/*
* Gui Skinning
* Copyright (C) 2008 The Legend of Mazzeroth Development Team
* Copyright (C) 2009 Aethyra Development Team
* Copyright (C) 2009 The Mana World Development Team
* Copyright (C) 2009-2010 The Mana Developers
* Copyright (C) 2011-2013 The ManaPlus Developers
*
* This file is part of The ManaPlus Client.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see .
*/
#include "gui/theme.h"
#include "client.h"
#include "configuration.h"
#include "graphicsmanager.h"
#include "resources/dye.h"
#include "resources/image.h"
#include "resources/imageset.h"
#include "resources/resourcemanager.h"
#include "utils/dtor.h"
#include "utils/physfstools.h"
#include
#include "debug.h"
static std::string defaultThemePath;
std::string Theme::mThemePath;
std::string Theme::mThemeName;
std::string Theme::mScreenDensity;
Theme *Theme::mInstance = nullptr;
// Set the theme path...
static void initDefaultThemePath()
{
const ResourceManager *const resman = ResourceManager::getInstance();
defaultThemePath = branding.getStringValue("guiThemePath");
logger->log("defaultThemePath: " + defaultThemePath);
if (!defaultThemePath.empty() && resman->isDirectory(defaultThemePath))
return;
else
defaultThemePath = "themes/";
}
Skin::Skin(ImageRect *skin, const ImageRect *images,
const std::string &filePath, const std::string &name,
const int padding, const int titlePadding,
std::map *const options):
instances(1),
mFilePath(filePath),
mName(name),
mBorder(skin),
mCloseImage(images->grid[0]),
mCloseImageHighlighted(images->grid[1]),
mStickyImageUp(images->grid[2]),
mStickyImageDown(images->grid[3]),
mPadding(padding),
mTitlePadding(titlePadding),
mOptions(options)
{
if (!mCloseImageHighlighted)
{
mCloseImageHighlighted = mCloseImage;
if (mCloseImageHighlighted)
mCloseImageHighlighted->incRef();
}
}
Skin::~Skin()
{
// Clean up static resources
for (int i = 0; i < 9; i++)
{
if (mBorder->grid[i])
{
mBorder->grid[i]->decRef();
mBorder->grid[i] = nullptr;
}
}
if (mCloseImage)
{
mCloseImage->decRef();
mCloseImage = nullptr;
}
if (mCloseImageHighlighted)
{
mCloseImageHighlighted->decRef();
mCloseImageHighlighted = nullptr;
}
if (mStickyImageUp)
{
mStickyImageUp->decRef();
mStickyImageUp = nullptr;
}
if (mStickyImageDown)
{
mStickyImageDown->decRef();
mStickyImageDown = nullptr;
}
delete mOptions;
delete mBorder;
mOptions = nullptr;
}
void Skin::updateAlpha(const float minimumOpacityAllowed)
{
const float alpha = static_cast(
std::max(static_cast(minimumOpacityAllowed),
static_cast(Client::getGuiAlpha())));
for (int i = 0; i < 9; i++)
{
if (mBorder->grid[i])
mBorder->grid[i]->setAlpha(alpha);
}
if (mCloseImage)
mCloseImage->setAlpha(alpha);
if (mCloseImageHighlighted)
mCloseImageHighlighted->setAlpha(alpha);
if (mStickyImageUp)
mStickyImageUp->setAlpha(alpha);
if (mStickyImageDown)
mStickyImageDown->setAlpha(alpha);
}
int Skin::getMinWidth() const
{
if (!mBorder->grid[ImageRect::UPPER_LEFT]
|| !mBorder->grid[ImageRect::UPPER_RIGHT])
{
return 1;
}
return mBorder->grid[ImageRect::UPPER_LEFT]->getWidth() +
mBorder->grid[ImageRect::UPPER_RIGHT]->getWidth();
}
int Skin::getMinHeight() const
{
if (!mBorder->grid[ImageRect::UPPER_LEFT]
|| !mBorder->grid[ImageRect::LOWER_LEFT])
{
return 1;
}
return mBorder->grid[ImageRect::UPPER_LEFT]->getHeight() +
mBorder->grid[ImageRect::LOWER_LEFT]->getHeight();
}
Theme::Theme() :
Palette(THEME_COLORS_END * THEME_PALETTES),
mSkins(),
mMinimumOpacity(-1.0f),
mProgressColors(ProgressColors(THEME_PROG_END))
{
initDefaultThemePath();
config.addListener("guialpha", this);
mColors[HIGHLIGHT].ch = 'H';
mColors[CHAT].ch = 'C';
mColors[GM].ch = 'G';
mColors[PLAYER].ch = 'Y';
mColors[WHISPER_TAB].ch = 'W';
mColors[WHISPER_TAB_OFFLINE].ch = 'w';
mColors[IS].ch = 'I';
mColors[PARTY_CHAT_TAB].ch = 'P';
mColors[GUILD_CHAT_TAB].ch = 'U';
mColors[SERVER].ch = 'S';
mColors[LOGGER].ch = 'L';
mColors[HYPERLINK].ch = '<';
mColors[SELFNICK].ch = 's';
mCharColors['H'] = HIGHLIGHT;
mCharColors['C'] = CHAT;
mCharColors['G'] = GM;
mCharColors['Y'] = PLAYER;
mCharColors['W'] = WHISPER_TAB;
mCharColors['w'] = WHISPER_TAB_OFFLINE;
mCharColors['I'] = IS;
mCharColors['P'] = PARTY_CHAT_TAB;
mCharColors['U'] = GUILD_CHAT_TAB;
mCharColors['S'] = SERVER;
mCharColors['L'] = LOGGER;
mCharColors['<'] = HYPERLINK;
mCharColors['s'] = SELFNICK;
// here need use outlined colors
mCharColors['H' | 0x80] = HIGHLIGHT_OUTLINE;
mCharColors['C' | 0x80] = CHAT_OUTLINE;
mCharColors['G' | 0x80] = GM_OUTLINE;
mCharColors['Y' | 0x80] = PLAYER_OUTLINE;
mCharColors['W' | 0x80] = WHISPER_TAB_OUTLINE;
mCharColors['w' | 0x80] = WHISPER_TAB_OFFLINE_OUTLINE;
mCharColors['I' | 0x80] = IS_OUTLINE;
mCharColors['P' | 0x80] = PARTY_CHAT_TAB_OUTLINE;
mCharColors['U' | 0x80] = GUILD_CHAT_TAB_OUTLINE;
mCharColors['S' | 0x80] = SERVER_OUTLINE;
mCharColors['L' | 0x80] = LOGGER_OUTLINE;
mCharColors['<' | 0x80] = HYPERLINK_OUTLINE;
mCharColors['s' | 0x80] = SELFNICK_OUTLINE;
}
Theme::~Theme()
{
delete_all(mSkins);
config.removeListener("guialpha", this);
delete_all(mProgressColors);
}
Theme *Theme::instance()
{
if (!mInstance)
mInstance = new Theme;
return mInstance;
}
void Theme::deleteInstance()
{
delete mInstance;
mInstance = nullptr;
}
gcn::Color Theme::getProgressColor(const int type, const float progress)
{
int color[3] = {0, 0, 0};
if (mInstance)
{
const DyePalette *const dye = mInstance->mProgressColors[type];
if (dye)
dye->getColor(progress, color);
else
logger->log("color not found: " + toString(type));
}
return gcn::Color(color[0], color[1], color[2]);
}
Skin *Theme::load(const std::string &filename, const std::string &filename2,
const bool full, const std::string &defaultPath)
{
// Check if this skin was already loaded
const SkinIterator skinIterator = mSkins.find(filename);
if (mSkins.end() != skinIterator)
{
if (skinIterator->second)
skinIterator->second->instances++;
return skinIterator->second;
}
Skin *skin = nullptr;
if (mScreenDensity.empty())
{ // if no density detected
skin = readSkin(filename, full);
if (!skin && !filename2.empty() && filename2 != filename)
skin = readSkin(filename2, full);
if (!skin && filename2 != "window.xml")
skin = readSkin("window.xml", full);
}
else
{ // first use correct density images
const std::string endStr = "_" + mScreenDensity + ".xml";
std::string name = filename;
if (findCutLast(name, ".xml"))
skin = readSkin(name + endStr, full);
if (!skin)
skin = readSkin(filename, full);
if (!skin && !filename2.empty() && filename2 != filename)
{
name = filename2;
if (findCutLast(name, ".xml"))
skin = readSkin(name + endStr, full);
if (!skin)
skin = readSkin(filename2, full);
}
if (!skin && filename2 != "window.xml")
{
skin = readSkin("window" + endStr, full);
if (!skin)
skin = readSkin("window.xml", full);
}
}
if (!skin)
{
// Try falling back on the defaultPath if this makes sense
if (filename != defaultPath)
{
logger->log("Error loading skin '%s', falling back on default.",
filename.c_str());
skin = readSkin(defaultPath, full);
}
if (!skin)
{
logger->log(strprintf("Error: Loading default skin '%s' failed. "
"Make sure the skin file is valid.",
defaultPath.c_str()));
}
}
// Add the skin to the loaded skins
mSkins[filename] = skin;
return skin;
}
void Theme::unload(Skin *const skin)
{
if (!skin)
return;
skin->instances --;
// unload theme if no instances
if (!skin->instances)
{
SkinIterator it = mSkins.begin();
const SkinIterator it_end = mSkins.end();
while (it != it_end)
{
if (it->second == skin)
{
mSkins.erase(it);
break;
}
++ it;
}
delete skin;
}
}
void Theme::setMinimumOpacity(const float minimumOpacity)
{
if (minimumOpacity > 1.0f)
return;
mMinimumOpacity = minimumOpacity;
updateAlpha();
}
void Theme::updateAlpha()
{
FOR_EACH (SkinIterator, iter, mSkins)
{
if (iter->second)
iter->second->updateAlpha(mMinimumOpacity);
}
}
void Theme::optionChanged(const std::string &)
{
updateAlpha();
}
struct SkinParameter final
{
int index;
std::string name;
};
static const SkinParameter skinParam[] =
{
{0, "top-left-corner"},
{0, "standart"},
{0, "up"},
{0, "hstart"},
{0, "in"},
{0, "normal"},
{1, "top-edge"},
{1, "highlighted"},
{1, "down"},
{1, "hmiddle"},
{1, "in-highlighted"},
{1, "checked"},
{2, "top-right-corner"},
{2, "pressed"},
{2, "left"},
{2, "hend"},
{2, "out"},
{2, "disabled"},
{3, "left-edge"},
{3, "disabled"},
{3, "right"},
{3, "hgrip"},
{3, "out-highlighted"},
{3, "disabled-checked"},
{4, "bg-quad"},
{4, "vstart"},
{4, "normal-highlighted"},
{5, "right-edge"},
{5, "vmiddle"},
{5, "checked-highlighted"},
{6, "bottom-left-corner"},
{6, "vend"},
{7, "bottom-edge"},
{7, "vgrip"},
{8, "bottom-right-corner"},
};
static const SkinParameter imageParam[] =
{
{0, "closeImage"},
{1, "closeImageHighlighted"},
{2, "stickyImageUp"},
{3, "stickyImageDown"},
};
struct SkinHelper final
{
SkinHelper() :
partType(),
xPos(),
yPos(),
width(),
height(),
rect(),
node(),
image(),
resman()
{
}
A_DELETE_COPY(SkinHelper)
std::string partType;
int xPos;
int yPos;
int width;
int height;
ImageRect *rect;
XmlNodePtr *node;
Image *image;
ResourceManager *resman;
bool loadList(const SkinParameter *const params, const size_t size)
{
for (unsigned f = 0; f < size; f ++)
{
if (partType == params[f].name)
{
// rect->grid[params[f].index] = image->getSubImage(
// xPos, yPos, width, height);
rect->grid[params[f].index] = resman->getSubImage(
image, xPos, yPos, width, height);
return true;
}
}
return false;
}
};
Skin *Theme::readSkin(const std::string &filename, const bool full)
{
if (filename.empty())
return nullptr;
// logger->log("Loading skin '%s'.", filename.c_str());
XML::Document doc(resolveThemePath(filename));
const XmlNodePtr rootNode = doc.rootNode();
if (!rootNode || !xmlNameEqual(rootNode, "skinset"))
return nullptr;
const std::string skinSetImage = XML::getProperty(rootNode, "image", "");
if (skinSetImage.empty())
{
logger->log1("Theme::readSkin(): Skinset does not define an image!");
return nullptr;
}
Image *const dBorders = Theme::getImageFromTheme(skinSetImage);
ImageRect *border = new ImageRect;
ImageRect *images = new ImageRect;
memset(border, 0, sizeof(ImageRect));
memset(images, 0, sizeof(ImageRect));
int padding = 3;
int titlePadding = 4;
int titlebarHeight = 0;
int closePadding = 3;
int stickySpacing = 3;
int stickyPadding = 3;
int resizePadding = 2;
std::map *const mOptions
= new std::map();
// iterate 's
for_each_xml_child_node(widgetNode, rootNode)
{
if (!xmlNameEqual(widgetNode, "widget"))
continue;
const std::string widgetType =
XML::getProperty(widgetNode, "type", "unknown");
if (widgetType == "Window")
{
SkinHelper helper;
helper.resman = ResourceManager::getInstance();
const int globalXPos = XML::getProperty(widgetNode, "xpos", 0);
const int globalYPos = XML::getProperty(widgetNode, "ypos", 0);
for_each_xml_child_node(partNode, widgetNode)
{
if (xmlNameEqual(partNode, "part"))
{
helper.partType = XML::getProperty(
partNode, "type", "unknown");
helper.xPos = XML::getProperty(
partNode, "xpos", 0) + globalXPos;
helper.yPos = XML::getProperty(
partNode, "ypos", 0) + globalYPos;
helper.width = XML::getProperty(partNode, "width", 1);
helper.height = XML::getProperty(partNode, "height", 1);
helper.image = dBorders;
helper.rect = border;
if (!helper.loadList(skinParam,
sizeof(skinParam) / sizeof(SkinParameter)))
{
helper.rect = images;
helper.loadList(imageParam,
sizeof(imageParam) / sizeof(SkinParameter));
}
}
else if (full && xmlNameEqual(partNode, "option"))
{
const std::string name = XML::getProperty(
partNode, "name", "");
if (name == "padding")
{
padding = XML::getProperty(partNode, "value", 3);
}
else if (name == "titlePadding")
{
titlePadding = XML::getProperty(partNode, "value", 4);
}
else if (name == "closePadding")
{
closePadding = XML::getProperty(partNode, "value", 3);
}
else if (name == "stickySpacing")
{
stickySpacing = XML::getProperty(partNode, "value", 3);
}
else if (name == "stickyPadding")
{
stickyPadding = XML::getProperty(partNode, "value", 3);
}
else if (name == "titlebarHeight")
{
titlebarHeight = XML::getProperty(
partNode, "value", 0);
}
else if (name == "resizePadding")
{
resizePadding = XML::getProperty(
partNode, "value", 2);
}
else
{
(*mOptions)[name] = XML::getProperty(
partNode, "value", 0);
}
}
}
}
else
{
logger->log("Theme::readSkin(): Unknown widget type '%s'",
widgetType.c_str());
}
}
if (dBorders)
dBorders->decRef();
(*mOptions)["closePadding"] = closePadding;
(*mOptions)["stickyPadding"] = stickyPadding;
(*mOptions)["stickySpacing"] = stickySpacing;
(*mOptions)["titlebarHeight"] = titlebarHeight;
(*mOptions)["resizePadding"] = resizePadding;
Skin *const skin = new Skin(border, images, filename, "", padding,
titlePadding, mOptions);
delete images;
skin->updateAlpha(mMinimumOpacity);
return skin;
}
bool Theme::tryThemePath(std::string themeName)
{
if (!themeName.empty())
{
std::string path = defaultThemePath + themeName;
if (PhysFs::exists(path.c_str()))
{
mThemePath = path;
mThemeName = themeName;
if (instance())
instance()->loadColors("");
return true;
}
}
return false;
}
void Theme::fillSkinsList(StringVect &list)
{
char **skins = PhysFs::enumerateFiles(
branding.getStringValue("guiThemePath").c_str());
for (char **i = skins; *i; i++)
{
if (PhysFs::isDirectory((
branding.getStringValue("guiThemePath") + *i).c_str()))
{
list.push_back(*i);
}
}
PhysFs::freeList(skins);
}
void Theme::fillFontsList(StringVect &list)
{
PHYSFS_permitSymbolicLinks(1);
char **fonts = PhysFs::enumerateFiles(
branding.getStringValue("fontsPath").c_str());
for (char **i = fonts; *i; i++)
{
if (!PhysFs::isDirectory((
branding.getStringValue("fontsPath") + *i).c_str()))
{
list.push_back(*i);
}
}
PhysFs::freeList(fonts);
PHYSFS_permitSymbolicLinks(0);
}
void Theme::fillSoundsList(StringVect &list)
{
char **skins = PhysFs::enumerateFiles(
branding.getStringValue("systemsounds").c_str());
for (char **i = skins; *i; i++)
{
if (!PhysFs::isDirectory((
branding.getStringValue("systemsounds") + *i).c_str()))
{
std::string str = *i;
if (findCutLast(str, ".ogg"))
list.push_back(str);
}
}
PhysFs::freeList(skins);
}
void Theme::selectSkin()
{
prepareThemePath();
mScreenDensity = graphicsManager.getDensityString();
}
void Theme::prepareThemePath()
{
initDefaultThemePath();
mThemePath.clear();
mThemeName.clear();
// Try theme from settings
if (tryThemePath(config.getStringValue("theme")))
return;
// Try theme from branding
if (tryThemePath(branding.getStringValue("theme")))
return;
if (mThemePath.empty())
mThemePath = "graphics/gui";
instance()->loadColors(mThemePath);
logger->log("Selected Theme: " + mThemePath);
}
std::string Theme::resolveThemePath(const std::string &path)
{
// Need to strip off any dye info for the existence tests
const int pos = static_cast(path.find('|'));
std::string file;
if (pos > 0)
file = path.substr(0, pos);
else
file = path;
// File with path
if (file.find('/') != std::string::npos)
{
// Might be a valid path already
if (PhysFs::exists(file.c_str()))
return path;
}
// Try the theme
file = getThemePath().append("/").append(file);
if (PhysFs::exists(file.c_str()))
return getThemePath().append("/").append(path);
// Backup
return branding.getStringValue("guiPath").append(path);
}
Image *Theme::getImageFromTheme(const std::string &path)
{
ResourceManager *const resman = ResourceManager::getInstance();
return resman->getImage(resolveThemePath(path));
}
ImageSet *Theme::getImageSetFromTheme(const std::string &path,
const int w, const int h)
{
ResourceManager *const resman = ResourceManager::getInstance();
return resman->getImageSet(resolveThemePath(path), w, h);
}
static int readColorType(const std::string &type)
{
static const std::string colors[] =
{
"BROWSERBOX",
"BROWSERBOX_OUTLINE",
"SELFNICK",
"SELFNICK_OUTLINE",
"TEXT",
"CARET",
"SHADOW",
"OUTLINE",
"BORDER",
"PROGRESS_BAR",
"BUTTON",
"BUTTON_DISABLED",
"BUTTON_HIGHLIGHTED",
"BUTTON_PRESSED",
"CHECKBOX",
"DROPDOWN",
"LABEL",
"LISTBOX",
"LISTBOX_SELECTED",
"RADIOBUTTON",
"POPUP",
"POPUP_OUTLINE",
"TAB",
"TAB_OUTLINE",
"TAB_HIGHLIGHTED",
"TAB_HIGHLIGHTED_OUTLINE",
"TAB_SELECTED",
"TAB_SELECTED_OUTLINE",
"TEXTBOX",
"TEXTFIELD",
"WINDOW",
"WINDOW_OUTLINE",
"PARTY_CHAT_TAB",
"PARTY_CHAT_TAB_OUTLINE",
"PARTY_SOCIAL_TAB",
"PARTY_SOCIAL_TAB_OUTLINE",
"GUILD_CHAT_TAB",
"GUILD_CHAT_TAB_OUTLINE",
"GUILD_SOCIAL_TAB",
"GUILD_SOCIAL_TAB_OUTLINE",
"GM_CHAT_TAB",
"GM_CHAT_TAB_OUTLINE",
"PARTY_CHAT_TAB_HIGHLIGHTED",
"PARTY_CHAT_TAB_HIGHLIGHTED_OUTLINE",
"PARTY_SOCIAL_TAB_HIGHLIGHTED",
"PARTY_SOCIAL_TAB_HIGHLIGHTED_OUTLINE",
"GUILD_CHAT_TAB_HIGHLIGHTED",
"GUILD_CHAT_TAB_HIGHLIGHTED_OUTLINE",
"GUILD_SOCIAL_TAB_HIGHLIGHTED",
"GUILD_SOCIAL_TAB_HIGHLIGHTED_OUTLINE",
"GM_CHAT_TAB_HIGHLIGHTED",
"GM_CHAT_TAB_HIGHLIGHTED_OUTLINE",
"PARTY_CHAT_TAB_SELECTED",
"PARTY_CHAT_TAB_SELECTED_OUTLINE",
"PARTY_SOCIAL_TAB_SELECTED",
"PARTY_SOCIAL_TAB_SELECTED_OUTLINE",
"GUILD_CHAT_TAB_SELECTED",
"GUILD_CHAT_TAB_SELECTED_OUTLINE",
"GUILD_SOCIAL_TAB_SELECTED",
"GUILD_SOCIAL_TAB_SELECTED_OUTLINE",
"GM_CHAT_TAB_SELECTED",
"GM_CHAT_TAB_SELECTED_OUTLINE",
"BACKGROUND",
"BACKGROUND_GRAY",
"SCROLLBAR_GRAY",
"DROPDOWN_SHADOW",
"HIGHLIGHT",
"HIGHLIGHT_OUTLINE",
"TAB_FLASH",
"TAB_FLASH_OUTLINE",
"TAB_PLAYER_FLASH",
"TAB_PLAYER_FLASH_OUTLINE",
"SHOP_WARNING",
"ITEM_EQUIPPED",
"ITEM_NOT_EQUIPPED",
"CHAT",
"CHAT_OUTLINE",
"GM",
"GM_OUTLINE",
"PLAYER",
"PLAYER_OUTLINE",
"WHISPER_TAB",
"WHISPER_TAB_OUTLINE",
"WHISPER_TAB_OFFLINE",
"WHISPER_TAB_OFFLINE_OUTLINE",
"WHISPER_TAB_HIGHLIGHTED",
"WHISPER_TAB_HIGHLIGHTED_OUTLINE",
"WHISPER_TAB_OFFLINE_HIGHLIGHTED",
"WHISPER_TAB_OFFLINE_HIGHLIGHTED_OUTLINE",
"WHISPER_TAB_SELECTED",
"WHISPER_TAB_SELECTED_OUTLINE",
"WHISPER_TAB_OFFLINE_SELECTED",
"WHISPER_TAB_OFFLINE_SELECTED_OUTLINE",
"IS",
"IS_OUTLINE",
"SERVER",
"SERVER_OUTLINE",
"LOGGER",
"LOGGER_OUTLINE",
"HYPERLINK",
"HYPERLINK_OUTLINE",
"UNKNOWN_ITEM",
"GENERIC",
"HEAD",
"USABLE",
"TORSO",
"ONEHAND",
"LEGS",
"FEET",
"TWOHAND",
"SHIELD",
"RING",
"NECKLACE",
"ARMS",
"AMMO",
"SERVER_VERSION_NOT_SUPPORTED",
"WARNING",
"CHARM",
"PLAYER_ADVANCED",
"BUBBLE_NAME",
"BUBBLE_TEXT",
"RED",
"RED_OUTLINE",
"GREEN",
"GREEN_OUTLINE",
"BLUE",
"BLUE_OUTLINE",
"ORANGE",
"ORANGE_OUTLINE",
"YELLOW",
"YELLOW_OUTLINE",
"PINK",
"PINK_OUTLINE",
"PURPLE",
"PURPLE_OUTLINE",
"GRAY",
"GRAY_OUTLINE",
"BROWN",
"BROWN_OUTLINE"
};
if (type.empty())
return -1;
for (int i = 0; i < Theme::THEME_COLORS_END; i++)
{
if (compareStrI(type, colors[i]) == 0)
return i;
}
return -1;
}
static gcn::Color readColor(const std::string &description)
{
const int size = static_cast(description.length());
if (size < 7 || description[0] != '#')
{
logger->log("Error, invalid theme color palette: %s",
description.c_str());
return Palette::BLACK;
}
int v = 0;
for (int i = 1; i < 7; ++i)
{
signed const char c = description[i];
int n;
if ('0' <= c && c <= '9')
{
n = c - '0';
}
else if ('A' <= c && c <= 'F')
{
n = c - 'A' + 10;
}
else if ('a' <= c && c <= 'f')
{
n = c - 'a' + 10;
}
else
{
logger->log("Error, invalid theme color palette: %s",
description.c_str());
return Palette::BLACK;
}
v = (v << 4) | n;
}
return gcn::Color(v);
}
static Palette::GradientType readColorGradient(const std::string &grad)
{
static const std::string grads[] =
{
"STATIC",
"PULSE",
"SPECTRUM",
"RAINBOW"
};
if (grad.empty())
return Palette::STATIC;
for (int i = 0; i < 4; i++)
{
if (compareStrI(grad, grads[i]))
return static_cast(i);
}
return Palette::STATIC;
}
static int readProgressType(const std::string &type)
{
static const std::string colors[] =
{
"DEFAULT",
"HP",
"MP",
"NO_MP",
"EXP",
"INVY_SLOTS",
"WEIGHT",
"JOB"
};
if (type.empty())
return -1;
for (int i = 0; i < Theme::THEME_PROG_END; i++)
{
if (compareStrI(type, colors[i]) == 0)
return i;
}
return -1;
}
void Theme::loadColors(std::string file)
{
// if (file == mThemePath)
// return; // No need to reload
if (file == "")
file = "colors.xml";
else
file.append("/colors.xml");
XML::Document doc(resolveThemePath(file));
const XmlNodePtr root = doc.rootNode();
if (!root || !xmlNameEqual(root, "colors"))
{
logger->log("Error loading colors file: %s", file.c_str());
return;
}
logger->log("Loading colors file: %s", file.c_str());
int type;
std::string temp;
gcn::Color color;
GradientType grad;
for_each_xml_child_node(paletteNode, root)
{
if (xmlNameEqual(paletteNode, "progressbar"))
{
type = readProgressType(XML::getProperty(paletteNode, "id", ""));
if (type < 0) // invalid or no type given
continue;
mProgressColors[type] = new DyePalette(XML::getProperty(
paletteNode, "color", ""), 6);
}
else if (!xmlNameEqual(paletteNode, "palette"))
{
continue;
}
const int paletteId = XML::getProperty(paletteNode, "id", 1);
if (paletteId < 0 || paletteId >= THEME_PALETTES)
continue;
for_each_xml_child_node(node, paletteNode)
{
if (xmlNameEqual(node, "color"))
{
std::string id = XML::getProperty(node, "id", "");
type = readColorType(id);
if (type < 0) // invalid or no type given
continue;
temp = XML::getProperty(node, "color", "");
if (temp.empty()) // no color set, so move on
continue;
color = readColor(temp);
grad = readColorGradient(XML::getProperty(node, "effect", ""));
mColors[paletteId * THEME_COLORS_END + type].set(
type, color, grad, 10);
if (!findLast(id, "_OUTLINE"))
{
const int type2 = readColorType(id + "_OUTLINE");
if (type2 < 0)
continue;
const int idx = paletteId * THEME_COLORS_END;
mColors[idx + type2] = mColors[idx + type];
}
}
}
}
}
void Theme::loadRect(ImageRect &image, const std::string &name,
const std::string &name2,
const int start, const int end)
{
Skin *const skin = load(name, name2, false);
if (skin)
{
const ImageRect &rect = skin->getBorder();
for (int f = start; f <= end; f ++)
{
if (rect.grid[f])
{
image.grid[f] = rect.grid[f];
image.grid[f]->incRef();
}
}
unload(skin);
}
}
Skin *Theme::loadSkinRect(ImageRect &image, const std::string &name,
const std::string &name2, const int start,
const int end)
{
Skin *const skin = load(name, name2);
if (skin)
{
const ImageRect &rect = skin->getBorder();
for (int f = start; f <= end; f ++)
{
if (rect.grid[f])
{
image.grid[f] = rect.grid[f];
image.grid[f]->incRef();
}
}
}
return skin;
}
void Theme::unloadRect(const ImageRect &rect, const int start,
const int end) const
{
for (int f = start; f <= end; f ++)
{
if (rect.grid[f])
rect.grid[f]->decRef();
}
}
Image *Theme::getImageFromThemeXml(const std::string &name,
const std::string &name2)
{
Theme *const theme = Theme::instance();
Skin *const skin = theme->load(name, name2, false);
if (skin)
{
const ImageRect &rect = skin->getBorder();
if (rect.grid[0])
{
Image *const image = rect.grid[0];
image->incRef();
theme->unload(skin);
return image;
}
theme->unload(skin);
}
return nullptr;
}
ImageSet *Theme::getImageSetFromThemeXml(const std::string &name,
const std::string &name2,
const int w, const int h) const
{
Theme *const theme = Theme::instance();
Skin *const skin = theme->load(name, name2, false);
if (skin)
{
const ImageRect &rect = skin->getBorder();
if (rect.grid[0])
{
Image *const image = rect.grid[0];
ResourceManager *const resman = ResourceManager::getInstance();
ImageSet *const imageSet = resman->getSubImageSet(image, w, h);
// image->incRef();
theme->unload(skin);
return imageSet;
}
theme->unload(skin);
}
return nullptr;
}
#define readValue(name) \
info->name = reinterpret_cast(\
xmlNodeGetContent(infoNode))
#define readIntValue(name) \
info->name = atoi(reinterpret_cast(\
xmlNodeGetContent(infoNode)))
ThemeInfo *Theme::loadInfo(const std::string &themeName)
{
std::string path;
if (themeName.empty())
{
path = "graphics/gui/info.xml";
}
else
{
path = std::string(defaultThemePath).append(
themeName).append("/info.xml");
}
logger->log("loading: " + path);
XML::Document doc(path);
const XmlNodePtr rootNode = doc.rootNode();
if (!rootNode || !xmlNameEqual(rootNode, "info"))
return nullptr;
ThemeInfo *info = new ThemeInfo();
const std::string fontSize2 = "fontSize_" + mScreenDensity;
const std::string npcfontSize2 = "npcfontSize_" + mScreenDensity;
for_each_xml_child_node(infoNode, rootNode)
{
if (xmlNameEqual(infoNode, "name"))
readValue(name);
else if (xmlNameEqual(infoNode, "copyright"))
readValue(copyright);
else if (xmlNameEqual(infoNode, "font"))
readValue(font);
else if (xmlNameEqual(infoNode, "boldFont"))
readValue(boldFont);
else if (xmlNameEqual(infoNode, "particleFont"))
readValue(particleFont);
else if (xmlNameEqual(infoNode, "helpFont"))
readValue(helpFont);
else if (xmlNameEqual(infoNode, "secureFont"))
readValue(secureFont);
else if (xmlNameEqual(infoNode, "japanFont"))
readValue(japanFont);
else if (xmlNameEqual(infoNode, "fontSize"))
readIntValue(fontSize);
else if (xmlNameEqual(infoNode, "npcfontSize"))
readIntValue(npcfontSize);
else if (xmlNameEqual(infoNode, fontSize2.c_str()))
readIntValue(fontSize);
else if (xmlNameEqual(infoNode, npcfontSize2.c_str()))
readIntValue(npcfontSize);
}
return info;
}