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protocols: Support wp color management proto (#9444)

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Adds support for the recently merged w-p CM protocol alongside the (now deprecated) old CM WIP protocols
This commit is contained in:
UjinT34
2025-02-26 17:56:37 +03:00
committed by GitHub
parent f0850905f0
commit 6787fe8933
18 changed files with 1561 additions and 276 deletions
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639
src/protocols/XXColorManagement.cpp Normal file
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#include "XXColorManagement.hpp"
#include "Compositor.hpp"
#include "ColorManagement.hpp"
#include "color-management-v1.hpp"
#include "protocols/types/ColorManagement.hpp"
using namespace NColorManagement;
static wpColorManagerV1TransferFunction getWPTransferFunction(xxColorManagerV4TransferFunction tf) {
switch (tf) {
case XX_COLOR_MANAGER_V4_TRANSFER_FUNCTION_BT709:
case XX_COLOR_MANAGER_V4_TRANSFER_FUNCTION_BT1361: return WP_COLOR_MANAGER_V1_TRANSFER_FUNCTION_BT1886;
case XX_COLOR_MANAGER_V4_TRANSFER_FUNCTION_GAMMA22: return WP_COLOR_MANAGER_V1_TRANSFER_FUNCTION_GAMMA22;
case XX_COLOR_MANAGER_V4_TRANSFER_FUNCTION_GAMMA28: return WP_COLOR_MANAGER_V1_TRANSFER_FUNCTION_GAMMA28;
case XX_COLOR_MANAGER_V4_TRANSFER_FUNCTION_ST240: return WP_COLOR_MANAGER_V1_TRANSFER_FUNCTION_ST240;
case XX_COLOR_MANAGER_V4_TRANSFER_FUNCTION_LINEAR: return WP_COLOR_MANAGER_V1_TRANSFER_FUNCTION_EXT_LINEAR;
case XX_COLOR_MANAGER_V4_TRANSFER_FUNCTION_LOG_100: return WP_COLOR_MANAGER_V1_TRANSFER_FUNCTION_LOG_100;
case XX_COLOR_MANAGER_V4_TRANSFER_FUNCTION_LOG_316: return WP_COLOR_MANAGER_V1_TRANSFER_FUNCTION_LOG_316;
case XX_COLOR_MANAGER_V4_TRANSFER_FUNCTION_XVYCC: return WP_COLOR_MANAGER_V1_TRANSFER_FUNCTION_XVYCC;
case XX_COLOR_MANAGER_V4_TRANSFER_FUNCTION_SRGB: return WP_COLOR_MANAGER_V1_TRANSFER_FUNCTION_SRGB;
case XX_COLOR_MANAGER_V4_TRANSFER_FUNCTION_EXT_SRGB: return WP_COLOR_MANAGER_V1_TRANSFER_FUNCTION_EXT_SRGB;
case XX_COLOR_MANAGER_V4_TRANSFER_FUNCTION_ST2084_PQ: return WP_COLOR_MANAGER_V1_TRANSFER_FUNCTION_ST2084_PQ;
case XX_COLOR_MANAGER_V4_TRANSFER_FUNCTION_ST428: return WP_COLOR_MANAGER_V1_TRANSFER_FUNCTION_ST428;
case XX_COLOR_MANAGER_V4_TRANSFER_FUNCTION_HLG: return WP_COLOR_MANAGER_V1_TRANSFER_FUNCTION_HLG;
}
}
static wpColorManagerV1Primaries getWPPrimaries(xxColorManagerV4Primaries primaries) {
return (wpColorManagerV1Primaries)(primaries + 1);
}
CXXColorManager::CXXColorManager(SP<CXxColorManagerV4> resource_) : resource(resource_) {
if UNLIKELY (!good())
return;
resource->sendSupportedFeature(XX_COLOR_MANAGER_V4_FEATURE_PARAMETRIC);
resource->sendSupportedFeature(XX_COLOR_MANAGER_V4_FEATURE_EXTENDED_TARGET_VOLUME);
resource->sendSupportedFeature(XX_COLOR_MANAGER_V4_FEATURE_SET_MASTERING_DISPLAY_PRIMARIES);
resource->sendSupportedFeature(XX_COLOR_MANAGER_V4_FEATURE_SET_PRIMARIES);
resource->sendSupportedFeature(XX_COLOR_MANAGER_V4_FEATURE_SET_LUMINANCES);
resource->sendSupportedPrimariesNamed(XX_COLOR_MANAGER_V4_PRIMARIES_SRGB);
// resource->sendSupportedPrimariesNamed(XX_COLOR_MANAGER_V4_PRIMARIES_PAL_M);
// resource->sendSupportedPrimariesNamed(XX_COLOR_MANAGER_V4_PRIMARIES_PAL);
// resource->sendSupportedPrimariesNamed(XX_COLOR_MANAGER_V4_PRIMARIES_NTSC);
// resource->sendSupportedPrimariesNamed(XX_COLOR_MANAGER_V4_PRIMARIES_GENERIC_FILM);
resource->sendSupportedPrimariesNamed(XX_COLOR_MANAGER_V4_PRIMARIES_BT2020);
// resource->sendSupportedPrimariesNamed(XX_COLOR_MANAGER_V4_PRIMARIES_CIE1931_XYZ);
// resource->sendSupportedPrimariesNamed(XX_COLOR_MANAGER_V4_PRIMARIES_DCI_P3);
// resource->sendSupportedPrimariesNamed(XX_COLOR_MANAGER_V4_PRIMARIES_DISPLAY_P3);
// resource->sendSupportedPrimariesNamed(XX_COLOR_MANAGER_V4_PRIMARIES_ADOBE_RGB);
// resource->sendSupportedTfNamed(XX_COLOR_MANAGER_V4_TRANSFER_FUNCTION_GAMMA22);
resource->sendSupportedTfNamed(XX_COLOR_MANAGER_V4_TRANSFER_FUNCTION_SRGB);
resource->sendSupportedTfNamed(XX_COLOR_MANAGER_V4_TRANSFER_FUNCTION_ST2084_PQ);
// resource->sendSupportedTfNamed(XX_COLOR_MANAGER_V4_TRANSFER_FUNCTION_LINEAR);
resource->sendSupportedIntent(XX_COLOR_MANAGER_V4_RENDER_INTENT_PERCEPTUAL);
// resource->sendSupportedIntent(XX_COLOR_MANAGER_V4_RENDER_INTENT_RELATIVE);
// resource->sendSupportedIntent(XX_COLOR_MANAGER_V4_RENDER_INTENT_ABSOLUTE);
// resource->sendSupportedIntent(XX_COLOR_MANAGER_V4_RENDER_INTENT_RELATIVE_BPC);
resource->setDestroy([](CXxColorManagerV4* r) { LOGM(TRACE, "Destroy xx_color_manager at {:x} (generated default)", (uintptr_t)r); });
resource->setGetOutput([](CXxColorManagerV4* r, uint32_t id, wl_resource* output) {
LOGM(TRACE, "Get output for id={}, output={}", id, (uintptr_t)output);
const auto RESOURCE =
PROTO::xxColorManagement->m_vOutputs.emplace_back(makeShared<CXXColorManagementOutput>(makeShared<CXxColorManagementOutputV4>(r->client(), r->version(), id)));
if UNLIKELY (!RESOURCE->good()) {
r->noMemory();
PROTO::xxColorManagement->m_vOutputs.pop_back();
return;
}
RESOURCE->self = RESOURCE;
});
resource->setGetSurface([](CXxColorManagerV4* r, uint32_t id, wl_resource* surface) {
LOGM(TRACE, "Get surface for id={}, surface={}", id, (uintptr_t)surface);
auto SURF = CWLSurfaceResource::fromResource(surface);
if (!SURF) {
LOGM(ERR, "No surface for resource {}", (uintptr_t)surface);
r->error(-1, "Invalid surface (2)");
return;
}
if (SURF->colorManagement) {
r->error(XX_COLOR_MANAGER_V4_ERROR_SURFACE_EXISTS, "CM Surface already exists");
return;
}
const auto RESOURCE =
PROTO::xxColorManagement->m_vSurfaces.emplace_back(makeShared<CXXColorManagementSurface>(makeShared<CXxColorManagementSurfaceV4>(r->client(), r->version(), id), SURF));
if UNLIKELY (!RESOURCE->good()) {
r->noMemory();
PROTO::xxColorManagement->m_vSurfaces.pop_back();
return;
}
RESOURCE->self = RESOURCE;
});
resource->setGetFeedbackSurface([](CXxColorManagerV4* r, uint32_t id, wl_resource* surface) {
LOGM(TRACE, "Get feedback surface for id={}, surface={}", id, (uintptr_t)surface);
auto SURF = CWLSurfaceResource::fromResource(surface);
if (!SURF) {
LOGM(ERR, "No surface for resource {}", (uintptr_t)surface);
r->error(-1, "Invalid surface (2)");
return;
}
const auto RESOURCE = PROTO::xxColorManagement->m_vFeedbackSurfaces.emplace_back(
makeShared<CXXColorManagementFeedbackSurface>(makeShared<CXxColorManagementFeedbackSurfaceV4>(r->client(), r->version(), id), SURF));
if UNLIKELY (!RESOURCE->good()) {
r->noMemory();
PROTO::xxColorManagement->m_vFeedbackSurfaces.pop_back();
return;
}
RESOURCE->self = RESOURCE;
});
resource->setNewIccCreator([](CXxColorManagerV4* r, uint32_t id) {
LOGM(WARN, "New ICC creator for id={} (unsupported)", id);
r->error(XX_COLOR_MANAGER_V4_ERROR_UNSUPPORTED_FEATURE, "ICC profiles are not supported");
});
resource->setNewParametricCreator([](CXxColorManagerV4* r, uint32_t id) {
LOGM(TRACE, "New parametric creator for id={}", id);
const auto RESOURCE = PROTO::xxColorManagement->m_vParametricCreators.emplace_back(
makeShared<CXXColorManagementParametricCreator>(makeShared<CXxImageDescriptionCreatorParamsV4>(r->client(), r->version(), id)));
if UNLIKELY (!RESOURCE->good()) {
r->noMemory();
PROTO::xxColorManagement->m_vParametricCreators.pop_back();
return;
}
RESOURCE->self = RESOURCE;
});
resource->setOnDestroy([this](CXxColorManagerV4* r) { PROTO::xxColorManagement->destroyResource(this); });
}
bool CXXColorManager::good() {
return resource->resource();
}
CXXColorManagementOutput::CXXColorManagementOutput(SP<CXxColorManagementOutputV4> resource_) : resource(resource_) {
if UNLIKELY (!good())
return;
pClient = resource->client();
resource->setDestroy([this](CXxColorManagementOutputV4* r) { PROTO::xxColorManagement->destroyResource(this); });
resource->setOnDestroy([this](CXxColorManagementOutputV4* r) { PROTO::xxColorManagement->destroyResource(this); });
resource->setGetImageDescription([this](CXxColorManagementOutputV4* r, uint32_t id) {
LOGM(TRACE, "Get image description for output={}, id={}", (uintptr_t)r, id);
if (imageDescription.valid())
PROTO::xxColorManagement->destroyResource(imageDescription.get());
const auto RESOURCE = PROTO::xxColorManagement->m_vImageDescriptions.emplace_back(
makeShared<CXXColorManagementImageDescription>(makeShared<CXxImageDescriptionV4>(r->client(), r->version(), id)));
if UNLIKELY (!RESOURCE->good()) {
r->noMemory();
PROTO::xxColorManagement->m_vImageDescriptions.pop_back();
return;
}
RESOURCE->self = RESOURCE;
});
}
bool CXXColorManagementOutput::good() {
return resource->resource();
}
wl_client* CXXColorManagementOutput::client() {
return pClient;
}
CXXColorManagementSurface::CXXColorManagementSurface(SP<CWLSurfaceResource> surface_) : surface(surface_) {
// only for frog cm untill wayland cm is adopted
}
CXXColorManagementSurface::CXXColorManagementSurface(SP<CXxColorManagementSurfaceV4> resource_, SP<CWLSurfaceResource> surface_) : surface(surface_), resource(resource_) {
if UNLIKELY (!good())
return;
pClient = resource->client();
if (!surface->colorManagement.valid()) {
const auto RESOURCE = PROTO::colorManagement->m_vSurfaces.emplace_back(makeShared<CColorManagementSurface>(surface_));
if UNLIKELY (!RESOURCE) {
resource->noMemory();
PROTO::colorManagement->m_vSurfaces.pop_back();
return;
}
RESOURCE->self = RESOURCE;
surface->colorManagement = RESOURCE;
resource->setOnDestroy([this](CXxColorManagementSurfaceV4* r) {
LOGM(TRACE, "Destroy wp cm and xx cm for surface {}", (uintptr_t)surface);
if (surface.valid())
PROTO::colorManagement->destroyResource(surface->colorManagement.get());
PROTO::xxColorManagement->destroyResource(this);
});
} else
resource->setOnDestroy([this](CXxColorManagementSurfaceV4* r) {
LOGM(TRACE, "Destroy xx cm surface {}", (uintptr_t)surface);
PROTO::xxColorManagement->destroyResource(this);
});
resource->setDestroy([this](CXxColorManagementSurfaceV4* r) {
LOGM(TRACE, "Destroy xx cm surface {}", (uintptr_t)surface);
PROTO::xxColorManagement->destroyResource(this);
});
resource->setSetImageDescription([this](CXxColorManagementSurfaceV4* r, wl_resource* image_description, uint32_t render_intent) {
LOGM(TRACE, "Set image description for surface={}, desc={}, intent={}", (uintptr_t)r, (uintptr_t)image_description, render_intent);
const auto PO = (CXxImageDescriptionV4*)wl_resource_get_user_data(image_description);
if (!PO) { // FIXME check validity
r->error(XX_COLOR_MANAGEMENT_SURFACE_V4_ERROR_IMAGE_DESCRIPTION, "Image description creation failed");
return;
}
if (render_intent != XX_COLOR_MANAGER_V4_RENDER_INTENT_PERCEPTUAL) {
r->error(XX_COLOR_MANAGEMENT_SURFACE_V4_ERROR_RENDER_INTENT, "Unsupported render intent");
return;
}
const auto imageDescription = std::find_if(PROTO::xxColorManagement->m_vImageDescriptions.begin(), PROTO::xxColorManagement->m_vImageDescriptions.end(),
[&](const auto& other) { return other->resource()->resource() == image_description; });
if (imageDescription == PROTO::xxColorManagement->m_vImageDescriptions.end()) {
r->error(XX_COLOR_MANAGEMENT_SURFACE_V4_ERROR_IMAGE_DESCRIPTION, "Image description not found");
return;
}
if (surface.valid()) {
surface->colorManagement->setHasImageDescription(true);
surface->colorManagement->m_imageDescription = imageDescription->get()->settings;
} else
LOGM(ERR, "Set image description for invalid surface");
});
resource->setUnsetImageDescription([this](CXxColorManagementSurfaceV4* r) {
LOGM(TRACE, "Unset image description for surface={}", (uintptr_t)r);
if (surface.valid()) {
surface->colorManagement->m_imageDescription = SImageDescription{};
surface->colorManagement->setHasImageDescription(false);
} else
LOGM(ERR, "Unset image description for invalid surface");
});
}
bool CXXColorManagementSurface::good() {
return resource && resource->resource();
}
wl_client* CXXColorManagementSurface::client() {
return pClient;
}
const SImageDescription& CXXColorManagementSurface::imageDescription() {
if (!hasImageDescription())
LOGM(WARN, "Reading imageDescription while none set. Returns default or empty values");
return m_imageDescription;
}
bool CXXColorManagementSurface::hasImageDescription() {
return m_hasImageDescription;
}
void CXXColorManagementSurface::setHasImageDescription(bool has) {
m_hasImageDescription = has;
m_needsNewMetadata = true;
}
const hdr_output_metadata& CXXColorManagementSurface::hdrMetadata() {
return m_hdrMetadata;
}
void CXXColorManagementSurface::setHDRMetadata(const hdr_output_metadata& metadata) {
m_hdrMetadata = metadata;
m_needsNewMetadata = false;
}
bool CXXColorManagementSurface::needsHdrMetadataUpdate() {
return m_needsNewMetadata;
}
CXXColorManagementFeedbackSurface::CXXColorManagementFeedbackSurface(SP<CXxColorManagementFeedbackSurfaceV4> resource_, SP<CWLSurfaceResource> surface_) :
surface(surface_), resource(resource_) {
if UNLIKELY (!good())
return;
pClient = resource->client();
resource->setDestroy([this](CXxColorManagementFeedbackSurfaceV4* r) {
LOGM(TRACE, "Destroy xx cm feedback surface {}", (uintptr_t)surface);
if (m_currentPreferred.valid())
PROTO::xxColorManagement->destroyResource(m_currentPreferred.get());
PROTO::xxColorManagement->destroyResource(this);
});
resource->setOnDestroy([this](CXxColorManagementFeedbackSurfaceV4* r) {
LOGM(TRACE, "Destroy xx cm feedback surface {}", (uintptr_t)surface);
if (m_currentPreferred.valid())
PROTO::xxColorManagement->destroyResource(m_currentPreferred.get());
PROTO::xxColorManagement->destroyResource(this);
});
resource->setGetPreferred([this](CXxColorManagementFeedbackSurfaceV4* r, uint32_t id) {
LOGM(TRACE, "Get preferred for id {}", id);
if (m_currentPreferred.valid())
PROTO::xxColorManagement->destroyResource(m_currentPreferred.get());
const auto RESOURCE = PROTO::xxColorManagement->m_vImageDescriptions.emplace_back(
makeShared<CXXColorManagementImageDescription>(makeShared<CXxImageDescriptionV4>(r->client(), r->version(), id), true));
if UNLIKELY (!RESOURCE->good()) {
r->noMemory();
PROTO::xxColorManagement->m_vImageDescriptions.pop_back();
return;
}
RESOURCE->self = RESOURCE;
m_currentPreferred = RESOURCE;
m_currentPreferred->settings = g_pCompositor->getPreferredImageDescription();
RESOURCE->resource()->sendReady(id);
});
}
bool CXXColorManagementFeedbackSurface::good() {
return resource->resource();
}
wl_client* CXXColorManagementFeedbackSurface::client() {
return pClient;
}
CXXColorManagementParametricCreator::CXXColorManagementParametricCreator(SP<CXxImageDescriptionCreatorParamsV4> resource_) : resource(resource_) {
if UNLIKELY (!good())
return;
//
pClient = resource->client();
resource->setOnDestroy([this](CXxImageDescriptionCreatorParamsV4* r) { PROTO::xxColorManagement->destroyResource(this); });
resource->setCreate([this](CXxImageDescriptionCreatorParamsV4* r, uint32_t id) {
LOGM(TRACE, "Create image description from params for id {}", id);
// FIXME actually check completeness
if (!valuesSet) {
r->error(XX_IMAGE_DESCRIPTION_CREATOR_PARAMS_V4_ERROR_INCOMPLETE_SET, "Missing required settings");
return;
}
// FIXME actually check consistency
if (!valuesSet) {
r->error(XX_IMAGE_DESCRIPTION_CREATOR_PARAMS_V4_ERROR_INCONSISTENT_SET, "Set is not consistent");
return;
}
const auto RESOURCE = PROTO::xxColorManagement->m_vImageDescriptions.emplace_back(
makeShared<CXXColorManagementImageDescription>(makeShared<CXxImageDescriptionV4>(r->client(), r->version(), id)));
if UNLIKELY (!RESOURCE->good()) {
r->noMemory();
PROTO::xxColorManagement->m_vImageDescriptions.pop_back();
return;
}
// FIXME actually check support
if (!valuesSet) {
RESOURCE->resource()->sendFailed(XX_IMAGE_DESCRIPTION_V4_CAUSE_UNSUPPORTED, "unsupported");
return;
}
RESOURCE->self = RESOURCE;
RESOURCE->settings = settings;
RESOURCE->resource()->sendReady(id);
PROTO::xxColorManagement->destroyResource(this);
});
resource->setSetTfNamed([this](CXxImageDescriptionCreatorParamsV4* r, uint32_t tf) {
LOGM(TRACE, "Set image description transfer function to {}", tf);
if (valuesSet & PC_TF) {
r->error(XX_IMAGE_DESCRIPTION_CREATOR_PARAMS_V4_ERROR_ALREADY_SET, "Transfer function already set");
return;
}
switch (tf) {
case XX_COLOR_MANAGER_V4_TRANSFER_FUNCTION_SRGB: break;
case XX_COLOR_MANAGER_V4_TRANSFER_FUNCTION_ST2084_PQ: break;
default: r->error(XX_IMAGE_DESCRIPTION_CREATOR_PARAMS_V4_ERROR_INVALID_TF, "Unsupported transfer function"); return;
}
settings.transferFunction = convertTransferFunction(getWPTransferFunction((xxColorManagerV4TransferFunction)tf));
valuesSet |= PC_TF;
});
resource->setSetTfPower([this](CXxImageDescriptionCreatorParamsV4* r, uint32_t eexp) {
LOGM(TRACE, "Set image description tf power to {}", eexp);
if (valuesSet & PC_TF_POWER) {
r->error(XX_IMAGE_DESCRIPTION_CREATOR_PARAMS_V4_ERROR_ALREADY_SET, "Transfer function power already set");
return;
}
settings.transferFunctionPower = eexp / 10000.0f;
valuesSet |= PC_TF_POWER;
});
resource->setSetPrimariesNamed([this](CXxImageDescriptionCreatorParamsV4* r, uint32_t primaries) {
LOGM(TRACE, "Set image description primaries by name {}", primaries);
if (valuesSet & PC_PRIMARIES) {
r->error(XX_IMAGE_DESCRIPTION_CREATOR_PARAMS_V4_ERROR_ALREADY_SET, "Primaries already set");
return;
}
switch (primaries) {
case XX_COLOR_MANAGER_V4_PRIMARIES_SRGB:
settings.primariesNameSet = true;
settings.primariesNamed = convertPrimaries(getWPPrimaries(XX_COLOR_MANAGER_V4_PRIMARIES_SRGB));
settings.primaries = NColorPrimaries::BT709;
valuesSet |= PC_PRIMARIES;
break;
case XX_COLOR_MANAGER_V4_PRIMARIES_BT2020:
settings.primariesNameSet = true;
settings.primariesNamed = convertPrimaries(getWPPrimaries(XX_COLOR_MANAGER_V4_PRIMARIES_BT2020));
settings.primaries = NColorPrimaries::BT2020;
valuesSet |= PC_PRIMARIES;
break;
default: r->error(XX_IMAGE_DESCRIPTION_CREATOR_PARAMS_V4_ERROR_INVALID_PRIMARIES, "Unsupported primaries");
}
});
resource->setSetPrimaries(
[this](CXxImageDescriptionCreatorParamsV4* r, int32_t r_x, int32_t r_y, int32_t g_x, int32_t g_y, int32_t b_x, int32_t b_y, int32_t w_x, int32_t w_y) {
LOGM(TRACE, "Set image description primaries by values r:{},{} g:{},{} b:{},{} w:{},{}", r_x, r_y, g_x, g_y, b_x, b_y, w_x, w_y);
if (valuesSet & PC_PRIMARIES) {
r->error(XX_IMAGE_DESCRIPTION_CREATOR_PARAMS_V4_ERROR_ALREADY_SET, "Primaries already set");
return;
}
settings.primariesNameSet = false;
settings.primaries = SPCPRimaries{.red = {.x = r_x, .y = r_y}, .green = {.x = g_x, .y = g_y}, .blue = {.x = b_x, .y = b_y}, .white = {.x = w_x, .y = w_y}};
valuesSet |= PC_PRIMARIES;
});
resource->setSetLuminances([this](CXxImageDescriptionCreatorParamsV4* r, uint32_t min_lum, uint32_t max_lum, uint32_t reference_lum) {
auto min = min_lum / 10000.0f;
LOGM(TRACE, "Set image description luminances to {} - {} ({})", min, max_lum, reference_lum);
if (valuesSet & PC_LUMINANCES) {
r->error(XX_IMAGE_DESCRIPTION_CREATOR_PARAMS_V4_ERROR_ALREADY_SET, "Luminances already set");
return;
}
if (max_lum < reference_lum || reference_lum <= min) {
r->error(XX_IMAGE_DESCRIPTION_CREATOR_PARAMS_V4_ERROR_INVALID_LUMINANCE, "Invalid luminances");
return;
}
settings.luminances = SImageDescription::SPCLuminances{.min = min, .max = max_lum, .reference = reference_lum};
valuesSet |= PC_LUMINANCES;
});
resource->setSetMasteringDisplayPrimaries(
[this](CXxImageDescriptionCreatorParamsV4* r, int32_t r_x, int32_t r_y, int32_t g_x, int32_t g_y, int32_t b_x, int32_t b_y, int32_t w_x, int32_t w_y) {
LOGM(TRACE, "Set image description mastering primaries by values r:{},{} g:{},{} b:{},{} w:{},{}", r_x, r_y, g_x, g_y, b_x, b_y, w_x, w_y);
// if (valuesSet & PC_MASTERING_PRIMARIES) {
// r->error(XX_IMAGE_DESCRIPTION_CREATOR_PARAMS_V4_ERROR_ALREADY_SET, "Mastering primaries already set");
// return;
// }
settings.masteringPrimaries = SPCPRimaries{.red = {.x = r_x, .y = r_y}, .green = {.x = g_x, .y = g_y}, .blue = {.x = b_x, .y = b_y}, .white = {.x = w_x, .y = w_y}};
valuesSet |= PC_MASTERING_PRIMARIES;
});
resource->setSetMasteringLuminance([this](CXxImageDescriptionCreatorParamsV4* r, uint32_t min_lum, uint32_t max_lum) {
auto min = min_lum / 10000.0f;
LOGM(TRACE, "Set image description mastering luminances to {} - {}", min, max_lum);
// if (valuesSet & PC_MASTERING_LUMINANCES) {
// r->error(XX_IMAGE_DESCRIPTION_CREATOR_PARAMS_V4_ERROR_ALREADY_SET, "Mastering luminances already set");
// return;
// }
if (min > 0 && max_lum > 0 && max_lum <= min) {
r->error(XX_IMAGE_DESCRIPTION_CREATOR_PARAMS_V4_ERROR_INVALID_LUMINANCE, "Invalid luminances");
return;
}
settings.masteringLuminances = SImageDescription::SPCMasteringLuminances{.min = min, .max = max_lum};
valuesSet |= PC_MASTERING_LUMINANCES;
});
resource->setSetMaxCll([this](CXxImageDescriptionCreatorParamsV4* r, uint32_t max_cll) {
LOGM(TRACE, "Set image description max content light level to {}", max_cll);
// if (valuesSet & PC_CLL) {
// r->error(XX_IMAGE_DESCRIPTION_CREATOR_PARAMS_V4_ERROR_ALREADY_SET, "Max CLL already set");
// return;
// }
settings.maxCLL = max_cll;
valuesSet |= PC_CLL;
});
resource->setSetMaxFall([this](CXxImageDescriptionCreatorParamsV4* r, uint32_t max_fall) {
LOGM(TRACE, "Set image description max frame-average light level to {}", max_fall);
// if (valuesSet & PC_FALL) {
// r->error(XX_IMAGE_DESCRIPTION_CREATOR_PARAMS_V4_ERROR_ALREADY_SET, "Max FALL already set");
// return;
// }
settings.maxFALL = max_fall;
valuesSet |= PC_FALL;
});
}
bool CXXColorManagementParametricCreator::good() {
return resource->resource();
}
wl_client* CXXColorManagementParametricCreator::client() {
return pClient;
}
CXXColorManagementImageDescription::CXXColorManagementImageDescription(SP<CXxImageDescriptionV4> resource_, bool allowGetInformation) :
m_resource(resource_), m_allowGetInformation(allowGetInformation) {
if UNLIKELY (!good())
return;
pClient = m_resource->client();
m_resource->setDestroy([this](CXxImageDescriptionV4* r) { PROTO::xxColorManagement->destroyResource(this); });
m_resource->setOnDestroy([this](CXxImageDescriptionV4* r) { PROTO::xxColorManagement->destroyResource(this); });
m_resource->setGetInformation([this](CXxImageDescriptionV4* r, uint32_t id) {
LOGM(TRACE, "Get image information for image={}, id={}", (uintptr_t)r, id);
if (!m_allowGetInformation) {
r->error(XX_IMAGE_DESCRIPTION_V4_ERROR_NO_INFORMATION, "Image descriptions doesn't allow get_information request");
return;
}
auto RESOURCE = makeShared<CXXColorManagementImageDescriptionInfo>(makeShared<CXxImageDescriptionInfoV4>(r->client(), r->version(), id), settings);
if UNLIKELY (!RESOURCE->good())
r->noMemory();
// CXXColorManagementImageDescriptionInfo should send everything in the constructor and be ready for destroying at this point
RESOURCE.reset();
});
}
bool CXXColorManagementImageDescription::good() {
return m_resource->resource();
}
wl_client* CXXColorManagementImageDescription::client() {
return pClient;
}
SP<CXxImageDescriptionV4> CXXColorManagementImageDescription::resource() {
return m_resource;
}
CXXColorManagementImageDescriptionInfo::CXXColorManagementImageDescriptionInfo(SP<CXxImageDescriptionInfoV4> resource_, const SImageDescription& settings_) :
m_resource(resource_), settings(settings_) {
if UNLIKELY (!good())
return;
pClient = m_resource->client();
const auto toProto = [](float value) { return int32_t(std::round(value * 10000)); };
if (settings.icc.fd >= 0)
m_resource->sendIccFile(settings.icc.fd, settings.icc.length);
// send preferred client paramateres
m_resource->sendPrimaries(toProto(settings.primaries.red.x), toProto(settings.primaries.red.y), toProto(settings.primaries.green.x), toProto(settings.primaries.green.y),
toProto(settings.primaries.blue.x), toProto(settings.primaries.blue.y), toProto(settings.primaries.white.x), toProto(settings.primaries.white.y));
if (settings.primariesNameSet)
m_resource->sendPrimariesNamed(settings.primariesNamed);
m_resource->sendTfPower(std::round(settings.transferFunctionPower * 10000));
m_resource->sendTfNamed(settings.transferFunction);
m_resource->sendLuminances(std::round(settings.luminances.min * 10000), settings.luminances.max, settings.luminances.reference);
// send expexted display paramateres
m_resource->sendTargetPrimaries(toProto(settings.masteringPrimaries.red.x), toProto(settings.masteringPrimaries.red.y), toProto(settings.masteringPrimaries.green.x),
toProto(settings.masteringPrimaries.green.y), toProto(settings.masteringPrimaries.blue.x), toProto(settings.masteringPrimaries.blue.y),
toProto(settings.masteringPrimaries.white.x), toProto(settings.masteringPrimaries.white.y));
m_resource->sendTargetLuminance(std::round(settings.masteringLuminances.min * 10000), settings.masteringLuminances.max);
m_resource->sendTargetMaxCll(settings.maxCLL);
m_resource->sendTargetMaxFall(settings.maxFALL);
m_resource->sendDone();
}
bool CXXColorManagementImageDescriptionInfo::good() {
return m_resource->resource();
}
wl_client* CXXColorManagementImageDescriptionInfo::client() {
return pClient;
}
CXXColorManagementProtocol::CXXColorManagementProtocol(const wl_interface* iface, const int& ver, const std::string& name) : IWaylandProtocol(iface, ver, name) {
;
}
void CXXColorManagementProtocol::bindManager(wl_client* client, void* data, uint32_t ver, uint32_t id) {
const auto RESOURCE = m_vManagers.emplace_back(makeShared<CXXColorManager>(makeShared<CXxColorManagerV4>(client, ver, id)));
if UNLIKELY (!RESOURCE->good()) {
wl_client_post_no_memory(client);
m_vManagers.pop_back();
return;
}
LOGM(TRACE, "New xx_color_manager at {:x}", (uintptr_t)RESOURCE.get());
}
void CXXColorManagementProtocol::onImagePreferredChanged() {
for (auto const& feedback : m_vFeedbackSurfaces) {
feedback->resource->sendPreferredChanged();
}
}
void CXXColorManagementProtocol::destroyResource(CXXColorManager* resource) {
std::erase_if(m_vManagers, [&](const auto& other) { return other.get() == resource; });
}
void CXXColorManagementProtocol::destroyResource(CXXColorManagementOutput* resource) {
std::erase_if(m_vOutputs, [&](const auto& other) { return other.get() == resource; });
}
void CXXColorManagementProtocol::destroyResource(CXXColorManagementSurface* resource) {
std::erase_if(m_vSurfaces, [&](const auto& other) { return other.get() == resource; });
}
void CXXColorManagementProtocol::destroyResource(CXXColorManagementFeedbackSurface* resource) {
std::erase_if(m_vFeedbackSurfaces, [&](const auto& other) { return other.get() == resource; });
}
void CXXColorManagementProtocol::destroyResource(CXXColorManagementParametricCreator* resource) {
std::erase_if(m_vParametricCreators, [&](const auto& other) { return other.get() == resource; });
}
void CXXColorManagementProtocol::destroyResource(CXXColorManagementImageDescription* resource) {
std::erase_if(m_vImageDescriptions, [&](const auto& other) { return other.get() == resource; });
}