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mirror of https://github.com/vcmi/vcmi.git synced 2024-12-20 20:23:03 +02:00
vcmi/client/GUIBase.cpp
Ivan Savenko 0f605256e9 - added new files to build system
- minor gcc fixes
- updated castle interface code, added missing parts including #380
- buildings enum in global.h
2011-04-07 17:54:08 +00:00

1087 lines
24 KiB
C++

#include "SDL_Extensions.h"
#include <cassert>
#include <boost/thread/locks.hpp>
#include "GUIBase.h"
#include <boost/thread/mutex.hpp>
#include <queue>
#include "CGameInfo.h"
#include "CCursorHandler.h"
#include "CBitmapHandler.h"
#include "Graphics.h"
#include "../CThreadHelper.h"
#include "CConfigHandler.h"
/*
* GUIBase.cpp, part of VCMI engine
*
* Authors: listed in file AUTHORS in main folder
*
* License: GNU General Public License v2.0 or later
* Full text of license available in license.txt file, in main folder
*
*/
extern std::queue<SDL_Event*> events;
extern boost::mutex eventsM;
void KeyShortcut::keyPressed(const SDL_KeyboardEvent & key)
{
if(vstd::contains(assignedKeys,key.keysym.sym))
{
bool prev = pressedL;
if(key.state == SDL_PRESSED)
{
pressedL = true;
clickLeft(true, prev);
}
else
{
pressedL = false;
clickLeft(false, prev);
}
}
}
void CGuiHandler::popInt( IShowActivable *top )
{
assert(listInt.front() == top);
top->deactivate();
listInt.pop_front();
objsToBlit -= top;
if(listInt.size())
listInt.front()->activate();
totalRedraw();
fakeMouseMove();
}
void CGuiHandler::popIntTotally( IShowActivable *top )
{
assert(listInt.front() == top);
popInt(top);
delete top;
}
void CGuiHandler::pushInt( IShowActivable *newInt )
{
//a new interface will be present, we'll need to use buffer surface (unless it's advmapint that will alter screenBuf on activate anyway)
screenBuf = screen2;
if(listInt.size())
listInt.front()->deactivate();
listInt.push_front(newInt);
newInt->activate();
objsToBlit.push_back(newInt);
totalRedraw();
}
void CGuiHandler::popInts( int howMany )
{
if(!howMany) return; //senseless but who knows...
assert(listInt.size() >= howMany);
listInt.front()->deactivate();
for(int i=0; i < howMany; i++)
{
objsToBlit -= listInt.front();
delete listInt.front();
listInt.pop_front();
}
if(listInt.size())
{
listInt.front()->activate();
totalRedraw();
}
}
IShowActivable * CGuiHandler::topInt()
{
if(!listInt.size())
return NULL;
else
return listInt.front();
}
void CGuiHandler::totalRedraw()
{
this->invalidateTotalRedraw = true;
}
void CGuiHandler::internalTotalRedraw()
{
for(int i=0;i<objsToBlit.size();i++)
objsToBlit[i]->showAll(screen2);
blitAt(screen2,0,0,screen);
//Any reason to blit last object second time?
//if(objsToBlit.size())
// objsToBlit.back()->showAll(screen);
this->invalidateTotalRedraw = false;
this->invalidateSimpleRedraw = false;
}
void CGuiHandler::updateTime()
{
int tv = th.getDif();
std::list<CIntObject*> hlp = timeinterested;
for (std::list<CIntObject*>::iterator i=hlp.begin(); i != hlp.end();i++)
{
if(!vstd::contains(timeinterested,*i)) continue;
if ((*i)->toNextTick>=0)
(*i)->toNextTick-=tv;
if ((*i)->toNextTick<0)
(*i)->tick();
}
}
void CGuiHandler::handleEvents()
{
while(true)
{
SDL_Event *ev = NULL;
boost::unique_lock<boost::mutex> lock(eventsM);
if(!events.size())
{
return;
}
else
{
ev = events.front();
events.pop();
}
handleEvent(ev);
delete ev;
}
}
void CGuiHandler::handleEvent(SDL_Event *sEvent)
{
current = sEvent;
bool prev;
if (sEvent->type==SDL_KEYDOWN || sEvent->type==SDL_KEYUP)
{
SDL_KeyboardEvent key = sEvent->key;
//translate numpad keys
if(key.keysym.sym == SDLK_KP_ENTER)
{
key.keysym.sym = (SDLKey)SDLK_RETURN;
}
bool keysCaptured = false;
for(std::list<CIntObject*>::iterator i=keyinterested.begin(); i != keyinterested.end() && current; i++)
{
if((*i)->captureAllKeys)
{
keysCaptured = true;
break;
}
}
std::list<CIntObject*> miCopy = keyinterested;
for(std::list<CIntObject*>::iterator i=miCopy.begin(); i != miCopy.end() && current; i++)
if(vstd::contains(keyinterested,*i) && (!keysCaptured || (*i)->captureAllKeys))
(**i).keyPressed(key);
}
else if(sEvent->type==SDL_MOUSEMOTION)
{
CCS->curh->cursorMove(sEvent->motion.x, sEvent->motion.y);
handleMouseMotion(sEvent);
}
else if (sEvent->type==SDL_MOUSEBUTTONDOWN)
{
if(sEvent->button.button == SDL_BUTTON_LEFT)
{
if(lastClick == sEvent->motion && (SDL_GetTicks() - lastClickTime) < 300)
{
std::list<CIntObject*> hlp = doubleClickInterested;
for(std::list<CIntObject*>::iterator i=hlp.begin(); i != hlp.end() && current; i++)
{
if(!vstd::contains(doubleClickInterested,*i)) continue;
if (isItIn(&(*i)->pos,sEvent->motion.x,sEvent->motion.y))
{
(*i)->onDoubleClick();
}
}
}
lastClick = sEvent->motion;
lastClickTime = SDL_GetTicks();
std::list<CIntObject*> hlp = lclickable;
for(std::list<CIntObject*>::iterator i=hlp.begin(); i != hlp.end() && current; i++)
{
if(!vstd::contains(lclickable,*i)) continue;
if (isItIn(&(*i)->pos,sEvent->motion.x,sEvent->motion.y))
{
prev = (*i)->pressedL;
(*i)->pressedL = true;
(*i)->clickLeft(true, prev);
}
}
}
else if (sEvent->button.button == SDL_BUTTON_RIGHT)
{
std::list<CIntObject*> hlp = rclickable;
for(std::list<CIntObject*>::iterator i=hlp.begin(); i != hlp.end() && current; i++)
{
if(!vstd::contains(rclickable,*i)) continue;
if (isItIn(&(*i)->pos,sEvent->motion.x,sEvent->motion.y))
{
prev = (*i)->pressedR;
(*i)->pressedR = true;
(*i)->clickRight(true, prev);
}
}
}
else if(sEvent->button.button == SDL_BUTTON_WHEELDOWN || sEvent->button.button == SDL_BUTTON_WHEELUP)
{
std::list<CIntObject*> hlp = wheelInterested;
for(std::list<CIntObject*>::iterator i=hlp.begin(); i != hlp.end() && current; i++)
{
if(!vstd::contains(wheelInterested,*i)) continue;
(*i)->wheelScrolled(sEvent->button.button == SDL_BUTTON_WHEELDOWN, isItIn(&(*i)->pos,sEvent->motion.x,sEvent->motion.y));
}
}
}
else if ((sEvent->type==SDL_MOUSEBUTTONUP) && (sEvent->button.button == SDL_BUTTON_LEFT))
{
std::list<CIntObject*> hlp = lclickable;
for(std::list<CIntObject*>::iterator i=hlp.begin(); i != hlp.end() && current; i++)
{
if(!vstd::contains(lclickable,*i)) continue;
prev = (*i)->pressedL;
(*i)->pressedL = false;
if (isItIn(&(*i)->pos,sEvent->motion.x,sEvent->motion.y))
{
(*i)->clickLeft(false, prev);
}
else
(*i)->clickLeft(boost::logic::indeterminate, prev);
}
}
else if ((sEvent->type==SDL_MOUSEBUTTONUP) && (sEvent->button.button == SDL_BUTTON_RIGHT))
{
std::list<CIntObject*> hlp = rclickable;
for(std::list<CIntObject*>::iterator i=hlp.begin(); i != hlp.end() && current; i++)
{
if(!vstd::contains(rclickable,*i)) continue;
prev = (*i)->pressedR;
(*i)->pressedR = false;
if (isItIn(&(*i)->pos,sEvent->motion.x,sEvent->motion.y))
{
(*i)->clickRight(false, prev);
}
else
(*i)->clickRight(boost::logic::indeterminate, prev);
}
}
current = NULL;
} //event end
void CGuiHandler::handleMouseMotion(SDL_Event *sEvent)
{
//sending active, hovered hoverable objects hover() call
std::vector<CIntObject*> hlp;
for(std::list<CIntObject*>::iterator i=hoverable.begin(); i != hoverable.end();i++)
{
if (isItIn(&(*i)->pos,sEvent->motion.x,sEvent->motion.y))
{
if (!(*i)->hovered)
hlp.push_back((*i));
}
else if ((*i)->hovered)
{
(*i)->hover(false);
(*i)->hovered = false;
}
}
for(int i=0; i<hlp.size();i++)
{
hlp[i]->hover(true);
hlp[i]->hovered = true;
}
handleMoveInterested(sEvent->motion);
}
void CGuiHandler::simpleRedraw()
{
this->invalidateSimpleRedraw = true;
}
void CGuiHandler::internalSimpleRedraw()
{
//update only top interface and draw background
if(objsToBlit.size() > 1)
blitAt(screen2,0,0,screen); //blit background
objsToBlit.back()->show(screen); //blit active interface/window
this->invalidateSimpleRedraw = false;
}
void CGuiHandler::handleMoveInterested( const SDL_MouseMotionEvent & motion )
{
//sending active, MotionInterested objects mouseMoved() call
std::list<CIntObject*> miCopy = motioninterested;
for(std::list<CIntObject*>::iterator i=miCopy.begin(); i != miCopy.end();i++)
{
if ((*i)->strongInterest || isItIn(&(*i)->pos, motion.x, motion.y))
{
(*i)->mouseMoved(motion);
}
}
}
void CGuiHandler::fakeMouseMove()
{
SDL_Event evnt;
SDL_MouseMotionEvent sme = {SDL_MOUSEMOTION, 0, 0, 0, 0, 0, 0};
int x, y;
sme.state = SDL_GetMouseState(&x, &y);
sme.x = x;
sme.y = y;
evnt.motion = sme;
current = &evnt;
handleMouseMotion(&evnt);
}
void CGuiHandler::run()
{
setThreadName(-1, "CGuiHandler::run");
try
{
//CCS->curh->centerCursor();//Is this essential? random crashes on Linux
mainFPSmng->init(); // resets internal clock, needed for FPS manager
while(!terminate)
{
if(curInt)
curInt->update(); // calls a update and drawing process of the loaded game interface object at the moment
// Handles mouse and key input
GH.updateTime();
GH.handleEvents();
// Redraws the GUI only once during rendering
if (this->invalidateTotalRedraw == true)
internalTotalRedraw();
if (this->invalidateSimpleRedraw == true)
internalSimpleRedraw();
if (conf.cc.showFPS)
drawFPSCounter();
mainFPSmng->framerateDelay(); // holds a constant FPS
// draw the mouse cursor and update the screen
// todo: bad way of updating the cursor, update screen should be the last statement of the rendering process
CCS->curh->draw1();
CSDL_Ext::update(screen);
CCS->curh->draw2();
}
} HANDLE_EXCEPTION
}
CGuiHandler::CGuiHandler()
:lastClick(-500, -500)
{
curInt = NULL;
current = NULL;
terminate = false;
statusbar = NULL;
// Creates the FPS manager and sets the framerate to 48 which is doubled the value of the original Heroes 3 FPS rate
mainFPSmng = new FPSManager(48);
}
CGuiHandler::~CGuiHandler()
{
delete mainFPSmng;
}
void CGuiHandler::breakEventHandling()
{
current = NULL;
}
void CGuiHandler::drawFPSCounter()
{
const static SDL_Color yellow = {255, 255, 0, 0};
static SDL_Rect overlay = { 0, 0, 64, 32};
Uint32 black = SDL_MapRGB(screen->format, 10, 10, 10);
SDL_FillRect(screen, &overlay, black);
std::string fps = toString(mainFPSmng->fps);
CSDL_Ext::printAt(fps, 10, 10, FONT_BIG, yellow, screen);
}
void CIntObject::activateLClick()
{
GH.lclickable.push_front(this);
active |= LCLICK;
}
void CIntObject::deactivateLClick()
{
std::list<CIntObject*>::iterator hlp = std::find(GH.lclickable.begin(),GH.lclickable.end(),this);
assert(hlp != GH.lclickable.end());
GH.lclickable.erase(hlp);
active &= ~LCLICK;
}
void CIntObject::clickLeft(tribool down, bool previousState)
{
}
void CIntObject::activateRClick()
{
GH.rclickable.push_front(this);
active |= RCLICK;
}
void CIntObject::deactivateRClick()
{
std::list<CIntObject*>::iterator hlp = std::find(GH.rclickable.begin(),GH.rclickable.end(),this);
assert(hlp != GH.rclickable.end());
GH.rclickable.erase(hlp);
active &= ~RCLICK;
}
void CIntObject::clickRight(tribool down, bool previousState)
{
}
void CIntObject::activateHover()
{
GH.hoverable.push_front(this);
active |= HOVER;
}
void CIntObject::deactivateHover()
{
std::list<CIntObject*>::iterator hlp = std::find(GH.hoverable.begin(),GH.hoverable.end(),this);
assert(hlp != GH.hoverable.end());
GH.hoverable.erase(hlp);
active &= ~HOVER;
}
void CIntObject::hover( bool on )
{
}
void CIntObject::activateKeys()
{
GH.keyinterested.push_front(this);
active |= KEYBOARD;
}
void CIntObject::deactivateKeys()
{
std::list<CIntObject*>::iterator hlp = std::find(GH.keyinterested.begin(),GH.keyinterested.end(),this);
assert(hlp != GH.keyinterested.end());
GH.keyinterested.erase(hlp);
active &= ~KEYBOARD;
}
void CIntObject::keyPressed( const SDL_KeyboardEvent & key )
{
}
void CIntObject::activateMouseMove()
{
GH.motioninterested.push_front(this);
active |= MOVE;
}
void CIntObject::deactivateMouseMove()
{
std::list<CIntObject*>::iterator hlp = std::find(GH.motioninterested.begin(),GH.motioninterested.end(),this);
assert(hlp != GH.motioninterested.end());
GH.motioninterested.erase(hlp);
active &= ~MOVE;
}
void CIntObject::mouseMoved( const SDL_MouseMotionEvent & sEvent )
{
}
void CIntObject::activateTimer()
{
GH.timeinterested.push_back(this);
active |= TIME;
}
void CIntObject::deactivateTimer()
{
std::list<CIntObject*>::iterator hlp = std::find(GH.timeinterested.begin(),GH.timeinterested.end(),this);
assert(hlp != GH.timeinterested.end());
GH.timeinterested.erase(hlp);
active &= ~TIME;
}
void CIntObject::tick()
{
}
CIntObject::CIntObject()
{
pressedL = pressedR = hovered = captureAllKeys = strongInterest = false;
toNextTick = active = used = 0;
recActions = defActions = GH.defActionsDef;
pos.x = 0;
pos.y = 0;
pos.w = 0;
pos.h = 0;
if(GH.captureChildren)
{
assert(GH.createdObj.size());
parent = GH.createdObj.front();
parent->children.push_back(this);
if(parent->defActions & SHARE_POS)
{
pos.x = parent->pos.x;
pos.y = parent->pos.y;
}
}
else
parent = NULL;
}
void CIntObject::show( SDL_Surface * to )
{
if(defActions & UPDATE)
for(size_t i = 0; i < children.size(); i++)
if(children[i]->recActions & UPDATE)
children[i]->show(to);
}
void CIntObject::showAll( SDL_Surface * to )
{
if(defActions & SHOWALL)
{
for(size_t i = 0; i < children.size(); i++)
if(children[i]->recActions & SHOWALL)
children[i]->showAll(to);
}
else
show(to);
}
void CIntObject::activate()
{
assert(!active);
active |= GENERAL;
activate(used);
if(defActions & ACTIVATE)
for(size_t i = 0; i < children.size(); i++)
if(children[i]->recActions & ACTIVATE)
children[i]->activate();
}
void CIntObject::activate(ui16 what)
{
if(what & LCLICK)
activateLClick();
if(what & RCLICK)
activateRClick();
if(what & HOVER)
activateHover();
if(what & MOVE)
activateMouseMove();
if(what & KEYBOARD)
activateKeys();
if(what & TIME)
activateTimer();
if(what & WHEEL)
activateWheel();
if(what & DOUBLECLICK)
activateDClick();
}
void CIntObject::deactivate()
{
assert(active);
active &= ~ GENERAL;
deactivate(used);
assert(!active);
if(defActions & DEACTIVATE)
for(size_t i = 0; i < children.size(); i++)
if(children[i]->recActions & DEACTIVATE)
children[i]->deactivate();
}
void CIntObject::deactivate(ui16 what)
{
if(what & LCLICK)
deactivateLClick();
if(what & RCLICK)
deactivateRClick();
if(what & HOVER)
deactivateHover();
if(what & MOVE)
deactivateMouseMove();
if(what & KEYBOARD)
deactivateKeys();
if(what & TIME) // TIME is special
deactivateTimer();
if(what & WHEEL)
deactivateWheel();
if(what & DOUBLECLICK)
deactivateDClick();
}
CIntObject::~CIntObject()
{
assert(!active); //do not delete active obj
if(defActions & DISPOSE)
for(size_t i = 0; i < children.size(); i++)
if(children[i]->recActions & DISPOSE)
delete children[i];
if(parent && GH.createdObj.size()) //temporary object destroyed
parent->children -= this;
}
void CIntObject::printAtLoc( const std::string & text, int x, int y, EFonts font, SDL_Color kolor/*=zwykly*/, SDL_Surface * dst/*=screen*/ )
{
CSDL_Ext::printAt(text, pos.x + x, pos.y + y, font, kolor, dst);
}
void CIntObject::printAtMiddleLoc( const std::string & text, int x, int y, EFonts font, SDL_Color kolor/*=zwykly*/, SDL_Surface * dst/*=screen*/ )
{
CSDL_Ext::printAtMiddle(text, pos.x + x, pos.y + y, font, kolor, dst);
}
void CIntObject::printAtMiddleLoc(const std::string & text, const Point &p, EFonts font, SDL_Color kolor, SDL_Surface * dst)
{
printAtMiddleLoc(text, p.x, p.y, font, kolor, dst);
}
void CIntObject::blitAtLoc( SDL_Surface * src, int x, int y, SDL_Surface * dst )
{
blitAt(src, pos.x + x, pos.y + y, dst);
}
void CIntObject::blitAtLoc(SDL_Surface * src, const Point &p, SDL_Surface * dst)
{
blitAtLoc(src, p.x, p.y, dst);
}
void CIntObject::printAtMiddleWBLoc( const std::string & text, int x, int y, EFonts font, int charpr, SDL_Color kolor, SDL_Surface * dst)
{
CSDL_Ext::printAtMiddleWB(text, pos.x + x, pos.y + y, font, charpr, kolor, dst);
}
void CIntObject::printToLoc( const std::string & text, int x, int y, EFonts font, SDL_Color kolor, SDL_Surface * dst )
{
CSDL_Ext::printTo(text, pos.x + x, pos.y + y, font, kolor, dst);
}
void CIntObject::disable()
{
if(active)
deactivate();
recActions = DISPOSE;
}
void CIntObject::enable(bool activation)
{
if(!active && activation)
activate();
recActions = 255;
}
bool CIntObject::isItInLoc( const SDL_Rect &rect, int x, int y )
{
return isItIn(&rect, x - pos.x, y - pos.y);
}
bool CIntObject::isItInLoc( const SDL_Rect &rect, const Point &p )
{
return isItIn(&rect, p.x - pos.x, p.y - pos.y);
}
void CIntObject::activateWheel()
{
GH.wheelInterested.push_front(this);
active |= WHEEL;
}
void CIntObject::deactivateWheel()
{
std::list<CIntObject*>::iterator hlp = std::find(GH.wheelInterested.begin(),GH.wheelInterested.end(),this);
assert(hlp != GH.wheelInterested.end());
GH.wheelInterested.erase(hlp);
active &= ~WHEEL;
}
void CIntObject::wheelScrolled(bool down, bool in)
{
}
void CIntObject::activateDClick()
{
GH.doubleClickInterested.push_front(this);
active |= DOUBLECLICK;
}
void CIntObject::deactivateDClick()
{
std::list<CIntObject*>::iterator hlp = std::find(GH.doubleClickInterested.begin(),GH.doubleClickInterested.end(),this);
assert(hlp != GH.doubleClickInterested.end());
GH.doubleClickInterested.erase(hlp);
active &= ~DOUBLECLICK;
}
void CIntObject::onDoubleClick()
{
}
const Rect & CIntObject::center( const Rect &r, bool propagate )
{
pos.w = r.w;
pos.h = r.h;
return center(Point(screen->w/2, screen->h/2), propagate);
}
const Rect & CIntObject::center( bool propagate )
{
return center(pos, propagate);
}
const Rect & CIntObject::center(const Point &p, bool propagate /*= true*/)
{
moveBy(Point(p.x - pos.w/2 - pos.x,
p.y - pos.h/2 - pos.y),
propagate);
return pos;
}
void CIntObject::fitToScreen(int borderWidth, bool propagate)
{
Point newPos = pos.topLeft();
amax(newPos.x, borderWidth);
amax(newPos.y, borderWidth);
amin(newPos.x, screen->w - borderWidth - pos.w);
amin(newPos.y, screen->h - borderWidth - pos.h);
if (newPos != pos.topLeft())
moveTo(newPos, propagate);
}
void CIntObject::moveBy( const Point &p, bool propagate /*= true*/ )
{
pos.x += p.x;
pos.y += p.y;
if(propagate)
for(size_t i = 0; i < children.size(); i++)
children[i]->moveBy(p, propagate);
}
void CIntObject::moveTo( const Point &p, bool propagate /*= true*/ )
{
moveBy(Point(p.x - pos.x, p.y - pos.y), propagate);
}
void CIntObject::delChild(CIntObject *child)
{
children -= child;
delete child;
}
void CIntObject::addChild(CIntObject *child, bool adjustPosition /*= false*/)
{
assert(!vstd::contains(children, child));
assert(child->parent == NULL);
children.push_back(child);
child->parent = this;
if(adjustPosition)
child->pos += pos;
}
void CIntObject::removeChild(CIntObject *child, bool adjustPosition /*= false*/)
{
assert(vstd::contains(children, child));
assert(child->parent == this);
children -= child;
child->parent = NULL;
if(adjustPosition)
child->pos -= pos;
}
void CIntObject::changeUsedEvents(ui16 what, bool enable, bool adjust /*= true*/)
{
if(enable)
{
used |= what;
if(adjust && active)
activate(what);
}
else
{
used &= ~what;
if(adjust && active)
deactivate(what);
}
}
CPicture::CPicture( SDL_Surface *BG, int x, int y, bool Free )
{
init();
bg = BG;
freeSurf = Free;
pos.x += x;
pos.y += y;
pos.w = BG->w;
pos.h = BG->h;
}
CPicture::CPicture( const std::string &bmpname, int x, int y )
{
init();
bg = BitmapHandler::loadBitmap(bmpname);
freeSurf = true;;
pos.x += x;
pos.y += y;
if(bg)
{
pos.w = bg->w;
pos.h = bg->h;
}
else
{
pos.w = pos.h = 0;
}
}
CPicture::CPicture(const Rect &r, const SDL_Color &color, bool screenFormat /*= false*/)
{
init();
createSimpleRect(r, screenFormat, SDL_MapRGB(bg->format, color.r, color.g,color.b));
}
CPicture::CPicture(const Rect &r, ui32 color, bool screenFormat /*= false*/)
{
init();
createSimpleRect(r, screenFormat, color);
}
CPicture::CPicture(SDL_Surface *BG, const Rect &SrcRect, int x /*= 0*/, int y /*= 0*/, bool free /*= false*/)
{
needRefresh = false;
srcRect = new Rect(SrcRect);
pos.x += x;
pos.y += y;
pos.w = srcRect->w;
pos.h = srcRect->h;
bg = BG;
freeSurf = free;
}
CPicture::~CPicture()
{
if(freeSurf)
SDL_FreeSurface(bg);
delete srcRect;
}
void CPicture::init()
{
needRefresh = false;
srcRect = NULL;
}
void CPicture::show( SDL_Surface * to )
{
if (needRefresh)
showAll(to);
}
void CPicture::showAll( SDL_Surface * to )
{
if(bg)
{
if(srcRect)
{
SDL_Rect srcRectCpy = *srcRect;
SDL_Rect dstRect = srcRectCpy;
dstRect.x = pos.x;
dstRect.y = pos.y;
CSDL_Ext::blitSurface(bg, &srcRectCpy, to, &dstRect);
}
else
blitAt(bg, pos, to);
}
}
void CPicture::convertToScreenBPP()
{
SDL_Surface *hlp = bg;
bg = SDL_ConvertSurface(hlp,screen->format,0);
SDL_SetColorKey(bg,SDL_SRCCOLORKEY,SDL_MapRGB(bg->format,0,255,255));
SDL_FreeSurface(hlp);
}
void CPicture::createSimpleRect(const Rect &r, bool screenFormat, ui32 color)
{
pos += r;
pos.w = r.w;
pos.h = r.h;
if(screenFormat)
bg = CSDL_Ext::newSurface(r.w, r.h);
else
bg = SDL_CreateRGBSurface(SDL_SWSURFACE, r.w, r.h, 8, 0, 0, 0, 0);
SDL_FillRect(bg, NULL, color);
freeSurf = true;
}
void CPicture::colorizeAndConvert(int player)
{
assert(bg);
colorize(player);
convertToScreenBPP();
}
void CPicture::colorize(int player)
{
assert(bg);
assert(bg->format->BitsPerPixel == 8);
graphics->blueToPlayersAdv(bg, player);
}
ObjectConstruction::ObjectConstruction( CIntObject *obj )
:myObj(obj)
{
GH.createdObj.push_front(obj);
GH.captureChildren = true;
}
ObjectConstruction::~ObjectConstruction()
{
assert(GH.createdObj.size());
assert(GH.createdObj.front() == myObj);
GH.createdObj.pop_front();
GH.captureChildren = GH.createdObj.size();
}
SetCaptureState::SetCaptureState(bool allow, ui8 actions)
{
previousCapture = GH.captureChildren;
GH.captureChildren = false;
prevActions = GH.defActionsDef;
GH.defActionsDef = actions;
}
SetCaptureState::~SetCaptureState()
{
GH.captureChildren = previousCapture;
GH.defActionsDef = prevActions;
}
void IShowable::redraw()
{
showAll(screenBuf);
if(screenBuf != screen)
showAll(screen);
}
SDLKey arrowToNum( SDLKey key )
{
switch(key)
{
case SDLK_DOWN:
return SDLK_KP2;
case SDLK_UP:
return SDLK_KP8;
case SDLK_LEFT:
return SDLK_KP4;
case SDLK_RIGHT:
return SDLK_KP6;
default:
assert(0);
}
throw std::string("Wrong key!");
}
SDLKey numToDigit( SDLKey key )
{
if(key >= SDLK_KP0 && key <= SDLK_KP9)
return SDLKey(key - SDLK_KP0 + SDLK_0);
#define REMOVE_KP(keyName) case SDLK_KP_ ## keyName : return SDLK_ ## keyName;
switch(key)
{
REMOVE_KP(PERIOD)
REMOVE_KP(MINUS)
REMOVE_KP(PLUS)
REMOVE_KP(EQUALS)
case SDLK_KP_MULTIPLY:
return SDLK_ASTERISK;
case SDLK_KP_DIVIDE:
return SDLK_SLASH;
case SDLK_KP_ENTER:
return SDLK_RETURN;
default:
tlog3 << "Illegal numkey conversion!" << std::endl;
return SDLK_UNKNOWN;
}
#undef REMOVE_KP
}
bool isNumKey( SDLKey key, bool number )
{
if(number)
return key >= SDLK_KP0 && key <= SDLK_KP9;
else
return key >= SDLK_KP0 && key <= SDLK_KP_EQUALS;
}
bool isArrowKey( SDLKey key )
{
return key >= SDLK_UP && key <= SDLK_LEFT;
}
CIntObject * moveChild(CIntObject *obj, CIntObject *from, CIntObject *to, bool adjustPos)
{
from->removeChild(obj, adjustPos);
to->addChild(obj, adjustPos);
return obj;
}
Rect Rect::createCentered( int w, int h )
{
return Rect(screen->w/2 - w/2, screen->h/2 - h/2, w, h);
}
Rect Rect::around(const Rect &r, int width /*= 1*/) /*creates rect around another */
{
return Rect(r.x - width, r.y - width, r.w + width * 2, r.h + width * 2);
}
Rect Rect::centerIn(const Rect &r)
{
return Rect(r.x + (r.w - w) / 2, r.y + (r.h - h) / 2, w, h);
}