Google Git
Sign in
android / platform / external / pdfium / e6986e1e8d4a57987f47c215490cb080a65ee29a / . / core / src / reflow / layoutprocessor_reflow.cpp
blob: 218d301f0fbb95950dbb65f91084b591e66da0aa [file] [log] [blame]
// Copyright 2014 PDFium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com
#include "../../include/reflow/reflowengine.h"
#include "reflowedpage.h"
#include "layoutprovider_taggedpdf.h"
IPDF_LayoutProcessor* IPDF_LayoutProcessor::Create_LayoutProcessor_Reflow(FX_FLOAT TopIndent, FX_FLOAT fWidth, FX_FLOAT fHeight, void* pReflowedPage, int flags, FX_FLOAT lineSpace )
{
if(pReflowedPage == NULL || fWidth <= 20) {
return NULL;
}
CPDF_LayoutProcessor_Reflow* pReflowEngine = new CPDF_LayoutProcessor_Reflow();
pReflowEngine->Init(TopIndent, fWidth, fHeight, (CPDF_ReflowedPage*)pReflowedPage, flags, lineSpace);
return pReflowEngine;
}
CPDF_LayoutProcessor_Reflow::CPDF_LayoutProcessor_Reflow()
{
m_pPause = NULL;
m_pLayoutElement = NULL;
m_fRefWidth = 0;
m_fRefWidth = 0;
m_fCurrLineWidth = 0;
m_fCurrLineHeight = 0;
m_bIllustration = FALSE;
m_pPreObj = NULL;
m_pCurrLine = new CRF_DataPtrArray(50);
m_pTempLine = new CRF_DataPtrArray(50);
m_StartIndent = 0;
m_PausePosition = 0;
}
CPDF_LayoutProcessor_Reflow::~CPDF_LayoutProcessor_Reflow()
{
if (m_pCurrLine) {
m_pCurrLine->RemoveAll();
delete m_pCurrLine;
}
m_pCurrLine = NULL;
if (m_pTempLine) {
m_pTempLine->RemoveAll();
delete m_pTempLine;
}
m_pTempLine = NULL;
}
void CPDF_LayoutProcessor_Reflow::Init(FX_FLOAT TopIndent, FX_FLOAT fWidth, FX_FLOAT fHeight, CPDF_ReflowedPage* pReflowedPage, int flags, FX_FLOAT lineSpace)
{
m_pLayoutElement = NULL;
m_TopIndent = TopIndent;
m_Status = LayoutReady;
m_flags = flags;
m_pReflowedPage = pReflowedPage;
m_fScreenHeight = fHeight;
m_fRefWidth = fWidth;
m_fCurrLineHeight = 0;
m_fCurrLineWidth = 0;
m_fLineSpace = lineSpace;
pReflowedPage->m_PageWidth = fWidth;
pReflowedPage->m_PageHeight = TopIndent;
}
void CPDF_LayoutProcessor_Reflow::FitPageMode()
{
if(m_flags & RF_PARSER_PAGEMODE && m_fScreenHeight > 20) {
float fitPageHeight = m_fScreenHeight;
CPDF_ReflowedPage* pRFPage = m_pReflowedPage;
int count = pRFPage->m_pReflowed->GetSize();
CFX_WordArray dy;
dy.Add(0);
int pos = 0;
int screenCount = 1;
FX_FLOAT h = pRFPage->GetPageHeight();
while (h > screenCount * fitPageHeight) {
FX_FLOAT tempPageHeight = screenCount * fitPageHeight;
int j = 0;
FX_FLOAT tempDy = 0;
for(int i = 0; i < count; i++) {
CRF_Data* pData = (*pRFPage->m_pReflowed)[i];
FX_FLOAT posY;
posY = pData->m_PosY;
if(FXSYS_fabs(posY) > tempPageHeight &&
FXSYS_fabs(posY + pData->m_Height) < tempPageHeight) {
if(j == 0) {
j = i;
}
if(pData->m_Height > fitPageHeight) {
FX_FLOAT zoom;
FX_FLOAT spaceh = screenCount * fitPageHeight + posY + pData->m_Height;
if(spaceh < fitPageHeight / 3 * 2) {
spaceh = fitPageHeight;
}
zoom = spaceh / pData->m_Height;
tempDy = spaceh - pData->m_Height;
pData->m_Height = spaceh;
pData->m_Width *= zoom;
break;
}
FX_FLOAT dy = pData->m_PosY + pData->m_Height + tempPageHeight;
if(dy > tempDy) {
tempDy = dy;
}
} else if(FXSYS_fabs(posY + pData->m_Height) > tempPageHeight) {
break;
}
}
for(; j < count; j++) {
CRF_Data* pData = (*pRFPage->m_pReflowed)[j];
FX_FLOAT posY;
posY = pData->m_PosY;
if(FXSYS_fabs(posY) > tempPageHeight ) {
pData->m_PosY -= tempDy;
}
if(pData->m_Height >= fitPageHeight) {
pData->m_Height = fitPageHeight - 1;
if(pData->GetType() == CRF_Data::Text) {
CRF_CharData* pCharData = (CRF_CharData*)pData;
pCharData->m_pCharState->m_fFontSize = pData->m_Height;
}
}
}
pRFPage->m_PageHeight += tempDy;
h += tempDy;
screenCount++;
}
}
}
LayoutStatus CPDF_LayoutProcessor_Reflow::StartProcess(IPDF_LayoutElement* pElement, IFX_Pause* pPause, const CFX_AffineMatrix* pPDFMatrix)
{
if(!pElement) {
return LayoutError;
}
m_pPause = pPause;
m_PDFMatrix = *pPDFMatrix;
m_pRootElement = pElement;
ProcessElement(m_pRootElement, m_fRefWidth);
if(m_Status == LayoutToBeContinued) {
return LayoutToBeContinued;
}
m_Status = LayoutFinished;
FitPageMode();
return LayoutFinished;
}
LayoutStatus CPDF_LayoutProcessor_Reflow::Continue()
{
int size = m_pReflowedPage->m_pReflowed->GetSize();
ProcessElement(m_pRootElement, m_CurrRefWidth);
size = m_pReflowedPage->m_pReflowed->GetSize();
if(m_Status == LayoutReady) {
m_Status = LayoutFinished;
FitPageMode();
}
return m_Status;
}
int CPDF_LayoutProcessor_Reflow::GetPosition()
{
return m_PausePosition;
}
FX_BOOL CPDF_LayoutProcessor_Reflow::IsCanBreakAfter(FX_DWORD unicode)
{
if(unicode == -1) {
return FALSE;
}
switch(unicode) {
case 40:
case 91:
case 123:
return FALSE;
}
if(unicode >= 256) {
return TRUE;
} else if(unicode >= 48 && unicode <= 57) {
return FALSE;
} else if(unicode >= 64 && unicode <= 90) {
return FALSE;
} else if(unicode >= 97 && unicode <= 122) {
return FALSE;
}
return TRUE;
}
FX_BOOL CPDF_LayoutProcessor_Reflow::IsCanBreakBefore(FX_DWORD unicode)
{
if(unicode == -1) {
return FALSE;
}
switch(unicode) {
case 33:
case 41:
case 44:
case 46:
case 59:
case 63:
case 93:
case 125:
return FALSE;
}
if(unicode >= 256) {
return TRUE;
} else if(unicode >= 48 && unicode <= 57) {
return FALSE;
} else if(unicode >= 64 && unicode <= 90) {
return FALSE;
} else if(unicode >= 97 && unicode <= 122) {
return FALSE;
}
return TRUE;
}
void CPDF_LayoutProcessor_Reflow::ProcessTable(FX_FLOAT dx)
{
if(m_pReflowedPage->m_pReflowed->GetSize() == 0) {
return;
}
CRF_Table* pTable = m_TableArray.GetAt(m_TableArray.GetSize() - 1);
int rowCount = pTable->m_nCell.GetSize();
int n = 0;
FX_FLOAT* dyRow = FX_Alloc(FX_FLOAT, rowCount + 1);
FXSYS_memset32(dyRow, 0, sizeof(FX_FLOAT) * (rowCount + 1));
dyRow[0] = 0 ;
dyRow[0] = - pTable->m_ReflowPageHeight;
int tableColCount = 0;
int i;
for(i = 0; i < rowCount; i++) {
int colCount = pTable->m_nCell.GetAt(i);
if(colCount > tableColCount) {
tableColCount = colCount;
}
}
int cellCount = tableColCount * rowCount;
RF_TableCell** pVirtualTable = FX_Alloc(RF_TableCell*, cellCount);
FXSYS_memset32(pVirtualTable, 0, sizeof(RF_TableCell*) * cellCount);
for(i = 0; i < rowCount; i++) {
int colCount = pTable->m_nCell.GetAt(i);
FX_FLOAT rowWidth = 0;
int j = 0;
int s = pTable->m_pCellArray.GetSize();
for(j = 0; j < colCount; j++) {
RF_TableCell* pCell = (RF_TableCell*)pTable->m_pCellArray.GetAt(n++);
if(pCell->m_EndPos < pCell->m_BeginPos) {
continue;
}
int pos = i * tableColCount;
while(pos < cellCount && pVirtualTable[pos] != NULL) {
pos++;
}
if(pos >= (i + 1) * tableColCount) {
pos = i * tableColCount + j;
}
int RowSpan = pCell->m_RowSpan;
int ColSpan = pCell->m_ColSpan;
if(RowSpan + i > rowCount) {
RowSpan = rowCount - i;
}
if(ColSpan + j > colCount) {
ColSpan = colCount - j;
}
for(int m = 0; m < RowSpan; m++) {
for(int nn = 0; nn < ColSpan; nn++) {
if(pos + nn >= cellCount) {
break;
}
pVirtualTable[pos + nn] = pCell;
}
pos += tableColCount;
}
FX_FLOAT dxCell = dx;
for(pos = i * tableColCount; pVirtualTable[pos] != pCell && pos < cellCount; pos++) {
dxCell += (pVirtualTable[pos])->m_MaxWidth;
}
CRF_Data* pData = (*m_pReflowedPage->m_pReflowed)[pCell->m_BeginPos];
FX_FLOAT dy = dyRow[i] - pData->m_Height - pData->m_PosY;
CFX_AffineMatrix matrix(1, 0, 0, 1, dxCell, dy);
Transform(&matrix, m_pReflowedPage->m_pReflowed, pCell->m_BeginPos, pCell->m_EndPos - pCell->m_BeginPos + 1);
if(pCell->m_RowSpan + i <= rowCount) {
if(FXSYS_fabs(dyRow[pCell->m_RowSpan + i]) < FXSYS_fabs(dyRow[i] - pCell->m_CellHeight)) {
dyRow[pCell->m_RowSpan + i] = dyRow[i] - pCell->m_CellHeight;
}
}
}
}
n = 0;
for(i = 0; i < rowCount; i++) {
int colCount = pTable->m_nCell.GetAt(i);
for(int j = 0; j < colCount; j++) {
RF_TableCell* pCell = (RF_TableCell*)pTable->m_pCellArray.GetAt(n++);
switch(pCell->m_BlockAlign) {
case LayoutAfter: {
FX_FLOAT dy = dyRow[i + pCell->m_RowSpan] - pCell->m_CellHeight - dyRow[i];
CFX_AffineMatrix matrix(1, 0, 0, 1, 0, dy);
Transform(&matrix, m_pReflowedPage->m_pReflowed, pCell->m_BeginPos, pCell->m_EndPos - pCell->m_BeginPos + 1);
}
break;
case LayoutMiddle:
case LayoutJustify: {
FX_FLOAT dy = (dyRow[i + pCell->m_RowSpan] + pCell->m_CellHeight - dyRow[i]) / 2;
CFX_AffineMatrix matrix(1, 0, 0, 1, 0, dy);
Transform(&matrix, m_pReflowedPage->m_pReflowed, pCell->m_BeginPos, pCell->m_EndPos - pCell->m_BeginPos + 1);
break;
}
default:
break;
}
}
}
CRF_Data* pData = (*m_pReflowedPage->m_pReflowed)[m_pReflowedPage->m_pReflowed->GetSize() - 1];
m_pReflowedPage->m_PageHeight = - dyRow[rowCount] + pData->m_Height;
FX_Free(pVirtualTable);
FX_Free(dyRow);
int size = pTable->m_pCellArray.GetSize();
for(i = 0; i < size; i++) {
RF_TableCell* pCell = pTable->m_pCellArray.GetAt(i);
FX_Free(pCell);
}
pTable->m_pCellArray.RemoveAll();
pTable->m_nCell.RemoveAll();
int s = sizeof(CRF_Table);
delete pTable;
m_TableArray.RemoveAt(m_TableArray.GetSize() - 1);
}
CFX_FloatRect CPDF_LayoutProcessor_Reflow::GetElmBBox(IPDF_LayoutElement* pElement)
{
CFX_FloatRect rect;
int objCount = pElement->CountObjects();
int count = pElement->CountChildren();
if(objCount == 0 && count == 0) {
return rect;
}
CFX_AffineMatrix matrix;
int i;
for(i = 0; i < objCount; i++) {
CPDF_PageObject* pObj = pElement->GetObject(0);
if(!pObj) {
continue;
}
if( rect.Height() == 0 ) {
rect = pObj->GetBBox(&matrix);
} else {
rect.Union(pObj->GetBBox(&matrix));
}
}
for(i = 0; i < count; i++) {
IPDF_LayoutElement* pChildElement = pElement->GetChild(i);
if( rect.Height() == 0 ) {
rect = GetElmBBox(pChildElement);
} else {
rect.Union(GetElmBBox(pChildElement));
}
}
return rect;
}
FX_FLOAT CPDF_LayoutProcessor_Reflow::GetElmWidth(IPDF_LayoutElement* pElement)
{
if(!pElement) {
return 0;
}
LayoutType layoutType = pElement->GetType();
FX_FLOAT width = 0;
if(layoutType == LayoutTable || layoutType == LayoutTableDataCell || layoutType == LayoutTableHeaderCell) {
width = pElement->GetNumberAttr(LayoutWidth);
if(width > 0) {
return width;
}
} else if( layoutType == LayoutTableRow) {
int count = pElement->CountChildren();
for(int i = 0; i < count; i++) {
IPDF_LayoutElement* pElm = pElement->GetChild(i);
width += pElm->GetNumberAttr(LayoutWidth);
}
if(width > 0) {
return width;
}
}
CFX_FloatRect rect = GetElmBBox(pElement);
return rect.Width();
}
FX_BOOL GetIntersection(FX_FLOAT low1, FX_FLOAT high1, FX_FLOAT low2, FX_FLOAT high2,
FX_FLOAT& interlow, FX_FLOAT& interhigh);
FX_BOOL IsSameLine(FX_BOOL bHorizontal, CFX_FloatRect Rect1, CFX_FloatRect Rect2)
{
if(bHorizontal) {
FX_FLOAT inter_top, inter_bottom;
if (!GetIntersection(Rect1.bottom, Rect1.top, Rect2.bottom, Rect2.top,
inter_bottom, inter_top)) {
return FALSE;
}
FX_FLOAT lineHeight = Rect1.top - Rect1.bottom;
if(lineHeight > 20 && lineHeight > Rect2.Height() * 2) {
return FALSE;
}
if(lineHeight > 5 && Rect2.Height() / 2 > lineHeight) {
return FALSE;
}
FX_FLOAT inter_h = inter_top - inter_bottom;
if (inter_h < (lineHeight) / 2 && inter_h < Rect2.Height() / 2) {
return FALSE;
}
} else {
FX_FLOAT inter_left, inter_right;
if(!GetIntersection(Rect1.left, Rect1.right, Rect2.left, Rect2.right, inter_left, inter_right)) {
return FALSE;
}
FX_FLOAT inter_w = inter_right - inter_left;
if (inter_w < (Rect1.right - Rect1.left) / 2 && inter_w < (Rect2.right - Rect2.left) / 2) {
return FALSE;
}
}
return TRUE;
}
FX_INT32 IsCanMergeParagraph(IPDF_LayoutElement* pPrevElement, IPDF_LayoutElement* pNextElement)
{
FX_INT32 analogial = 100;
FX_INT32 nPrevObj = pPrevElement->CountObjects(), i;
CPDF_PageObject* pPrevObj = NULL;
CFX_FloatRect prevRect, rect;
CFX_PtrArray prevLine, line;
FX_BOOL bParagraphStart = FALSE;
for(i = 0; i < nPrevObj; i++) {
CPDF_PageObject* pObj = pPrevElement->GetObject(i);
if(!pPrevObj) {
pPrevObj = pObj;
rect = CFX_FloatRect(pObj->m_Left, pObj->m_Bottom, pObj->m_Right, pObj->m_Top);
line.Add(pObj);
continue;
}
CFX_FloatRect objRect = CFX_FloatRect(pObj->m_Left, pObj->m_Bottom, pObj->m_Right, pObj->m_Top);
if(IsSameLine(TRUE, rect, objRect)) {
line.Add(pObj);
rect.Union(objRect);
} else {
prevLine.RemoveAll();
prevLine.Append(line);
prevRect = rect;
line.RemoveAll();
line.Add(pObj);
rect = objRect;
if(!bParagraphStart) {
if (prevRect.left > rect.left + rect.Height() * 1.5) {
bParagraphStart = TRUE;
}
}
}
}
if(prevLine.GetSize()) {
if(FXSYS_fabs(rect.right - prevRect.right) > rect.Height()) {
analogial -= 50;
}
}
CPDF_PageObject* pObj = pPrevElement->GetObject(nPrevObj - 1);
if(pObj->m_Type == PDFPAGE_TEXT) {
CPDF_TextObject* pText = (CPDF_TextObject*)pObj;
FX_INT32 nItem = pText->CountItems();
CPDF_TextObjectItem item;
pText->GetItemInfo(nItem - 1, &item);
CFX_WideString wStr = pText->GetFont()->UnicodeFromCharCode(item.m_CharCode);
if(wStr.IsEmpty()) {
wStr = (FX_WCHAR)item.m_CharCode;
}
FX_WCHAR wch = wStr.GetAt(wStr.GetLength() - 1);
switch(wch) {
case '.':
case 12290:
case 65311:
case 63:
case 33:
case 65281:
analogial -= 50;
break;
}
}
prevLine.RemoveAll();
prevLine.Append(line);
line.RemoveAll();
FX_INT32 nNextObj = pNextElement->CountObjects();
pPrevObj = NULL;
FX_BOOL bFirst = TRUE;
for(i = 0; i < nNextObj; i++) {
CPDF_PageObject* pObj = pNextElement->GetObject(i);
if(!pPrevObj) {
pPrevObj = pObj;
rect = CFX_FloatRect(pObj->m_Left, pObj->m_Bottom, pObj->m_Right, pObj->m_Top);
line.Add(pObj);
continue;
}
CFX_FloatRect objRect = CFX_FloatRect(pObj->m_Left, pObj->m_Bottom, pObj->m_Right, pObj->m_Top);
if(IsSameLine(TRUE, rect, objRect)) {
line.Add(pObj);
rect.Union(objRect);
} else {
if(FXSYS_fabs(rect.right - prevRect.right) < rect.Height() && FXSYS_fabs(rect.left - prevRect.left) < rect.Height()) {
analogial += 50;
}
prevLine.RemoveAll();
prevLine.Append(line);
prevRect = rect;
line.RemoveAll();
line.Add(pObj);
rect = objRect;
if(!bFirst) {
break;
}
bFirst = FALSE;
}
}
if(prevLine.GetSize()) {
if(bParagraphStart) {
if(prevRect.left - rect.left > rect.Height() && prevRect.left - rect.left < rect.Height() * 3) {
analogial -= 50;
}
} else {
if(FXSYS_fabs(prevRect.left - rect.left) < rect.Height()) {
analogial -= 50;
}
}
}
return analogial;
}
void CPDF_LayoutProcessor_Reflow::ProcessElement(IPDF_LayoutElement* pElement, FX_FLOAT reflowWidth)
{
if(pElement == NULL) {
return;
}
if(m_Status == LayoutReady) {
LayoutType layoutType = pElement->GetType();
FX_INT32 ElementType = GetElementTypes(layoutType);
switch(ElementType) {
case SST_IE:
m_bIllustration = TRUE;
break;
case SST_BLSE:
FinishedCurrLine();
FX_FLOAT StartIndent = 0;
if(IPDF_LayoutElement* pParent = pElement->GetParent()) {
StartIndent = pParent->GetNumberAttr(LayoutStartIndent);
}
FX_FLOAT currStartIndent = pElement->GetNumberAttr(LayoutStartIndent);
m_StartIndent = ConverWidth(currStartIndent);
FX_FLOAT width = reflowWidth;
if(StartIndent != currStartIndent) {
reflowWidth -= m_StartIndent;
}
FX_FLOAT spaceBefore = pElement->GetNumberAttr(LayoutSpaceBefore);
m_pReflowedPage->m_PageHeight += spaceBefore;
m_TextAlign = pElement->GetEnumAttr(LayoutTextAlign);
if(IPDF_LayoutElement* pParent = pElement->GetParent()) {
StartIndent = pParent->GetNumberAttr(LayoutEndIndent);
FX_FLOAT currEndIndent = pElement->GetNumberAttr(LayoutEndIndent);
if(StartIndent != currStartIndent) {
reflowWidth -= ConverWidth(currEndIndent);
}
}
if(reflowWidth * 2 < width) {
reflowWidth = width;
m_StartIndent = 0;
}
break;
}
switch(layoutType) {
case LayoutTable: {
CRF_Table* pTable = new CRF_Table;
m_TableArray.Add(pTable);
pTable->m_ReflowPageHeight = m_pReflowedPage->m_PageHeight;
pTable->m_TableWidth = GetElmWidth(pElement);
break;
}
case LayoutTableRow: {
if(!m_TableArray.GetSize()) {
break;
}
int count = pElement->CountChildren();
CRF_Table* pTable = m_TableArray.GetAt(m_TableArray.GetSize() - 1);
int f = 0;
for(int i = 0; i < count; i++) {
IPDF_LayoutElement* pChildElement = pElement->GetChild(i);
LayoutType type = pChildElement->GetType();
if(type == LayoutTableDataCell || type == LayoutTableHeaderCell) {
f++;
}
}
pTable->m_nCell.Add(f);
break;
}
case LayoutTableDataCell:
case LayoutTableHeaderCell: {
if(!m_TableArray.GetSize()) {
break;
}
RF_TableCell* pCell = FX_Alloc(RF_TableCell, 1);
FXSYS_memset32(pCell, 0 , sizeof(RF_TableCell));
CRF_Table* pTable = m_TableArray.GetAt(m_TableArray.GetSize() - 1);
int pos = pTable->m_nCell.GetSize() - 1;
pCell->m_BeginPos = m_pReflowedPage->m_pReflowed->GetSize();
FX_FLOAT cellWidth = pElement->GetNumberAttr(LayoutWidth);
if(cellWidth == 0 || pCell->m_MaxWidth > pTable->m_TableWidth) {
CRF_Table* pTable = m_TableArray.GetAt(m_TableArray.GetSize() - 1);
pCell->m_MaxWidth = reflowWidth / pTable->m_nCell.GetAt(pTable->m_nCell.GetSize() - 1);
} else {
pCell->m_MaxWidth = pElement->GetNumberAttr(LayoutWidth) * reflowWidth / pTable->m_TableWidth;
}
pCell->m_ColSpan = (int)(pElement->GetNumberAttr(LayoutColSpan));
pCell->m_RowSpan = (int)(pElement->GetNumberAttr(LayoutRowSpan));
if(!pCell->m_ColSpan) {
pCell->m_ColSpan = 1;
}
if(!pCell->m_RowSpan ) {
pCell->m_RowSpan = 1;
}
pCell->m_BlockAlign = pElement->GetEnumAttr(LayoutBlockAlign);
m_TextAlign = pElement->GetEnumAttr(LayoutInlineAlign);
pCell->m_PosX = 0;
pCell->m_PosY = 0;
reflowWidth = pCell->m_MaxWidth;
pTable->m_pCellArray.Add(pCell);
break;
}
default:
break;
}
m_fLineHeight = pElement->GetNumberAttr(LayoutLineHeight);
int ReflowedSize = m_pReflowedPage->m_pReflowed->GetSize();
if(pElement->CountObjects()) {
ProcessObjs(pElement, reflowWidth);
}
}
int count = pElement->CountChildren();
for(int i = 0; i < count; i++) {
IPDF_LayoutElement* pChildElement = pElement->GetChild(i);
ProcessElement(pChildElement, reflowWidth);
if(m_pPause && m_pRootElement == pElement && m_Status != LayoutToBeContinued ) {
if(m_pPause->NeedToPauseNow()) {
m_pLayoutElement = pChildElement;
m_Status = LayoutToBeContinued;
m_CurrRefWidth = reflowWidth;
m_PausePosition = (i + 1) * 100 / (count + 1);
return ;
}
}
if(m_Status == LayoutToBeContinued && m_pLayoutElement == pChildElement) {
m_Status = LayoutReady;
}
}
if(m_Status == LayoutReady) {
FX_FLOAT dx = 0;
LayoutType layoutType = pElement->GetType();
FX_INT32 ElementType = GetElementTypes(layoutType);
switch(ElementType) {
case SST_IE:
m_bIllustration = FALSE;
FinishedCurrLine();
break;
case SST_BLSE:
FinishedCurrLine();
FX_FLOAT StartIndent = 0;
if(IPDF_LayoutElement* pParent = pElement->GetParent()) {
StartIndent = pParent->GetNumberAttr(LayoutStartIndent);
}
FX_FLOAT currStartIndent = pElement->GetNumberAttr(LayoutStartIndent);
if(StartIndent != currStartIndent) {
reflowWidth += ConverWidth(currStartIndent);
dx += ConverWidth(currStartIndent);
}
FX_FLOAT spaceAfter = pElement->GetNumberAttr(LayoutSpaceAfter);
m_pReflowedPage->m_PageHeight += spaceAfter;
break;
}
switch(layoutType) {
case LayoutTableDataCell:
case LayoutTableHeaderCell: {
if(!m_TableArray.GetSize()) {
break;
}
CRF_Table* pTable = m_TableArray.GetAt(m_TableArray.GetSize() - 1);
RF_TableCell* pCell = pTable->m_pCellArray.GetAt(pTable->m_pCellArray.GetSize() - 1);
pCell->m_EndPos = m_pReflowedPage->m_pReflowed->GetSize() - 1;
if(pCell->m_EndPos < pCell->m_BeginPos) {
pCell->m_CellHeight = 0;
} else {
CRF_Data* pBeginData = (*m_pReflowedPage->m_pReflowed)[pCell->m_BeginPos];
CRF_Data* pEndData = (*m_pReflowedPage->m_pReflowed)[pCell->m_EndPos];
pCell->m_CellHeight = pBeginData->m_Height > pEndData->m_Height ? pBeginData->m_Height : pEndData->m_Height;
pCell->m_CellHeight -= pEndData->m_PosY - pBeginData->m_PosY;
}
break;
}
case LayoutTableRow: {
if(!m_TableArray.GetSize()) {
break;
}
CRF_Table* pTable = m_TableArray.GetAt(m_TableArray.GetSize() - 1);
if(pTable->m_nCol == 0) {
pTable->m_nCol = pTable->m_pCellArray.GetSize();
}
break;
}
case LayoutTable: {
ProcessTable(dx);
break;
}
default:
if(dx) {
CFX_AffineMatrix matrix(1, 0, 0, 1, dx, 0);
int ReflowedSize = m_pReflowedPage->m_pReflowed->GetSize();
Transform(&matrix, m_pReflowedPage->m_pReflowed, ReflowedSize, m_pReflowedPage->m_pReflowed->GetSize() - ReflowedSize);
}
}
}
if(m_pRootElement == pElement) {
m_PausePosition = 100;
}
}
FX_INT32 CPDF_LayoutProcessor_Reflow::GetElementTypes(LayoutType layoutType)
{
switch(layoutType) {
case LayoutParagraph:
case LayoutHeading:
case LayoutHeading1:
case LayoutHeading2:
case LayoutHeading3:
case LayoutHeading4:
case LayoutHeading5:
case LayoutHeading6:
case LayoutList:
case LayoutListItem:
case LayoutListLabel:
case LayoutListBody:
case LayoutTable:
case LayoutTableHeaderCell:
case LayoutTableDataCell:
case LayoutTableRow:
case LayoutTableHeaderGroup:
case LayoutTableBodyGroup:
case LayoutTableFootGroup:
case LayoutTOCI:
case LayoutCaption:
return SST_BLSE;
case LayoutFigure:
case LayoutFormula:
case LayoutForm:
return SST_IE;
case LayoutSpan:
case LayoutQuote:
case LayoutNote:
case LayoutReference:
case LayoutBibEntry:
case LayoutCode:
case LayoutLink:
case LayoutAnnot:
case LayoutRuby:
case LayoutWarichu:
return SST_ILSE;
default:
return SST_GE;
}
return FALSE;
}
FX_FLOAT CPDF_LayoutProcessor_Reflow::ConverWidth(FX_FLOAT width)
{
return width;
}
void CPDF_LayoutProcessor_Reflow::ProcessObject(CPDF_PageObject* pObj, FX_FLOAT reflowWidth, CFX_AffineMatrix objMatrix)
{
if(!pObj) {
return;
}
if(pObj->m_Type == PDFPAGE_TEXT) {
ProcessTextObject( (CPDF_TextObject *)pObj, reflowWidth, objMatrix);
} else if(pObj->m_Type == PDFPAGE_IMAGE) {
if(!(m_flags & RF_PARSER_IMAGE)) {
return;
}
CPDF_PageObjects* pObjs = new CPDF_PageObjects(FALSE);
FX_POSITION pos = pObjs->GetLastObjectPosition();
pos = pObjs->InsertObject(pos, pObj);
CFX_AffineMatrix matrix;
FX_RECT rect = pObj->GetBBox(&matrix);
CPDF_ImageObject* ImageObj = (CPDF_ImageObject*)pObj;
ProcessUnitaryObjs(pObjs, reflowWidth, objMatrix);
delete pObjs;
} else if(pObj->m_Type == PDFPAGE_PATH) {
} else if(pObj->m_Type == PDFPAGE_FORM) {
CPDF_FormObject* pForm = (CPDF_FormObject*)pObj;
FX_POSITION pos = pForm->m_pForm->GetFirstObjectPosition();
objMatrix.Concat(pForm->m_FormMatrix);
while (pos) {
CPDF_PageObject* pObj1 = pForm->m_pForm->GetNextObject(pos);
ProcessObject(pObj1, reflowWidth, objMatrix);
}
}
}
void CPDF_LayoutProcessor_Reflow::ProcessObjs(IPDF_LayoutElement* pElement, FX_FLOAT reflowWidth)
{
m_fCurrMaxWidth = reflowWidth;
int ObjCount = pElement->CountObjects();
for(int i = 0; i < ObjCount; i++) {
CPDF_PageObject* pObj = pElement->GetObject(i);
ProcessObject(pObj, reflowWidth, m_PDFMatrix);
continue;
}
}
void CPDF_LayoutProcessor_Reflow::AddTemp2CurrLine(int begin, int count)
{
if(begin < 0 || count <= 0 || !m_pReflowedPage || !m_pReflowedPage->m_pReflowed || !m_pTempLine) {
return;
} else {
count += begin;
}
int size = m_pReflowedPage->m_pReflowed->GetSize();
int temps = m_pTempLine->GetSize();
for(int i = begin; i < count; i++) {
CRF_Data* pData = (*m_pTempLine)[i];
AddData2CurrLine(pData);
}
}
void CPDF_LayoutProcessor_Reflow::AddData2CurrLine(CRF_Data* pData)
{
if(pData == NULL || m_pCurrLine == NULL) {
return;
}
m_pCurrLine->Add(pData);
m_fCurrLineWidth = pData->m_PosX + pData->m_Width;
if(pData->m_Height > m_fCurrLineHeight) {
m_fCurrLineHeight = pData->m_Height;
}
}
void CPDF_LayoutProcessor_Reflow::UpdateCurrLine()
{
}
void CPDF_LayoutProcessor_Reflow::Transform(const CFX_AffineMatrix* pMatrix, CRF_DataPtrArray* pDataArray, int beginPos, int count)
{
if (!pDataArray) {
return;
}
if(count == 0) {
count = pDataArray->GetSize();
} else {
count += beginPos;
}
for(int i = beginPos; i < count; i++) {
CRF_Data* pData = (*pDataArray)[i];
Transform(pMatrix, pData);
}
}
void CPDF_LayoutProcessor_Reflow::Transform(const CFX_AffineMatrix* pMatrix, CRF_Data* pData)
{
if(pData->GetType() == CRF_Data::Path) {
CRF_PathData* pPathData = (CRF_PathData*)pData;
pPathData->m_pPath2Device.Concat(*pMatrix);
}
pMatrix->Transform(pData->m_PosX, pData->m_PosY, pData->m_PosX, pData->m_PosY);
}
FX_BOOL CPDF_LayoutProcessor_Reflow::FinishedCurrLine()
{
if (NULL == m_pCurrLine) {
return FALSE;
}
int count = m_pCurrLine->GetSize();
if(count == 0) {
return FALSE;
}
if(m_fLineHeight > m_fCurrLineHeight) {
m_fCurrLineHeight = m_fLineHeight;
} else {
m_fCurrLineHeight += 2;
}
if(m_pReflowedPage->m_pReflowed->GetSize() > 0) {
m_fCurrLineHeight += m_fLineSpace;
}
FX_FLOAT height = m_pReflowedPage->m_PageHeight + m_fCurrLineHeight;
FX_FLOAT lineHeight = m_fLineHeight;
if(lineHeight == 0) {
lineHeight = m_fCurrLineHeight;
}
FX_FLOAT dx = 0;
switch(m_TextAlign) {
case LayoutCenter:
dx = (m_fCurrMaxWidth - m_fCurrLineWidth) / 2;
break;
case LayoutEnd:
dx = m_fCurrMaxWidth - m_fCurrLineWidth;
break;
case LayoutJustify:
break;
default:
break;
}
FX_FLOAT dy = - height;
int refedSize = m_pReflowedPage->m_pReflowed->GetSize();
if(count == 13) {
int a = 0;
}
for(int i = 0; i < count; i++) {
CRF_Data* pData = (*m_pCurrLine)[i];
m_pReflowedPage->m_pReflowed->Add(pData);
FX_FLOAT x = m_StartIndent + dx * (m_TextAlign == LayoutJustify ? i + 1 : 1);
CFX_AffineMatrix matrix(1, 0, 0, 1, x, dy);
Transform(&matrix, pData);
}
m_pCurrLine->RemoveAll();
m_fCurrLineWidth = 0;
m_pReflowedPage->m_PageHeight += m_fCurrLineHeight;
m_fCurrLineHeight = 0;
return TRUE;
}
CRF_CharState* CPDF_LayoutProcessor_Reflow::GetCharState(CPDF_TextObject* pObj, CPDF_Font* pFont, FX_FLOAT fHeight, FX_ARGB color)
{
if (NULL == m_pReflowedPage->m_pCharState) {
return NULL;
}
int count = m_pReflowedPage->m_pCharState->GetSize();
for(int i = count - 1; i >= 0; i--) {
CRF_CharState* pState = (CRF_CharState*)m_pReflowedPage->m_pCharState->GetAt(i);
if(pState->m_Color == color && pState->m_fFontSize == fHeight && pState->m_pFont == pFont && pState->m_pTextObj == pObj) {
return pState;
}
}
CRF_CharState pState;
pState.m_pTextObj = pObj;
pState.m_Color = color;
pState.m_pFont = pFont;
pState.m_fFontSize = fHeight;
int ascent = pFont->GetTypeAscent();
int descent = pFont->GetTypeDescent();
pState.m_fAscent = ascent * fHeight / (ascent - descent);
if(descent == 0) {
pState.m_fDescent = 0;
} else {
pState.m_fDescent = descent * fHeight / (ascent - descent);
}
pState.m_bVert = FALSE;
CPDF_CIDFont *pCIDFont = pFont->GetCIDFont();
if(pCIDFont) {
pState.m_bVert = pCIDFont->IsVertWriting();
}
m_pReflowedPage->m_pCharState->Add(pState);
return (CRF_CharState*)m_pReflowedPage->m_pCharState->GetAt(count);
}
int CPDF_LayoutProcessor_Reflow::GetCharWidth(FX_DWORD charCode, CPDF_Font* pFont) const
{
if(charCode == -1) {
return 0;
}
int w = pFont->GetCharWidthF(charCode);
if(w == 0) {
CFX_ByteString str;
pFont->AppendChar(str, charCode);
w = pFont->GetStringWidth(str, 1);
if(w == 0) {
FX_RECT BBox;
pFont->GetCharBBox(charCode, BBox);
w = BBox.right - BBox.left;
}
}
return w;
}
void CPDF_LayoutProcessor_Reflow::CreateRFData(CPDF_PageObject* pObj, CFX_AffineMatrix* pObjMatrix)
{
if (NULL == m_pReflowedPage->m_pMemoryPool) {
return;
}
if(pObj->m_Type == PDFPAGE_TEXT) {
CPDF_TextObject* pTextObj = (CPDF_TextObject* )pObj;
int count = pTextObj->CountItems();
if(!count) {
return;
}
if(count == 1) {
CPDF_TextObjectItem Item;
pTextObj->GetItemInfo(0, &Item);
if(Item.m_CharCode == 49) {
int a = 0;
}
}
CPDF_Font * pFont = pTextObj->GetFont();
FX_FLOAT fs = pTextObj->GetFontSize();
FX_FLOAT* pmatrix = pTextObj->m_TextState.GetMatrix();
FX_FLOAT matrix1 = pmatrix[1];
if(pmatrix[2] == 0) {
matrix1 = 0;
}
CFX_AffineMatrix textMatrix(pmatrix[0], matrix1, pmatrix[2], pmatrix[3], 0, 0);
FX_FLOAT height = FXSYS_fabs(textMatrix.TransformDistance(fs));
if(pObjMatrix) {
height = FXSYS_fabs(pObjMatrix->TransformDistance(height));
}
int r = 0, g = 0, b = 0;
pTextObj->m_ColorState.GetFillColor()->GetRGB(r, g, b);
FX_ARGB col = r * 0x10000;
col += g * 0x100;
col += b;
CRF_CharState* pState = GetCharState(pTextObj, pFont, height, col);
FX_FLOAT dx = 0, dy = 0;
FX_RECT ObjBBox;
if(pObjMatrix) {
ObjBBox = pTextObj->GetBBox(pObjMatrix);
dx = (float)ObjBBox.left;
dy = (float)ObjBBox.bottom;
} else {
CFX_AffineMatrix matrix;
ObjBBox = pTextObj->GetBBox(&matrix);
}
FX_FLOAT objWidth = 0;
CFX_ByteString str;
FX_BOOL bOrder = TRUE;
CFX_PtrArray tempArray;
int i = 0;
CPDF_TextObjectItem Item;
pTextObj->GetItemInfo(i, &Item);
dx = Item.m_OriginX;
dy = Item.m_OriginY;
textMatrix.Transform(Item.m_OriginX, Item.m_OriginY, dx, dy);
CRF_CharData* pLastData = NULL;
FX_FLOAT horzScale = pTextObj->m_TextState.GetFontSizeV() / pTextObj->m_TextState.GetFontSizeH();
while(i < count) {
pTextObj->GetItemInfo(i, &Item);
if(Item.m_CharCode == -1) {
i++;
continue;
}
FX_FLOAT OriginX, OriginY;
textMatrix.Transform(Item.m_OriginX, Item.m_OriginY, OriginX, OriginY);
CRF_CharData* pData = (CRF_CharData*)m_pReflowedPage->m_pMemoryPool->Alloc(sizeof(CRF_CharData));
if (NULL == pData) {
continue;
}
pData->m_Type = CRF_Data::Text;
if(FXSYS_fabs(OriginY - dy) > FXSYS_fabs(OriginX - dx)) {
pData->m_PosY = dy;
pData->m_PosX = pLastData->m_PosX + pLastData->m_Width + textMatrix.TransformDistance(pTextObj->m_TextState.GetObject()->m_CharSpace);
} else {
pData->m_PosY = OriginY;
pData->m_PosX = OriginX;
}
int size = tempArray.GetSize();
if(size && pData->m_PosX < pLastData->m_PosX ) {
for (int j = 0; j < size; j++) {
CRF_CharData* pData1 = (CRF_CharData*)tempArray.GetAt(j);
if(pData1->m_PosX > pData->m_PosX) {
tempArray.InsertAt(j, pData);
break;
}
}
} else {
tempArray.Add(pData);
}
pLastData = pData;
pData->m_CharCode = Item.m_CharCode;
pData->m_Height = FXSYS_fabs(height);
int w = GetCharWidth(Item.m_CharCode, pFont);
pData->m_Width = FXSYS_fabs(fs * textMatrix.TransformDistance((FX_FLOAT)w) / 1000);
if(horzScale) {
pData->m_Width /= horzScale;
}
pData->m_pCharState = pState;
i++;
}
count = tempArray.GetSize();
for (int j = 0; j < count; j++) {
CRF_CharData* pData = (CRF_CharData*)tempArray.GetAt(j);
if (m_pTempLine) {
m_pTempLine->Add(pData);
}
}
tempArray.RemoveAll();
} else if(pObj->m_Type == PDFPAGE_IMAGE) {
CPDF_ImageObject* pImageObj = (CPDF_ImageObject* )pObj;
CRF_ImageData* pRFImage = (CRF_ImageData*)m_pReflowedPage->m_pMemoryPool->Alloc(sizeof(CRF_ImageData));
if (NULL == pRFImage) {
return;
}
pRFImage->m_pBitmap = NULL;
pRFImage->m_Type = CRF_Data::Image;
if (m_pTempLine) {
m_pTempLine->Add(pRFImage);
}
CPDF_Image *pImage = pImageObj->m_pImage;
if (!pImage->m_pDIBSource || !pImage->m_pMask) {
if(pImage->StartLoadDIBSource(m_pReflowedPage->GetFormResDict(pImageObj), m_pReflowedPage->m_pPDFPage->m_pResources, 0, 0, TRUE)) {
pImage->Continue(NULL);
}
}
CFX_DIBSource* pDibSource = pImage->DetachBitmap();
if (pDibSource) {
pRFImage->m_pBitmap = pDibSource->Clone();
delete pDibSource;
}
CFX_DIBSource* pMask = pImage->DetachMask();
if (pMask) {
if (!pMask->IsAlphaMask()) {
CFX_DIBitmap* pMaskBmp = pMask->Clone();
pMaskBmp->ConvertFormat(FXDIB_8bppMask);
pRFImage->m_pBitmap->MultiplyAlpha(pMaskBmp);
delete pMaskBmp;
} else {
pRFImage->m_pBitmap->MultiplyAlpha(pMask);
}
delete pMask;
}
CFX_FloatRect ObjBBox;
if(pObjMatrix) {
ObjBBox = pImageObj->GetBBox(pObjMatrix);
} else {
CFX_AffineMatrix matrix;
ObjBBox = pImageObj->GetBBox(&matrix);
}
pRFImage->m_Width = ObjBBox.Width();
pRFImage->m_Height = ObjBBox.Height();
pRFImage->m_PosX = 0;
pRFImage->m_PosY = 0;
CFX_AffineMatrix matrix(1, 0, 0, -1, 0, 0);
matrix.Concat(pImageObj->m_Matrix);
matrix.Concat(*pObjMatrix);
pRFImage->m_Matrix.Set(matrix.a == 0 ? 0 : matrix.a / FXSYS_fabs(matrix.a),
matrix.b == 0 ? 0 : matrix.b / FXSYS_fabs(matrix.b),
matrix.c == 0 ? 0 : matrix.c / FXSYS_fabs(matrix.c),
matrix.d == 0 ? 0 : matrix.d / FXSYS_fabs(matrix.d), 0, 0);
} else if(pObj->m_Type == PDFPAGE_PATH) {
}
}
FX_FLOAT CPDF_LayoutProcessor_Reflow:: GetDatasWidth(int beginPos, int endpos)
{
if(endpos < beginPos || !m_pTempLine) {
return 0;
}
if(endpos > m_pTempLine->GetSize() - 1) {
endpos = m_pTempLine->GetSize() - 1;
}
CRF_Data* pBeginData = (*m_pTempLine)[beginPos];
CRF_Data* pEndData = (*m_pTempLine)[endpos];
return pEndData->m_PosX - pBeginData->m_PosX + pEndData->m_Width;
}
FX_WCHAR CPDF_LayoutProcessor_Reflow::GetPreChar()
{
if (NULL == m_pCurrLine) {
return -1;
}
int index = m_pCurrLine->GetSize() - 1;
CRF_CharData* pCharData = NULL;
while (index >= 0 && !pCharData) {
CRF_Data* pData = (*m_pCurrLine)[index];
if(pData->GetType() == CRF_Data::Text) {
pCharData = (CRF_CharData*)pData;
} else {
return -1;
}
index --;
}
if(m_pReflowedPage) {
index = m_pReflowedPage->m_pReflowed->GetSize() - 1;
}
while(!pCharData && index >= 0) {
CRF_Data* pData = (*m_pReflowedPage->m_pReflowed)[index];
if(pData->GetType() == CRF_Data::Text) {
pCharData = (CRF_CharData*)pData;
} else {
return -1;
}
index --;
}
if(pCharData) {
CFX_WideString str = pCharData->m_pCharState->m_pFont->UnicodeFromCharCode(pCharData->m_CharCode);
return str.GetAt(0);
}
return -1;
}
int CPDF_LayoutProcessor_Reflow::ProcessInsertObject(CPDF_TextObject* pObj, CFX_AffineMatrix formMatrix)
{
if(!pObj || !m_pPreObj || !m_pCurrLine) {
return 0;
}
if(m_pCurrLine->GetSize() == 0) {
return 0;
}
CPDF_TextObjectItem item;
int nItem = m_pPreObj->CountItems();
m_pPreObj->GetItemInfo(nItem - 1, &item);
FX_FLOAT last_pos = item.m_OriginX;
FX_FLOAT last_width = GetCharWidth(item.m_CharCode, m_pPreObj->GetFont()) * m_pPreObj->GetFontSize() / 1000;
last_width = FXSYS_fabs(last_width);
pObj->GetItemInfo(0, &item);
FX_FLOAT this_width = GetCharWidth(item.m_CharCode, pObj->GetFont()) * pObj->GetFontSize() / 1000;
this_width = FXSYS_fabs(this_width);
FX_FLOAT threshold = last_width > this_width ? last_width / 4 : this_width / 4;
CFX_AffineMatrix prev_matrix, prev_reverse;
m_pPreObj->GetTextMatrix(&prev_matrix);
prev_matrix.Concat(m_perMatrix);
prev_reverse.SetReverse(prev_matrix);
FX_FLOAT x = pObj->GetPosX(), y = pObj->GetPosY();
formMatrix.Transform(x, y);
prev_reverse.Transform(x, y);
FX_WCHAR preChar = GetPreChar();
CFX_WideString wstrItem = pObj->GetFont()->UnicodeFromCharCode(item.m_CharCode);
FX_WCHAR curChar = wstrItem.GetAt(0);
if (FXSYS_fabs(y) > threshold * 2) {
if (preChar == L'-') {
return 3;
}
if (preChar != L' ') {
return 1;
}
return 2;
}
if ((x - last_pos - last_width) > threshold && curChar != L' ' && preChar != L' ') {
return 1;
}
return 0;
}
FX_INT32 CPDF_LayoutProcessor_Reflow::LogicPreObj(CPDF_TextObject* pObj)
{
CPDF_TextObject* pPreObj = m_pPreObj;
m_pPreObj = pObj;
if(!pObj || !pPreObj) {
return 0;
}
CPDF_TextObjectItem item;
pPreObj->GetItemInfo(pPreObj->CountItems() - 1, &item);
FX_FLOAT last_pos = item.m_OriginX;
FX_FLOAT last_width = pPreObj->GetFont()->GetCharWidthF(item.m_CharCode) * pPreObj->GetFontSize() / 1000;
last_width = FXSYS_fabs(last_width);
pObj->GetItemInfo(0, &item);
FX_FLOAT this_width = pObj->GetFont()->GetCharWidthF(item.m_CharCode) * pObj->GetFontSize() / 1000;
this_width = FXSYS_fabs(this_width);
FX_FLOAT threshold = last_width > this_width ? last_width / 4 : this_width / 4;
CFX_AffineMatrix prev_matrix, prev_reverse;
pPreObj->GetTextMatrix(&prev_matrix);
prev_reverse.SetReverse(prev_matrix);
FX_FLOAT x = pObj->GetPosX(), y = pObj->GetPosY();
prev_reverse.Transform(x, y);
CFX_WideString wstrItem = pObj->GetFont()->UnicodeFromCharCode(item.m_CharCode);
FX_WCHAR curChar = wstrItem.GetAt(0);
if (FXSYS_fabs(y) > threshold * 2) {
return 2;
}
FX_WCHAR preChar = 0;
if (FXSYS_fabs(last_pos + last_width - x) > threshold && curChar != L' ') {
return 1;
}
return 0;
m_pPreObj = pObj;
if(!pPreObj) {
return 0;
}
if(pPreObj->m_Type != pObj->m_Type) {
return 0;
}
CFX_FloatRect rcCurObj(pObj->m_Left, pObj->m_Bottom, pObj->m_Right, pObj->m_Top);
CFX_FloatRect rcPreObj(pPreObj->m_Left, pPreObj->m_Bottom, pPreObj->m_Right, pPreObj->m_Top);
if(pObj->m_Type == PDFPAGE_IMAGE) {
if(rcPreObj.Contains(rcCurObj)) {
return 2;
}
if(rcCurObj.Contains(rcPreObj)) {
return 2;
}
return 0;
}
if(pObj->m_Type == PDFPAGE_TEXT) {
if(!((rcPreObj.bottom > rcCurObj.top) || (rcPreObj.top < rcCurObj.bottom))) {
FX_FLOAT height = FX_MIN(rcPreObj.Height(), rcCurObj.Height());
if((rcCurObj.left - rcPreObj.right) > height / 3) {
return 3;
}
}
if(FXSYS_fabs(rcPreObj.Width() - rcCurObj.Width()) >= 2 || FXSYS_fabs(rcPreObj.Height() - rcCurObj.Height()) >= 2 ) {
return 0;
}
CPDF_TextObject* pPreTextObj = (CPDF_TextObject*)pPreObj;
CPDF_TextObject* pCurTextObj = (CPDF_TextObject*)pObj;
int nPreCount = pPreTextObj->CountItems();
int nCurCount = pCurTextObj->CountItems();
if (nPreCount != nCurCount) {
return 0;
}
FX_BOOL bSame = TRUE;
for (int i = 0; i < nPreCount; i++) {
CPDF_TextObjectItem itemPer, itemCur;
pPreTextObj->GetItemInfo(i, &itemPer);
pCurTextObj->GetItemInfo(i, &itemCur);
if (itemCur.m_CharCode != itemPer.m_CharCode) {
return 0;
}
if (itemCur.m_OriginX != itemPer.m_OriginX) {
bSame = FALSE;
}
if (itemCur.m_OriginY != itemPer.m_OriginY) {
bSame = FALSE;
}
}
if(rcPreObj.left == rcCurObj.left && rcPreObj.top == rcCurObj.top) {
return 1;
}
if(FXSYS_fabs(rcPreObj.left - rcCurObj.left) < rcPreObj.Width() / 3
&& FXSYS_fabs(rcPreObj.top - rcCurObj.top) < rcPreObj.Height() / 3) {
return 2;
}
}
return 0;
}
FX_BOOL CPDF_LayoutProcessor_Reflow::IsSameTextObject(CPDF_TextObject* pTextObj1, CPDF_TextObject* pTextObj2)
{
if (!pTextObj1 || !pTextObj2) {
return FALSE;
}
CFX_FloatRect rcPreObj(pTextObj2->m_Left, pTextObj2->m_Bottom, pTextObj2->m_Right, pTextObj2->m_Top);
CFX_FloatRect rcCurObj(pTextObj1->m_Left, pTextObj1->m_Bottom, pTextObj1->m_Right, pTextObj1->m_Top);
if (rcPreObj.IsEmpty() && rcCurObj.IsEmpty()) {
return FALSE;
}
if (!rcPreObj.IsEmpty() || !rcCurObj.IsEmpty()) {
rcPreObj.Intersect(rcCurObj);
if (rcPreObj.IsEmpty()) {
return FALSE;
}
if (FXSYS_fabs(rcPreObj.Width() - rcCurObj.Width()) > rcCurObj.Width() / 2) {
return FALSE;
}
if (pTextObj2->GetFontSize() != pTextObj1->GetFontSize()) {
return FALSE;
}
}
int nPreCount = pTextObj2->CountItems();
int nCurCount = pTextObj1->CountItems();
if (nPreCount != nCurCount) {
return FALSE;
}
for (int i = 0; i < nPreCount; i++) {
CPDF_TextObjectItem itemPer, itemCur;
pTextObj2->GetItemInfo(i, &itemPer);
pTextObj1->GetItemInfo(i, &itemCur);
if (itemCur.m_CharCode != itemPer.m_CharCode) {
return FALSE;
}
}
return TRUE;
}
void CPDF_LayoutProcessor_Reflow::ProcessTextObject(CPDF_TextObject *pTextObj, FX_FLOAT reflowWidth, CFX_AffineMatrix objMatrix)
{
if(reflowWidth < 0 || !m_pCurrLine || !m_pTempLine) {
return;
}
if(IsSameTextObject(pTextObj, m_pPreObj)) {
return;
}
CPDF_PageObject* pPreObj = m_pPreObj;
FX_INT32 logic = ProcessInsertObject(pTextObj, objMatrix);
m_pPreObj = pTextObj;
m_perMatrix.Copy(objMatrix);
int size = m_pTempLine->GetSize();
int curs = m_pCurrLine->GetSize();
CreateRFData(pTextObj);
size = m_pTempLine->GetSize();
int reds = m_pReflowedPage->m_pReflowed->GetSize();
if(size == 0) {
return;
}
if(logic == 1) {
m_fCurrLineWidth += pTextObj->GetBBox(&objMatrix).Height() / 3;
} else if(logic == 3 && curs) {
m_fCurrLineWidth -= (*m_pCurrLine)[curs - 1]->m_Width;
m_pCurrLine->Delete(curs - 1);
}
int beginPos = 0, endPos = m_pTempLine->GetSize() - 1;
while(beginPos <= endPos) {
int tempBeginPos = beginPos;
int tempEndPos = endPos;
FX_FLOAT all_width = GetDatasWidth( beginPos, endPos);
if(all_width < reflowWidth - m_fCurrLineWidth) {
CRF_CharData* pBeginData = (CRF_CharData*)(*m_pTempLine)[beginPos];
CFX_AffineMatrix matrix(1, 0, 0, 1, -pBeginData->m_PosX + m_fCurrLineWidth, -pBeginData->m_PosY);
Transform(&matrix, m_pTempLine, beginPos, endPos - beginPos + 1);
AddTemp2CurrLine(beginPos, endPos - beginPos + 1);
m_pTempLine->RemoveAll();
return;
}
int midPos ;
if(tempBeginPos >= tempEndPos && tempEndPos != 0) {
midPos = tempEndPos;
} else {
while (tempBeginPos < tempEndPos ) {
midPos = (tempEndPos - tempBeginPos) / 2 + tempBeginPos;
if(midPos == tempBeginPos || midPos == tempEndPos) {
break;
}
FX_FLOAT w = GetDatasWidth( beginPos, midPos);
if(w < reflowWidth - m_fCurrLineWidth) {
tempBeginPos = midPos;
} else {
tempEndPos = midPos;
}
}
midPos = tempBeginPos;
if(midPos == 0) {
FX_FLOAT w = GetDatasWidth( beginPos, 1);
if(w > reflowWidth - m_fCurrLineWidth) {
midPos = -1;
}
}
}
if(midPos == -1) {
int count = m_pCurrLine->GetSize();
if(count == 0) {
midPos = 0;
}
}
int f = -1;
int i = 0;
for(i = midPos; i >= beginPos; i--) {
CRF_CharData* pData = (CRF_CharData*)(*m_pTempLine)[i];
CFX_WideString Wstr = pData->m_pCharState->m_pFont->UnicodeFromCharCode(pData->m_CharCode);
FX_WCHAR cha = Wstr.GetAt(0);
if(i < m_pTempLine->GetSize() - 1) {
CRF_CharData* pNextData = (CRF_CharData*)(*m_pTempLine)[i + 1];
if(pNextData->m_PosX - (pData->m_PosX + pData->m_Width) >= pData->m_Height / 4) {
f = i;
i++;
}
}
if(f == -1) {
if(IsCanBreakAfter((FX_DWORD)cha)) {
f = i;
i++;
} else if(IsCanBreakBefore((FX_DWORD)cha)) {
f = i - 1;
if(f < beginPos) {
f = -1;
}
}
}
if(f != -1) {
CRF_CharData* pBeginData = (CRF_CharData*)(*m_pTempLine)[beginPos];
CFX_AffineMatrix matrix(1, 0, 0, 1, -pBeginData->m_PosX + m_fCurrLineWidth, -pBeginData->m_PosY);
Transform(&matrix, m_pTempLine, beginPos, f - beginPos + 1);
CRF_Data* pData = (*m_pTempLine)[0];
AddTemp2CurrLine(beginPos, f - beginPos + 1);
beginPos = i;
FinishedCurrLine();
f = 1;
break;
}
}
if(f == -1 && i < beginPos) {
if( m_pCurrLine->GetSize()) {
int count = m_pCurrLine->GetSize();
f = -1;
for(int i = count - 1; i >= 0; i--) {
CRF_Data* pData = (*m_pCurrLine)[i];
if(pData->GetType() != CRF_Data::Text) {
f = i + 1;
} else {
CRF_CharData* pCharData = (CRF_CharData*)pData;
CFX_WideString Wstr = pCharData->m_pCharState->m_pFont->UnicodeFromCharCode(pCharData->m_CharCode);
FX_WCHAR cha = Wstr.GetAt(0);
if(IsCanBreakAfter(cha)) {
f = i + 1;
i++;
} else if(IsCanBreakBefore(cha)) {
f = i;
}
if(f == 0) {
f = -1;
}
}
if(f != -1) {
FinishedCurrLine();
if(f < count) {
int reflowdCount = m_pReflowedPage->m_pReflowed->GetSize();
int pos = reflowdCount + f - count;
CRF_CharData* pData = (CRF_CharData*)(*m_pReflowedPage->m_pReflowed)[pos];
CFX_AffineMatrix matrix(1, 0, 0, 1, -pData->m_PosX + m_fCurrLineWidth, -pData->m_PosY);
Transform(&matrix, m_pReflowedPage->m_pReflowed, pos, reflowdCount - pos);
for(int j = pos; j < reflowdCount; j++) {
AddData2CurrLine((*m_pReflowedPage->m_pReflowed)[j]);
}
m_pReflowedPage->m_pReflowed->Delete(pos, count - f);
if(logic == 3) {
m_fCurrLineWidth += pTextObj->GetBBox(&objMatrix).Height() / 3;
}
}
break;
}
}
}
if(f == -1) {
CRF_CharData* pData = (CRF_CharData*)(*m_pTempLine)[beginPos];
CFX_AffineMatrix matrix(1, 0, 0, 1, -pData->m_PosX + m_fCurrLineWidth, -pData->m_PosY);
if(beginPos == midPos) {
Transform(&matrix, pData);
FX_RECT rect;
pData->m_pCharState->m_pFont->GetFontBBox(rect);
FX_FLOAT* pmatrix = pTextObj->m_TextState.GetMatrix();
CFX_AffineMatrix textMatrix(pmatrix[0], pmatrix[1], pmatrix[2], pmatrix[3], 0, 0);
FX_FLOAT width = pData->m_Height * (rect.right - rect.left) / 1000;
FX_FLOAT f = (reflowWidth - m_fCurrLineWidth) / width;
pData->m_PosY *= f;
pData->m_Width *= f;
pData->m_Height *= f;
pData->m_pCharState = GetCharState(pData->m_pCharState->m_pTextObj, pData->m_pCharState->m_pFont, pData->m_Height, pData->m_pCharState->m_Color);
AddData2CurrLine(pData);
} else {
for(int m = beginPos; m <= midPos; m++) {
CRF_CharData* pData = (CRF_CharData*)(*m_pTempLine)[m];
Transform(&matrix, pData);
AddData2CurrLine(pData);
}
}
FinishedCurrLine();
beginPos = midPos + 1;
}
}
}
m_pTempLine->RemoveAll();
return;
}
void CPDF_LayoutProcessor_Reflow::ProcessUnitaryObjs(CPDF_PageObjects *pObjs, FX_FLOAT reflowWidth, CFX_AffineMatrix objMatrix)
{
if(!pObjs) {
return;
}
CFX_FloatRect ObjBBox = pObjs->CalcBoundingBox();
objMatrix.TransformRect(ObjBBox);
FX_FLOAT ObjWidth = ObjBBox.Width();
FX_FLOAT ObjHeight = ObjBBox.Height();
CFX_AffineMatrix matrix;
if(ObjWidth <= reflowWidth - m_fCurrLineWidth) {
matrix.Set(1, 0, 0, 1, m_fCurrLineWidth , 0);
} else if(ObjWidth <= reflowWidth) {
FinishedCurrLine();
matrix.Set(1, 0, 0, 1, 0, 0);
} else {
FinishedCurrLine();
FX_FLOAT f = reflowWidth / ObjWidth ;
matrix.Set(f, 0, 0, f, 0, 0);
}
CFX_AffineMatrix tempMatrix = matrix;
matrix.Concat(objMatrix);
FX_POSITION pos = pObjs->GetFirstObjectPosition();
while(pos) {
CPDF_PageObject* pObj = pObjs->GetNextObject(pos);
if(pObj->m_Type == PDFPAGE_TEXT) {
FX_INT32 ret = LogicPreObj((CPDF_TextObject*)pObj);
if(ret == 1 || ret == 2) {
continue;
}
}
CreateRFData(pObj, &matrix);
}
if (m_pTempLine) {
Transform(&tempMatrix, m_pTempLine, 0, m_pTempLine->GetSize());
AddTemp2CurrLine(0, m_pTempLine->GetSize());
m_pTempLine->RemoveAll();
}
}
void CPDF_LayoutProcessor_Reflow::ProcessPathObject(CPDF_PathObject *pObj, FX_FLOAT reflowWidth)
{
}