#include "toonz/tcamera.h"
#include "toonz/stage.h"
#include "tstream.h"
#include "texception.h"
//=============================================================================
// TCamera
TCamera::TCamera()
//: m_size(12, 9), m_res(768, 576), m_xPrevalence(true)
//: m_size(36, 20.25),
: m_size(16, 9),
m_res(1920, 1080),
m_xPrevalence(true) {}
//-------------------------------------------------------------------
void TCamera::setSize(const TDimensionD &size, bool preserveDpi,
bool preserveAR) {
double currAR = getAspectRatio();
TPointD currDpi = getDpi();
m_size.lx = size.lx;
if (preserveAR)
m_size.ly = m_size.lx / currAR; // WARNING! if also preserveDpi==true, the
// AR could lose precision...
else
m_size.ly = size.ly;
if (!preserveDpi) return;
m_res.lx = troundp(currDpi.x * m_size.lx);
m_res.ly = troundp(currDpi.y * m_size.ly);
m_size.lx = m_res.lx / currDpi.x;
if (preserveAR) //&& currDpi.x==currDpi.y)
{
double aux = m_size.lx / currAR - m_res.ly / currDpi.y;
m_size.ly = m_size.lx / currAR;
} else
m_size.ly = m_res.ly / currDpi.y;
}
//-------------------------------------------------------------------
double TCamera::getAspectRatio() const { return m_size.lx / m_size.ly; }
//-------------------------------------------------------------------
void TCamera::setRes(const TDimension &res) {
assert(res.lx > 0);
assert(res.ly > 0);
if (m_res != res) {
m_res = res;
m_interestRect = TRect();
}
}
//-------------------------------------------------------------------
TPointD TCamera::getDpi() const {
TPointD dpi;
if (m_size.lx > 0 && m_size.ly > 0) {
dpi.x = m_res.lx / m_size.lx;
dpi.y = m_res.ly / m_size.ly;
}
return dpi;
}
//-------------------------------------------------------------------
bool TCamera::isPixelSquared() const {
return areAlmostEqual(m_res.lx * m_size.ly, m_res.ly * m_size.lx);
}
//-------------------------------------------------------------------
TAffine TCamera::getStageToCameraRef() const {
return TAffine(m_res.lx / (Stage::inch * m_size.lx), 0, 0.5 * m_res.lx, 0,
m_res.ly / (Stage::inch * m_size.ly), 0.5 * m_res.ly);
}
//-------------------------------------------------------------------
TAffine TCamera::getCameraToStageRef() const {
const double factor = Stage::inch;
TDimensionD cameraSize = getSize();
cameraSize.lx *= factor;
cameraSize.ly *= factor;
TPointD center(0.5 * cameraSize.lx, 0.5 * cameraSize.ly);
return TAffine(factor * m_size.lx / (double)m_res.lx, 0, -center.x, 0,
factor * m_size.ly / (double)m_res.ly, -center.y);
}
//-------------------------------------------------------------------
TRectD TCamera::getStageRect() const {
TDimensionD cameraSize = getSize();
const double factor = Stage::inch;
cameraSize.lx *= factor;
cameraSize.ly *= factor;
TRectD rect(cameraSize);
rect -= 0.5 * (rect.getP00() + rect.getP11());
return rect;
}
//-------------------------------------------------------------------
void TCamera::setInterestRect(const TRect &rect) {
// Not using the TRect's common intersection. Unfortunately, in case
// the rect's coordinates have lx or ly < 0, the intersection returns
// the default (empty) rect. We want to maintain the coordinates instead.
// m_interestRect = rect * TRect(m_res);
m_interestRect.x0 = std::max(rect.x0, 0);
m_interestRect.y0 = std::max(rect.y0, 0);
m_interestRect.x1 = std::min(rect.x1, m_res.lx - 1);
m_interestRect.y1 = std::min(rect.y1, m_res.ly - 1);
}
//-------------------------------------------------------------------
TRectD TCamera::getInterestStageRect() const {
return getCameraToStageRef() * TRectD(m_interestRect.x0, m_interestRect.y0,
m_interestRect.x1 + 1,
m_interestRect.y1 + 1);
}
//-------------------------------------------------------------------
void TCamera::setInterestStageRect(const TRectD &rect) {
TRectD cameraInterestRectD(getStageToCameraRef() * rect);
setInterestRect(TRect(
tfloor(cameraInterestRectD.x0), tfloor(cameraInterestRectD.y0),
tceil(cameraInterestRectD.x1) - 1, tceil(cameraInterestRectD.y1) - 1));
}
//-------------------------------------------------------------------
void TCamera::saveData(TOStream &os) const {
os.child("cameraSize") << m_size.lx << m_size.ly;
os.child("cameraRes") << m_res.lx << m_res.ly;
os.child("cameraXPrevalence") << (int)m_xPrevalence;
os.child("interestRect") << m_interestRect.x0 << m_interestRect.y0
<< m_interestRect.x1 << m_interestRect.y1;
}
//-------------------------------------------------------------------
void TCamera::loadData(TIStream &is) {
std::string tagName;
while (is.matchTag(tagName)) {
if (tagName == "cameraSize" || tagName == "size")
is >> m_size.lx >> m_size.ly;
else if (tagName == "cameraRes" || tagName == "res")
is >> m_res.lx >> m_res.ly;
else if (tagName == "cameraXPrevalence") {
int xPrevalence;
is >> xPrevalence;
m_xPrevalence = (bool)xPrevalence;
} else if (tagName == "interestRect") {
is >> m_interestRect.x0 >> m_interestRect.y0 >> m_interestRect.x1 >>
m_interestRect.y1;
} else
throw TException("TCamera::loadData. unexpected tag: " + tagName);
is.matchEndTag();
}
}