#include <sstream> /* std::ostringstream */
#include "tfxparam.h"
#include "stdfx.h"
#include "ino_common.h"
namespace {
const double smoothing_edge_ = 1.0;
}
//------------------------------------------------------------
class ino_maxmin final : public TStandardRasterFx {
FX_PLUGIN_DECLARATION(ino_maxmin)
TRasterFxPort m_input;
TRasterFxPort m_refer;
TIntEnumParamP m_max_min_select;
TDoubleParamP m_radius;
TDoubleParamP m_polygon_number;
TDoubleParamP m_degree;
TBoolParamP m_alpha_rendering;
TIntEnumParamP m_ref_mode;
public:
ino_maxmin()
: m_max_min_select(new TIntEnumParam(0, "Max"))
, m_radius(1.0)
/* 1mmにしたければ 1.0 * 640. / 12. / 25.4 とする
0.35 = mm = ユーザ指定の初期値
640/12 = 53.33333 = toonz独自の係数 =tunit.cpp参照
25.4 = mm/inch
*/
, m_polygon_number(2.0)
, m_degree(0.0)
, m_alpha_rendering(true)
, m_ref_mode(new TIntEnumParam()) {
this->m_radius->setMeasureName("fxLength");
addInputPort("Source", this->m_input);
addInputPort("Reference", this->m_refer);
bindParam(this, "max_min_select", this->m_max_min_select);
bindParam(this, "radius", this->m_radius);
bindParam(this, "polygon_number", this->m_polygon_number);
bindParam(this, "degree", this->m_degree);
bindParam(this, "alpha_rendering", this->m_alpha_rendering);
bindParam(this, "reference", this->m_ref_mode);
this->m_max_min_select->addItem(1, "Min");
this->m_radius->setValueRange(0.0, 100.0);
this->m_polygon_number->setValueRange(2.0, 16.0);
this->m_degree->setValueRange(0.0, std::numeric_limits<double>::max());
this->m_ref_mode->addItem(0, "Red");
this->m_ref_mode->addItem(1, "Green");
this->m_ref_mode->addItem(2, "Blue");
this->m_ref_mode->addItem(3, "Alpha");
this->m_ref_mode->addItem(4, "Luminance");
this->m_ref_mode->addItem(-1, "Nothing");
this->m_ref_mode->setDefaultValue(0);
this->m_ref_mode->setValue(0);
enableComputeInFloat(true);
}
bool doGetBBox(double frame, TRectD &bBox,
const TRenderSettings &info) override {
if (this->m_input.isConnected()) {
const bool ret = this->m_input->doGetBBox(frame, bBox, info);
const double margin =
ceil(ino::pixel_per_mm() *
(this->m_radius->getValue(frame) + smoothing_edge_));
if (0.0 < margin) {
bBox = bBox.enlarge(margin);
}
return ret;
} else {
bBox = TRectD();
return false;
}
}
bool canHandle(const TRenderSettings &info, double frame) override {
return true;
}
int getMemoryRequirement(const TRectD &rect, double frame,
const TRenderSettings &info) override {
const double radius = (this->m_radius->getValue(frame) + smoothing_edge_) *
ino::pixel_per_mm() *
sqrt(fabs(info.m_affine.det())) /
((info.m_shrinkX + info.m_shrinkY) / 2.0);
return TRasterFx::memorySize(rect.enlarge(ceil(radius) + 0.5), info.m_bpp);
}
void doCompute(TTile &tile, double frame,
const TRenderSettings &rend_sets) override;
};
FX_PLUGIN_IDENTIFIER(ino_maxmin, "inoMaxMinFx");
//------------------------------------------------------------
#include "igs_maxmin.h"
namespace {
void fx_(const TRasterP in_ras // with margin
,
const int margin, TRasterP out_ras // no margin
,
const TRasterP refer_ras, const int refer_mode
,
const int min_sw, const double radius, const double smoothing_edge,
const int npolygon, const double degree, const bool alp_rend_sw
,
const int nthread) {
TRasterGR8P out_gr8(
in_ras->getLy(),
in_ras->getLx() * ino::channels() *
((TRaster64P)in_ras ? sizeof(unsigned short)
: (TRaster32P)in_ras ? sizeof(unsigned char)
: sizeof(float))); // TRasterFP case
out_gr8->lock();
igs::maxmin::convert(
in_ras->getRawData() // BGRA
,
out_gr8->getRawData()
,
in_ras->getLy(), in_ras->getLx(), ino::channels(), ino::bits(in_ras)
,
(((refer_ras != nullptr) && (0 <= refer_mode)) ? refer_ras->getRawData()
: nullptr) // BGRA
,
(((refer_ras != nullptr) && (0 <= refer_mode)) ? ino::bits(refer_ras) : 0)
,
refer_mode, radius, smoothing_edge // smooth_outer_range
,
npolygon, degree + 180.0
,
min_sw, alp_rend_sw, false
,
nthread);
ino::arr_to_ras(out_gr8->getRawData(), ino::channels(), out_ras, margin);
out_gr8->unlock();
}
} // namespace
//------------------------------------------------------------
void ino_maxmin::doCompute(TTile &tile, double frame,
const TRenderSettings &rend_sets) {
/* ------ 接続していなければ処理しない -------------------- */
if (!this->m_input.isConnected()) {
tile.getRaster()->clear(); /* 塗りつぶしクリア */
return;
}
/* ------ サポートしていないPixelタイプはエラーを投げる --- */
if (!((TRaster32P)tile.getRaster()) && !((TRaster64P)tile.getRaster()) &&
!((TRasterFP)tile.getRaster())) {
throw TRopException("unsupported input pixel type");
}
/* ------ Pixel単位で動作パラメータを得る ----------------- */
const double mm2scale_shrink_pixel =
ino::pixel_per_mm() * sqrt(fabs(rend_sets.m_affine.det())) /
((rend_sets.m_shrinkX + rend_sets.m_shrinkY) / 2.0);
/* 動作パラメータを得る */
const int min_sw = this->m_max_min_select->getValue(); // 0,1
const double radius = this->m_radius->getValue(frame) * mm2scale_shrink_pixel;
const int npolygon = this->m_polygon_number->getValue(frame);
const double degree = this->m_degree->getValue(frame);
const bool alp_rend_sw = this->m_alpha_rendering->getValue();
const int refer_mode = this->m_ref_mode->getValue();
/* tcomposer(RenderManager)でRenderingするときはthreadは1つ、
toonz(Desktop)でPreview,Outputするなら-1を指定
-1は自動でthread数を決めCPUを最大に使い高速化 */
const int nthread = -1;
/* ------ 参照マージン含めた画像生成 ---------------------- */
/* Rendering画像のBBox値 --> Pixel単位のdouble値 */
/* typedef TRectT<double> TRectD;
inline TRectT<double>::TRectT(
const TPointT<double> &bottomLeft
, const TDimensionT<double> &d
) : x0(bottomLeft.x)
, y0(bottomLeft.y)
, x1(bottomLeft.x+d.lx)
, y1(bottomLeft.y+d.ly)
{}
*/
TRectD enlarge_rect =
TRectD(tile.m_pos /* TPointD */
,
TDimensionD(/* int --> doubleにしてセット */
tile.getRaster()->getLx(), tile.getRaster()->getLy()));
/* BBoxの拡大 Pixel単位 */
const int enlarge_pixel = (int)(ceil(radius + smoothing_edge_) + 0.5);
enlarge_rect = enlarge_rect.enlarge(enlarge_pixel);
/* void TRasterFx::allocateAndCompute(
TTile &tile,
const TPointD &pos, const TDimension &size,
const TRasterP &templateRas, double frame,
const TRenderSettings &info
) {
if (templateRas) {
tile.getRaster() = templateRas->create(size.lx, size.ly);
} else {
tile.getRaster() = TRaster32P(size.lx, size.ly);
}
tile.m_pos = pos;
compute(tile, frame, info);
}
*/
TTile enlarge_tile;
this->m_input->allocateAndCompute(
enlarge_tile, enlarge_rect.getP00(),
TDimensionI(/* Pixel単位のdouble -> intにしてセット */
(int)(enlarge_rect.getLx() + 0.5),
(int)(enlarge_rect.getLy() + 0.5)),
tile.getRaster(), frame, rend_sets);
/*------ 参照画像生成 --------------------------------------*/
TTile refer_tile;
bool refer_sw = false;
if (this->m_refer.isConnected()) {
refer_sw = true;
this->m_refer->allocateAndCompute(
refer_tile, enlarge_tile.m_pos,
TDimensionI(/* Pixel単位 */
enlarge_tile.getRaster()->getLx(),
enlarge_tile.getRaster()->getLy()),
enlarge_tile.getRaster(), frame, rend_sets);
}
/* ------ 保存すべき画像メモリを塗りつぶしクリア ---------- */
tile.getRaster()->clear(); /* 塗りつぶしクリア */
/* ------ (app_begin)log記憶 ------------------------------ */
const bool log_sw = ino::log_enable_sw();
if (log_sw) {
std::ostringstream os;
os << "params"
<< " min_sw " << min_sw << " radius " << radius << " npolygon "
<< npolygon << " degree " << degree << " alp_rend_sw " << alp_rend_sw
<< " smoothing_edge " << smoothing_edge_ << " nthread " << nthread
<< " refer_mode " << refer_mode << " tile w "
<< tile.getRaster()->getLx() << " h " << tile.getRaster()->getLy()
<< " pixbits " << ino::pixel_bits(tile.getRaster()) << " frame "
<< frame << " rand_sets affine_det " << rend_sets.m_affine.det()
<< " shrink x " << rend_sets.m_shrinkX << " y " << rend_sets.m_shrinkY;
if (refer_sw) {
os << " refer_tile.m_pos " << refer_tile.m_pos << " refer_tile_getLx "
<< refer_tile.getRaster()->getLx() << " y "
<< refer_tile.getRaster()->getLy();
}
}
/* ------ fx処理 ------------------------------------------ */
try {
tile.getRaster()->lock();
enlarge_tile.getRaster()->lock();
if (refer_tile.getRaster() != nullptr) {
refer_tile.getRaster()->lock();
}
fx_(enlarge_tile.getRaster() // in with margin
,
enlarge_pixel // margin
,
tile.getRaster() // out with no margin
,
refer_tile.getRaster(), refer_mode
,
min_sw, radius, smoothing_edge_, npolygon, degree, alp_rend_sw
,
nthread);
if (refer_tile.getRaster() != nullptr) {
refer_tile.getRaster()->unlock();
}
enlarge_tile.getRaster()->unlock();
tile.getRaster()->unlock();
}
/* ------ error処理 --------------------------------------- */
catch (std::bad_alloc &e) {
if (refer_tile.getRaster() != nullptr) {
refer_tile.getRaster()->unlock();
}
enlarge_tile.getRaster()->unlock();
tile.getRaster()->unlock();
if (log_sw) {
std::string str("std::bad_alloc <");
str += e.what();
str += '>';
}
throw;
} catch (std::exception &e) {
if (refer_tile.getRaster() != nullptr) {
refer_tile.getRaster()->unlock();
}
enlarge_tile.getRaster()->unlock();
tile.getRaster()->unlock();
if (log_sw) {
std::string str("exception <");
str += e.what();
str += '>';
}
throw;
} catch (...) {
if (refer_tile.getRaster() != nullptr) {
refer_tile.getRaster()->unlock();
}
enlarge_tile.getRaster()->unlock();
tile.getRaster()->unlock();
if (log_sw) {
std::string str("other exception");
}
throw;
}
}