#include "tunit.h"
#include "tconvert.h"
#include <math.h>
// Note: convertTo() means: convert from standard unit TO specific unit
// e.g. if unit=cm (standard=inch) then convertTo(1) == 2.54
//-------------------------------------------------------------------
/*
class VerticalCameraFldUnitConverter final : public TUnitConverter {
public:
static double m_factor;
VerticalCameraFldUnitConverter() {}
TUnitConverter * clone() const {return new
VerticalCameraFldUnitConverter(*this);}
double convertTo(double v) const {return v*m_factor;}
double convertFrom(double v) const {return v/m_factor;}
};
double VerticalCameraFldUnitConverter::m_factor = 1;
*/
namespace UnitParameters {
std::pair<double, double> dummyCurrentDpiGetter() {
return std::make_pair<double, double>(72, 72);
}
CurrentDpiGetter currentDpiGetter = &dummyCurrentDpiGetter;
void setCurrentDpiGetter(CurrentDpiGetter f) { currentDpiGetter = f; }
}
//-------------------------------------------------------------------
class VerticalFldUnitConverter final : public TUnitConverter {
double m_factor;
public:
static double m_fieldGuideAspectRatio;
VerticalFldUnitConverter(double factor) : m_factor(factor) {}
TUnitConverter *clone() const override {
return new VerticalFldUnitConverter(*this);
}
double convertTo(double v) const override {
return v * m_fieldGuideAspectRatio * m_factor;
}
double convertFrom(double v) const override {
return v / (m_fieldGuideAspectRatio * m_factor);
}
};
double VerticalFldUnitConverter::m_fieldGuideAspectRatio = 1.38;
//-------------------------------------------------------------------
namespace UnitParameters {
void setFieldGuideAspectRatio(double ar) {
assert(ar > 0);
VerticalFldUnitConverter::m_fieldGuideAspectRatio = ar;
}
double getFieldGuideAspectRatio() {
return VerticalFldUnitConverter::m_fieldGuideAspectRatio;
}
}
//===================================================================
class TangentConverter final : public TUnitConverter {
public:
TangentConverter() {}
TUnitConverter *clone() const override { return new TangentConverter(*this); }
double convertTo(double v) const override {
return atan(v) * (M_1_PI * 180.0);
}
double convertFrom(double v) const override { return tan(v * M_PI_180); }
};
//===================================================================
class TPixelUnitXConverter final : public TUnitConverter {
public:
TPixelUnitXConverter() {}
TUnitConverter *clone() const override {
return new TPixelUnitXConverter(*this);
}
double convertTo(double v) const override {
return v * UnitParameters::currentDpiGetter().first;
}
double convertFrom(double v) const override {
return v / UnitParameters::currentDpiGetter().first;
}
};
class TPixelUnitYConverter final : public TUnitConverter {
public:
TPixelUnitYConverter() {}
TUnitConverter *clone() const override {
return new TPixelUnitYConverter(*this);
}
double convertTo(double v) const override {
return v * UnitParameters::currentDpiGetter().second;
}
double convertFrom(double v) const override {
return v / UnitParameters::currentDpiGetter().second;
}
};
//===================================================================
TUnit::TUnit(std::wstring ext, TUnitConverter *converter)
: m_defaultExtension(ext), m_converter(converter) {
m_extensions.push_back(ext);
if (m_converter == 0) m_converter = new TSimpleUnitConverter();
}
//-------------------------------------------------------------------
TUnit::TUnit(const TUnit &src)
: m_defaultExtension(src.m_defaultExtension)
, m_extensions(src.m_extensions)
, m_converter(src.m_converter->clone()) {}
//-------------------------------------------------------------------
TUnit::~TUnit() { delete m_converter; }
//-------------------------------------------------------------------
void TUnit::addExtension(std::wstring ext) {
if (std::find(m_extensions.begin(), m_extensions.end(), ext) ==
m_extensions.end())
m_extensions.push_back(ext);
if (m_defaultExtension.empty()) m_defaultExtension = ext;
}
//-------------------------------------------------------------------
bool TUnit::isExtension(std::wstring ext) const {
return std::find(m_extensions.begin(), m_extensions.end(), ext) !=
m_extensions.end();
}
//-------------------------------------------------------------------
void TUnit::setDefaultExtension(std::wstring ext) {
if (!ext.empty() &&
std::find(m_extensions.begin(), m_extensions.end(), ext) ==
m_extensions.end())
m_extensions.push_back(ext);
m_defaultExtension = ext;
}
//===================================================================
TMeasure::TMeasure(std::string name, TUnit *mainUnit)
: m_name(name)
, m_mainUnit(0)
, m_standardUnit(0)
, m_currentUnit(0)
, m_defaultValue(0) {
add(mainUnit);
m_mainUnit = m_currentUnit = m_standardUnit = mainUnit;
}
//-------------------------------------------------------------------
TMeasure::TMeasure(const TMeasure &src)
: m_name(src.m_name)
, m_mainUnit(src.m_mainUnit)
, m_currentUnit(src.m_currentUnit)
, m_standardUnit(src.m_standardUnit)
, m_defaultValue(src.m_defaultValue) {
std::map<std::wstring, TUnit *>::const_iterator it;
for (it = src.m_extensions.begin(); it != src.m_extensions.end(); ++it) {
TUnit *u = it->second;
assert(u);
const std::vector<std::wstring> &e = u->getExtensions();
assert(std::find(e.begin(), e.end(), it->first) != e.end());
m_extensions[it->first] = u;
}
}
//-------------------------------------------------------------------
TMeasure::~TMeasure() {}
//-------------------------------------------------------------------
void TMeasure::add(TUnit *unit) {
const std::vector<std::wstring> &e = unit->getExtensions();
for (int i = 0; i < (int)e.size(); i++) {
std::wstring ext = e[i];
assert(m_extensions.count(ext) == 0);
m_extensions[ext] = unit;
}
}
//-------------------------------------------------------------------
TUnit *TMeasure::getUnit(std::wstring ext) const {
std::map<std::wstring, TUnit *>::const_iterator it;
it = m_extensions.find(ext);
return it == m_extensions.end() ? 0 : it->second;
}
//-------------------------------------------------------------------
void TMeasure::setCurrentUnit(TUnit *unit) {
assert(unit);
assert(m_extensions.count(unit->getDefaultExtension()) > 0);
m_currentUnit = unit;
}
//-------------------------------------------------------------------
void TMeasure::setStandardUnit(TUnit *unit) {
assert(unit);
assert(m_extensions.count(unit->getDefaultExtension()) > 0);
m_standardUnit = unit;
}
//===================================================================
TMeasureManager::TMeasureManager() {
TUnit inch(L"in"), cm(L"cm", new TSimpleUnitConverter(2.54)),
mm(L"mm", new TSimpleUnitConverter(25.4)),
xfld(L"fld", new TSimpleUnitConverter(2)),
cameraXFld(L"fld", new TSimpleUnitConverter(1)),
yfld(L"fld", new VerticalFldUnitConverter(2)),
cameraYFld(L"fld", new VerticalFldUnitConverter(1)),
levelXFld(L"fld", new TSimpleUnitConverter(1)),
levelYFld(L"fld", new VerticalFldUnitConverter(1)),
internalZDepth(L"internal.zdepth"),
zdepth(L"zdepth", new TSimpleUnitConverter(1)), degree(L"\u00b0"),
scale(L"*"), percentage2(L"%"), shear(L"sh"),
shearAngle(L"\u00b0", new TangentConverter()),
percentage(L"%", new TSimpleUnitConverter(100)),
colorChannel(L"", new TSimpleUnitConverter(255)), dummy(L""),
xPixel(L"px", new TPixelUnitXConverter()),
yPixel(L"px", new TPixelUnitYConverter());
inch.addExtension(L"inch");
inch.addExtension(L"\"");
inch.addExtension(L"''");
inch.setDefaultExtension(L"\"");
xPixel.addExtension(L"pixel");
yPixel.addExtension(L"pixel");
xfld.addExtension(L"field");
cameraXFld.addExtension(L"field");
yfld.addExtension(L"field");
cameraYFld.addExtension(L"field");
levelXFld.addExtension(L"field");
levelYFld.addExtension(L"field");
xfld.addExtension(L"F");
yfld.addExtension(L"F");
cameraXFld.addExtension(L"F");
cameraYFld.addExtension(L"F");
levelXFld.addExtension(L"F");
levelYFld.addExtension(L"F");
TMeasure *length, *m;
length = m = new TMeasure("length", inch.clone());
m->add(cm.clone());
/*---
Fxの寸法パラメータは単位なし(実際にはStageInch(1 StageInch = 1/53.33333
inch)という値)
Fxの寸法パラメータからExpressionで単位のあるパラメータを参照すると、
カレントUnitによってFxの計算結果が変わってしまう。
tcomposerで用いられるカレントUnitはデフォルト値なので、
ここでデフォルトのカレントUnitをmmにしておくことで、
Unit = mm でシーンを作っておけば、作業時と同じRender結果が得られるようにする。
---*/
TUnit *mmUnit = mm.clone();
m->add(mmUnit);
m->setCurrentUnit(mmUnit);
add(m);
m = new TMeasure(*length);
m->setName("length.x");
m->add(xfld.clone());
m->add(xPixel.clone());
add(m);
m = new TMeasure(*length);
m->setName("length.y");
m->add(yfld.clone());
m->add(yPixel.clone());
add(m);
m = new TMeasure(*length);
m->setName("length.lx");
m->add(xfld.clone());
m->add(xPixel.clone());
add(m);
m = new TMeasure(*length);
m->setName("length.ly");
m->add(yfld.clone());
m->add(yPixel.clone());
add(m);
m = new TMeasure(*length);
m->setName("camera.lx");
m->add(cameraXFld.clone());
m->add(xPixel.clone());
add(m);
m = new TMeasure(*length);
m->setName("camera.ly");
m->add(cameraYFld.clone());
m->add(yPixel.clone());
add(m);
m = new TMeasure(*length);
m->setName("level.lx");
m->add(levelXFld.clone());
add(m);
m = new TMeasure(*length);
m->setName("level.ly");
m->add(levelYFld.clone());
add(m);
m = new TMeasure(*length);
m->setName("canvas.lx");
m->add(cameraXFld.clone());
add(m);
m = new TMeasure(*length);
m->setName("canvas.ly");
m->add(cameraYFld.clone());
add(m);
const double stage_inch = 53.33333; // Consider changing to 120 or 160
TUnit fxLength(L"fxLength"),
fxInch(L"in", new TSimpleUnitConverter(1 / stage_inch)),
fxCm(L"cm", new TSimpleUnitConverter(2.54 / stage_inch)),
fxMm(L"mm", new TSimpleUnitConverter(25.4 / stage_inch)),
fxXfld(L"fld", new TSimpleUnitConverter(2 / stage_inch)),
fxPx(L"px", new TSimpleUnitConverter(1));
fxInch.addExtension(L"inch");
fxInch.addExtension(L"\"");
fxInch.addExtension(L"''");
fxInch.setDefaultExtension(L"\"");
fxXfld.addExtension(L"field");
fxXfld.addExtension(L"F");
fxPx.addExtension(L"pixel");
m = new TMeasure("fxLength", fxLength.clone());
m->add(fxInch.clone());
m->add(fxCm.clone());
m->add(fxMm.clone());
m->add(fxXfld.clone());
m->add(fxPx.clone());
add(m);
m = new TMeasure("angle", degree.clone());
add(m);
m = new TMeasure("scale", scale.clone());
TUnit *unit = percentage.clone();
m->add(unit);
m->setCurrentUnit(unit);
m->setStandardUnit(unit);
add(m);
m = new TMeasure("percentage", scale.clone());
unit = percentage.clone();
m->add(unit);
m->setCurrentUnit(unit);
m->setStandardUnit(unit);
add(m);
m = new TMeasure("percentage2", percentage2.clone());
add(m);
m = new TMeasure("shear", shear.clone());
unit = shearAngle.clone();
m->add(unit);
m->setCurrentUnit(unit);
m->setStandardUnit(unit);
add(m);
m = new TMeasure("colorChannel", colorChannel.clone());
add(m);
/*
m = new TMeasure("zdepth", internalZDepth.clone());
unit = zdepth.clone();
m->add(unit);
m->setCurrentUnit(unit);
m->setStandardUnit(unit);
add(m);
*/
m = new TMeasure("dummy", dummy.clone());
add(m);
}
//-------------------------------------------------------------------
void TMeasureManager::add(TMeasure *m) { m_measures[m->getName()] = m; }
//-------------------------------------------------------------------
TMeasure *TMeasureManager::get(std::string name) const {
std::map<std::string, TMeasure *>::const_iterator it;
it = m_measures.find(name);
if (it == m_measures.end())
return 0;
else
return it->second;
}
//===================================================================
TMeasuredValue::TMeasuredValue(std::string measureName)
: m_measure(0), m_value(0) {
setMeasure(measureName);
}
//-------------------------------------------------------------------
TMeasuredValue::~TMeasuredValue() {}
//-------------------------------------------------------------------
void TMeasuredValue::setMeasure(const TMeasure *measure) {
assert(measure);
if (!measure) return;
m_measure = measure;
m_value = m_measure->getDefaultValue();
}
//-------------------------------------------------------------------
void TMeasuredValue::setMeasure(std::string measureName) {
setMeasure(TMeasureManager::instance()->get(measureName));
}
//-------------------------------------------------------------------
bool TMeasuredValue::setValue(std::wstring s, int *pErr) {
if (s == L"") {
if (pErr) *pErr = -1;
return false;
}
const TUnit *unit = m_measure->getCurrentUnit();
double value = 0;
bool valueFlag = false;
int i = 0, len = s.length();
// skip blanks
i = s.find_first_not_of(::to_wstring(" \t"));
assert(i != (int)std::wstring::npos);
int j = i;
// match number
if (i < len && (s[i] == L'-' || s[i] == L'+')) i++;
while (i < len && L'0' <= s[i] && s[i] <= L'9') i++;
if (i < len && s[i] == L'.') {
i++;
while (i < len && L'0' <= s[i] && s[i] <= L'9') i++;
if (i < len && (s[i] == L'E' || s[i] == L'e')) {
i++;
if (i < len && (s[i] == L'-' || s[i] == L'+')) i++;
while (i < len && L'0' <= s[i] && s[i] <= L'9') i++;
}
}
if (i > j) {
value = std::stod(s.substr(j, i - j));
valueFlag = true;
// skip blanks
i = s.find_first_not_of(::to_wstring(" \t"), i);
if (i == (int)std::wstring::npos) i = s.length();
}
// remove trailing blanks
if (i < (int)s.length()) {
j = i;
i = s.find_last_not_of(::to_wstring(" \t"));
if (i == (int)std::wstring::npos) i = len - 1;
if (j <= i) {
std::wstring unitExt = s.substr(j, i + 1 - j);
unit = m_measure->getUnit(unitExt);
if (!unit) {
if (pErr) *pErr = -2;
return false;
}
}
}
if (valueFlag) {
double newValue = unit->convertFrom(value);
if (m_value == newValue) {
if (pErr) *pErr = 0;
return false;
}
m_value = newValue;
}
if (pErr) *pErr = (valueFlag || unit != 0) ? 0 : -3;
return valueFlag || unit != 0;
}
//-------------------------------------------------------------------
std::wstring TMeasuredValue::toWideString(int decimals) const {
double v = getValue(CurrentUnit);
std::string s = ::to_string(v, decimals);
if (s.find('.') != std::string::npos) {
int i = s.length();
while (i > 0 && s[i - 1] == '0') i--;
if (i > 0 && s[i - 1] == '.') i--;
if (i < (int)s.length()) s = s.substr(0, i);
}
std::wstring measure = m_measure->getCurrentUnit()->getDefaultExtension();
if (measure.empty()) return ::to_wstring(s);
return ::to_wstring(s) + L" " + measure;
}
//===================================================================
namespace {
class ZDepthUnitConverter final : public TUnitConverter {
TMeasureManager::CameraSizeProvider *m_cameraSizeProvider;
public:
ZDepthUnitConverter(TMeasureManager::CameraSizeProvider *cameraSizeProvider)
: m_cameraSizeProvider(cameraSizeProvider) {}
TUnitConverter *clone() const override {
return new ZDepthUnitConverter(m_cameraSizeProvider);
}
inline double getCameraSize() const { return (*m_cameraSizeProvider)(); }
double convertTo(double v) const override {
return (1 - v * 0.001) * getCameraSize();
}
double convertFrom(double v) const override {
return (1 - v / getCameraSize()) * 1000.0;
}
};
//-------------------------------------------------------------------
class CameraZDepthUnitConverter final : public TUnitConverter {
TMeasureManager::CameraSizeProvider *m_cameraSizeProvider;
public:
CameraZDepthUnitConverter(
TMeasureManager::CameraSizeProvider *cameraSizeProvider)
: m_cameraSizeProvider(cameraSizeProvider) {}
TUnitConverter *clone() const override {
return new CameraZDepthUnitConverter(m_cameraSizeProvider);
}
inline double getCameraSize() const { return (*m_cameraSizeProvider)(); }
double convertTo(double v) const override {
return (1 + v * 0.001) * getCameraSize();
}
double convertFrom(double v) const override {
return (v / getCameraSize() - 1) * 1000.0;
}
};
//===================================================================
/*-- Zのカーブのハンドルの長さは0=0となるようにしなければならない --*/
class ZDepthHandleUnitConverter final : public TUnitConverter {
TMeasureManager::CameraSizeProvider *m_cameraSizeProvider;
public:
ZDepthHandleUnitConverter(
TMeasureManager::CameraSizeProvider *cameraSizeProvider)
: m_cameraSizeProvider(cameraSizeProvider) {}
TUnitConverter *clone() const override {
return new ZDepthHandleUnitConverter(m_cameraSizeProvider);
}
inline double getCameraSize() const { return (*m_cameraSizeProvider)(); }
double convertTo(double v) const override {
return -v * 0.001 * getCameraSize();
}
double convertFrom(double v) const override {
return (-v / getCameraSize()) * 1000.0;
}
};
class CameraZDepthHandleUnitConverter final : public TUnitConverter {
TMeasureManager::CameraSizeProvider *m_cameraSizeProvider;
public:
CameraZDepthHandleUnitConverter(
TMeasureManager::CameraSizeProvider *cameraSizeProvider)
: m_cameraSizeProvider(cameraSizeProvider) {}
TUnitConverter *clone() const override {
return new CameraZDepthHandleUnitConverter(m_cameraSizeProvider);
}
inline double getCameraSize() const { return (*m_cameraSizeProvider)(); }
double convertTo(double v) const override {
return v * 0.001 * getCameraSize();
}
double convertFrom(double v) const override {
return (v / getCameraSize()) * 1000.0;
}
};
} // namespace
//-------------------------------------------------------------------
void TMeasureManager::addCameraMeasures(
CameraSizeProvider *cameraSizeProvider) {
TUnit u0(L"z"), u1(L"fld", new ZDepthUnitConverter(cameraSizeProvider)),
u2(L"fld", new CameraZDepthUnitConverter(cameraSizeProvider)),
u3(L"fld", new ZDepthHandleUnitConverter(cameraSizeProvider)),
u4(L"fld", new CameraZDepthHandleUnitConverter(cameraSizeProvider));
TMeasure *zdepth = new TMeasure("zdepth", u0.clone());
TUnit *u = u1.clone();
zdepth->add(u);
zdepth->setCurrentUnit(u);
zdepth->setStandardUnit(u);
TMeasureManager::instance()->add(zdepth);
zdepth = new TMeasure("zdepth.cam", u0.clone());
u = u2.clone();
zdepth->add(u);
zdepth->setCurrentUnit(u);
zdepth->setStandardUnit(u);
TMeasureManager::instance()->add(zdepth);
zdepth = new TMeasure("zdepth.handle", u0.clone());
u = u3.clone();
zdepth->add(u);
zdepth->setCurrentUnit(u);
zdepth->setStandardUnit(u);
TMeasureManager::instance()->add(zdepth);
zdepth = new TMeasure("zdepth.cam.handle", u0.clone());
u = u4.clone();
zdepth->add(u);
zdepth->setCurrentUnit(u);
zdepth->setStandardUnit(u);
TMeasureManager::instance()->add(zdepth);
}