/* See LICENSE file for copyright and license details. */ #ifndef TYPES_OUTPUT_H #define TYPES_OUTPUT_H #include #include #include "types-ramps.h" #include "types-filter.h" #ifndef GCC_ONLY # if defined(__GNUC__) && !defined(__clang__) # define GCC_ONLY(...) __VA_ARGS__ # else # define GCC_ONLY(...) /* nothing */ # endif #endif /** * Copy the ramp sizes * * This macro supports both `struct output` * and `struct gamma_ramps` * * @param dest The destination * @param src The source */ #define COPY_RAMP_SIZES(dest, src) \ ((dest)->red_size = (src)->red_size, \ (dest)->green_size = (src)->green_size, \ (dest)->blue_size = (src)->blue_size) /** * Colour spaces */ enum colourspace { /** * Unknown */ COLOURSPACE_UNKNOWN = 0, /** * sRGB with explicit gamut */ COLOURSPACE_SRGB = 1, /** * sRGB without explicit gamut */ COLOURSPACE_SRGB_SANS_GAMUT = 2, /** * RGB (but not sRGB) with known gamut */ COLOURSPACE_RGB = 3, /** * RGB (but not sRGB) without known gamut */ COLOURSPACE_RGB_SANS_GAMUT = 4, /** * Non-RGB multicolour */ COLOURSPACE_NON_RGB = 5, /** * Greyscale or monochrome */ COLOURSPACE_GREY = 6 }; /** * Information about an output */ struct output { /** * -2: double * -1: float * 8: uint8_t * 16: uint16_t * 32: uint32_t * 64: uint64_t */ signed depth; /** * Whether gamma ramps are supported */ enum libgamma_decision supported; /** * Whether the name is the EDID */ int name_is_edid; /** * The monitor's colour space */ enum colourspace colourspace; /** * The x-value (CIE xyY) of the monitor's * red colour, multiplied by 1024 */ unsigned red_x; /** * The y-value (CIE xyY) of the monitor's * red colour, multiplied by 1024 */ unsigned red_y; /** * The x-value (CIE xyY) of the monitor's * green colour, multiplied by 1024 */ unsigned green_x; /** * The y-value (CIE xyY) of the monitor's * green colour, multiplied by 1024 */ unsigned green_y; /** * The x-value (CIE xyY) of the monitor's * blue colour, multiplied by 1024 */ unsigned blue_x; /** * The y-value (CIE xyY) of the monitor's * blue colour, multiplied by 1024 */ unsigned blue_y; /** * The x-value (CIE xyY) of the monitor's * default white point, multiplied by 1024 */ unsigned white_x; /** * The y-value (CIE xyY) of the monitor's * default white point, multiplied by 1024 */ unsigned white_y; /** * The number of stops in the red gamma ramp */ size_t red_size; /** * The number of stops in the green gamma ramp */ size_t green_size; /** * The number of stops in the blue gamma ramp */ size_t blue_size; /** * `.red_size + .green_size + .blue_size` * multiplied by the byte-size of each stop */ size_t ramps_size; /** * The name of the output, will be its EDID * if available, otherwise it will be the * index of the partition, followed by a dot * and the index of the CRTC within the * partition, or if a name for the connector * is available: the index of the partition * followed by a dot and the name of the * connector */ char *restrict name; /** * The libgamma state for the output */ libgamma_crtc_state_t *restrict crtc; /** * Saved gamma ramps */ union gamma_ramps saved_ramps; /** * The table of all applied filters */ struct filter *restrict table_filters; /** * `.table_sums[i]` is the resulting * adjustment made when all filter * from `.table_filters[0]` up to and * including `.table_filters[i]` has * been applied */ union gamma_ramps *restrict table_sums; /** * The number of elements allocated * for `.table_filters` and for `.table_sums` */ size_t table_alloc; /** * The number of elements stored in * `.table_filters` and in `.table_sums` */ size_t table_size; }; /** * Free all resources allocated to an output. * The allocation of `output` itself is not freed, * nor is its the libgamma destroyed. * * @param this The output */ GCC_ONLY(__attribute__((__nonnull__))) void output_destroy(struct output *restrict this); /** * Marshal an output * * @param this The output * @param buf Output buffer for the marshalled output, * `NULL` just measure how large the buffers * needs to be * @return The number of marshalled byte */ GCC_ONLY(__attribute__((__nonnull__(1)))) size_t output_marshal(const struct output *restrict this, void *restrict buf); /** * Unmarshal an output * * @param this Output for the output * @param buf Buffer with the marshalled output * @return The number of unmarshalled bytes, 0 on error */ GCC_ONLY(__attribute__((__nonnull__))) size_t output_unmarshal(struct output *restrict this, const void *restrict buf); /** * Compare to outputs by the names of their respective CRTC:s * * @param a Return -1 if this one is lower * @param b Return +1 if this one is higher * @return See description of `a` and `b`, * 0 if returned if they are the same */ GCC_ONLY(__attribute__((pure, __nonnull__))) int output_cmp_by_name(const void *restrict a, const void *restrict b); /** * Find an output by its name * * @param key The name of the output * @param base The array of outputs * @param n The number of elements in `base` * @return Output find in `base`, `NULL` if not found */ GCC_ONLY(__attribute__((pure, __nonnull__))) struct output *output_find_by_name(const char *restrict key, struct output *restrict base, size_t n); #endif