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|
/*
* Copyright (c) 2004 Casper Boemann <[email protected]>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#include <tqvaluevector.h>
#include <kdebug.h>
#include <KoStore.h>
#include "kis_global.h"
#include "kis_debug_areas.h"
#include "kis_tileddatamanager.h"
#include "kis_tilediterator.h"
#include "kis_tile.h"
#include "kis_memento.h"
#include "kis_tilemanager.h"
/* The data area is divided into tiles each say 64x64 pixels (defined at compiletime)
* The tiles are laid out in a matrix that can have negative indexes.
* The matrix grows automatically if needed (a call for writeacces to a tile outside the current extent)
* Even though the matrix has grown it may still not contain tiles at specific positions. They are created on demand
*/
KisTiledDataManager::KisTiledDataManager(TQ_UINT32 pixelSize, const TQ_UINT8 *defPixel)
{
m_pixelSize = pixelSize;
m_defPixel = new TQ_UINT8[m_pixelSize];
Q_CHECK_PTR(m_defPixel);
memcpy(m_defPixel, defPixel, m_pixelSize);
m_defaultTile = new KisTile(pixelSize,0,0, m_defPixel);
Q_CHECK_PTR(m_defaultTile);
m_hashTable = new KisTile * [1024];
Q_CHECK_PTR(m_hashTable);
for(int i = 0; i < 1024; i++)
m_hashTable [i] = 0;
m_numTiles = 0;
m_currentMemento = 0;
m_extentMinX = TQ_INT32_MAX;
m_extentMinY = TQ_INT32_MAX;
m_extentMaxX = TQ_INT32_MIN;
m_extentMaxY = TQ_INT32_MIN;
}
KisTiledDataManager::KisTiledDataManager(const KisTiledDataManager & dm)
: KShared()
{
m_pixelSize = dm.m_pixelSize;
m_defPixel = new TQ_UINT8[m_pixelSize];
Q_CHECK_PTR(m_defPixel);
memcpy(m_defPixel, dm.m_defPixel, m_pixelSize);
m_defaultTile = new KisTile(*dm.m_defaultTile, dm.m_defaultTile->getCol(), dm.m_defaultTile->getRow());
Q_CHECK_PTR(m_defaultTile);
m_hashTable = new KisTile * [1024];
Q_CHECK_PTR(m_hashTable);
m_numTiles = 0;
m_currentMemento = 0;
m_extentMinX = dm.m_extentMinX;
m_extentMinY = dm.m_extentMinY;
m_extentMaxX = dm.m_extentMaxX;
m_extentMaxY = dm.m_extentMaxY;
// Deep copy every tile. XXX: Make this copy-on-write!
for(int i = 0; i < 1024; i++)
{
const KisTile *tile = dm.m_hashTable[i];
m_hashTable[i] = 0;
while(tile)
{
KisTile *newtile = new KisTile(*tile, tile->getCol(), tile->getRow());
Q_CHECK_PTR(newtile);
newtile->setNext(m_hashTable[i]);
m_hashTable[i] = newtile;
tile = tile->getNext();
m_numTiles++;
}
}
}
KisTiledDataManager::~KisTiledDataManager()
{
// Deep delete every tile
for(int i = 0; i < 1024; i++)
{
const KisTile *tile = m_hashTable[i];
while(tile)
{
const KisTile *deltile = tile;
tile = tile->getNext();
delete deltile;
}
}
delete [] m_hashTable;
delete m_defaultTile;
delete [] m_defPixel;
}
void KisTiledDataManager::setDefaultPixel(const TQ_UINT8 *defPixel)
{
if (defPixel == 0) return;
memcpy(m_defPixel, defPixel, m_pixelSize);
m_defaultTile->setData(m_defPixel);
}
bool KisTiledDataManager::write(KoStore *store)
{
if (store == 0) return false;
//Q_ASSERT(store != 0);
char str[80];
sprintf(str, "%d\n", m_numTiles);
store->write(str,strlen(str));
for(int i = 0; i < 1024; i++)
{
const KisTile *tile = m_hashTable[i];
while(tile)
{
sprintf(str, "%d,%d,%d,%d\n", tile->getCol() * KisTile::WIDTH,
tile->getRow() * KisTile::HEIGHT,
KisTile::WIDTH, KisTile::HEIGHT);
store->write(str,strlen(str));
tile->addReader();
store->write((char *)tile->m_data, KisTile::HEIGHT * KisTile::WIDTH * m_pixelSize);
tile->removeReader();
tile = tile->getNext();
}
}
return true;
}
bool KisTiledDataManager::read(KoStore *store)
{
if (store == 0) return false;
//Q_ASSERT(store != 0);
char str[80];
TQ_INT32 x,y,w,h;
TQIODevice *stream = store->device();
if (stream == 0) return false;
//Q_ASSERT(stream != 0);
stream->readLine(str, 79);
sscanf(str,"%u",&m_numTiles);
for(TQ_UINT32 i = 0; i < m_numTiles; i++)
{
stream->readLine(str, 79);
sscanf(str,"%d,%d,%d,%d",&x,&y,&w,&h);
// the following is only correct as long as tile size is not changed
// The first time we change tilesize the dimensions just read needs to be respected
// but for now we just assume that tiles are the same size as ever.
TQ_INT32 row = yToRow(y);
TQ_INT32 col = xToCol(x);
TQ_UINT32 tileHash = calcTileHash(col, row);
KisTile *tile = new KisTile(m_pixelSize, col, row, m_defPixel);
Q_CHECK_PTR(tile);
updateExtent(col,row);
tile->addReader();
store->read((char *)tile->m_data, KisTile::HEIGHT * KisTile::WIDTH * m_pixelSize);
tile->removeReader();
tile->setNext(m_hashTable[tileHash]);
m_hashTable[tileHash] = tile;
}
return true;
}
void KisTiledDataManager::extent(TQ_INT32 &x, TQ_INT32 &y, TQ_INT32 &w, TQ_INT32 &h) const
{
x = m_extentMinX;
y = m_extentMinY;
if (m_extentMaxX >= m_extentMinX) {
w = m_extentMaxX - m_extentMinX + 1;
} else {
w = 0;
}
if (m_extentMaxY >= m_extentMinY) {
h = m_extentMaxY - m_extentMinY + 1;
} else {
h = 0;
}
}
TQRect KisTiledDataManager::extent() const
{
TQ_INT32 x;
TQ_INT32 y;
TQ_INT32 w;
TQ_INT32 h;
extent(x, y, w, h);
return TQRect(x, y, w, h);
}
void KisTiledDataManager::setExtent(TQ_INT32 x, TQ_INT32 y, TQ_INT32 w, TQ_INT32 h)
{
TQRect newRect = TQRect(x, y, w, h).normalize();
//printRect("newRect", newRect);
TQRect oldRect = TQRect(m_extentMinX, m_extentMinY, m_extentMaxX - m_extentMinX + 1, m_extentMaxY - m_extentMinY + 1).normalize();
//printRect("oldRect", oldRect);
// Do nothing if the desired size is bigger than we currently are: that is handled by the autoextending automatically
if (newRect.contains(oldRect)) return;
// Loop through all tiles, if a tile is wholly outside the extent, add to the memento, then delete it,
// if the tile is partially outside the extent, clear the outside pixels to the default pixel.
for(int tileHash = 0; tileHash < 1024; tileHash++)
{
KisTile *tile = m_hashTable[tileHash];
KisTile *previousTile = 0;
while(tile)
{
TQRect tileRect = TQRect(tile->getCol() * KisTile::WIDTH, tile->getRow() * KisTile::HEIGHT, KisTile::WIDTH, KisTile::HEIGHT);
//printRect("tileRect", tileRect);
if (newRect.contains(tileRect)) {
// Completely inside, do nothing
previousTile = tile;
tile = tile->getNext();
}
else {
ensureTileMementoed(tile->getCol(), tile->getRow(), tileHash, tile);
if (newRect.intersects(tileRect)) {
// Create the intersection of the tile and new rect
TQRect intersection = newRect.intersect(tileRect);
//printRect("intersection", intersection);
intersection.setRect(intersection.x() - tileRect.x(), intersection.y() - tileRect.y(), intersection.width(), intersection.height());
// This can be done a lot more efficiently, no doubt, by clearing runs of pixels to the left and the right of
// the intersecting line.
tile->addReader();
for (int y = 0; y < KisTile::HEIGHT; ++y) {
for (int x = 0; x < KisTile::WIDTH; ++x) {
if (!intersection.contains(x,y)) {
TQ_UINT8 * ptr = tile->data(x, y);
memcpy(ptr, m_defPixel, m_pixelSize);
}
}
}
tile->removeReader();
previousTile = tile;
tile = tile->getNext();
}
else {
KisTile *deltile = tile;
tile = tile->getNext();
m_numTiles--;
if (previousTile)
previousTile->setNext(tile);
else
m_hashTable[tileHash] = tile;
delete deltile;
}
}
}
}
// Set the extent correctly
m_extentMinX = x;
m_extentMinY = y;
m_extentMaxX = x + w - 1;
m_extentMaxY = y + h - 1;
}
void KisTiledDataManager::recalculateExtent()
{
m_extentMinX = TQ_INT32_MAX;
m_extentMinY = TQ_INT32_MAX;
m_extentMaxX = TQ_INT32_MIN;
m_extentMaxY = TQ_INT32_MIN;
// Loop through all tiles.
for (int tileHash = 0; tileHash < 1024; tileHash++)
{
const KisTile *tile = m_hashTable[tileHash];
while (tile)
{
updateExtent(tile->getCol(), tile->getRow());
tile = tile->getNext();
}
}
}
void KisTiledDataManager::clear(TQ_INT32 x, TQ_INT32 y, TQ_INT32 w, TQ_INT32 h, TQ_UINT8 clearValue)
{
if (w < 1 || h < 1) {
return;
}
TQ_INT32 firstColumn = xToCol(x);
TQ_INT32 lastColumn = xToCol(x + w - 1);
TQ_INT32 firstRow = yToRow(y);
TQ_INT32 lastRow = yToRow(y + h - 1);
TQRect clearRect(x, y, w, h);
const TQ_UINT32 rowStride = KisTile::WIDTH * m_pixelSize;
for (TQ_INT32 row = firstRow; row <= lastRow; ++row) {
for (TQ_INT32 column = firstColumn; column <= lastColumn; ++column) {
KisTile *tile = getTile(column, row, true);
TQRect tileRect = tile->extent();
TQRect clearTileRect = clearRect & tileRect;
tile->addReader();
if (clearTileRect == tileRect) {
// Clear whole tile
memset(tile->data(), clearValue, KisTile::WIDTH * KisTile::HEIGHT * m_pixelSize);
} else {
TQ_UINT32 rowsRemaining = clearTileRect.height();
TQ_UINT8 *dst = tile->data(clearTileRect.x() - tileRect.x(), clearTileRect.y() - tileRect.y());
while (rowsRemaining > 0) {
memset(dst, clearValue, clearTileRect.width() * m_pixelSize);
dst += rowStride;
--rowsRemaining;
}
}
tile->removeReader();
}
}
}
void KisTiledDataManager::clear(TQ_INT32 x, TQ_INT32 y, TQ_INT32 w, TQ_INT32 h, const TQ_UINT8 *clearPixel)
{
Q_ASSERT(clearPixel != 0);
if (clearPixel == 0 || w < 1 || h < 1) {
return;
}
bool pixelBytesAreTheSame = true;
for (TQ_UINT32 i = 0; i < m_pixelSize; ++i) {
if (clearPixel[i] != clearPixel[0]) {
pixelBytesAreTheSame = false;
break;
}
}
if (pixelBytesAreTheSame) {
clear(x, y, w, h, clearPixel[0]);
} else {
TQ_INT32 firstColumn = xToCol(x);
TQ_INT32 lastColumn = xToCol(x + w - 1);
TQ_INT32 firstRow = yToRow(y);
TQ_INT32 lastRow = yToRow(y + h - 1);
TQRect clearRect(x, y, w, h);
const TQ_UINT32 rowStride = KisTile::WIDTH * m_pixelSize;
TQ_UINT8 *clearPixelData = 0;
if (w >= KisTile::WIDTH && h >= KisTile::HEIGHT) {
// There might be a whole tile to be cleared so generate a cleared tile.
clearPixelData = new TQ_UINT8[KisTile::WIDTH * KisTile::HEIGHT * m_pixelSize];
TQ_UINT8 *dst = clearPixelData;
TQ_UINT32 pixelsRemaining = KisTile::WIDTH;
// Generate one row
while (pixelsRemaining > 0) {
memcpy(dst, clearPixel, m_pixelSize);
dst += m_pixelSize;
--pixelsRemaining;
}
TQ_UINT32 rowsRemaining = KisTile::HEIGHT - 1;
// Copy to the rest of the rows.
while (rowsRemaining > 0) {
memcpy(dst, clearPixelData, rowStride);
dst += rowStride;
--rowsRemaining;
}
} else {
// Generate one row
TQ_UINT32 maxRunLength = TQMIN(w, KisTile::WIDTH);
clearPixelData = new TQ_UINT8[maxRunLength * m_pixelSize];
TQ_UINT8 *dst = clearPixelData;
TQ_UINT32 pixelsRemaining = maxRunLength;
while (pixelsRemaining > 0) {
memcpy(dst, clearPixel, m_pixelSize);
dst += m_pixelSize;
--pixelsRemaining;
}
}
for (TQ_INT32 row = firstRow; row <= lastRow; ++row) {
for (TQ_INT32 column = firstColumn; column <= lastColumn; ++column) {
KisTile *tile = getTile(column, row, true);
TQRect tileRect = tile->extent();
TQRect clearTileRect = clearRect & tileRect;
if (clearTileRect == tileRect) {
// Clear whole tile
tile->addReader();
memcpy(tile->data(), clearPixelData, KisTile::WIDTH * KisTile::HEIGHT * m_pixelSize);
tile->removeReader();
} else {
TQ_UINT32 rowsRemaining = clearTileRect.height();
tile->addReader();
TQ_UINT8 *dst = tile->data(clearTileRect.x() - tileRect.x(), clearTileRect.y() - tileRect.y());
while (rowsRemaining > 0) {
memcpy(dst, clearPixelData, clearTileRect.width() * m_pixelSize);
dst += rowStride;
--rowsRemaining;
}
tile->removeReader();
}
}
}
delete [] clearPixelData;
}
}
void KisTiledDataManager::clear()
{
// Loop through all tiles, add to the memento, then delete it,
for(int tileHash = 0; tileHash < 1024; tileHash++)
{
const KisTile *tile = m_hashTable[tileHash];
while(tile)
{
ensureTileMementoed(tile->getCol(), tile->getRow(), tileHash, tile);
const KisTile *deltile = tile;
tile = tile->getNext();
delete deltile;
}
m_hashTable[tileHash] = 0;
}
m_numTiles = 0;
// Set the extent correctly
m_extentMinX = TQ_INT32_MAX;
m_extentMinY = TQ_INT32_MAX;
m_extentMaxX = TQ_INT32_MIN;
m_extentMaxY = TQ_INT32_MIN;
}
void KisTiledDataManager::paste(KisDataManagerSP data, TQ_INT32 sx, TQ_INT32 sy, TQ_INT32 dx, TQ_INT32 dy,
TQ_INT32 w, TQ_INT32 h)
{
//CBR_MISSING
sx=sy=dx=dy=w=h;data=0;
}
TQ_UINT32 KisTiledDataManager::calcTileHash(TQ_INT32 col, TQ_INT32 row)
{
return ((row << 5) + (col & 0x1F)) & 0x3FF;
}
KisMementoSP KisTiledDataManager::getMemento()
{
m_currentMemento = new KisMemento(m_pixelSize);
Q_CHECK_PTR(m_currentMemento);
memcpy(m_currentMemento->m_defPixel, m_defPixel, m_pixelSize);
return m_currentMemento;
}
void KisTiledDataManager::rollback(KisMementoSP memento)
{
if (memento == 0) return;
//Q_ASSERT(memento != 0);
if (m_currentMemento != 0) {
// Undo means our current memento is no longer valid so remove it.
m_currentMemento = 0;
}
// Rollback means restoring all of the tiles in the memento to our hashtable.
// But first clear the memento redo hashtable.
// This is nessesary as new changes might have been done since last rollback (automatic filters)
for(int i = 0; i < 1024; i++)
{
memento->deleteAll(memento->m_redoHashTable[i]);
memento->m_redoHashTable[i]=0;
}
// Also clear the table of deleted tiles
memento->clearTilesToDeleteOnRedo();
// Now on to the real rollback
memcpy(memento->m_redoDefPixel, m_defPixel, m_pixelSize);
setDefaultPixel(memento->m_defPixel);
for(int i = 0; i < 1024; i++)
{
KisTile *tile = memento->m_hashTable[i];
while(tile)
{
// The memento has a tile stored that we need to roll back
// Now find the corresponding one in our hashtable
KisTile *curTile = m_hashTable[i];
KisTile *preTile = 0;
while(curTile)
{
if(curTile->getRow() == tile->getRow() && curTile->getCol() == tile->getCol())
{
break;
}
preTile = curTile;
curTile = curTile->getNext();
}
if(curTile)
{
// Remove it from our hashtable
if(preTile)
preTile->setNext(curTile->getNext());
else
m_hashTable[i]= curTile->getNext();
m_numTiles--;
// And put it in the redo hashtable of the memento
curTile->setNext(memento->m_redoHashTable[i]);
memento->m_redoHashTable[i] = curTile;
}
else
{
memento->addTileToDeleteOnRedo(tile->getCol(), tile->getRow());
// As we are pratically adding a new tile we need to update the extent
updateExtent(tile->getCol(), tile->getRow());
}
// Put a copy of the memento tile into our hashtable
curTile = new KisTile(*tile);
Q_CHECK_PTR(curTile);
m_numTiles++;
curTile->setNext(m_hashTable[i]);
m_hashTable[i] = curTile;
tile = tile->getNext();
}
}
if (memento->tileListToDeleteOnUndo() != 0) {
// XXX: We currently add these tiles above, only to delete them again here.
deleteTiles(memento->tileListToDeleteOnUndo());
}
}
void KisTiledDataManager::rollforward(KisMementoSP memento)
{
if (memento == 0) return;
//Q_ASSERT(memento != 0);
if (m_currentMemento != 0) {
// Redo means our current memento is no longer valid so remove it.
m_currentMemento = 0;
}
// Rollforward means restoring all of the tiles in the memento's redo to our hashtable.
setDefaultPixel(memento->m_redoDefPixel);
for(int i = 0; i < 1024; i++)
{
KisTile *tile = memento->m_redoHashTable[i];
while(tile)
{
// The memento has a tile stored that we need to roll forward
// Now find the corresponding one in our hashtable
KisTile *curTile = m_hashTable[i];
KisTile *preTile = 0;
while(curTile)
{
if(curTile->getRow() == tile->getRow() && curTile->getCol() == tile->getCol())
{
break;
}
preTile = curTile;
curTile = curTile->getNext();
}
if (curTile)
{
// Remove it from our hashtable
if(preTile)
preTile->setNext(curTile->getNext());
else
m_hashTable[i]= curTile->getNext();
// And delete it (it's equal to the one stored in the memento's undo)
m_numTiles--;
delete curTile;
}
// Put a copy of the memento tile into our hashtable
curTile = new KisTile(*tile);
Q_CHECK_PTR(curTile);
curTile->setNext(m_hashTable[i]);
m_hashTable[i] = curTile;
m_numTiles++;
updateExtent(curTile->getCol(), curTile->getRow());
tile = tile->getNext();
}
}
// Roll forward also means re-deleting the tiles that was deleted but restored by the undo
if (memento->tileListToDeleteOnRedo() != 0) {
deleteTiles(memento->tileListToDeleteOnRedo());
}
}
void KisTiledDataManager::deleteTiles(const KisMemento::DeletedTile *d)
{
while (d)
{
TQ_UINT32 tileHash = calcTileHash(d->col(), d->row());
KisTile *curTile = m_hashTable[tileHash];
KisTile *preTile = 0;
while(curTile)
{
if(curTile->getRow() == d->row() && curTile->getCol() == d->col())
{
break;
}
preTile = curTile;
curTile = curTile->getNext();
}
if (curTile) {
// Remove it from our hashtable
if(preTile)
preTile->setNext(curTile->getNext());
else
m_hashTable[tileHash] = curTile->getNext();
// And delete it (it's equal to the one stored in the memento's undo)
m_numTiles--;
delete curTile;
}
d = d->next();
}
recalculateExtent();
}
void KisTiledDataManager::ensureTileMementoed(TQ_INT32 col, TQ_INT32 row, TQ_UINT32 tileHash, const KisTile *refTile)
{
if (refTile == 0) return;
//Q_ASSERT(refTile != 0);
// Basically we search for the tile in the current memento, and if it's already there we do nothing, otherwise
// we make a copy of the tile and put it in the current memento
if(!m_currentMemento)
return;
KisTile *tile = m_currentMemento->m_hashTable[tileHash];
while(tile != 0)
{
if(tile->getRow() == row && tile->getCol() == col)
break;
tile = tile->getNext();
}
if(tile)
return; // it has allready been stored
tile = new KisTile(*refTile);
Q_CHECK_PTR(tile);
tile->setNext(m_currentMemento->m_hashTable[tileHash]);
m_currentMemento->m_hashTable[tileHash] = tile;
m_currentMemento->m_numTiles++;
}
void KisTiledDataManager::updateExtent(TQ_INT32 col, TQ_INT32 row)
{
if(m_extentMinX > col * KisTile::WIDTH)
m_extentMinX = col * KisTile::WIDTH;
if(m_extentMaxX < (col+1) * KisTile::WIDTH - 1)
m_extentMaxX = (col+1) * KisTile::WIDTH - 1;
if(m_extentMinY > row * KisTile::HEIGHT)
m_extentMinY = row * KisTile::HEIGHT;
if(m_extentMaxY < (row+1) * KisTile::HEIGHT - 1)
m_extentMaxY = (row+1) * KisTile::HEIGHT - 1;
}
KisTile *KisTiledDataManager::getTile(TQ_INT32 col, TQ_INT32 row, bool writeAccess)
{
TQ_UINT32 tileHash = calcTileHash(col, row);
// Lookup tile in hash table
KisTile *tile = m_hashTable[tileHash];
while(tile != 0)
{
if(tile->getRow() == row && tile->getCol() == col)
break;
tile = tile->getNext();
}
// Might not have been created yet
if(!tile)
{
if(writeAccess)
{
// Create a new tile
tile = new KisTile(*m_defaultTile, col, row);
Q_CHECK_PTR(tile);
tile->setNext(m_hashTable[tileHash]);
m_hashTable[tileHash] = tile;
m_numTiles++;
updateExtent(col, row);
if (m_currentMemento && !m_currentMemento->containsTile(col, row, tileHash)) {
m_currentMemento->addTileToDeleteOnUndo(col, row);
}
}
else
// If only read access then it's enough to share a default tile
tile = m_defaultTile;
}
if(writeAccess)
ensureTileMementoed(col, row, tileHash, tile);
return tile;
}
KisTile *KisTiledDataManager::getOldTile(TQ_INT32 col, TQ_INT32 row, KisTile *def)
{
KisTile *tile = 0;
// Lookup tile in hash table of current memento
if (m_currentMemento)
{
if (!m_currentMemento->valid()) return def;
//Q_ASSERT(m_currentMemento->valid());
TQ_UINT32 tileHash = calcTileHash(col, row);
tile = m_currentMemento->m_hashTable[tileHash];
while (tile != 0)
{
if (tile->getRow() == row && tile->getCol() == col)
break;
tile = tile->getNext();
}
}
if (!tile)
tile = def;
return tile;
}
TQ_UINT8* KisTiledDataManager::pixelPtr(TQ_INT32 x, TQ_INT32 y, bool writable)
{
// Ahem, this is a bit not as good. The point is, this function needs the tile data,
// but it might be swapped out. This code swaps it in, but at function exit it might
// be swapped out again! THIS MAKES THE RETURNED POINTER TQUITE VOLATILE
return pixelPtrSafe(x, y, writable) -> data();
}
KisTileDataWrapperSP KisTiledDataManager::pixelPtrSafe(TQ_INT32 x, TQ_INT32 y, bool writable) {
TQ_INT32 row = yToRow(y);
TQ_INT32 col = xToCol(x);
// calc limits within the tile
TQ_INT32 yInTile = y - row * KisTile::HEIGHT;
TQ_INT32 xInTile = x - col * KisTile::WIDTH;
TQ_INT32 offset = m_pixelSize * (yInTile * KisTile::WIDTH + xInTile);
KisTile *tile = getTile(col, row, writable);
return new KisTileDataWrapper(tile, offset);
}
const TQ_UINT8* KisTiledDataManager::pixel(TQ_INT32 x, TQ_INT32 y)
{
return pixelPtr(x, y, false);
}
TQ_UINT8* KisTiledDataManager::writablePixel(TQ_INT32 x, TQ_INT32 y)
{
return pixelPtr(x, y, true);
}
void KisTiledDataManager::setPixel(TQ_INT32 x, TQ_INT32 y, const TQ_UINT8 * data)
{
TQ_UINT8 *pixel = pixelPtr(x, y, true);
memcpy(pixel, data, m_pixelSize);
}
void KisTiledDataManager::readBytes(TQ_UINT8 * data,
TQ_INT32 x, TQ_INT32 y,
TQ_INT32 w, TQ_INT32 h)
{
if (data == 0) return;
//Q_ASSERT(data != 0);
if (w < 0)
w = 0;
if (h < 0)
h = 0;
TQ_INT32 dstY = 0;
TQ_INT32 srcY = y;
TQ_INT32 rowsRemaining = h;
while (rowsRemaining > 0) {
TQ_INT32 dstX = 0;
TQ_INT32 srcX = x;
TQ_INT32 columnsRemaining = w;
TQ_INT32 numContiguousSrcRows = numContiguousRows(srcY, srcX, srcX + w - 1);
TQ_INT32 rows = TQMIN(numContiguousSrcRows, rowsRemaining);
while (columnsRemaining > 0) {
TQ_INT32 numContiguousSrcColumns = numContiguousColumns(srcX, srcY, srcY + rows - 1);
TQ_INT32 columns = TQMIN(numContiguousSrcColumns, columnsRemaining);
KisTileDataWrapperSP tileData = pixelPtrSafe(srcX, srcY, false);
const TQ_UINT8 *srcData = tileData -> data();
TQ_INT32 srcRowStride = rowStride(srcX, srcY);
TQ_UINT8 *dstData = data + ((dstX + (dstY * w)) * m_pixelSize);
TQ_INT32 dstRowStride = w * m_pixelSize;
for (TQ_INT32 row = 0; row < rows; row++) {
memcpy(dstData, srcData, columns * m_pixelSize);
dstData += dstRowStride;
srcData += srcRowStride;
}
srcX += columns;
dstX += columns;
columnsRemaining -= columns;
}
srcY += rows;
dstY += rows;
rowsRemaining -= rows;
}
}
void KisTiledDataManager::writeBytes(const TQ_UINT8 * bytes,
TQ_INT32 x, TQ_INT32 y,
TQ_INT32 w, TQ_INT32 h)
{
if (bytes == 0) return;
//Q_ASSERT(bytes != 0);
// XXX: Is this correct?
if (w < 0)
w = 0;
if (h < 0)
h = 0;
TQ_INT32 srcY = 0;
TQ_INT32 dstY = y;
TQ_INT32 rowsRemaining = h;
while (rowsRemaining > 0) {
TQ_INT32 srcX = 0;
TQ_INT32 dstX = x;
TQ_INT32 columnsRemaining = w;
TQ_INT32 numContiguousdstRows = numContiguousRows(dstY, dstX, dstX + w - 1);
TQ_INT32 rows = TQMIN(numContiguousdstRows, rowsRemaining);
while (columnsRemaining > 0) {
TQ_INT32 numContiguousdstColumns = numContiguousColumns(dstX, dstY, dstY + rows - 1);
TQ_INT32 columns = TQMIN(numContiguousdstColumns, columnsRemaining);
//TQ_UINT8 *dstData = writablePixel(dstX, dstY);
KisTileDataWrapperSP tileData = pixelPtrSafe(dstX, dstY, true);
TQ_UINT8 *dstData = tileData->data();
TQ_INT32 dstRowStride = rowStride(dstX, dstY);
const TQ_UINT8 *srcData = bytes + ((srcX + (srcY * w)) * m_pixelSize);
TQ_INT32 srcRowStride = w * m_pixelSize;
for (TQ_INT32 row = 0; row < rows; row++) {
memcpy(dstData, srcData, columns * m_pixelSize);
srcData += srcRowStride;
dstData += dstRowStride;
}
dstX += columns;
srcX += columns;
columnsRemaining -= columns;
}
dstY += rows;
srcY += rows;
rowsRemaining -= rows;
}
}
TQ_INT32 KisTiledDataManager::numContiguousColumns(TQ_INT32 x, TQ_INT32 minY, TQ_INT32 maxY)
{
TQ_INT32 numColumns;
Q_UNUSED(minY);
Q_UNUSED(maxY);
if (x >= 0) {
numColumns = KisTile::WIDTH - (x % KisTile::WIDTH);
} else {
numColumns = ((-x - 1) % KisTile::WIDTH) + 1;
}
return numColumns;
}
TQ_INT32 KisTiledDataManager::numContiguousRows(TQ_INT32 y, TQ_INT32 minX, TQ_INT32 maxX)
{
TQ_INT32 numRows;
Q_UNUSED(minX);
Q_UNUSED(maxX);
if (y >= 0) {
numRows = KisTile::HEIGHT - (y % KisTile::HEIGHT);
} else {
numRows = ((-y - 1) % KisTile::HEIGHT) + 1;
}
return numRows;
}
TQ_INT32 KisTiledDataManager::rowStride(TQ_INT32 x, TQ_INT32 y)
{
Q_UNUSED(x);
Q_UNUSED(y);
return KisTile::WIDTH * m_pixelSize;
}
TQ_INT32 KisTiledDataManager::numTiles(void) const
{
return m_numTiles;
}
KisTileDataWrapper::KisTileDataWrapper(KisTile* tile, TQ_INT32 offset)
: m_tile(tile), m_offset(offset)
{
m_tile->addReader();
}
KisTileDataWrapper::~KisTileDataWrapper()
{
m_tile->removeReader();
}
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