gecko/gfx/skia/include/core/SkDeviceProperties.h
2013-04-02 16:49:07 -04:00

113 lines
3.8 KiB
C++

#ifndef SkDeviceProperties_DEFINED
#define SkDeviceProperties_DEFINED
#ifndef SK_GAMMA_EXPONENT
#define SK_GAMMA_EXPONENT (2.2f)
#endif
#ifdef SK_GAMMA_SRGB
#undef SK_GAMMA_EXPONENT
#define SK_GAMMA_EXPONENT (0.0f)
#endif
//TODO: get everyone to stop using SkFontLCDConfig::SetSubpixel* and remove this import.
#include "SkFontLCDConfig.h"
struct SkDeviceProperties {
struct Geometry {
/** The orientation of the pixel specifies the interpretation of the
* layout. If the orientation is horizontal, the layout is interpreted as
* left to right. It the orientation is vertical, the layout is
* interpreted top to bottom (rotated 90deg cw from horizontal).
*/
enum Orientation {
kUnknown_Orientation = 0x0,
kKnown_Orientation = 0x2,
kHorizontal_Orientation = 0x2, //!< this is the default
kVertical_Orientation = 0x3,
kOrientationMask = 0x3,
};
/** The layout of the pixel specifies its subpixel geometry.
*
* kUnknown_Layout means that the subpixel elements are not spatially
* separated in any known or usable fashion.
*/
enum Layout {
kUnknown_Layout = 0x0,
kKnown_Layout = 0x8,
kRGB_Layout = 0x8, //!< this is the default
kBGR_Layout = 0xC,
kLayoutMask = 0xC,
};
Orientation getOrientation() {
return static_cast<Orientation>(fGeometry | kOrientationMask);
}
Layout getLayout() {
return static_cast<Layout>(fGeometry | kLayoutMask);
}
bool isOrientationKnown() {
return SkToBool(fGeometry & kKnown_Orientation);
}
bool isLayoutKnown() {
return SkToBool(fGeometry & kKnown_Layout);
}
private:
//TODO: get everyone to stop using SkFontLCDConfig::SetSubpixel* and replace these calls with constants.
static Orientation fromOldOrientation(SkFontLCDConfig::LCDOrientation orientation) {
switch (orientation) {
case SkFontLCDConfig::kHorizontal_LCDOrientation: return kHorizontal_Orientation;
case SkFontLCDConfig::kVertical_LCDOrientation: return kVertical_Orientation;
default: return kUnknown_Orientation;
}
}
static Layout fromOldLayout(SkFontLCDConfig::LCDOrder order) {
switch (order) {
case SkFontLCDConfig::kRGB_LCDOrder: return kRGB_Layout;
case SkFontLCDConfig::kBGR_LCDOrder: return kBGR_Layout;
default: return kUnknown_Layout;
}
}
public:
static Geometry MakeDefault() {
Orientation orientation = fromOldOrientation(SkFontLCDConfig::GetSubpixelOrientation()); //kHorizontal_Orientation
Layout layout = fromOldLayout(SkFontLCDConfig::GetSubpixelOrder()); //kRGB_Layout
Geometry ret = { SkToU8(orientation | layout) };
return ret;
}
static Geometry Make(Orientation orientation, Layout layout) {
Geometry ret = { SkToU8(orientation | layout) };
return ret;
}
uint8_t fGeometry;
};
static SkDeviceProperties MakeDefault() {
SkDeviceProperties ret = { Geometry::MakeDefault(), SK_GAMMA_EXPONENT };
return ret;
}
static SkDeviceProperties Make(Geometry geometry, SkScalar gamma) {
SkDeviceProperties ret = { geometry, gamma };
return ret;
}
/** Each pixel of an image will have some number of channels.
* Can the layout of those channels be exploited? */
Geometry fGeometry;
/** Represents the color space of the image. This is a woefully inadequate beginning. */
SkScalar fGamma;
};
#endif