#include "tgl.h"
#include "tvectorgl.h"
#include "tregion.h"
#include "tregionprop.h"
#include "tstrokeutil.h"
#include "tvectorrenderdata.h"
#include "tvectorimage.h"
#include "tpalette.h"
#include "tcolorfunctions.h"
#include "tsimplecolorstyles.h"
#include "tthreadmessage.h"
#include "tstrokeprop.h"
#include "tconvert.h"
#include "tcurves.h"
#include "tstrokeoutline.h"
#include <QTime>
#ifndef _WIN32
#define CALLBACK
#endif
#ifndef checkErrorsByGL
#define checkErrorsByGL \
{ \
GLenum err = glGetError(); \
assert(err != GL_INVALID_ENUM); \
assert(err != GL_INVALID_VALUE); \
assert(err != GL_INVALID_OPERATION); \
assert(err != GL_STACK_OVERFLOW); \
assert(err != GL_STACK_UNDERFLOW); \
assert(err != GL_OUT_OF_MEMORY); \
assert(err == GL_NO_ERROR); \
}
#endif
#undef checkErrorsByGL
#define checkErrorsByGL
using namespace std;
//-----------------------------------------------------------------------------
/*
DV_EXPORT_API void mylog(std::string s)
{
static TThread::Mutex mutex;
QMutexLocker sl(mutex);
std::ofstream os("C:\\gmt\\buttami\\bu.txt", std::ios::app);
LARGE_INTEGER ticksPerSecond;
LARGE_INTEGER tick;
static LARGE_INTEGER firstTick;
static bool firstTime = true;
long dt = 0;
QueryPerformanceFrequency(&ticksPerSecond);
QueryPerformanceCounter(&tick);
if(firstTime) {firstTick = tick;firstTime=false;}
else
{
dt =
(long)(1000000*(tick.QuadPart-firstTick.QuadPart)/ticksPerSecond.QuadPart);
}
os << dt << ":" << s << std::endl;
}
*/
//=============================================================================
#ifdef _DEBUG
bool checkQuadraticDistance(TStroke *stroke, bool checkThickness) {
UINT i, qCount = stroke->getChunkCount();
const TThickQuadratic *q;
TThickPoint p1, p2, p3;
// se i punti coincidono e' una stroke puntiforme ed e' ammessa
if (qCount == 1) return true;
for (i = 0; i != qCount; i++) {
q = stroke->getChunk(i);
p1 = q->getThickP0();
p2 = q->getThickP1();
p3 = q->getThickP2();
if (areAlmostEqual(p1.x, p2.x) && areAlmostEqual(p2.x, p3.x) &&
areAlmostEqual(p1.y, p2.y) && areAlmostEqual(p2.y, p3.y) &&
(!checkThickness || (areAlmostEqual(p1.thick, p2.thick) &&
areAlmostEqual(p2.thick, p3.thick))))
return false;
}
return true;
}
//-----------------------------------------------------------------------------
void drawControlPoints(const TVectorRenderData &rd, TStroke *stroke,
double pixelSize, bool allPoints = true) {
int i;
TPointD p;
glPushMatrix();
tglMultMatrix(rd.m_aff);
glPointSize(2.0);
glBegin(GL_POINTS);
if (allPoints) {
int n = stroke->getControlPointCount();
for (i = 0; i < n; ++i) {
p = stroke->getControlPoint(i);
glColor3d((i + 1) & 1, i & 1, 0.0);
glVertex2d(p.x, p.y);
}
} else {
int n = stroke->getChunkCount();
for (i = 0; i < n; ++i) {
const TThickQuadratic *chunk = stroke->getChunk(i);
p = chunk->getP0();
glColor3d(1.0, 0.0, 0.0);
glVertex2d(p.x, p.y);
}
const TThickQuadratic *chunk = stroke->getChunk(n - 1);
glColor3d(1.0, 0.0, 0.0);
p = chunk->getP2();
glVertex2d(p.x, p.y);
}
glEnd();
glPopMatrix();
}
#endif
//-----------------------------------------------------------------------------
static void drawArrows(TStroke *stroke, bool onlyFirstPoint) {
double length = stroke->getLength(0.0, 1.0);
int points = length / 20;
if (points < 2) points += 1;
double currentPosition = 0.0;
TPointD prePoint, point, postPoint;
glColor3d(1.0, 0.0, 0.0);
for (int i = 0; i <= points; i++) {
currentPosition = i / (double)points;
point = stroke->getPointAtLength(length * currentPosition);
prePoint =
(i == 0) ? point
: stroke->getPointAtLength(length * (currentPosition - 0.02));
postPoint =
(i == points)
? point
: stroke->getPointAtLength(length * (currentPosition + 0.02));
if (prePoint == postPoint) continue;
double radian =
std::atan2(postPoint.y - prePoint.y, postPoint.x - prePoint.x);
double degree = radian * 180.0 / 3.14159265;
glPushMatrix();
glTranslated(point.x, point.y, 0);
glRotated(degree, 0, 0, 1);
glBegin(GL_LINES);
glVertex2d(0, 0);
glVertex2d(-3, -3);
glVertex2d(0, 0);
glVertex2d(-3, 3);
glEnd();
glPopMatrix();
if (onlyFirstPoint) break;
// make the arrow blue from the second one
glColor3d(0.0, 0.0, 1.0);
}
}
//-----------------------------------------------------------------------------
// Used for Guided Drawing
static void drawFirstControlPoint(const TVectorRenderData &rd,
TStroke *stroke) {
TPointD p = stroke->getPoint(0.0);
double length = stroke->getLength(0.0, 1.0);
int msecs = QTime::currentTime().msec();
double modifier = (msecs / 100) * 0.1;
TPointD startPoint = stroke->getPointAtLength(length * modifier);
TPointD endPoint = stroke->getPointAtLength(length * 0.10);
double j = 0.025;
glPushMatrix();
tglMultMatrix(rd.m_aff);
if (!rd.m_animatedGuidedDrawing) glLineWidth(2.0f);
glColor3d(0.0, 1.0, 0.0);
if (!rd.m_animatedGuidedDrawing) {
drawArrows(stroke, false);
}
if (rd.m_animatedGuidedDrawing) {
drawArrows(stroke, true);
glColor3d(0.0, 1.0, 0.0);
j = 0.025 + modifier;
glBegin(GL_LINES);
// draw the first animated section
for (int i = 0; i < 8; i++) {
endPoint = stroke->getPointAtLength(length * j);
glVertex2d(startPoint.x, startPoint.y);
glVertex2d(endPoint.x, endPoint.y);
startPoint = endPoint;
j += 0.025;
if (j > 1) {
j -= 1;
startPoint = stroke->getPointAtLength(length * j);
}
}
modifier = modifier + 0.5;
if (modifier >= 1) modifier -= 1;
startPoint = stroke->getPointAtLength(length * modifier);
j = 0.025 + modifier;
// draw another animated section
for (int i = 0; i < 8; i++) {
endPoint = stroke->getPointAtLength(length * j);
glVertex2d(startPoint.x, startPoint.y);
glVertex2d(endPoint.x, endPoint.y);
startPoint = endPoint;
j += 0.025;
if (j > 1) {
j -= 1;
startPoint = stroke->getPointAtLength(length * j);
}
}
glEnd();
}
glLineWidth(1.0f);
glPopMatrix();
}
//=============================================================================
/*TPixel TransparencyCheckBlackBgInk = TPixel(255,255,255);
TPixel TransparencyCheckWhiteBgInk = TPixel(0,0,0);
TPixel TransparencyCheckPaint = TPixel(127,127,127);*/
static int Index = 0;
void tglDraw(const TVectorRenderData &rd, TRegion *r, bool pushAttribs) {
checkErrorsByGL;
assert(r);
checkErrorsByGL;
if (!r) return;
bool alphaChannel = rd.m_alphaChannel;
checkErrorsByGL;
int j = 0;
bool visible = false;
int colorCount = 0;
TColorStyleP style;
if (rd.m_paintCheckEnabled && r->getStyle() == rd.m_colorCheckIndex) {
static TSolidColorStyle *redColor = new TSolidColorStyle();
redColor->addRef();
redColor->setMainColor(TPixel::Red);
style = redColor;
} else if (rd.m_tcheckEnabled) {
static TSolidColorStyle *color = new TSolidColorStyle();
color->addRef();
color->setMainColor(rd.m_tCheckPaint);
style = color;
} else
style = rd.m_palette->getStyle(r->getStyle());
colorCount = style->getColorParamCount();
if (colorCount == 0) { // for example texture
visible = true;
} else {
visible = false;
for (j = 0; j < colorCount && !visible; j++) {
TPixel32 color = style->getColorParamValue(j);
if (rd.m_cf) color = (*(rd.m_cf))(color);
if (color.m != 0) visible = true;
}
}
if (visible) {
TRegionProp *prop = r->getProp(/*rd.m_palette*/);
/// questo codice satva dentro tregion::getprop/////
int styleId = r->getStyle();
if (styleId) {
// TColorStyle * style = rd.m_palette->getStyle(styleId);
if (!style->isRegionStyle() || style->isEnabled() == false) {
prop = 0;
} else {
// Warning: The same remark of stroke props holds here.
if (!prop || style.getPointer() != prop->getColorStyle()) {
r->setProp(style->makeRegionProp(r));
prop = r->getProp();
}
}
}
////// draw
if (prop) {
if (pushAttribs) glPushAttrib(GL_ALL_ATTRIB_BITS);
tglEnableLineSmooth(true);
//#define DRAW_EDGE_NUMBERS
#ifdef DRAW_EDGE_NUMBERS
glPushMatrix();
tglMultMatrix(rd.m_aff);
switch (Index % 7) {
case 0:
tglColor(TPixel::Red);
break;
case 1:
tglColor(TPixel::Green);
break;
case 2:
tglColor(TPixel::Blue);
break;
case 3:
tglColor(TPixel::Cyan);
break;
case 4:
tglColor(TPixel::Magenta);
break;
case 5:
tglColor(TPixel::Yellow);
break;
case 6:
tglColor(TPixel::Black);
break;
default:
tglColor(TPixel::Red);
break;
}
Index++;
if (rIndex == 2) {
double y = r->getEdge(0)
->m_s
->getThickPoint(
(r->getEdge(0)->m_w0 + r->getEdge(0)->m_w1) / 2.0)
.y;
tglDrawSegment(TPointD(-1000, y), TPointD(1000, y));
}
for (int i = 0; i < (int)r->getEdgeCount(); i++) {
TEdge *e = r->getEdge(i);
TPointD p = e->m_s->getPoint(0.8 * e->m_w0 + 0.2 * e->m_w1);
if (i == 0)
tglDrawText(p,
(QString::number(rIndex) + QString("-0")).toStdString());
else
tglDrawText(p, QString::number(i).toStdString());
if (e->m_index == 3) {
tglColor(TPixel::Black);
TStroke *s = e->m_s;
drawPoint(s->getChunk(0)->getP0(), .3);
tglColor(TPixel::Red);
tglDrawText(s->getChunk(0)->getP0(),
QString::number(0).toStdString());
for (int ii = 0; ii < s->getChunkCount(); ii++) {
drawPoint(s->getChunk(ii)->getP2(), .3);
if (ii < s->getChunkCount() - 1) {
tglColor(TPixel::Red);
tglDrawText(s->getChunk(ii)->getP2(),
QString::number(ii + 1).toStdString());
}
}
}
}
glPopMatrix();
#endif
if (alphaChannel) {
GLboolean red, green, blue, alpha;
tglGetColorMask(red, green, blue, alpha);
// Draw RGB channels
tglEnableBlending(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
glColorMask(red, green, blue, GL_FALSE);
prop->draw(rd);
// Draw Matte channel
tglEnableBlending(GL_ONE, GL_ONE_MINUS_SRC_ALPHA);
glColorMask(GL_FALSE, GL_FALSE, GL_FALSE, alpha);
prop->draw(rd);
glColorMask(red, green, blue, alpha);
} else {
// pezza: in render, le aree fillate dei custom styles sparivano.
if (!rd.m_isOfflineRender || !rd.m_isImagePattern)
tglRgbOnlyColorMask(); // RGB components only
prop->draw(rd);
}
if (pushAttribs) glPopAttrib();
}
}
for (UINT i = 0; i < r->getSubregionCount(); i++)
tglDraw(rd, r->getSubregion(i), pushAttribs);
checkErrorsByGL;
}
//-----------------------------------------------------------------------------
void tglDrawMask(const TVectorRenderData &rd1, const TVectorImage *vim) {
UINT i;
assert(vim);
if (!vim) return;
TVectorRenderData rd(rd1);
glPushAttrib(GL_ALL_ATTRIB_BITS);
if (!rd.m_palette) {
TPalette *vPalette = vim->getPalette();
assert(vPalette);
rd.m_palette = vPalette;
}
for (i = 0; i < vim->getRegionCount(); i++)
tglDraw(rd, vim->getRegion(i), false);
glPopAttrib();
}
//-----------------------------------------------------------------------------
namespace {
bool isOThick(const TStroke *s) {
int i;
for (i = 0; i < s->getControlPointCount(); i++)
if (s->getControlPoint(i).thick != 0) return false;
return true;
}
} // namespace
void tglDraw(const TVectorRenderData &rd, const TStroke *s, bool pushAttribs) {
assert(s);
if (!s) return;
TStrokeProp *prop = 0;
bool pushedAttribs = false;
try {
TColorStyleP style;
TStroke *stroke = const_cast<TStroke *>(s);
if (rd.m_inkCheckEnabled && s->getStyle() == rd.m_colorCheckIndex) {
static TSolidColorStyle *redColor = new TSolidColorStyle();
redColor->addRef();
redColor->setMainColor(TPixel::Red);
style = redColor;
} else if (rd.m_ink1CheckEnabled && s->getStyle() == 1) {
// Ink #1 Check.
// Could possibly merge with above.
static TSolidColorStyle *redColor = new TSolidColorStyle();
redColor->addRef();
redColor->setMainColor(TPixel::Red);
style = redColor;
} else if (rd.m_tcheckEnabled) {
static TSolidColorStyle *color = new TSolidColorStyle();
color->addRef();
color->setMainColor(rd.m_tCheckInk);
style = color;
} else
style = rd.m_palette->getStyle(stroke->getStyle());
if (!rd.m_show0ThickStrokes && isOThick(s) &&
dynamic_cast<TSolidColorStyle *>(
style.getPointer()) // This is probably to exclude
// TCenterlineStrokeStyle-like styles
&& !rd.m_tcheckEnabled) // I wonder why this?
return;
// const TStroke& stroke = *s; //serve???
assert(rd.m_palette);
prop = s->getProp(/*rd.m_palette*/);
/////questo codice stava dentro tstroke::getprop/////////
if (prop) prop->getMutex()->lock();
if (!style->isStrokeStyle() || style->isEnabled() == false) {
if (prop) prop->getMutex()->unlock();
prop = 0;
} else {
// Warning: the following pointers check is conceptually wrong - we
// keep it because the props maintain SMART POINTER-like reference to
// the associated style. This prevents the style from being destroyed
// while still referenced by the prop.
if (!prop || style.getPointer() != prop->getColorStyle()) {
if (prop) prop->getMutex()->unlock();
stroke->setProp(style->makeStrokeProp(stroke));
prop = stroke->getProp();
if (prop) prop->getMutex()->lock();
}
}
//--------- draw ------------
if (!prop) return;
if (pushAttribs) glPushAttrib(GL_ALL_ATTRIB_BITS), pushedAttribs = true;
bool alphaChannel = rd.m_alphaChannel, antialias = rd.m_antiAliasing;
TVectorImagePatternStrokeProp *aux =
dynamic_cast<TVectorImagePatternStrokeProp *>(prop);
if (aux) // gli image pattern vettoriali tornano in questa funzione....non
// facendo il corpo dell'else'si evita di disegnarli due volte!
prop->draw(rd);
else {
if (antialias)
tglEnableLineSmooth(true);
else
tglEnableLineSmooth(false);
if (alphaChannel) {
GLboolean red, green, blue, alpha;
tglGetColorMask(red, green, blue, alpha);
// Draw RGB channels
tglEnableBlending(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
glColorMask(red, green, blue, GL_FALSE);
prop->draw(rd);
// Draw Matte channel
tglEnableBlending(GL_ONE, GL_ONE_MINUS_SRC_ALPHA);
glColorMask(GL_FALSE, GL_FALSE, GL_FALSE, alpha);
prop->draw(rd);
glColorMask(red, green, blue, alpha);
} else {
tglEnableBlending(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
prop->draw(rd);
}
}
if (pushAttribs) glPopAttrib(), pushedAttribs = false;
prop->getMutex()->unlock();
//---------------------
} catch (...) {
if (prop) prop->getMutex()->unlock();
if (pushedAttribs) glPopAttrib();
}
}
//------------------------------------------------------------------------------------
static void tglDoDraw(const TVectorRenderData &rd, TRegion *r) {
bool visible = false;
int colorCount = 0;
if (!r) return;
TColorStyleP style = rd.m_palette->getStyle(r->getStyle());
colorCount = style->getColorParamCount();
if (colorCount == 0) // for example texture
visible = true;
else {
visible = false;
for (int j = 0; j < colorCount && !visible; j++) {
TPixel32 color = style->getColorParamValue(j);
if (rd.m_cf) color = (*(rd.m_cf))(color);
if (color.m != 0) visible = true;
}
}
if (visible)
tglDraw(rd, r, false);
else
for (UINT j = 0; j < r->getSubregionCount(); j++)
tglDraw(rd, r->getSubregion(j), false);
}
//------------------------------------------------------------------------------------
static bool tglDoDraw(const TVectorRenderData &rd, const TStroke *s) {
bool visible = false;
int colorCount = 0;
const TPalette *palette = rd.m_palette;
int styleId = s->getStyle();
// assert(0<=styleId && styleId<stylesCount);
TColorStyleP style = palette->getStyle(styleId);
assert(style);
colorCount = style->getColorParamCount();
if (colorCount == 0)
visible = true;
else {
visible = false;
for (int j = 0; j < style->getColorParamCount() && !visible; j++) {
TPixel32 color = style->getColorParamValue(j);
if (rd.m_cf) color = (*(rd.m_cf))(color);
if (color.m != 0) visible = true;
}
}
bool ret = false;
if (visible) {
// Change stroke color to blue if guided drawing
if (rd.m_showGuidedDrawing && rd.m_highLightNow) {
TVectorRenderData *newRd = new TVectorRenderData(
rd, rd.m_aff, rd.m_clippingRect, rd.m_palette, rd.m_guidedCf);
tglDraw(*newRd, s, false);
delete newRd;
TStroke *new_s = (TStroke *)s;
drawFirstControlPoint(rd, new_s);
ret = rd.m_animatedGuidedDrawing;
} else {
tglDraw(rd, s, false);
}
}
#ifdef _DEBUG
// drawControlPoints(rd, vim->getStroke(i), sqrt(tglGetPixelSize2()), true);
// assert(checkQuadraticDistance(vim->getStroke(i),true));
#endif
return ret;
}
//------------------------------------------------------------------------------------
namespace {
void doDraw(const TVectorImage *vim, const TVectorRenderData &_rd,
bool drawEnteredGroup, TStroke **guidedStroke = 0) {
static TOnionFader *fade = new TOnionFader(TPixel::White, 0.5);
TVectorRenderData rd(_rd);
if (!rd.m_palette) {
TPalette *vPalette = vim->getPalette();
rd.m_palette = vPalette;
if (!vPalette) return;
}
if (!drawEnteredGroup && !rd.m_isIcon && vim->isInsideGroup() > 0)
rd.m_cf = fade;
TVectorRenderData rdRegions = rd;
/*if (rd.m_drawRegions && rd.m_isImagePattern)//gli image pattern hanno
bisogno dell'antialiasig per le linee, ma sulle aree ci sarebbero un sacco di
assert
rdRegions.m_alphaChannel = rdRegions.m_antiAliasing = false;*/
UINT strokeIndex = 0;
Index = 0;
while (strokeIndex <
vim->getStrokeCount()) // ogni ciclo di while disegna un gruppo
{
int currStrokeIndex = strokeIndex;
if (!rd.m_isIcon && vim->isInsideGroup() > 0 &&
((drawEnteredGroup && !vim->isEnteredGroupStroke(strokeIndex)) ||
(!drawEnteredGroup && vim->isEnteredGroupStroke(strokeIndex)))) {
while (strokeIndex < vim->getStrokeCount() &&
vim->sameGroup(strokeIndex, currStrokeIndex))
strokeIndex++;
continue;
}
if (rd.m_drawRegions)
for (UINT regionIndex = 0; regionIndex < vim->getRegionCount();
regionIndex++)
if (vim->sameGroupStrokeAndRegion(currStrokeIndex, regionIndex))
tglDoDraw(rdRegions, vim->getRegion(regionIndex));
while (strokeIndex < vim->getStrokeCount() &&
vim->sameGroup(strokeIndex, currStrokeIndex)) {
if (rd.m_indexToHighlight != strokeIndex) {
rd.m_highLightNow = false;
} else {
rd.m_highLightNow = true;
}
#if DISEGNO_OUTLINE == 1
CurrStrokeIndex = strokeIndex;
CurrVimg = vim;
#endif
bool isGuided = tglDoDraw(rd, vim->getStroke(strokeIndex));
if (isGuided && guidedStroke) *guidedStroke = vim->getStroke(strokeIndex);
strokeIndex++;
}
}
}
} // namespace
//------------------------------------------------------------------------------------
void tglDraw(const TVectorRenderData &rd, const TVectorImage *vim,
TStroke **guidedStroke) {
assert(vim);
if (!vim) return;
QMutexLocker sl(vim->getMutex());
checkErrorsByGL;
checkErrorsByGL;
glPushAttrib(GL_ALL_ATTRIB_BITS);
// if(!rd.m_palette) rd.m_palette = vim->getPalette();
// mylog("tglDraw start; mutex=" + toString((unsigned long)&vim->getMutex()));
glEnable(GL_ALPHA_TEST);
glAlphaFunc(GL_GREATER, 0);
doDraw(vim, rd, false, guidedStroke);
if (!rd.m_isIcon && vim->isInsideGroup() > 0)
doDraw(vim, rd, true, guidedStroke);
glDisable(GL_ALPHA_TEST);
glPopAttrib();
#ifdef _DEBUG
vim->drawAutocloses(rd);
#endif
checkErrorsByGL;
// mylog("tglDraw stop");
}
//-----------------------------------------------------------------------------
//-----------------------------------------------------------------------------