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// Copyright 2016 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "ui/gfx/icc_profile.h"
#include <list>
#include <set>
#include "base/command_line.h"
#include "base/containers/lru_cache.h"
#include "base/lazy_instance.h"
#include "base/logging.h"
#include "base/synchronization/lock.h"
#include "third_party/skia/include/core/SkColorSpace.h"
#include "third_party/skia/include/core/SkData.h"
#include "third_party/skia/include/core/SkRefCnt.h"
#include "third_party/skia/include/encode/SkICC.h"
#include "third_party/skia/modules/skcms/skcms.h"
#include "ui/gfx/skia_color_space_util.h"
namespace gfx {
namespace {
static const size_t kMaxCachedICCProfiles = 16;
// An LRU cache mapping data to ICCProfile objects, to avoid re-parsing
// profiles every time they are read.
using DataToProfileCacheBase = base::LRUCache<std::vector<char>, ICCProfile>;
class DataToProfileCache : public DataToProfileCacheBase {
public:
DataToProfileCache() : DataToProfileCacheBase(kMaxCachedICCProfiles) {}
};
base::LazyInstance<DataToProfileCache>::Leaky g_data_to_profile_cache =
LAZY_INSTANCE_INITIALIZER;
// Lock that must be held to access |g_data_to_profile_cache|.
base::LazyInstance<base::Lock>::Leaky g_icc_profile_lock =
LAZY_INSTANCE_INITIALIZER;
} // namespace
void ICCProfile::Internals::Initialize() {
// Start out with no parametric data.
if (data_.empty())
return;
// Parse the profile.
skcms_ICCProfile profile;
if (!skcms_Parse(data_.data(), data_.size(), &profile)) {
DLOG(ERROR) << "Failed to parse ICC profile.";
return;
}
// We have seen many users with profiles that don't have a D50 white point.
// Windows appears to detect these profiles, and not use them for OS drawing.
// It still returns them when we query the system for the installed profile.
// For consistency (and to match old behavior) we reject these profiles on
// all platforms.
// https://crbug.com/847024
const skcms_Matrix3x3& m(profile.toXYZD50);
float wX = m.vals[0][0] + m.vals[0][1] + m.vals[0][2];
float wY = m.vals[1][0] + m.vals[1][1] + m.vals[1][2];
float wZ = m.vals[2][0] + m.vals[2][1] + m.vals[2][2];
static const float kD50_WhitePoint[3] = { 0.96420f, 1.00000f, 0.82491f };
if (fabsf(wX - kD50_WhitePoint[0]) > 0.04f ||
fabsf(wY - kD50_WhitePoint[1]) > 0.04f ||
fabsf(wZ - kD50_WhitePoint[2]) > 0.04f) {
return;
}
// At this point, the profile is considered valid. We still need to determine
// if it's representable with a parametric transfer function.
is_valid_ = true;
// Extract the primary matrix, and assume that transfer function is sRGB until
// we get something more precise.
to_XYZD50_ = profile.toXYZD50;
transfer_fn_ = SkNamedTransferFn::kSRGB;
// Coerce it into a rasterization destination (if possible). If the profile
// can't be approximated accurately, then use an sRGB transfer function and
// return failure. We will continue to use the gamut from this profile.
if (!skcms_MakeUsableAsDestinationWithSingleCurve(&profile)) {
DLOG(ERROR) << "Parsed ICC profile but can't make usable as destination, "
"using sRGB gamma";
return;
}
// If SkColorSpace will treat the gamma as that of sRGB, then use the named
// constants.
sk_sp<SkColorSpace> sk_color_space = SkColorSpace::Make(profile);
if (!sk_color_space) {
DLOG(ERROR) << "Parsed ICC profile but cannot create SkColorSpace from it, "
"using sRGB gamma.";
return;
}
// We were able to get a parametric representation of the transfer function.
is_parametric_ = true;
if (sk_color_space->gammaCloseToSRGB())
return;
// We assume that if we accurately approximated the profile, then the
// single-curve version (which may have higher error) is also okay. If we
// want to maintain the distinction between accurate and inaccurate profiles,
// we could check to see if the single-curve version is/ approximately equal
// to the original (or to the multi-channel approximation).
transfer_fn_ = profile.trc[0].parametric;
}
ICCProfile::ICCProfile() = default;
ICCProfile::ICCProfile(ICCProfile&& other) = default;
ICCProfile::ICCProfile(const ICCProfile& other) = default;
ICCProfile& ICCProfile::operator=(ICCProfile&& other) = default;
ICCProfile& ICCProfile::operator=(const ICCProfile& other) = default;
ICCProfile::~ICCProfile() = default;
bool ICCProfile::operator==(const ICCProfile& other) const {
if (!internals_ && !other.internals_)
return true;
if (internals_ && other.internals_) {
return internals_->data_ == other.internals_->data_;
}
return false;
}
bool ICCProfile::operator!=(const ICCProfile& other) const {
return !(*this == other);
}
bool ICCProfile::IsValid() const {
return internals_ ? internals_->is_valid_ : false;
}
std::vector<char> ICCProfile::GetData() const {
return internals_ ? internals_->data_ : std::vector<char>();
}
// static
ICCProfile ICCProfile::FromData(const void* data_as_void, size_t size) {
const char* data_as_byte = reinterpret_cast<const char*>(data_as_void);
std::vector<char> data(data_as_byte, data_as_byte + size);
base::AutoLock lock(g_icc_profile_lock.Get());
// See if there is already an entry with the same data. If so, return that
// entry. If not, parse the data.
ICCProfile icc_profile;
auto found_by_data = g_data_to_profile_cache.Get().Get(data);
if (found_by_data != g_data_to_profile_cache.Get().end()) {
icc_profile = found_by_data->second;
} else {
icc_profile.internals_ = base::MakeRefCounted<Internals>(std::move(data));
}
// Insert the profile into all caches.
g_data_to_profile_cache.Get().Put(icc_profile.internals_->data_, icc_profile);
return icc_profile;
}
ColorSpace ICCProfile::GetColorSpace() const {
if (!internals_ || !internals_->is_valid_)
return ColorSpace();
return ColorSpace(ColorSpace::PrimaryID::CUSTOM,
ColorSpace::TransferID::CUSTOM, ColorSpace::MatrixID::RGB,
ColorSpace::RangeID::FULL, &internals_->to_XYZD50_,
&internals_->transfer_fn_);
}
ColorSpace ICCProfile::GetPrimariesOnlyColorSpace() const {
if (!internals_ || !internals_->is_valid_)
return ColorSpace();
return ColorSpace(ColorSpace::PrimaryID::CUSTOM, ColorSpace::TransferID::SRGB,
ColorSpace::MatrixID::RGB, ColorSpace::RangeID::FULL,
&internals_->to_XYZD50_, nullptr);
}
bool ICCProfile::IsColorSpaceAccurate() const {
if (!internals_)
return false;
if (!internals_->is_valid_)
return false;
return internals_->is_parametric_;
}
// static
ICCProfile ICCProfile::FromColorSpace(const ColorSpace& color_space) {
if (!color_space.IsValid()) {
return ICCProfile();
}
if (color_space.GetMatrixID() != ColorSpace::MatrixID::RGB) {
DLOG(ERROR) << "Not creating non-RGB ICCProfile";
return ICCProfile();
}
if (color_space.GetRangeID() != ColorSpace::RangeID::FULL) {
DLOG(ERROR) << "Not creating non-full-range ICCProfile";
return ICCProfile();
}
skcms_Matrix3x3 to_XYZD50_matrix;
color_space.GetPrimaryMatrix(&to_XYZD50_matrix);
skcms_TransferFunction fn;
if (!color_space.GetTransferFunction(&fn)) {
DLOG(ERROR) << "Failed to get ColorSpace transfer function for ICCProfile.";
return ICCProfile();
}
sk_sp<SkData> data = SkWriteICCProfile(fn, to_XYZD50_matrix);
if (!data) {
DLOG(ERROR) << "Failed to create SkICC.";
return ICCProfile();
}
return FromData(data->data(), data->size());
}
ICCProfile::Internals::Internals(std::vector<char> data)
: data_(std::move(data)) {
// Parse the ICC profile
Initialize();
}
ICCProfile::Internals::~Internals() {}
} // namespace gfx