;
971 if (fMaxX < wd + hr->fX)
fMaxX = wd + hr->
fX;
1009 if (strcasecmp(z,
"left") == 0) {
1011 }
else if (strcasecmp(z,
"right") == 0) {
1070 #ifdef TABLE_TRIM_BLANK 1071 int HtmlLineWasBlank = 0;
1072 #endif // TABLE_TRIM_BLANK 1090 while (p && p !=
fPEnd) {
1092 if (pNext == p)
break;
1101 if (p == 0 || p ==
fPEnd)
break;
1103 #ifdef TABLE_TRIM_BLANK 1104 HtmlLineWasBlank = 0;
1105 #endif // TABLE_TRIM_BLANK 1130 y =
FixLine(p, pNext, y, lineWidth, actualWidth, lMargin, &max_x);
1134 #ifdef TABLE_TRIM_BLANK 1140 if (actualWidth <= 0) HtmlLineWasBlank = 1;
1142 #endif // TABLE_TRIM_BLANK 1145 if (pNext && actualWidth > 0 && y >
fBottom) {
1184 if (fPFirst == 0)
return;
1186 fLayoutContext.fHtml =
this;
1188 fLayoutContext.PushIndent();
1189 fLayoutContext.fPageWidth = fCanvas->GetWidth();
1190 fLayoutContext.fLeft = 0;
1193 fLayoutContext.fPageWidth = fCanvas->GetWidth() -
HTML_INDENT/4;
1196 fLayoutContext.fRight = 0;
1197 fLayoutContext.fPStart = fNextPlaced;
1198 if (fLayoutContext.fPStart == 0) fLayoutContext.fPStart = fPFirst;
1199 if (fLayoutContext.fPStart) {
1202 fLayoutContext.fMaxX =
fMaxX;
1203 fLayoutContext.fMaxY =
fMaxY;
1204 btm = fLayoutContext.fBottom;
1205 fLayoutContext.LayoutBlock();
1206 fMaxX = fLayoutContext.fMaxX;
1208 fMaxY = fLayoutContext.fMaxY;
1210 fMaxY = fLayoutContext.fMaxY + fYMargin;
1212 fNextPlaced = fLayoutContext.fPStart;
1214 if (fZGoto && (p = AttrElem(
"name", fZGoto+1))) {
TGHtmlElement * GetLine(TGHtmlElement *pStart, TGHtmlElement *pEnd, int width, int minX, int *actualWidth)
This routine gathers as many tokens as will fit on one line.
#define IMAGE_ALIGN_TextTop
void Paragraph(TGHtmlElement *p)
Increase the headroom to create a paragraph break at the current token.
void LayoutBlock()
Do as much layout as possible on the block of text defined by the HtmlLayoutContext.
void ClearObstacle(int mode)
Clear a wrap-around obstacle.
void PushIndent()
Adjust (push) ident.
SHtmlMargin_t * fLeftMargin
TGHtmlLayoutContext()
Html Layout Context constructor.
virtual TGFont * GetFont(int iFont)
The rendering and layout routines should call this routine in order to get a font structure...
TGHtmlElement * TableLayout(TGHtmlTable *p)
Do all layout for a single table.
TGHtmlElement * DoBreakMarkup(TGHtmlElement *p)
Break markup is any kind of markup that might force a line-break.
void PushMargin(SHtmlMargin_t **ppMargin, int indent, int bottom, int tag)
Push a new margin onto the given margin stack.
void PopExpiredMargins(SHtmlMargin_t **ppMarginStack, int y)
Pop all expired margins from the stack.
void FixAnchors(TGHtmlElement *p, TGHtmlElement *pEnd, int y)
Set the y coordinate for every anchor in the given list.
void LayoutDoc()
Advance the layout as far as possible.
int GetRuleRelief() const
int FixLine(TGHtmlElement *pStart, TGHtmlElement *pEnd, int bottom, int width, int actualWidth, int leftMargin, int *maxX)
This routine computes the X and Y coordinates for all elements of a line that has been gathered using...
#define HTML_RELIEF_SUNKEN
#define IMAGE_ALIGN_AbsBottom
virtual int IsMarkup() const
void PopOneMargin(SHtmlMargin_t **ppMargin)
Pop one margin off of the given margin stack.
#define IMAGE_ALIGN_Middle
void PopMargin(SHtmlMargin_t **ppMargin, int tag)
Pop as many margins as necessary until the margin that was created with "tag" is popped off...
#define IMAGE_ALIGN_AbsMiddle
void WidenLine(int reqWidth, int *pX, int *pY, int *pW)
Move past obstacles until a linewidth of reqWidth is obtained, or until all obstacles are cleared...
you should not use this method at all Int_t Int_t z
#define HTML_RELIEF_RAISED
#define IMAGE_ALIGN_Bottom
int InWrapAround()
Return TRUE (non-zero) if we are currently wrapping text around one or more images.
void ComputeMargins(int *pX, int *pY, int *pW)
Compute the current margins for layout.
void GetFontMetrics(FontMetrics_t *m) const
Get font metrics.
void ClearMarginStack(SHtmlMargin_t **ppMargin)
Clear a margin stack to reclaim memory.
#define IMAGE_ALIGN_Right
virtual const char * MarkupArg(const char *tag, const char *zDefault)
Lookup an argument in the given markup with the name given.
int GetRulePadding() const
SHtmlMargin_t * fRightMargin
void PopIndent()
Adjust (pop) ident.
void Reset()
Reset the layout context.
int NextMarkupType(TGHtmlElement *p)
Return the next markup type [TGHtmlElement::NextMarkupType].