osb/source/game/StarDrawable.cpp

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#include "StarDrawable.hpp"
#include "StarColor.hpp"
#include "StarJsonExtra.hpp"
#include "StarDataStreamExtra.hpp"
#include "StarAssets.hpp"
#include "StarImageMetadataDatabase.hpp"
#include "StarGameTypes.hpp"
#include "StarRoot.hpp"
namespace Star {
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Drawable::ImagePart& Drawable::ImagePart::addDirectives(Directives const& directives, bool keepImageCenterPosition) {
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if (!directives)
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return *this;
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if (keepImageCenterPosition) {
auto imageMetadata = Root::singleton().imageMetadataDatabase();
Vec2F imageSize = Vec2F(imageMetadata->imageSize(image));
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image.directives += directives;
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Vec2F newImageSize = Vec2F(imageMetadata->imageSize(image));
// If we are trying to maintain the image center, PRE translate the image by
// the change in size / 2
transformation *= Mat3F::translation((imageSize - newImageSize) / 2);
} else {
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image.directives += directives;
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}
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return *this;
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}
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Drawable::ImagePart& Drawable::ImagePart::addDirectivesGroup(DirectivesGroup const& directivesGroup, bool keepImageCenterPosition) {
if (directivesGroup.empty())
return *this;
if (keepImageCenterPosition) {
auto imageMetadata = Root::singleton().imageMetadataDatabase();
Vec2F imageSize = Vec2F(imageMetadata->imageSize(image));
for (Directives const& directives : directivesGroup.list())
image.directives += directives;
Vec2F newImageSize = Vec2F(imageMetadata->imageSize(image));
// If we are trying to maintain the image center, PRE translate the image by
// the change in size / 2
transformation *= Mat3F::translation((imageSize - newImageSize) / 2);
} else {
for (Directives const& directives : directivesGroup.list())
image.directives += directives;
}
return *this;
}
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Drawable::ImagePart& Drawable::ImagePart::removeDirectives(bool keepImageCenterPosition) {
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if (keepImageCenterPosition) {
auto imageMetadata = Root::singleton().imageMetadataDatabase();
Vec2F imageSize = Vec2F(imageMetadata->imageSize(image));
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image.directives.clear();
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Vec2F newImageSize = Vec2F(imageMetadata->imageSize(image));
// If we are trying to maintain the image center, PRE translate the image by
// the change in size / 2
transformation *= Mat3F::translation((imageSize - newImageSize) / 2);
} else {
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image.directives.clear();
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}
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return *this;
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}
Drawable Drawable::makeLine(Line2F const& line, float lineWidth, Color const& color, Vec2F const& position) {
Drawable drawable;
drawable.part = LinePart{move(line), lineWidth};
drawable.color = color;
drawable.position = position;
return drawable;
}
Drawable Drawable::makePoly(PolyF poly, Color const& color, Vec2F const& position) {
Drawable drawable;
drawable.part = PolyPart{move(poly)};
drawable.color = color;
drawable.position = position;
return drawable;
}
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Drawable Drawable::makeImage(AssetPath image, float pixelSize, bool centered, Vec2F const& position, Color const& color) {
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Drawable drawable;
Mat3F transformation = Mat3F::identity();
if (centered) {
auto imageMetadata = Root::singleton().imageMetadataDatabase();
Vec2F imageSize = Vec2F(imageMetadata->imageSize(image));
transformation.translate(-imageSize / 2);
}
transformation.scale(pixelSize);
drawable.part = ImagePart{move(image), move(transformation)};
drawable.position = position;
drawable.color = color;
return drawable;
}
Drawable::Drawable()
: color(Color::White), fullbright(false) {}
Drawable::Drawable(Json const& json) {
if (auto line = json.opt("line")) {
part = LinePart{jsonToLine2F(*line), json.getFloat("width")};
} else if (auto poly = json.opt("poly")) {
part = PolyPart{jsonToPolyF(*poly)};
} else if (auto image = json.opt("image")) {
auto imageString = image->toString();
Mat3F transformation = Mat3F::identity();
if (auto transformationConfig = json.opt("transformation")) {
transformation = jsonToMat3F(*transformationConfig);
} else {
if (json.getBool("centered", true)) {
auto imageMetadata = Root::singleton().imageMetadataDatabase();
Vec2F imageSize = Vec2F(imageMetadata->imageSize(imageString));
transformation.translate(-imageSize / 2);
}
if (auto rotation = json.optFloat("rotation"))
transformation.rotate(*rotation);
if (json.getBool("mirrored", false))
transformation.scale(Vec2F(-1, 1));
if (auto scale = json.optFloat("scale"))
transformation.scale(*scale);
}
part = ImagePart{move(imageString), move(transformation)};
}
position = json.opt("position").apply(jsonToVec2F).value();
color = json.opt("color").apply(jsonToColor).value(Color::White);
fullbright = json.getBool("fullbright", false);
}
Json Drawable::toJson() const {
JsonObject json;
if (auto line = part.ptr<LinePart>()) {
json.set("line", jsonFromLine2F(line->line));
json.set("width", line->width);
} else if (auto poly = part.ptr<PolyPart>()) {
json.set("poly", jsonFromPolyF(poly->poly));
} else if (auto image = part.ptr<ImagePart>()) {
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json.set("image", AssetPath::join(image->image));
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json.set("transformation", jsonFromMat3F(image->transformation));
}
json.set("position", jsonFromVec2F(position));
json.set("color", jsonFromColor(color));
json.set("fullbright", fullbright);
return move(json);
}
void Drawable::translate(Vec2F const& translation) {
position += translation;
}
void Drawable::rotate(float rotation, Vec2F const& rotationCenter) {
if (auto line = part.ptr<LinePart>())
line->line.rotate(rotation);
else if (auto poly = part.ptr<PolyPart>())
poly->poly.rotate(rotation);
else if (auto image = part.ptr<ImagePart>())
image->transformation.rotate(rotation);
position = (position - rotationCenter).rotate(rotation) + rotationCenter;
}
void Drawable::scale(float scaling, Vec2F const& scaleCenter) {
scale(Vec2F::filled(scaling), scaleCenter);
}
void Drawable::scale(Vec2F const& scaling, Vec2F const& scaleCenter) {
if (auto line = part.ptr<LinePart>())
line->line.scale(scaling);
else if (auto poly = part.ptr<PolyPart>())
poly->poly.scale(scaling);
else if (auto image = part.ptr<ImagePart>())
image->transformation.scale(scaling);
position = (position - scaleCenter).piecewiseMultiply(scaling) + scaleCenter;
}
void Drawable::transform(Mat3F const& transformation) {
Vec2F localTranslation = transformation.transformVec2(Vec2F());
Mat3F localTransform = Mat3F::translation(-localTranslation) * transformation;
if (auto line = part.ptr<LinePart>())
line->line.transform(localTransform);
else if (auto poly = part.ptr<PolyPart>())
poly->poly.transform(localTransform);
else if (auto image = part.ptr<ImagePart>())
image->transformation = localTransform * image->transformation;
position = transformation.transformVec2(position);
}
void Drawable::rebase(Vec2F const& newBase) {
if (auto line = part.ptr<LinePart>())
line->line.translate(position - newBase);
else if (auto poly = part.ptr<PolyPart>())
poly->poly.translate(position - newBase);
else if (auto image = part.ptr<ImagePart>())
image->transformation.translate(position - newBase);
position = newBase;
}
RectF Drawable::boundBox(bool cropImages) const {
RectF boundBox = RectF::null();
if (auto line = part.ptr<LinePart>()) {
boundBox.combine(line->line.min());
boundBox.combine(line->line.max());
} else if (auto poly = part.ptr<PolyPart>()) {
boundBox.combine(poly->poly.boundBox());
} else if (auto image = part.ptr<ImagePart>()) {
auto imageMetadata = Root::singleton().imageMetadataDatabase();
RectF imageRegion = RectF::null();
if (cropImages) {
RectU nonEmptyRegion = imageMetadata->nonEmptyRegion(image->image);
if (!nonEmptyRegion.isNull())
imageRegion = RectF(nonEmptyRegion);
} else {
imageRegion = RectF::withSize(Vec2F(), Vec2F(imageMetadata->imageSize(image->image)));
}
if (!imageRegion.isNull()) {
boundBox.combine(image->transformation.transformVec2(Vec2F(imageRegion.xMin(), imageRegion.yMin())));
boundBox.combine(image->transformation.transformVec2(Vec2F(imageRegion.xMax(), imageRegion.yMin())));
boundBox.combine(image->transformation.transformVec2(Vec2F(imageRegion.xMin(), imageRegion.yMax())));
boundBox.combine(image->transformation.transformVec2(Vec2F(imageRegion.xMax(), imageRegion.yMax())));
}
}
if (!boundBox.isNull())
boundBox.translate(position);
return boundBox;
}
DataStream& operator>>(DataStream& ds, Drawable::LinePart& line) {
ds >> line.line;
ds >> line.width;
return ds;
}
DataStream& operator<<(DataStream& ds, Drawable::LinePart const& line) {
ds << line.line;
ds << line.width;
return ds;
}
DataStream& operator>>(DataStream& ds, Drawable::PolyPart& poly) {
ds >> poly.poly;
return ds;
}
DataStream& operator<<(DataStream& ds, Drawable::PolyPart const& poly) {
ds << poly.poly;
return ds;
}
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// I need to find out if this is for network serialization or not eventually
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DataStream& operator>>(DataStream& ds, Drawable::ImagePart& image) {
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ds >> AssetPath::join(image.image);
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ds >> image.transformation;
return ds;
}
DataStream& operator<<(DataStream& ds, Drawable::ImagePart const& image) {
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ds << AssetPath::join(image.image);
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ds << image.transformation;
return ds;
}
DataStream& operator>>(DataStream& ds, Drawable& drawable) {
ds >> drawable.part;
ds >> drawable.position;
ds >> drawable.color;
ds >> drawable.fullbright;
return ds;
}
DataStream& operator<<(DataStream& ds, Drawable const& drawable) {
ds << drawable.part;
ds << drawable.position;
ds << drawable.color;
ds << drawable.fullbright;
return ds;
}
}