#include "trastercm.h"
#include "toonz/fill.h"
#include "toonz/ttilesaver.h"
#include "tpalette.h"
#include "tpixelutils.h"
#include <stack>
//-----------------------------------------------------------------------------
namespace
{ // Utility Function
//-----------------------------------------------------------------------------
inline TPoint nearestInkNotDiagonal(const TRasterCM32P &r, const TPoint &p)
{
TPixelCM32 *buf = (TPixelCM32 *)r->pixels(p.y) + p.x;
if (p.x < r->getLx() - 1 && (!(buf + 1)->isPurePaint()))
return TPoint(p.x + 1, p.y);
if (p.x > 0 && (!(buf - 1)->isPurePaint()))
return TPoint(p.x - 1, p.y);
if (p.y < r->getLy() - 1 && (!(buf + r->getWrap())->isPurePaint()))
return TPoint(p.x, p.y + 1);
if (p.y > 0 && (!(buf - r->getWrap())->isPurePaint()))
return TPoint(p.x, p.y - 1);
return TPoint(-1, -1);
}
// dal punto x,y si espande a destra e a sinistra.
// la riga ridisegnata va da *xa a *xb compresi
// x1 <= *xa <= *xb <= x2
// N.B. se non viene disegnato neanche un pixel *xa>*xb
void fillRow(const TRasterCM32P &r, const TPoint &p, int &xa, int &xb, int paint, TPalette *palette,
TTileSaverCM32 *saver)
{
int tone, oldtone;
TPixelCM32 *pix, *pix0, *limit, *tmp_limit;
/* vai a destra */
TPixelCM32 *line = r->pixels(p.y);
pix0 = line + p.x;
pix = pix0;
limit = line + r->getBounds().x1;
oldtone = pix->getTone();
tone = oldtone;
for (; pix <= limit; pix++) {
if (pix->getPaint() == paint)
break;
tone = pix->getTone();
if (tone > oldtone || tone == 0)
break;
oldtone = tone;
}
if (tone == 0) {
tmp_limit = pix + 10; //edge stop fill == 10 per default
if (limit > tmp_limit)
limit = tmp_limit;
for (; pix <= limit; pix++) {
if (pix->getPaint() == paint)
break;
if (pix->getTone() != 0)
break;
}
}
xb = p.x + pix - pix0 - 1;
/* vai a sinistra */
pix = pix0;
limit = line + r->getBounds().x0;
oldtone = pix->getTone();
tone = oldtone;
for (pix--; pix >= limit; pix--) {
if (pix->getPaint() == paint)
break;
tone = pix->getTone();
if (tone > oldtone || tone == 0)
break;
oldtone = tone;
}
if (tone == 0) {
tmp_limit = pix - 10;
if (limit < tmp_limit)
limit = tmp_limit;
for (; pix >= limit; pix--) {
if (pix->getPaint() == paint)
break;
if (pix->getTone() != 0)
break;
}
}
xa = p.x + pix - pix0 + 1;
if (saver)
saver->save(TRect(xa, p.y, xb, p.y));
if (xb >= xa) {
pix = line + xa;
int n;
for (n = 0; n < xb - xa + 1; n++, pix++) {
if (palette && pix->isPurePaint()) {
TPoint pInk = nearestInkNotDiagonal(r, TPoint(xa + n, p.y));
if (pInk != TPoint(-1, -1)) {
TPixelCM32 *pixInk = (TPixelCM32 *)r->getRawData() + (pInk.y * r->getWrap() + pInk.x);
if (pixInk->getInk() != paint && palette->getStyle(pixInk->getInk())->getFlags() != 0)
inkFill(r, pInk, paint, 0, saver);
}
}
pix->setPaint(paint);
}
}
}
//-----------------------------------------------------------------------------
void findSegment(const TRaster32P &r, const TPoint &p, int &xa, int &xb, const TPixel32 &color)
{
int matte, oldmatte;
TPixel32 *pix, *pix0, *limit, *tmp_limit;
/* vai a destra */
TPixel32 *line = r->pixels(p.y);
pix0 = line + p.x;
pix = pix0;
limit = line + r->getBounds().x1;
oldmatte = pix->m;
matte = oldmatte;
for (; pix <= limit; pix++) {
if (*pix == color)
break;
matte = pix->m;
if (matte < oldmatte || matte == 255)
break;
oldmatte = matte;
}
if (matte == 0) {
tmp_limit = pix + 10; //edge stop fill == 10 per default
if (limit > tmp_limit)
limit = tmp_limit;
for (; pix <= limit; pix++) {
if (*pix == color)
break;
if (pix->m != 255)
break;
}
}
xb = p.x + pix - pix0 - 1;
/* vai a sinistra */
pix = pix0;
limit = line + r->getBounds().x0;
oldmatte = pix->m;
matte = oldmatte;
for (; pix >= limit; pix--) {
if (*pix == color)
break;
matte = pix->m;
if (matte < oldmatte || matte == 255)
break;
oldmatte = matte;
}
if (matte == 0) {
tmp_limit = pix - 10;
if (limit < tmp_limit)
limit = tmp_limit;
for (; pix >= limit; pix--) {
if (*pix == color)
break;
if (pix->m != 255)
break;
}
}
xa = p.x + pix - pix0 + 1;
}
//-----------------------------------------------------------------------------
class FillSeed
{
public:
int m_xa, m_xb;
int m_y, m_dy;
FillSeed(int xa, int xb, int y, int dy)
: m_xa(xa), m_xb(xb), m_y(y), m_dy(dy) {}
};
//-----------------------------------------------------------------------------
inline int threshTone(const TPixelCM32 &pix, int fillDepth)
{
if (fillDepth == TPixelCM32::getMaxTone())
return pix.getTone();
else
return ((pix.getTone()) > fillDepth) ? TPixelCM32::getMaxTone() : pix.getTone();
}
//-----------------------------------------------------------------------------
inline int threshMatte(int matte, int fillDepth)
{
if (fillDepth == 255)
return matte;
else
return (matte < fillDepth) ? 255 : matte;
}
//-----------------------------------------------------------------------------
bool isPixelInSegment(const std::vector<std::pair<int, int>> &segments, int x)
{
for (int i = 0; i < (int)segments.size(); i++) {
std::pair<int, int> segment = segments[i];
if (segment.first <= x && x <= segment.second)
return true;
}
return false;
}
//-----------------------------------------------------------------------------
void insertSegment(std::vector<std::pair<int, int>> &segments, const std::pair<int, int> segment)
{
for (int i = segments.size() - 1; i >= 0; i--) {
std::pair<int, int> app = segments[i];
if (segment.first <= app.first && app.second <= segment.second)
segments.erase(segments.begin() + i);
}
segments.push_back(segment);
}
//-----------------------------------------------------------------------------
} //namespace
//-----------------------------------------------------------------------------
/*-- 戻り値はsaveBoxが更新されたかどうか --*/
bool fill(const TRasterCM32P &r, const FillParameters ¶ms, TTileSaverCM32 *saver)
{
TPixelCM32 *pix, *limit, *pix0, *oldpix;
int oldy, xa, xb, xc, xd, dy;
int oldxc, oldxd;
int tone, oldtone;
TPoint p = params.m_p;
int x = p.x, y = p.y;
int paint = params.m_styleId;
int fillDepth = params.m_shiftFill ? params.m_maxFillDepth : params.m_minFillDepth;
/*-- getBoundsは画像全面 --*/
TRect bbbox = r->getBounds();
/*- 画面外のクリックの場合はreturn -*/
if (!bbbox.contains(p))
return false;
/*- 既に同じ色が塗られている場合はreturn -*/
if ((r->pixels(p.y) + p.x)->getPaint() == paint)
return false;
/*- 「透明部分だけを塗る」オプションが有効で、既に色が付いている場合はreturn -*/
if (params.m_emptyOnly && (r->pixels(p.y) + p.x)->getPaint() != 0)
return false;
assert(fillDepth >= 0 && fillDepth < 16);
switch (TPixelCM32::getMaxTone()) {
case 15:
fillDepth = (15 - fillDepth);
break;
case 255:
fillDepth = ((15 - fillDepth) << 4) | (15 - fillDepth);
break;
default:
assert(false);
}
/*-- 四隅の色を見て、一つでも変わったらsaveBoxを更新する --*/
TPixelCM32 borderIndex[4];
TPixelCM32 *borderPix[4];
pix = r->pixels(0);
borderPix[0] = pix;
borderIndex[0] = *pix;
pix += r->getLx() - 1;
borderPix[1] = pix;
borderIndex[1] = *pix;
pix = r->pixels(r->getLy() - 1);
borderPix[2] = pix;
borderIndex[2] = *pix;
pix += r->getLx() - 1;
borderPix[3] = pix;
borderIndex[3] = *pix;
std::stack<FillSeed> seeds;
fillRow(r, p, xa, xb, paint, params.m_palette, saver);
seeds.push(FillSeed(xa, xb, y, 1));
seeds.push(FillSeed(xa, xb, y, -1));
while (!seeds.empty()) {
FillSeed fs = seeds.top();
seeds.pop();
xa = fs.m_xa;
xb = fs.m_xb;
oldy = fs.m_y;
dy = fs.m_dy;
y = oldy + dy;
if (y > bbbox.y1 || y < bbbox.y0)
continue;
pix = pix0 = r->pixels(y) + xa;
limit = r->pixels(y) + xb;
oldpix = r->pixels(oldy) + xa;
x = xa;
oldxd = (std::numeric_limits<int>::min)();
oldxc = (std::numeric_limits<int>::max)();
while (pix <= limit) {
oldtone = threshTone(*oldpix, fillDepth);
tone = threshTone(*pix, fillDepth);
if (pix->getPaint() != paint && tone <= oldtone && tone != 0) {
fillRow(r, TPoint(x, y), xc, xd, paint, params.m_palette, saver);
if (xc < xa)
seeds.push(FillSeed(xc, xa - 1, y, -dy));
if (xd > xb)
seeds.push(FillSeed(xb + 1, xd, y, -dy));
if (oldxd >= xc - 1)
oldxd = xd;
else {
if (oldxd >= 0)
seeds.push(FillSeed(oldxc, oldxd, y, dy));
oldxc = xc;
oldxd = xd;
}
pix += xd - x + 1;
oldpix += xd - x + 1;
x += xd - x + 1;
} else {
pix++;
oldpix++, x++;
}
}
if (oldxd > 0)
seeds.push(FillSeed(oldxc, oldxd, y, dy));
}
bool saveBoxChanged = false;
for (int i = 0; i < 4; i++) {
if (!((*borderPix[i]) == borderIndex[i])) {
saveBoxChanged = true;
break;
}
}
return saveBoxChanged;
}
//-----------------------------------------------------------------------------
void fill(const TRaster32P &ras, const TRaster32P &ref, const FillParameters ¶ms, TTileSaverFullColor *saver)
{
TPixel32 *pix, *limit, *pix0, *oldpix;
int oldy, xa, xb, xc, xd, dy;
int oldxc, oldxd;
int matte, oldMatte;
int x = params.m_p.x, y = params.m_p.y;
TRaster32P workRas = ref ? ref : ras;
TRect bbbox = workRas->getBounds();
if (!bbbox.contains(params.m_p))
return;
TPaletteP plt = params.m_palette;
TPixel32 color = plt->getStyle(params.m_styleId)->getMainColor();
int fillDepth = params.m_shiftFill ? params.m_maxFillDepth : params.m_minFillDepth;
assert(fillDepth >= 0 && fillDepth < 16);
fillDepth = ((15 - fillDepth) << 4) | (15 - fillDepth);
//looking for any pure transparent pixel along the border; if after filling that pixel will be changed,
//it means that I filled the bg and the savebox needs to be recomputed!
TPixel32 borderIndex;
TPixel32 *borderPix = 0;
pix = workRas->pixels(0);
int i;
for (i = 0; i < workRas->getLx(); i++, pix++) //border down
if (pix->m == 0) {
borderIndex = *pix;
borderPix = pix;
break;
}
if (borderPix == 0) //not found in border down...try border up (avoid left and right borders...so unlikely)
{
pix = workRas->pixels(workRas->getLy() - 1);
for (i = 0; i < workRas->getLx(); i++, pix++) //border up
if (pix->m == 0) {
borderIndex = *pix;
borderPix = pix;
break;
}
}
std::stack<FillSeed> seeds;
std::map<int, std::vector<std::pair<int, int>>> segments;
//fillRow(r, params.m_p, xa, xb, color ,saver);
findSegment(workRas, params.m_p, xa, xb, color);
segments[y].push_back(std::pair<int, int>(xa, xb));
seeds.push(FillSeed(xa, xb, y, 1));
seeds.push(FillSeed(xa, xb, y, -1));
while (!seeds.empty()) {
FillSeed fs = seeds.top();
seeds.pop();
xa = fs.m_xa;
xb = fs.m_xb;
oldy = fs.m_y;
dy = fs.m_dy;
y = oldy + dy;
if (y > bbbox.y1 || y < bbbox.y0)
continue;
pix = pix0 = workRas->pixels(y) + xa;
limit = workRas->pixels(y) + xb;
oldpix = workRas->pixels(oldy) + xa;
x = xa;
oldxd = (std::numeric_limits<int>::min)();
oldxc = (std::numeric_limits<int>::max)();
while (pix <= limit) {
oldMatte = threshMatte(oldpix->m, fillDepth);
matte = threshMatte(pix->m, fillDepth);
bool test = false;
if (segments.find(y) != segments.end())
test = isPixelInSegment(segments[y], x);
if (*pix != color && !test && matte >= oldMatte && matte != 255) {
findSegment(workRas, TPoint(x, y), xc, xd, color);
//segments[y].push_back(std::pair<int,int>(xc, xd));
insertSegment(segments[y], std::pair<int, int>(xc, xd));
if (xc < xa)
seeds.push(FillSeed(xc, xa - 1, y, -dy));
if (xd > xb)
seeds.push(FillSeed(xb + 1, xd, y, -dy));
if (oldxd >= xc - 1)
oldxd = xd;
else {
if (oldxd >= 0)
seeds.push(FillSeed(oldxc, oldxd, y, dy));
oldxc = xc;
oldxd = xd;
}
pix += xd - x + 1;
oldpix += xd - x + 1;
x += xd - x + 1;
} else {
pix++;
oldpix++, x++;
}
}
if (oldxd > 0)
seeds.push(FillSeed(oldxc, oldxd, y, dy));
}
std::map<int, std::vector<std::pair<int, int>>>::iterator it;
for (it = segments.begin(); it != segments.end(); it++) {
TPixel32 *line = ras->pixels(it->first);
TPixel32 *refLine = 0;
TPixel32 *refPix;
if (ref)
refLine = ref->pixels(it->first);
std::vector<std::pair<int, int>> segmentVector = it->second;
for (int i = 0; i < (int)segmentVector.size(); i++) {
std::pair<int, int> segment = segmentVector[i];
if (segment.second >= segment.first) {
pix = line + segment.first;
if (ref)
refPix = refLine + segment.first;
int n;
for (n = 0; n < segment.second - segment.first + 1; n++, pix++) {
if (ref) {
*pix = *refPix;
refPix++;
} else
*pix = pix->m == 0 ? color : overPix(color, *pix);
}
}
}
}
}
//-----------------------------------------------------------------------------
void rectFill(const TRaster32P &ras, const TRect &r, const TPixel32 &color)
{
}
//-----------------------------------------------------------------------------
TPoint nearestInk(const TRasterCM32P &r, const TPoint &p, int ray)
{
int i, j;
TPixelCM32 *buf = (TPixelCM32 *)r->getRawData();
for (j = std::max(p.y - ray, 0); j <= std::min(p.y + ray, r->getLy() - 1); j++)
for (i = std::max(p.x - ray, 0); i <= std::min(p.x + ray, r->getLx() - 1); i++)
if (!(buf + j * r->getWrap() + i)->isPurePaint())
return TPoint(i, j);
return TPoint(-1, -1);
}
//-----------------------------------------------------------------------------
void inkFill(const TRasterCM32P &r, const TPoint &pin, int ink, int searchRay,
TTileSaverCM32 *saver, TRect *insideRect)
{
r->lock();
TPixelCM32 *pixels = (TPixelCM32 *)r->getRawData();
int oldInk;
TPoint p = pin;
if ((pixels + p.y * r->getWrap() + p.x)->isPurePaint() && (searchRay == 0 ||
(p = nearestInk(r, p, searchRay)) == TPoint(-1, -1))) {
r->unlock();
return;
}
TPixelCM32 *pix = pixels + (p.y * r->getWrap() + p.x);
if (pix->getInk() == ink) {
r->unlock();
return;
}
oldInk = pix->getInk();
std::stack<TPoint> seeds;
seeds.push(p);
while (!seeds.empty()) {
p = seeds.top();
seeds.pop();
if (!r->getBounds().contains(p))
continue;
if (insideRect && !insideRect->contains(p))
continue;
TPixelCM32 *pix = pixels + (p.y * r->getWrap() + p.x);
if (pix->isPurePaint() || pix->getInk() != oldInk)
continue;
if (saver)
saver->save(p);
pix->setInk(ink);
seeds.push(TPoint(p.x - 1, p.y - 1));
seeds.push(TPoint(p.x - 1, p.y));
seeds.push(TPoint(p.x - 1, p.y + 1));
seeds.push(TPoint(p.x, p.y - 1));
seeds.push(TPoint(p.x, p.y + 1));
seeds.push(TPoint(p.x + 1, p.y - 1));
seeds.push(TPoint(p.x + 1, p.y));
seeds.push(TPoint(p.x + 1, p.y + 1));
}
r->unlock();
}