scummvm/gui/ThemeParser.cpp
Max Horn 36cd5caf95 COMMON: Add XMLParser::parseIntegerKey variant accepting a Common::String
Almost all places where we used XMLParser::parseIntegerKey were using
it like this:
  XMLParser::parseIntegerKey(str.c_str(), ...)
Since this makes the code harder to read, I overloaded the method to
also accept Commmon::String directly.
Also removed all .c_str() invocations where necessary.

svn-id: r53479
2010-10-15 12:19:13 +00:00

891 lines
26 KiB
C++

/* ScummVM - Graphic Adventure Engine
*
* ScummVM is the legal property of its developers, whose names
* are too numerous to list here. Please refer to the COPYRIGHT
* file distributed with this source distribution.
*
* 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 (at your option) 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, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
* $URL$
* $Id$
*
*/
#include "gui/ThemeEngine.h"
#include "gui/ThemeEval.h"
#include "gui/ThemeParser.h"
#include "gui/GuiManager.h"
#include "graphics/VectorRenderer.h"
#include "common/tokenizer.h"
namespace GUI {
struct TextDataInfo {
TextData id;
const char *name;
};
static const TextDataInfo kTextDataDefaults[] = {
{ kTextDataDefault, "text_default" },
{ kTextDataButton, "text_button" },
{ kTextDataNormalFont, "text_normal" },
{ kTextDataTooltip, "tooltip_normal" }
};
static TextData parseTextDataId(const Common::String &name) {
for (int i = 0; i < kTextDataMAX; ++i)
if (name.compareToIgnoreCase(kTextDataDefaults[i].name) == 0)
return kTextDataDefaults[i].id;
return kTextDataNone;
}
struct TextColorDataInfo {
TextColor id;
const char *name;
};
static const TextColorDataInfo kTextColorDefaults[] = {
{ kTextColorNormal, "color_normal" },
{ kTextColorNormalInverted, "color_normal_inverted" },
{ kTextColorNormalHover, "color_normal_hover" },
{ kTextColorNormalDisabled, "color_normal_disabled" },
{ kTextColorAlternative, "color_alternative" },
{ kTextColorAlternativeInverted, "color_alternative_inverted" },
{ kTextColorAlternativeHover, "color_alternative_hover" },
{ kTextColorAlternativeDisabled, "color_alternative_disabled" },
{ kTextColorButton, "color_button" },
{ kTextColorButtonHover, "color_button_hover" },
{ kTextColorButtonDisabled, "color_button_disabled" }
};
static TextColor parseTextColorId(const Common::String &name) {
for (int i = 0; i < kTextColorMAX; ++i)
if (name.compareToIgnoreCase(kTextColorDefaults[i].name) == 0)
return kTextColorDefaults[i].id;
return kTextColorMAX;
}
static Graphics::TextAlign parseTextHAlign(const Common::String &val) {
if (val == "left")
return Graphics::kTextAlignLeft;
else if (val == "right")
return Graphics::kTextAlignRight;
else if (val == "center")
return Graphics::kTextAlignCenter;
else
return Graphics::kTextAlignInvalid;
}
static GUI::ThemeEngine::TextAlignVertical parseTextVAlign(const Common::String &val) {
if (val == "top")
return GUI::ThemeEngine::kTextAlignVTop;
else if (val == "center")
return GUI::ThemeEngine::kTextAlignVCenter;
else if (val == "bottom")
return GUI::ThemeEngine::kTextAlignVBottom;
else
return GUI::ThemeEngine::kTextAlignVInvalid;
}
ThemeParser::ThemeParser(ThemeEngine *parent) : XMLParser() {
_defaultStepGlobal = defaultDrawStep();
_defaultStepLocal = 0;
_theme = parent;
}
ThemeParser::~ThemeParser() {
delete _defaultStepGlobal;
delete _defaultStepLocal;
}
void ThemeParser::cleanup() {
delete _defaultStepGlobal;
delete _defaultStepLocal;
_defaultStepGlobal = defaultDrawStep();
_defaultStepLocal = 0;
_palette.clear();
}
Graphics::DrawStep *ThemeParser::defaultDrawStep() {
Graphics::DrawStep *step = new Graphics::DrawStep;
memset(step, 0, sizeof(Graphics::DrawStep));
step->xAlign = Graphics::DrawStep::kVectorAlignManual;
step->yAlign = Graphics::DrawStep::kVectorAlignManual;
step->factor = 1;
step->autoWidth = true;
step->autoHeight = true;
step->fillMode = Graphics::VectorRenderer::kFillDisabled;
step->scale = (1 << 16);
step->radius = 0xFF;
return step;
}
Graphics::DrawStep *ThemeParser::newDrawStep() {
assert(_defaultStepGlobal);
Graphics::DrawStep *step = 0; //new DrawStep;
if (_defaultStepLocal) {
step = new Graphics::DrawStep(*_defaultStepLocal);
} else {
step = new Graphics::DrawStep(*_defaultStepGlobal);
}
return step;
}
bool ThemeParser::parserCallback_defaults(ParserNode *node) {
ParserNode *parentNode = getParentNode(node);
Graphics::DrawStep *step = 0;
if (parentNode->name == "render_info") {
step = _defaultStepGlobal;
} else if (parentNode->name == "drawdata") {
if (_defaultStepLocal == 0)
_defaultStepLocal = new Graphics::DrawStep(*_defaultStepGlobal);
step = _defaultStepLocal;
} else {
return parserError("<default> key out of scope. Must be inside <drawdata> or <render_info> keys.");
}
return parseDrawStep(node, step, false);
}
bool ThemeParser::parserCallback_font(ParserNode *node) {
if (resolutionCheck(node->values["resolution"]) == false) {
node->ignore = true;
return true;
}
TextData textDataId = parseTextDataId(node->values["id"]);
if (!_theme->addFont(textDataId, node->values["file"]))
return parserError("Error loading Font in theme engine.");
return true;
}
bool ThemeParser::parserCallback_text_color(ParserNode *node) {
int red, green, blue;
TextColor colorId = parseTextColorId(node->values["id"]);
if (colorId == kTextColorMAX)
return parserError("Error text color is not defined.");
if (_palette.contains(node->values["color"]))
getPaletteColor(node->values["color"], red, green, blue);
else if (!parseIntegerKey(node->values["color"], 3, &red, &green, &blue))
return parserError("Error parsing color value for text color definition.");
if (!_theme->addTextColor(colorId, red, green, blue))
return parserError("Error while adding text color information.");
return true;
}
bool ThemeParser::parserCallback_fonts(ParserNode *node) {
return true;
}
bool ThemeParser::parserCallback_cursor(ParserNode *node) {
if (resolutionCheck(node->values["resolution"]) == false) {
node->ignore = true;
return true;
}
int spotx, spoty, scale;
if (!parseIntegerKey(node->values["hotspot"], 2, &spotx, &spoty))
return parserError("Error parsing cursor Hot Spot coordinates.");
if (!parseIntegerKey(node->values["scale"], 1, &scale))
return parserError("Error parsing cursor scale.");
if (!_theme->createCursor(node->values["file"], spotx, spoty, scale))
return parserError("Error creating Bitmap Cursor.");
return true;
}
bool ThemeParser::parserCallback_bitmap(ParserNode *node) {
if (resolutionCheck(node->values["resolution"]) == false) {
node->ignore = true;
return true;
}
if (!_theme->addBitmap(node->values["filename"]))
return parserError("Error loading Bitmap file '%s'", node->values["filename"].c_str());
return true;
}
bool ThemeParser::parserCallback_text(ParserNode *node) {
Graphics::TextAlign alignH;
GUI::ThemeEngine::TextAlignVertical alignV;
if ((alignH = parseTextHAlign(node->values["horizontal_align"])) == Graphics::kTextAlignInvalid)
return parserError("Invalid value for text alignment.");
if ((alignV = parseTextVAlign(node->values["vertical_align"])) == GUI::ThemeEngine::kTextAlignVInvalid)
return parserError("Invalid value for text alignment.");
Common::String id = getParentNode(node)->values["id"];
TextData textDataId = parseTextDataId(node->values["font"]);
TextColor textColorId = parseTextColorId(node->values["text_color"]);
if (!_theme->addTextData(id, textDataId, textColorId, alignH, alignV))
return parserError("Error adding Text Data for '%s'.", id.c_str());
return true;
}
bool ThemeParser::parserCallback_render_info(ParserNode *node) {
if (resolutionCheck(node->values["resolution"]) == false)
node->ignore = true;
return true;
}
bool ThemeParser::parserCallback_layout_info(ParserNode *node) {
if (resolutionCheck(node->values["resolution"]) == false)
node->ignore = true;
return true;
}
bool ThemeParser::parserCallback_palette(ParserNode *node) {
return true;
}
bool ThemeParser::parserCallback_color(ParserNode *node) {
Common::String name = node->values["name"];
if (_palette.contains(name))
return parserError("Color '%s' has already been defined.", name.c_str());
int red, green, blue;
if (parseIntegerKey(node->values["rgb"], 3, &red, &green, &blue) == false ||
red < 0 || red > 255 || green < 0 || green > 255 || blue < 0 || blue > 255)
return parserError("Error parsing RGB values for palette color '%s'", name.c_str());\
_palette[name].r = red;
_palette[name].g = green;
_palette[name].b = blue;
return true;
}
static Graphics::DrawingFunctionCallback getDrawingFunctionCallback(const Common::String &name) {
if (name == "circle")
return &Graphics::VectorRenderer::drawCallback_CIRCLE;
if (name == "square")
return &Graphics::VectorRenderer::drawCallback_SQUARE;
if (name == "roundedsq")
return &Graphics::VectorRenderer::drawCallback_ROUNDSQ;
if (name == "bevelsq")
return &Graphics::VectorRenderer::drawCallback_BEVELSQ;
if (name == "line")
return &Graphics::VectorRenderer::drawCallback_LINE;
if (name == "triangle")
return &Graphics::VectorRenderer::drawCallback_TRIANGLE;
if (name == "fill")
return &Graphics::VectorRenderer::drawCallback_FILLSURFACE;
if (name == "tab")
return &Graphics::VectorRenderer::drawCallback_TAB;
if (name == "void")
return &Graphics::VectorRenderer::drawCallback_VOID;
if (name == "bitmap")
return &Graphics::VectorRenderer::drawCallback_BITMAP;
if (name == "cross")
return &Graphics::VectorRenderer::drawCallback_CROSS;
return 0;
}
bool ThemeParser::parserCallback_drawstep(ParserNode *node) {
Graphics::DrawStep *drawstep = newDrawStep();
Common::String functionName = node->values["func"];
drawstep->drawingCall = getDrawingFunctionCallback(functionName);
if (drawstep->drawingCall == 0)
return parserError("%s is not a valid drawing function name", functionName.c_str());
if (!parseDrawStep(node, drawstep, true))
return false;
_theme->addDrawStep(getParentNode(node)->values["id"], *drawstep);
delete drawstep;
return true;
}
bool ThemeParser::parserCallback_drawdata(ParserNode *node) {
bool cached = false;
if (resolutionCheck(node->values["resolution"]) == false) {
node->ignore = true;
return true;
}
if (node->values.contains("cache")) {
if (node->values["cache"] == "true")
cached = true;
else if (node->values["cache"] == "false")
cached = false;
else return parserError("'Parsed' value must be either true or false.");
}
if (_theme->addDrawData(node->values["id"], cached) == false)
return parserError("Error adding Draw Data set: Invalid DrawData name.");
delete _defaultStepLocal;
_defaultStepLocal = 0;
return true;
}
bool ThemeParser::parseDrawStep(ParserNode *stepNode, Graphics::DrawStep *drawstep, bool functionSpecific) {
int red, green, blue, x;
Common::String val;
/**
* Helper macro to sanitize and assign an integer value from a key
* to the draw step.
*
* @param struct_name Name of the field of a DrawStep struct that must be
* assigned.
* @param key_name Name as STRING of the key identifier as it appears in the
* theme description format.
* @param force Sets if the key is optional or necessary.
*/
#define __PARSER_ASSIGN_INT(struct_name, key_name, force) \
if (stepNode->values.contains(key_name)) { \
if (!parseIntegerKey(stepNode->values[key_name], 1, &x)) \
return parserError("Error parsing key value for '%s'.", key_name); \
\
drawstep->struct_name = x; \
} else if (force) { \
return parserError("Missing necessary key '%s'.", key_name); \
}
/**
* Helper macro to sanitize and assign a RGB value from a key to the draw
* step. RGB values have the following syntax: "R, G, B".
*
* @param struct_name Name of the field of a DrawStep struct that must be
* assigned.
* @param key_name Name as STRING of the key identifier as it appears in the
* theme description format.
*/
#define __PARSER_ASSIGN_RGB(struct_name, key_name) \
if (stepNode->values.contains(key_name)) { \
val = stepNode->values[key_name]; \
if (_palette.contains(val)) { \
red = _palette[val].r; \
green = _palette[val].g; \
blue = _palette[val].b; \
} else if (parseIntegerKey(val, 3, &red, &green, &blue) == false || \
red < 0 || red > 255 || green < 0 || green > 255 || blue < 0 || blue > 255) \
return parserError("Error parsing color struct '%s'", val.c_str());\
\
drawstep->struct_name.r = red; \
drawstep->struct_name.g = green; \
drawstep->struct_name.b = blue; \
drawstep->struct_name.set = true; \
}
__PARSER_ASSIGN_INT(stroke, "stroke", false);
__PARSER_ASSIGN_INT(bevel, "bevel", false);
__PARSER_ASSIGN_INT(shadow, "shadow", false);
__PARSER_ASSIGN_INT(factor, "gradient_factor", false);
__PARSER_ASSIGN_RGB(fgColor, "fg_color");
__PARSER_ASSIGN_RGB(bgColor, "bg_color");
__PARSER_ASSIGN_RGB(gradColor1, "gradient_start");
__PARSER_ASSIGN_RGB(gradColor2, "gradient_end");
__PARSER_ASSIGN_RGB(bevelColor, "bevel_color");
if (functionSpecific) {
assert(stepNode->values.contains("func"));
Common::String functionName = stepNode->values["func"];
if (functionName == "bitmap") {
if (!stepNode->values.contains("file"))
return parserError("Need to specify a filename for Bitmap blitting.");
drawstep->blitSrc = _theme->getBitmap(stepNode->values["file"]);
if (!drawstep->blitSrc)
return parserError("The given filename hasn't been loaded into the GUI.");
}
if (functionName == "roundedsq" || functionName == "circle" || functionName == "tab") {
if (stepNode->values.contains("radius") && stepNode->values["radius"] == "auto") {
drawstep->radius = 0xFF;
} else {
__PARSER_ASSIGN_INT(radius, "radius", true);
}
}
if (functionName == "triangle") {
drawstep->extraData = Graphics::VectorRenderer::kTriangleUp;
if (stepNode->values.contains("orientation")) {
val = stepNode->values["orientation"];
if (val == "top")
drawstep->extraData = Graphics::VectorRenderer::kTriangleUp;
else if (val == "bottom")
drawstep->extraData = Graphics::VectorRenderer::kTriangleDown;
else if (val == "left")
drawstep->extraData = Graphics::VectorRenderer::kTriangleLeft;
else if (val == "right")
drawstep->extraData = Graphics::VectorRenderer::kTriangleRight;
else
return parserError("'%s' is not a valid value for triangle orientation.", val.c_str());
}
}
if (stepNode->values.contains("size")) {
warning("The <size> keyword has been deprecated. Use <width> and <height> instead");
}
if (stepNode->values.contains("width") && stepNode->values["width"] != "auto") {
drawstep->autoWidth = false;
val = stepNode->values["width"];
if (parseIntegerKey(val, 1, &x))
drawstep->w = x;
else if (val == "height")
drawstep->w = -1;
else return parserError("Invalid value for vector width.");
if (stepNode->values.contains("xpos")) {
val = stepNode->values["xpos"];
if (parseIntegerKey(val, 1, &x))
drawstep->x = x;
else if (val == "center")
drawstep->xAlign = Graphics::DrawStep::kVectorAlignCenter;
else if (val == "left")
drawstep->xAlign = Graphics::DrawStep::kVectorAlignLeft;
else if (val == "right")
drawstep->xAlign = Graphics::DrawStep::kVectorAlignRight;
else
return parserError("Invalid value for X Position");
} else {
return parserError("When width is not set to 'auto', a <xpos> tag must be included.");
}
}
if (stepNode->values.contains("height") && stepNode->values["height"] != "auto") {
drawstep->autoHeight = false;
val = stepNode->values["height"];
if (parseIntegerKey(val, 1, &x))
drawstep->h = x;
else if (val == "width")
drawstep->h = -1;
else return parserError("Invalid value for vector height.");
if (stepNode->values.contains("ypos")) {
val = stepNode->values["ypos"];
if (parseIntegerKey(val, 1, &x))
drawstep->y = x;
else if (val == "center")
drawstep->yAlign = Graphics::DrawStep::kVectorAlignCenter;
else if (val == "top")
drawstep->yAlign = Graphics::DrawStep::kVectorAlignTop;
else if (val == "bottom")
drawstep->yAlign = Graphics::DrawStep::kVectorAlignBottom;
else
return parserError("Invalid value for Y Position");
} else {
return parserError("When height is not set to 'auto', a <ypos> tag must be included.");
}
}
if (drawstep->h == -1 && drawstep->w == -1)
return parserError("Cross-reference in Vector Size: Height is set to width and width is set to height.");
}
if (stepNode->values.contains("fill")) {
val = stepNode->values["fill"];
if (val == "none")
drawstep->fillMode = Graphics::VectorRenderer::kFillDisabled;
else if (val == "foreground")
drawstep->fillMode = Graphics::VectorRenderer::kFillForeground;
else if (val == "background")
drawstep->fillMode = Graphics::VectorRenderer::kFillBackground;
else if (val == "gradient")
drawstep->fillMode = Graphics::VectorRenderer::kFillGradient;
else
return parserError("'%s' is not a valid fill mode for a shape.", stepNode->values["fill"].c_str());
}
#undef __PARSER_ASSIGN_INT
#undef __PARSER_ASSIGN_RGB
return true;
}
bool ThemeParser::parserCallback_def(ParserNode *node) {
if (resolutionCheck(node->values["resolution"]) == false) {
node->ignore = true;
return true;
}
Common::String var = "Globals." + node->values["var"];
int value;
if (_theme->getEvaluator()->hasVar(node->values["value"]) == true)
value = _theme->getEvaluator()->getVar(node->values["value"]);
else if (!parseIntegerKey(node->values["value"], 1, &value))
return parserError("Invalid definition for '%s'.", var.c_str());
_theme->getEvaluator()->setVar(var, value);
return true;
}
bool ThemeParser::parserCallback_widget(ParserNode *node) {
Common::String var;
if (getParentNode(node)->name == "globals") {
if (resolutionCheck(node->values["resolution"]) == false) {
node->ignore = true;
return true;
}
var = "Globals." + node->values["name"] + ".";
if (!parseCommonLayoutProps(node, var))
return parserError("Error parsing Layout properties of '%s'.", var.c_str());
} else {
// FIXME: Shouldn't we distinguish the name/id and the label of a widget?
var = node->values["name"];
int width = -1;
int height = -1;
bool enabled = true;
if (node->values.contains("enabled")) {
if (node->values["enabled"] == "false")
enabled = false;
else if (node->values["enabled"] != "true")
return parserError("Invalid value for Widget enabling (expecting true/false)");
}
if (node->values.contains("width")) {
if (_theme->getEvaluator()->hasVar(node->values["width"]) == true)
width = _theme->getEvaluator()->getVar(node->values["width"]);
else if (!parseIntegerKey(node->values["width"], 1, &width))
return parserError("Corrupted width value in key for %s", var.c_str());
}
if (node->values.contains("height")) {
if (_theme->getEvaluator()->hasVar(node->values["height"]) == true)
height = _theme->getEvaluator()->getVar(node->values["height"]);
else if (!parseIntegerKey(node->values["height"], 1, &height))
return parserError("Corrupted height value in key for %s", var.c_str());
}
Graphics::TextAlign alignH = Graphics::kTextAlignLeft;
if (node->values.contains("textalign")) {
if ((alignH = parseTextHAlign(node->values["textalign"])) == Graphics::kTextAlignInvalid)
return parserError("Invalid value for text alignment.");
}
_theme->getEvaluator()->addWidget(var, width, height, node->values["type"], enabled, alignH);
}
return true;
}
bool ThemeParser::parserCallback_dialog(ParserNode *node) {
Common::String var = "Dialog." + node->values["name"];
bool enabled = true;
int inset = 0;
if (resolutionCheck(node->values["resolution"]) == false) {
node->ignore = true;
return true;
}
if (node->values.contains("enabled")) {
if (node->values["enabled"] == "false")
enabled = false;
else if (node->values["enabled"] != "true")
return parserError("Invalid value for Dialog enabling (expecting true/false)");
}
if (node->values.contains("inset")) {
if (!parseIntegerKey(node->values["inset"], 1, &inset))
return false;
}
_theme->getEvaluator()->addDialog(var, node->values["overlays"], enabled, inset);
if (node->values.contains("shading")) {
int shading = 0;
if (node->values["shading"] == "dim")
shading = 1;
else if (node->values["shading"] == "luminance")
shading = 2;
else return parserError("Invalid value for Dialog background shading.");
_theme->getEvaluator()->setVar(var + ".Shading", shading);
}
return true;
}
bool ThemeParser::parserCallback_import(ParserNode *node) {
if (!_theme->getEvaluator()->addImportedLayout(node->values["layout"]))
return parserError("Error importing external layout");
return true;
}
bool ThemeParser::parserCallback_layout(ParserNode *node) {
int spacing = -1;
if (node->values.contains("spacing")) {
if (!parseIntegerKey(node->values["spacing"], 1, &spacing))
return false;
}
if (node->values["type"] == "vertical")
_theme->getEvaluator()->addLayout(GUI::ThemeLayout::kLayoutVertical, spacing, node->values["center"] == "true");
else if (node->values["type"] == "horizontal")
_theme->getEvaluator()->addLayout(GUI::ThemeLayout::kLayoutHorizontal, spacing, node->values["center"] == "true");
else
return parserError("Invalid layout type. Only 'horizontal' and 'vertical' layouts allowed.");
if (node->values.contains("padding")) {
int paddingL, paddingR, paddingT, paddingB;
if (!parseIntegerKey(node->values["padding"], 4, &paddingL, &paddingR, &paddingT, &paddingB))
return false;
_theme->getEvaluator()->addPadding(paddingL, paddingR, paddingT, paddingB);
}
return true;
}
bool ThemeParser::parserCallback_space(ParserNode *node) {
int size = -1;
if (node->values.contains("size")) {
if (_theme->getEvaluator()->hasVar(node->values["size"]))
size = _theme->getEvaluator()->getVar(node->values["size"]);
else if (!parseIntegerKey(node->values["size"], 1, &size))
return parserError("Invalid value for Spacing size.");
}
_theme->getEvaluator()->addSpace(size);
return true;
}
bool ThemeParser::closedKeyCallback(ParserNode *node) {
if (node->name == "layout")
_theme->getEvaluator()->closeLayout();
else if (node->name == "dialog")
_theme->getEvaluator()->closeDialog();
return true;
}
bool ThemeParser::parseCommonLayoutProps(ParserNode *node, const Common::String &var) {
if (node->values.contains("size")) {
int width, height;
if (!parseIntegerKey(node->values["size"], 2, &width, &height)) {
Common::StringTokenizer tokenizer(node->values["size"], " ,");
Common::String wtoken, htoken;
char *parseEnd;
wtoken = tokenizer.nextToken();
if (_theme->getEvaluator()->hasVar(wtoken)) {
width = _theme->getEvaluator()->getVar(wtoken);
} else {
width = strtol(wtoken.c_str(), &parseEnd, 10);
if (*parseEnd != 0 && !(*parseEnd == '%' && *(parseEnd + 1) == 0))
return false;
if (wtoken.lastChar() == '%')
width = g_system->getOverlayWidth() * width / 100;
}
htoken = tokenizer.nextToken();
if (_theme->getEvaluator()->hasVar(htoken)) {
height = _theme->getEvaluator()->getVar(htoken);
} else {
height = strtol(htoken.c_str(), &parseEnd, 10);
if (*parseEnd != 0 && !(*parseEnd == '%' && *(parseEnd + 1) == 0))
return false;
if (htoken.lastChar() == '%')
height = g_system->getOverlayHeight() * height / 100;
}
if (!tokenizer.empty())
return false;
}
_theme->getEvaluator()->setVar(var + "Width", width);
_theme->getEvaluator()->setVar(var + "Height", height);
}
if (node->values.contains("pos")) {
int x, y;
if (!parseIntegerKey(node->values["pos"], 2, &x, &y)) {
Common::StringTokenizer tokenizer(node->values["pos"], " ,");
Common::String xpos, ypos;
char *parseEnd;
xpos = tokenizer.nextToken();
if (xpos == "center") {
if (!_theme->getEvaluator()->hasVar(var + "Width"))
return false;
x = (g_system->getOverlayWidth() / 2) - (_theme->getEvaluator()->getVar(var + "Width") / 2);
} else if (_theme->getEvaluator()->hasVar(xpos)) {
x = _theme->getEvaluator()->getVar(xpos);
} else {
x = strtol(xpos.c_str(), &parseEnd, 10);
if (*parseEnd != 0 && !(*parseEnd == 'r' && *(parseEnd + 1) == 0))
return false;
if (xpos.lastChar() == 'r')
x = g_system->getOverlayWidth() - x;
}
ypos = tokenizer.nextToken();
if (ypos == "center") {
if (!_theme->getEvaluator()->hasVar(var + "Height"))
return false;
y = (g_system->getOverlayHeight() / 2) - (_theme->getEvaluator()->getVar(var + "Height") / 2);
} else if (_theme->getEvaluator()->hasVar(ypos)) {
y = _theme->getEvaluator()->getVar(ypos);
} else {
y = strtol(ypos.c_str(), &parseEnd, 10);
if (*parseEnd != 0 && !(*parseEnd == 'b' && *(parseEnd + 1) == 0))
return false;
if (ypos.lastChar() == 'b')
y = g_system->getOverlayHeight() - y;
}
if (!tokenizer.empty())
return false;
}
_theme->getEvaluator()->setVar(var + "X", x);
_theme->getEvaluator()->setVar(var + "Y", y);
}
if (node->values.contains("padding")) {
int paddingL, paddingR, paddingT, paddingB;
if (!parseIntegerKey(node->values["padding"], 4, &paddingL, &paddingR, &paddingT, &paddingB))
return false;
_theme->getEvaluator()->setVar(var + "Padding.Left", paddingL);
_theme->getEvaluator()->setVar(var + "Padding.Right", paddingR);
_theme->getEvaluator()->setVar(var + "Padding.Top", paddingT);
_theme->getEvaluator()->setVar(var + "Padding.Bottom", paddingB);
}
if (node->values.contains("textalign")) {
Graphics::TextAlign alignH = Graphics::kTextAlignLeft;
if ((alignH = parseTextHAlign(node->values["textalign"])) == Graphics::kTextAlignInvalid)
return parserError("Invalid value for text alignment.");
_theme->getEvaluator()->setVar(var + "Align", alignH);
}
return true;
}
bool ThemeParser::resolutionCheck(const Common::String &resolution) {
if (resolution.empty())
return true;
Common::StringTokenizer globTokenizer(resolution, ", ");
Common::String cur, w, h;
bool definedRes = false;
while (!globTokenizer.empty()) {
bool ignore = false;
cur = globTokenizer.nextToken();
if (cur[0] == '-') {
ignore = true;
cur.deleteChar(0);
} else {
definedRes = true;
}
Common::StringTokenizer resTokenizer(cur, "x");
w = resTokenizer.nextToken();
h = resTokenizer.nextToken();
if ((w == "X" || atoi(w.c_str()) == g_system->getOverlayWidth()) &&
(h == "Y" || atoi(h.c_str()) == g_system->getOverlayHeight()))
return !ignore;
}
return !definedRes;
}
} // End of namespace GUI