scummvm/gui/ThemeParser.cpp
Eugene Sandulenko 6ba2fb9f3b
GUI: Fixed crash in 640x400 theme. Bumped theme version.
This is made by allowing widgets to be skipped for certain resolutions.
In this particlar case, the new layour switcher buttons were not
fitting by height on 640x400 theme, so we now reduce spacing
between the action buttons.
2021-11-21 20:00:08 +01:00

1079 lines
32 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.
*
*/
#include "gui/ThemeEngine.h"
#include "gui/ThemeEval.h"
#include "gui/ThemeParser.h"
#include "graphics/VectorRenderer.h"
#include "common/system.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" },
{ kTextDataConsole, "console" },
{ kTextDataExtraLang, "extra_lang" }
};
#define SCALEVALUE(val) (val > 0 ? val * _scaleFactor : val)
#define FORCESCALEVALUE(val) (val * _scaleFactor)
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;
}
Graphics::TextAlign parseTextHAlign(const Common::String &val) {
if (val == "start")
return Graphics::kTextAlignStart;
else if (val == "end")
return Graphics::kTextAlignEnd;
else 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;
}
bool parseBoolean(const Common::String &val) {
if (val == "true")
return true;
else if (val == "yes")
return true;
else if (val == "false")
return false;
else if (val == "no")
return false;
else
warning("Incorrect boolean value %s", val.c_str());
return false;
}
ThemeParser::ThemeParser(ThemeEngine *parent) : XMLParser() {
_defaultStepGlobal = defaultDrawStep();
_defaultStepLocal = nullptr;
_theme = parent;
_baseWidth = _baseHeight = 0;
_scaleFactor = 1.0f;
}
ThemeParser::~ThemeParser() {
delete _defaultStepGlobal;
delete _defaultStepLocal;
}
void ThemeParser::cleanup() {
delete _defaultStepGlobal;
delete _defaultStepLocal;
_defaultStepGlobal = defaultDrawStep();
_defaultStepLocal = nullptr;
_palette.clear();
}
Graphics::DrawStep *ThemeParser::defaultDrawStep() {
Graphics::DrawStep *step = new 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 = nullptr; //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 = nullptr;
if (parentNode->name == "render_info") {
step = _defaultStepGlobal;
} else if (parentNode->name == "drawdata") {
if (_defaultStepLocal == nullptr)
_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;
}
return true;
}
bool ThemeParser::parserCallback_language(ParserNode *node) {
if (resolutionCheck(node->values["resolution"]) == false) {
node->ignore = true;
return true;
}
TextData textDataId = parseTextDataId(getParentNode(node)->values["id"]);
// Default to a point size of 12.
int pointsize = 12;
Common::String ps;
if (node->values.contains("point_size")) {
ps = node->values["point_size"];
} else if (getParentNode(node)->values.contains("point_size")) {
ps = getParentNode(node)->values["point_size"];
}
if (!ps.empty()) {
if (sscanf(ps.c_str(), "%d", &pointsize) != 1 || pointsize <= 0)
return parserError(Common::String::format("Font \"%s\" has invalid point size \"%s\"", node->values["id"].c_str(), ps.c_str()));
}
pointsize = SCALEVALUE(pointsize);
Common::String file;
if (node->values.contains("file")) {
file = node->values["file"];
} else if (getParentNode(node)->values.contains("file")) {
file = getParentNode(node)->values["file"];
}
if (file.empty()) {
return parserError("Missing required property 'file' in either <font> or <language>");
}
Common::String scalableFile;
if (node->values.contains("scalable_file")) {
scalableFile = node->values["scalable_file"];
} else if (getParentNode(node)->values.contains("scalable_file")) {
scalableFile = getParentNode(node)->values["scalable_file"];
}
_theme->storeFontNames(textDataId, node->values["id"], file, scalableFile, pointsize);
if (!_theme->addFont(textDataId, node->values["id"], file, scalableFile, pointsize))
return parserError("Error loading localized 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;
if (!parseIntegerKey(node->values["hotspot"], 2, &spotx, &spoty))
return parserError("Error parsing cursor Hot Spot coordinates.");
if (!_theme->createCursor(node->values["file"], spotx, spoty))
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;
}
Common::String scalableFile;
if (node->values.contains("scalable_file"))
scalableFile = node->values["scalable_file"];
int width = 0, height = 0;
Common::String val;
if (node->values.contains("width")) {
val = node->values["width"];
if (!parseIntegerKey(val, 1, &width))
return parserError("Error parsing width value");
}
if (node->values.contains("height")) {
val = node->values["height"];
if (!parseIntegerKey(val, 1, &height))
return parserError("Error parsing width height");
}
if (!_theme->addBitmap(node->values["filename"], scalableFile, width, height))
return parserError("Error loading Bitmap file '" + node->values["filename"] + "'");
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 '" + id + "'.");
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 '" + name + "' has already been defined.");
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 '" + name + "'");
_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 nullptr;
}
bool ThemeParser::parserCallback_drawstep(ParserNode *node) {
Graphics::DrawStep *drawstep = newDrawStep();
Common::String functionName = node->values["func"];
drawstep->drawingCall = getDrawingFunctionCallback(functionName);
if (drawstep->drawingCall == nullptr) {
delete drawstep;
return parserError(functionName + " is not a valid drawing function name");
}
if (!parseDrawStep(node, drawstep, true)) {
delete drawstep;
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 (!Common::parseBool(node->values["cache"], cached))
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 = nullptr;
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 '" + Common::String(key_name) + "'."); \
\
drawstep->struct_name = x; \
} else if (force) { \
return parserError("Missing necessary key '" + Common::String(key_name) + "'."); \
}
#define PARSER_ASSIGN_INT_SCALED(struct_name, key_name, force) \
PARSER_ASSIGN_INT(struct_name, key_name, force); \
drawstep->struct_name = SCALEVALUE(drawstep->struct_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 '" + val + "'");\
\
drawstep->struct_name.r = red; \
drawstep->struct_name.g = green; \
drawstep->struct_name.b = blue; \
drawstep->struct_name.set = true; \
}
PARSER_ASSIGN_INT_SCALED(stroke, "stroke", false);
PARSER_ASSIGN_INT_SCALED(bevel, "bevel", false);
PARSER_ASSIGN_INT_SCALED(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->getImageSurface(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_SCALED(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("'" + val + "' is not a valid value for triangle orientation.");
}
}
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 = SCALEVALUE(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 = SCALEVALUE(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 = SCALEVALUE(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 = SCALEVALUE(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("'" + stepNode->values["fill"] + "' is not a valid fill mode for a shape.");
}
if (stepNode->values.contains("padding")) {
val = stepNode->values["padding"];
int pr, pt, pl, pb;
if (parseIntegerKey(val, 4, &pl, &pt, &pr, &pb)) {
drawstep->padding.left = SCALEVALUE(pl);
drawstep->padding.top = SCALEVALUE(pt);
drawstep->padding.right = SCALEVALUE(pr);
drawstep->padding.bottom = SCALEVALUE(pb);
}
}
if (stepNode->values.contains("clip")) {
val = stepNode->values["clip"];
int cl, ct, cr, cb;
if (parseIntegerKey(val, 4, &cl, &ct, &cr, &cb)) {
// Values could be less than 0 which is legit
drawstep->clip.left = FORCESCALEVALUE(cl);
drawstep->clip.top = FORCESCALEVALUE(ct);
drawstep->clip.right = FORCESCALEVALUE(cr);
drawstep->clip.bottom = FORCESCALEVALUE(cb);
}
}
#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;
bool scalable = false;
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 '" + var + "'.");
if (node->values.contains("scalable"))
scalable = parseBoolean(node->values["scalable"]);
if (scalable)
value = SCALEVALUE(value);
_theme->getEvaluator()->setVar(var, value);
return true;
}
bool ThemeParser::parserCallback_widget(ParserNode *node) {
Common::String var;
if (resolutionCheck(node->values["resolution"]) == false) {
node->ignore = true;
return true;
}
if (getParentNode(node)->name == "globals") {
var = "Globals." + node->values["name"] + ".";
if (!parseCommonLayoutProps(node, var))
return parserError("Error parsing Layout properties of '" + var + "'.");
} 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 useRTL = true;
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))
width = SCALEVALUE(width);
else
return parserError("Corrupted width value in key for " + var);
}
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))
height = SCALEVALUE(height);
else
return parserError("Corrupted height value in key for " + var);
}
Graphics::TextAlign alignH = Graphics::kTextAlignStart;
if (node->values.contains("textalign")) {
if ((alignH = parseTextHAlign(node->values["textalign"])) == Graphics::kTextAlignInvalid)
return parserError("Invalid value for text alignment.");
}
if (node->values.contains("rtl"))
useRTL = parseBoolean(node->values["rtl"]);
_theme->getEvaluator()->addWidget(var, node->values["type"], width, height, alignH, useRTL);
}
return true;
}
bool ThemeParser::parserCallback_dialog(ParserNode *node) {
Common::String name = node->values["name"];
int inset = 0;
if (resolutionCheck(node->values["resolution"]) == false) {
node->ignore = true;
return true;
}
if (node->values.contains("inset")) {
if (!parseIntegerKey(node->values["inset"], 1, &inset))
return false;
}
Common::String overlays = node->values["overlays"];
// The size of a dialog depends on the value of its 'overlays' property:
// - 'screen', means the dialog fills the whole screen.
// - 'screen_center', means the size of the dialog is determined
// by its contents, unless an explicit size is specified.
// - if it is set to a user interface element name, the dialog takes
// its size.
int width = -1, height = -1;
if (node->values.contains("size")) {
if (overlays != "screen_center")
return parserError("Dialogs can only have an explicit size if they overlay 'screen_center'.");
if (!parseIntegerKey(node->values["size"], 2, &width, &height))
return false;
}
_theme->getEvaluator()->addDialog(name, overlays, SCALEVALUE(width), SCALEVALUE(height), 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("Dialog." + name + ".Shading", shading);
}
return true;
}
bool ThemeParser::parserCallback_import(ParserNode *node) {
Common::String importedName = node->values["layout"];
if (!_theme->getEvaluator()->hasDialog(importedName))
return parserError("Imported layout was not found: " + importedName);
_theme->getEvaluator()->addImportedLayout(importedName);
return true;
}
bool ThemeParser::parserCallback_layout(ParserNode *node) {
int spacing = -1;
if (node->values.contains("spacing")) {
if (parseIntegerKey(node->values["spacing"], 1, &spacing))
spacing = SCALEVALUE(spacing);
else
return false;
}
ThemeLayout::ItemAlign itemAlign = ThemeLayout::kItemAlignStart;
if (node->values.contains("align")) {
Common::String val = node->values["align"];
if (val == "start") {
itemAlign = ThemeLayout::kItemAlignStart;
} else if (val == "center") {
itemAlign = ThemeLayout::kItemAlignCenter;
} else if (val == "end") {
itemAlign = ThemeLayout::kItemAlignEnd;
} else if (val == "stretch") {
itemAlign = ThemeLayout::kItemAlignStretch;
} else {
return parserError("'" + val + "' is not a valid item alignment for a layout.");
}
}
if (node->values["type"] == "vertical")
_theme->getEvaluator()->addLayout(GUI::ThemeLayout::kLayoutVertical, spacing, itemAlign);
else if (node->values["type"] == "horizontal")
_theme->getEvaluator()->addLayout(GUI::ThemeLayout::kLayoutHorizontal, spacing, itemAlign);
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;
// values are scaled inside this method
_theme->getEvaluator()->addPadding(paddingL, paddingR, paddingT, paddingB);
}
return true;
}
bool ThemeParser::parserCallback_space(ParserNode *node) {
int size = -1;
if (resolutionCheck(node->values["resolution"]) == false) {
node->ignore = true;
return true;
}
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))
size = SCALEVALUE(size);
else
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)) {
width = SCALEVALUE(width);
height = SCALEVALUE(height);
} else {
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 = _baseWidth * width / 100;
else
width = SCALEVALUE(width);
}
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 = _baseHeight * height / 100;
else
height = SCALEVALUE(height);
}
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)) {
x = SCALEVALUE(x);
y = SCALEVALUE(y);
} else {
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 = (_baseWidth / 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);
x = SCALEVALUE(x);
if (*parseEnd != 0 && !(*parseEnd == 'r' && *(parseEnd + 1) == 0))
return false;
if (xpos.lastChar() == 'r')
x = _baseWidth - x;
}
ypos = tokenizer.nextToken();
if (ypos == "center") {
if (!_theme->getEvaluator()->hasVar(var + "Height"))
return false;
y = (_baseHeight / 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);
y = SCALEVALUE(y);
if (*parseEnd != 0 && !(*parseEnd == 'b' && *(parseEnd + 1) == 0))
return false;
if (ypos.lastChar() == 'b')
y = _baseHeight - 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", SCALEVALUE(paddingL));
_theme->getEvaluator()->setVar(var + "Padding.Right", SCALEVALUE(paddingR));
_theme->getEvaluator()->setVar(var + "Padding.Top", SCALEVALUE(paddingT));
_theme->getEvaluator()->setVar(var + "Padding.Bottom", SCALEVALUE(paddingB));
}
if (node->values.contains("textalign")) {
Graphics::TextAlign alignH = Graphics::kTextAlignStart;
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;
while (!globTokenizer.empty()) {
cur = globTokenizer.nextToken();
bool lt;
int val;
if (cur.size() < 5) {
warning("Invalid theme 'resolution' token '%s'", resolution.c_str());
return false;
}
if (cur[0] == 'x') {
val = _baseWidth;
} else if (cur[0] == 'y') {
val = _baseHeight;
} else {
warning("Error parsing theme 'resolution' token '%s'", resolution.c_str());
return false;
}
if (cur[1] == '<') {
lt = true;
} else if (cur[1] == '>') {
lt = false;
} else {
warning("Error parsing theme 'resolution' token '%s'", resolution.c_str());
return false;
}
int token = atoi(cur.c_str() + 2);
// check inverse for unfulfilled requirements
if (lt) {
if (val >= token)
return false;
} else {
if (val <= token)
return false;
}
}
return true;
}
} // End of namespace GUI