void wySpriteBatchNode::visit() {
if(!m_visible)
return;
// should push matrix to avoid disturb current matrix
glPushMatrix();
// if grid is set, prepare grid
if(m_grid != NULL && m_grid->isActive()) {
m_grid->beforeDraw();
transformAncestors();
}
// transform for myself
transform();
// check clip
if(m_hasClip)
doClip();
// draw self
draw();
// restore
if(m_hasClip)
glDisable(GL_SCISSOR_TEST);
// if grid is set, end grid
if(m_grid != NULL && m_grid->isActive()) {
m_grid->afterDraw(this);
}
// pop matrix
glPopMatrix();
}
void wySkeletalSprite::visit() {
if(!m_visible)
return;
// sync bone state
if(m_rootBone)
syncBoneStates(m_rootBone);
// should push matrix to avoid disturb current matrix
glPushMatrix();
// if grid is set, prepare grid
// if not, transform self
bool hasGrid = m_grid != NULL && m_grid->isActive();
if(hasGrid) {
m_grid->beforeDraw();
} else {
transform();
}
// check clip
if(m_hasClip)
doClip();
// visit slot sprites by display list sequence
wySkeleton::SlotPtrList& slotDisplayList = m_skeleton->getSlotDisplayList();
for(wySkeleton::SlotPtrList::iterator iter = slotDisplayList.begin(); iter != slotDisplayList.end(); iter++) {
wySlot* slot = *iter;
wySlot::State& state = slot->getState(this);
wySpriteEx* sprite = state.sprite;
if(sprite) {
// should push matrix for every slot sprite
glPushMatrix();
// transform until to this node
sprite->transformAncestorsUntil(this);
sprite->transform();
// draw this sprite
sprite->draw();
// pop matrix
glPopMatrix();
}
}
// restore
if(m_hasClip && gDirector)
gDirector->popClipRect();
// if grid is set, end grid
if(hasGrid) {
m_grid->afterDraw(this);
}
// pop matrix
glPopMatrix();
}
Boonas::Boonas(int argc, char** argv)
{
cursor = 0;
orig = new LNHHolder();
temp = 0;
colorValue = 0;
Transformation matrix;
if(argc < 3)
{
return;
}
if(strcmp(argv[1], "polygon") == 0) // DONE
{
polygon(argc, argv); // default the color to a grey, or a blue
}
else if(strcmp(argv[1], "polygonC") == 0)
{
polygonC(argc, argv);
}
else if(strcmp(argv[1], "assemble") == 0) // DONE
{
assemble(argc, argv);
}
else if(strcmp(argv[1], "transform") == 0) //WORKS
{
loadFile(argv[2]); // loads the data into a LNHHolder
matrix = parseParams(3, argc, argv, matrix);
doMult(matrix); // applies the matrix transformation
writeFile(argv[2]); // writes file;
}
else if(strcmp(argv[1], "create") == 0) // WORKS
{
loadFile(argv[3]);
matrix = parseParams(4, argc, argv, matrix);
doMult(matrix);
writeFile(argv[2]);
}
else if(strcmp(argv[1], "extrude") == 0) // WORKS
{
loadFile(argv[2]);
doExtrude(argv[4], argv[3]); // extrudes argv 3 distance
}
else if(strcmp(argv[1], "clip") == 0) // clip, file, inpolies, outpolies, normalx normaly normalz, pointx, pointy, pointz
{
loadFile(argv[2]);
//doClip(argv[3], argv[4], argv[5], argv[6], argv[7], argv[8], argv[9], argv[10]);
doClip(argv[3], argv[4], argv[5], argv[6], argv[7], argv[8], argv[9]);
}
else if(strcmp(argv[1], "rot") == 0) // rot infile outfile vectorx, y, z pointx, y, z, divisions, degrees
{
loadFile(argv[2]);
doRotate(argv[3], argv[4], argv[5], argv[6], argv[7], argv[8], argv[9], argv[10], argv[11]);
writeFile(argv[3]);
}
return;
}
void wyNode::visit() {
if(!m_visible)
return;
// should push matrix to avoid disturb current matrix
glPushMatrix();
// if grid is set, prepare grid
// if not, transform self
bool hasGrid = m_grid != NULL && m_grid->isActive();
if(hasGrid) {
m_grid->beforeDraw();
} else {
transform();
}
// check clip
if(m_hasClip)
doClip();
// draw children whose z order is less than zero
for(int i = 0; i < m_children->num; i++) {
wyNode* n = (wyNode*)wyArrayGet(m_children, i);
if(n->m_zOrder < 0)
n->visit();
else
break;
}
// draw self
draw();
// draw children whose z order is larger than zero
for(int i = 0; i < m_children->num; i++) {
wyNode* n = (wyNode*)wyArrayGet(m_children, i);
if(n->m_zOrder >= 0)
n->visit();
}
// restore
if(m_hasClip && gDirector)
gDirector->popClipRect();
// if grid is set, end grid
if(hasGrid) {
m_grid->afterDraw(this);
}
// pop matrix
glPopMatrix();
}
void PrintDialog::storeValues()
{
getOptions(); // options were not set get last options with this hack
m_doc->Print_Options.printer = PrintDest->currentText();
m_doc->Print_Options.filename = QDir::fromNativeSeparators(LineEdit1->text());
m_doc->Print_Options.toFile = outputToFile();
m_doc->Print_Options.copies = numCopies();
m_doc->Print_Options.outputSeparations = outputSeparations();
m_doc->Print_Options.separationName = separationName();
m_doc->Print_Options.allSeparations = allSeparations();
if (m_doc->Print_Options.outputSeparations)
m_doc->Print_Options.useSpotColors = true;
else
m_doc->Print_Options.useSpotColors = doSpot();
m_doc->Print_Options.useColor = color();
m_doc->Print_Options.mirrorH = mirrorHorizontal();
m_doc->Print_Options.mirrorV = mirrorVertical();
m_doc->Print_Options.useICC = ICCinUse();
m_doc->Print_Options.doClip = doClip();
m_doc->Print_Options.doGCR = doGCR();
m_doc->Print_Options.prnEngine= printEngine();
m_doc->Print_Options.setDevParam = doDev();
m_doc->Print_Options.useDocBleeds = docBleeds->isChecked();
m_doc->Print_Options.bleeds.Top = BleedTop->value() / m_doc->unitRatio();
m_doc->Print_Options.bleeds.Left = BleedLeft->value() / m_doc->unitRatio();
m_doc->Print_Options.bleeds.Right = BleedRight->value() / m_doc->unitRatio();
m_doc->Print_Options.bleeds.Bottom = BleedBottom->value() / m_doc->unitRatio();
m_doc->Print_Options.markLength = markLength->value() / m_doc->unitRatio();
m_doc->Print_Options.markOffset = markOffset->value() / m_doc->unitRatio();
m_doc->Print_Options.cropMarks = cropMarks->isChecked();
m_doc->Print_Options.bleedMarks = bleedMarks->isChecked();
m_doc->Print_Options.registrationMarks = registrationMarks->isChecked();
m_doc->Print_Options.colorMarks = colorMarks->isChecked();
m_doc->Print_Options.includePDFMarks = usePDFMarks->isChecked();
if (OtherCom->isChecked())
{
m_doc->Print_Options.printerCommand = Command->text();
m_doc->Print_Options.useAltPrintCommand = true;
}
else
m_doc->Print_Options.useAltPrintCommand = false;
#ifdef HAVE_CUPS
m_doc->Print_Options.printerOptions = PrinterOpts;
#else
m_doc->Print_Options.printerOptions = QString();
#endif
m_doc->Print_Options.devMode = DevMode;
}
void TMouse::doMouse() {
INPUT_RECORD InputRecord;
DWORD Result;
InputRecord.EventType = KEY_EVENT; // just in case
while(InputRecord.EventType != MOUSE_EVENT) {
if (!ReadConsoleInput(hConsole, &InputRecord, 1, &Result))
return; // uh oh! we don't know the starting coordinates!
}
if(InputRecord.Event.MouseEvent.dwButtonState == 0) return;
if(!(InputRecord.Event.MouseEvent.dwButtonState &
FROM_LEFT_1ST_BUTTON_PRESSED)) {
Clipboard.Paste();
return;
}
COORD screen_start = {0, 0};
COORD start_coords = InputRecord.Event.MouseEvent.dwMousePosition;
COORD end_coords = start_coords;
BOOL done = FALSE;
// init vars
doMouse_init();
int normal_bg = ini.get_normal_bg();
int normal_fg = ini.get_normal_fg();
if(normal_bg == -1) normal_bg = 0; // FIX ME!! This is just a hack
if(normal_fg == -1) normal_fg = 7;
normal = (normal_bg << 4) | normal_fg;
inverse = (normal_fg << 4) | normal_bg;
// make screen all one attribute
FillConsoleOutputAttribute(hStdout, normal, ConsoleInfo.dwSize.X *
ConsoleInfo.dwSize.Y, screen_start, &Result);
while(!done) {
switch (InputRecord.EventType) {
case MOUSE_EVENT:
switch(InputRecord.Event.MouseEvent.dwEventFlags) {
case 0: // only copy if the mouse button has been released
if(!InputRecord.Event.MouseEvent.dwButtonState) {
doClip(start_coords, end_coords);
done = TRUE;
}
break;
case MOUSE_MOVED:
end_coords = InputRecord.Event.MouseEvent.dwMousePosition;
move_mouse(start_coords, end_coords);
break;
}
break;
// If we are changing focus, we don't want to highlight anything
// (Paul Brannan 9/2/98)
case FOCUS_EVENT:
return;
}
WaitForSingleObject(hConsole, INFINITE);
if (!ReadConsoleInput(hConsole, &InputRecord, 1, &Result))
done = TRUE;
}
doMouse_cleanup();
}
virtual void visit() {
/*
* Here we do optimization in drawing scrollable children,
* child whose rect is outside of wyScrollableLayer is skipped
* to improve frame rate
*/
// if not visible
if(!m_visible)
return;
// should push matrix to avoid disturb current matrix
glPushMatrix();
// if grid is set, prepare grid
if(m_grid != NULL && m_grid->isActive()) {
m_grid->beforeDraw();
transformAncestors();
}
// transform for myself
transform();
// check clip
if(m_hasClip)
doClip();
// parent is scrollable layer
wyScrollableLayer* sl = (wyScrollableLayer*)m_parent;
// parent size
float pW = m_parent->getWidth();
float pH = m_parent->getHeight();
// draw children whose z order is less than zero
for(int i = 0; i < m_children->num; i++) {
wyNode* n = (wyNode*)wyArrayGet(m_children, i);
if(n->getZOrder() < 0) {
// get child bound relative to scrollable layer
float w = n->getWidth();
float h = n->getHeight();
float x = n->isRelativeAnchorPoint() ? (n->getPositionX() - w * n->getAnchorX()) : n->getPositionX();
float y = n->isRelativeAnchorPoint() ? (n->getPositionY() - h * n->getAnchorY()) : n->getPositionY();
x += m_positionX;
y += m_positionY;
// check bound, if intersected, visit this child
if(x + w > 0 && pW > x && y + h > 0 && pH > y) {
// set flag so it will be notified when it is invisible
wyUserData& ud = n->getUserData();
ud.b = false;
// visit it
n->visit();
} else {
wyUserData& ud = n->getUserData();
if(!ud.b) {
sl->invokeOnScrollableChildNotVisible(n);
ud.b = true;
}
}
} else
break;
}
// draw self
draw();
// draw children whose z order is larger than zero
for(int i = 0; i < m_children->num; i++) {
wyNode* n = (wyNode*)wyArrayGet(m_children, i);
if(n->getZOrder() >= 0) {
// get child bound relative to scrollable layer
float w = n->getWidth();
float h = n->getHeight();
float x = n->isRelativeAnchorPoint() ? (n->getPositionX() - w * n->getAnchorX()) : n->getPositionX();
float y = n->isRelativeAnchorPoint() ? (n->getPositionY() - h * n->getAnchorY()) : n->getPositionY();
x += m_positionX;
y += m_positionY;
// check bound, if intersected, visit this child
if(x + w > 0 && pW > x && y + h > 0 && pH > y) {
// set flag so it will be notified when it is invisible
wyUserData& ud = n->getUserData();
ud.b = false;
// visit it
n->visit();
} else {
wyUserData& ud = n->getUserData();
if(!ud.b) {
sl->invokeOnScrollableChildNotVisible(n);
ud.b = true;
}
}
}
}
// restore
if(m_hasClip)
glDisable(GL_SCISSOR_TEST);
// if grid is set, end grid
if(m_grid != NULL && m_grid->isActive()) {
m_grid->afterDraw(this);
}
// pop matrix
glPopMatrix();
}
