/* * CMessage.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 * */ #include "StdInc.h" #include "CMessage.h" #include "../CGameInfo.h" #include "../../lib/CGeneralTextHandler.h" #include "../../lib/TextOperations.h" #include "../windows/InfoWindows.h" #include "../widgets/Buttons.h" #include "../widgets/CComponent.h" #include "../widgets/Slider.h" #include "../widgets/TextControls.h" #include "../gui/CGuiHandler.h" #include "../render/CAnimation.h" #include "../render/IImage.h" #include "../render/Canvas.h" #include "../render/Graphics.h" #include "../render/IFont.h" #include "../renderSDL/SDL_Extensions.h" #include const int BETWEEN_COMPS_ROWS = 10; const int BEFORE_COMPONENTS = 30; const int BETWEEN_COMPS = 30; const int SIDE_MARGIN = 30; template std::pair max(const std::pair &x, const std::pair &y) { std::pair ret; ret.first = std::max(x.first,y.first); ret.second = std::max(x.second,y.second); return ret; } //One image component + subtitles below it class ComponentResolved : public CIntObject { public: std::shared_ptr comp; //blit component with image centered at this position void showAll(Canvas & to) override; //ComponentResolved(); ComponentResolved(std::shared_ptr Comp); ~ComponentResolved(); }; // Full set of components for blitting on dialog box struct ComponentsToBlit { std::vector< std::vector>> comps; int w, h; void blitCompsOnSur(bool blitOr, int inter, int &curh, SDL_Surface *ret); ComponentsToBlit(std::vector> & SComps, int maxw, bool blitOr); ~ComponentsToBlit(); }; namespace { std::array, PlayerColor::PLAYER_LIMIT_I> dialogBorders; std::array>, PlayerColor::PLAYER_LIMIT_I> piecesOfBox; std::shared_ptr background;//todo: should be CFilledTexture } void CMessage::init() { for(int i=0; i("DIALGBOX"); dialogBorders[i]->preload(); for(int j=0; j < dialogBorders[i]->size(0); j++) { auto image = dialogBorders[i]->getImage(j, 0); //assume blue color initially if(i != 1) image->playerColored(PlayerColor(i)); piecesOfBox[i].push_back(image); } } background = IImage::createFromFile("DIBOXBCK.BMP", EImageBlitMode::OPAQUE); } void CMessage::dispose() { for(auto & item : dialogBorders) item.reset(); } SDL_Surface * CMessage::drawDialogBox(int w, int h, PlayerColor playerColor) { //prepare surface SDL_Surface * ret = CSDL_Ext::newSurface(w,h); for (int i=0; iwidth())//background { for (int j=0; jheight()) { background->draw(ret, i, j); } } drawBorder(playerColor, ret, w, h); return ret; } std::vector CMessage::breakText( std::string text, size_t maxLineWidth, EFonts font ) { std::vector ret; boost::algorithm::trim_right_if(text,boost::algorithm::is_any_of(std::string(" "))); // each iteration generates one output line while (text.length()) { ui32 lineWidth = 0; //in characters or given char metric ui32 wordBreak = -1; //last position for line break (last space character) ui32 currPos = 0; //current position in text bool opened = false; //set to true when opening brace is found size_t symbolSize = 0; // width of character, in bytes size_t glyphWidth = 0; // width of printable glyph, pixels // loops till line is full or end of text reached while(currPos < text.length() && text[currPos] != 0x0a && lineWidth < maxLineWidth) { symbolSize = TextOperations::getUnicodeCharacterSize(text[currPos]); glyphWidth = graphics->fonts[font]->getGlyphWidth(text.data() + currPos); // candidate for line break if (ui8(text[currPos]) <= ui8(' ')) wordBreak = currPos; /* We don't count braces in string length. */ if (text[currPos] == '{') opened=true; else if (text[currPos]=='}') opened=false; else lineWidth += (ui32)glyphWidth; currPos += (ui32)symbolSize; } // long line, create line break if (currPos < text.length() && (text[currPos] != 0x0a)) { if (wordBreak != ui32(-1)) currPos = wordBreak; else currPos -= (ui32)symbolSize; } //non-blank line if(currPos != 0) { ret.push_back(text.substr(0, currPos)); if (opened) /* Close the brace for the current line. */ ret.back() += '}'; text.erase(0, currPos); } else if(text[currPos] == 0x0a) { ret.push_back(""); //add empty string, no extra actions needed } if (text.length() != 0 && text[0] == 0x0a) { /* Remove LF */ text.erase(0, 1); } else { // trim only if line does not starts with LF // FIXME: necessary? All lines will be trimmed before returning anyway boost::algorithm::trim_left_if(text,boost::algorithm::is_any_of(std::string(" "))); } if (opened) { /* Add an opening brace for the next line. */ if (text.length() != 0) text.insert(0, "{"); } } /* Trim whitespaces of every line. */ for (auto & elem : ret) boost::algorithm::trim(elem); return ret; } std::string CMessage::guessHeader(const std::string & msg) { size_t begin = 0; std::string delimeters = "{}"; size_t start = msg.find_first_of(delimeters[0], begin); size_t end = msg.find_first_of(delimeters[1], start); if(start > msg.size() || end > msg.size()) return ""; return msg.substr(begin, end); } int CMessage::guessHeight(const std::string & txt, int width, EFonts font) { const auto f = graphics->fonts[font]; auto lines = CMessage::breakText(txt, width, font); int lineHeight = static_cast(f->getLineHeight()); return lineHeight * (int)lines.size(); } int CMessage::getEstimatedComponentHeight(int numComps) { if (numComps > 8) //Bigger than 8 components - return invalid value return std::numeric_limits::max(); else if (numComps > 2) return 160; // 32px * 1 row + 20 to offset else if (numComps) return 118; // 118 px to offset return 0; } void CMessage::drawIWindow(CInfoWindow * ret, std::string text, PlayerColor player) { bool blitOr = false; if(dynamic_cast(ret)) //it's selection window, so we'll blit "or" between components blitOr = true; const int sizes[][2] = {{400, 125}, {500, 150}, {600, 200}, {480, 400}}; assert(ret && ret->text); for(int i = 0; i < std::size(sizes) && sizes[i][0] < GH.screenDimensions().x - 150 && sizes[i][1] < GH.screenDimensions().y - 150 && ret->text->slider; i++) { ret->text->resize(Point(sizes[i][0], sizes[i][1])); } if(ret->text->slider) { ret->text->slider->addUsedEvents(CIntObject::WHEEL | CIntObject::KEYBOARD); } else { ret->text->resize(ret->text->label->textSize + Point(10, 10)); } std::pair winSize(ret->text->pos.w, ret->text->pos.h); //start with text size ComponentsToBlit comps(ret->components,500, blitOr); if (ret->components.size()) winSize.second += 10 + comps.h; //space to first component int bw = 0; if (ret->buttons.size()) { int bh = 0; // Compute total width of buttons bw = 20*((int)ret->buttons.size()-1); // space between all buttons for(auto & elem : ret->buttons) //and add buttons width { bw+=elem->pos.w; vstd::amax(bh, elem->pos.h); } winSize.second += 20 + bh;//before button + button } // Clip window size vstd::amax(winSize.second, 50); vstd::amax(winSize.first, 80); vstd::amax(winSize.first, comps.w); vstd::amax(winSize.first, bw); vstd::amin(winSize.first, GH.screenDimensions().x - 150); ret->bitmap = drawDialogBox (winSize.first + 2*SIDE_MARGIN, winSize.second + 2*SIDE_MARGIN, player); ret->pos.h=ret->bitmap->h; ret->pos.w=ret->bitmap->w; ret->center(); int curh = SIDE_MARGIN; int xOffset = (ret->pos.w - ret->text->pos.w)/2; if(!ret->buttons.size() && !ret->components.size()) //improvement for very small text only popups -> center text vertically { if(ret->bitmap->h > ret->text->pos.h + 2*SIDE_MARGIN) curh = (ret->bitmap->h - ret->text->pos.h)/2; } ret->text->moveBy(Point(xOffset, curh)); curh += ret->text->pos.h; if (ret->components.size()) { curh += BEFORE_COMPONENTS; comps.blitCompsOnSur (blitOr, BETWEEN_COMPS, curh, ret->bitmap); } if(ret->buttons.size()) { // Position the buttons at the bottom of the window bw = (ret->bitmap->w/2) - (bw/2); curh = ret->bitmap->h - SIDE_MARGIN - ret->buttons[0]->pos.h; for(auto & elem : ret->buttons) { elem->moveBy(Point(bw, curh)); bw += elem->pos.w + 20; } } for(size_t i=0; icomponents.size(); i++) ret->components[i]->moveBy(Point(ret->pos.x, ret->pos.y)); } void CMessage::drawBorder(PlayerColor playerColor, SDL_Surface * ret, int w, int h, int x, int y) { if(playerColor.isSpectator()) playerColor = PlayerColor(1); auto & box = piecesOfBox.at(playerColor.getNum()); // Note: this code assumes that the corner dimensions are all the same. // Horizontal borders int start_x = x + box[0]->width(); const int stop_x = x + w - box[1]->width(); const int bottom_y = y+h-box[7]->height()+1; while (start_x < stop_x) { int cur_w = stop_x - start_x; if (cur_w > box[6]->width()) cur_w = box[6]->width(); // Top border Rect srcR(0, 0, cur_w, box[6]->height()); Rect dstR(start_x, y, 0, 0); box[6]->draw(ret, &dstR, &srcR); // Bottom border dstR.y = bottom_y; box[7]->draw(ret, &dstR, &srcR); start_x += cur_w; } // Vertical borders int start_y = y + box[0]->height(); const int stop_y = y + h - box[2]->height()+1; const int right_x = x+w-box[5]->width(); while (start_y < stop_y) { int cur_h = stop_y - start_y; if (cur_h > box[4]->height()) cur_h = box[4]->height(); // Left border Rect srcR(0, 0, box[4]->width(), cur_h); Rect dstR(x, start_y, 0, 0); box[4]->draw(ret, &dstR, &srcR); // Right border dstR.x = right_x; box[5]->draw(ret, &dstR, &srcR); start_y += cur_h; } //corners Rect dstR(x, y, box[0]->width(), box[0]->height()); box[0]->draw(ret, &dstR, nullptr); dstR=Rect(x+w-box[1]->width(), y, box[1]->width(), box[1]->height()); box[1]->draw(ret, &dstR, nullptr); dstR=Rect(x, y+h-box[2]->height()+1, box[2]->width(), box[2]->height()); box[2]->draw(ret, &dstR, nullptr); dstR=Rect(x+w-box[3]->width(), y+h-box[3]->height()+1, box[3]->width(), box[3]->height()); box[3]->draw(ret, &dstR, nullptr); } ComponentResolved::ComponentResolved(std::shared_ptr Comp): comp(Comp) { //Temporary assign ownership on comp if (parent) parent->removeChild(this); if (comp->parent) { comp->parent->addChild(this); comp->parent->removeChild(comp.get()); } addChild(comp.get()); defActions = 255 - DISPOSE; pos.x = pos.y = 0; pos.w = comp->pos.w; pos.h = comp->pos.h; } ComponentResolved::~ComponentResolved() { if (parent) { removeChild(comp.get()); parent->addChild(comp.get()); } } void ComponentResolved::showAll(Canvas & to) { CIntObject::showAll(to); comp->showAll(to); } ComponentsToBlit::~ComponentsToBlit() = default; ComponentsToBlit::ComponentsToBlit(std::vector> & SComps, int maxw, bool blitOr) { int orWidth = static_cast(graphics->fonts[FONT_MEDIUM]->getStringWidth(CGI->generaltexth->allTexts[4])); w = h = 0; if(SComps.empty()) return; comps.resize(1); int curw = 0; int curr = 0; //current row for(auto & SComp : SComps) { auto cur = std::make_shared(SComp); int toadd = (cur->pos.w + BETWEEN_COMPS + (blitOr ? orWidth : 0)); if (curw + toadd > maxw) { curr++; vstd::amax(w,curw); curw = cur->pos.w; comps.resize(curr+1); } else { curw += toadd; vstd::amax(w,curw); } comps[curr].push_back(cur); } for(auto & elem : comps) { int maxHeight = 0; for(size_t j=0;jpos.h); h += maxHeight + BETWEEN_COMPS_ROWS; } } void ComponentsToBlit::blitCompsOnSur( bool blitOr, int inter, int &curh, SDL_Surface *ret ) { int orWidth = static_cast(graphics->fonts[FONT_MEDIUM]->getStringWidth(CGI->generaltexth->allTexts[4])); for (auto & elem : comps)//for each row { int totalw=0, maxHeight=0; for(size_t j=0;jpos.w; vstd::amax(maxHeight, cur->pos.h); } //add space between comps in this row if(blitOr) totalw += (inter*2+orWidth) * ((int)elem.size() - 1); else totalw += (inter) * ((int)elem.size() - 1); int middleh = curh + maxHeight/2;//axis for image aligment int curw = ret->w/2 - totalw/2; for(size_t j=0;jmoveTo(Point(curw, curh)); //blit component Canvas canvas = Canvas::createFromSurface(ret); cur->showAll(canvas); curw += cur->pos.w; //if there is subsequent component blit "or" if(j<(elem.size()-1)) { if(blitOr) { curw+=inter; graphics->fonts[FONT_MEDIUM]->renderTextLeft(ret, CGI->generaltexth->allTexts[4], Colors::WHITE, Point(curw,middleh-((int)graphics->fonts[FONT_MEDIUM]->getLineHeight()/2))); curw+=orWidth; } curw+=inter; } } curh += maxHeight + BETWEEN_COMPS_ROWS; } }