cursormgr: implement inheriting themes for xcursor (#7197)

* cursormgr: reduce duplicated code

add a few functions such as setCursorBuffer and setAnimationTimer to
reduce duplicated code and also avoid future mishaps of forgetting to
clear buffer or disarm timer. and generally reduce spaghetti even tho
pasta can be delicious.

* xcursormgr: implent inherited themes

implent index.theme parsing and inherited themes.

* cursormgr: ensure a fallback xcursor exist

ensure a xcursor fallback exist otherwise it wont load the proper theme
if we at launch have hyprcursor enabled and then set it to false in
config and reload. also use the env var when using hyprctl setcursor
incase its empty.
This commit is contained in:
Tom Englund 2024-08-07 13:23:00 +02:00 committed by GitHub
parent a05da63d85
commit 3d82d199f0
No known key found for this signature in database
GPG key ID: B5690EEEBB952194
4 changed files with 285 additions and 223 deletions

View file

@ -17,11 +17,61 @@ static void hcLogger(enum eHyprcursorLogLevel level, char* message) {
Debug::log(NONE, "[hc] {}", message);
}
CCursorBuffer::CCursorBuffer(cairo_surface_t* surf, const Vector2D& size_, const Vector2D& hot_) : hotspot(hot_) {
surface = surf;
size = size_;
stride = cairo_image_surface_get_stride(surf);
}
CCursorBuffer::CCursorBuffer(uint8_t* pixelData_, const Vector2D& size_, const Vector2D& hot_) : hotspot(hot_) {
pixelData = pixelData_;
size = size_;
stride = 4 * size_.x;
}
Aquamarine::eBufferCapability CCursorBuffer::caps() {
return Aquamarine::eBufferCapability::BUFFER_CAPABILITY_DATAPTR;
}
Aquamarine::eBufferType CCursorBuffer::type() {
return Aquamarine::eBufferType::BUFFER_TYPE_SHM;
}
void CCursorBuffer::update(const Hyprutils::Math::CRegion& damage) {
;
}
bool CCursorBuffer::isSynchronous() {
return true;
}
bool CCursorBuffer::good() {
return true;
}
Aquamarine::SSHMAttrs CCursorBuffer::shm() {
Aquamarine::SSHMAttrs attrs;
attrs.success = true;
attrs.format = DRM_FORMAT_ARGB8888;
attrs.size = size;
attrs.stride = stride;
return attrs;
}
std::tuple<uint8_t*, uint32_t, size_t> CCursorBuffer::beginDataPtr(uint32_t flags) {
return {pixelData ? pixelData : cairo_image_surface_get_data(surface), DRM_FORMAT_ARGB8888, stride};
}
void CCursorBuffer::endDataPtr() {
;
}
CCursorManager::CCursorManager() {
m_pHyprcursor = std::make_unique<Hyprcursor::CHyprcursorManager>(m_szTheme.empty() ? nullptr : m_szTheme.c_str(), hcLogger);
m_pXcursor = std::make_unique<CXCursorManager>();
static auto PUSEHYPRCURSOR = CConfigValue<Hyprlang::INT>("cursor:enable_hyprcursor");
if (m_pHyprcursor->valid()) {
if (m_pHyprcursor->valid() && *PUSEHYPRCURSOR) {
// find default size. First, HYPRCURSOR_SIZE then default to 24
auto const* SIZE = getenv("HYPRCURSOR_SIZE");
if (SIZE) {
@ -48,10 +98,12 @@ CCursorManager::CCursorManager() {
Debug::log(WARN, "XCURSOR_SIZE size not set, defaulting to size 24");
m_iSize = 24;
}
m_pXcursor->loadTheme(getenv("XCURSOR_THEME") ? getenv("XCURSOR_THEME") : "default", m_iSize * std::ceil(m_fCursorScale));
}
// since we fallback to xcursor always load it on startup. otherwise we end up with a empty theme if hyprcursor is enabled in the config
// and then later is disabled.
m_pXcursor->loadTheme(getenv("XCURSOR_THEME") ? getenv("XCURSOR_THEME") : "default", m_iSize * std::ceil(m_fCursorScale));
m_pAnimationTimer = makeShared<CEventLoopTimer>(std::nullopt, cursorAnimTimer, this);
g_pEventLoopManager->addTimer(m_pAnimationTimer);
@ -65,63 +117,9 @@ CCursorManager::~CCursorManager() {
g_pEventLoopManager->removeTimer(m_pAnimationTimer);
m_pAnimationTimer.reset();
}
}
void CCursorManager::dropBufferRef(CCursorManager::CCursorBuffer* ref) {
std::erase_if(m_vCursorBuffers, [ref](const auto& buf) { return buf.get() == ref; });
}
CCursorManager::CCursorBuffer::CCursorBuffer(cairo_surface_t* surf, const Vector2D& size_, const Vector2D& hot_) : hotspot(hot_) {
surface = surf;
size = size_;
stride = cairo_image_surface_get_stride(surf);
}
CCursorManager::CCursorBuffer::CCursorBuffer(uint8_t* pixelData_, const Vector2D& size_, const Vector2D& hot_) : hotspot(hot_) {
pixelData = pixelData_;
size = size_;
stride = 4 * size_.x;
}
CCursorManager::CCursorBuffer::~CCursorBuffer() {
;
}
Aquamarine::eBufferCapability CCursorManager::CCursorBuffer::caps() {
return Aquamarine::eBufferCapability::BUFFER_CAPABILITY_DATAPTR;
}
Aquamarine::eBufferType CCursorManager::CCursorBuffer::type() {
return Aquamarine::eBufferType::BUFFER_TYPE_SHM;
}
void CCursorManager::CCursorBuffer::update(const Hyprutils::Math::CRegion& damage) {
;
}
bool CCursorManager::CCursorBuffer::isSynchronous() {
return true;
}
bool CCursorManager::CCursorBuffer::good() {
return true;
}
Aquamarine::SSHMAttrs CCursorManager::CCursorBuffer::shm() {
Aquamarine::SSHMAttrs attrs;
attrs.success = true;
attrs.format = DRM_FORMAT_ARGB8888;
attrs.size = size;
attrs.stride = stride;
return attrs;
}
std::tuple<uint8_t*, uint32_t, size_t> CCursorManager::CCursorBuffer::beginDataPtr(uint32_t flags) {
return {pixelData ? pixelData : cairo_image_surface_get_data(surface), DRM_FORMAT_ARGB8888, stride};
}
void CCursorManager::CCursorBuffer::endDataPtr() {
;
if (m_pHyprcursor->valid() && m_sCurrentStyleInfo.size > 0)
m_pHyprcursor->cursorSurfaceStyleDone(m_sCurrentStyleInfo);
}
SP<Aquamarine::IBuffer> CCursorManager::getCursorBuffer() {
@ -137,40 +135,50 @@ void CCursorManager::setCursorSurface(SP<CWLSurface> surf, const Vector2D& hotsp
m_bOurBufferConnected = false;
}
void CCursorManager::setXCursor(const std::string& name) {
float scale = std::ceil(m_fCursorScale);
auto xcursor = m_pXcursor->getShape(name, m_iSize * scale);
auto& icon = xcursor->images.front();
m_vCursorBuffers.emplace_back(makeShared<CCursorBuffer>((uint8_t*)icon.pixels.data(), icon.size, icon.hotspot));
g_pPointerManager->setCursorBuffer(getCursorBuffer(), icon.hotspot / scale, scale);
void CCursorManager::setCursorBuffer(SP<CCursorBuffer> buf, const Vector2D& hotspot, const float& scale) {
m_vCursorBuffers.emplace_back(buf);
g_pPointerManager->setCursorBuffer(getCursorBuffer(), hotspot, scale);
if (m_vCursorBuffers.size() > 1)
dropBufferRef(m_vCursorBuffers.at(0).get());
std::erase_if(m_vCursorBuffers, [this](const auto& buf) { return buf.get() == m_vCursorBuffers.front().get(); });
m_currentXcursor = xcursor;
m_bOurBufferConnected = true;
}
if (m_currentXcursor->images.size() > 1) {
// animated
m_pAnimationTimer->updateTimeout(std::chrono::milliseconds(m_currentXcursor->images[0].delay));
m_iCurrentAnimationFrame = 0;
void CCursorManager::setAnimationTimer(const int& frame, const int& delay) {
if (delay > 0) {
// arm
m_pAnimationTimer->updateTimeout(std::chrono::milliseconds(delay));
} else {
// disarm
m_pAnimationTimer->updateTimeout(std::nullopt);
}
m_iCurrentAnimationFrame = frame;
}
void CCursorManager::setCursorFromName(const std::string& name) {
static auto PUSEHYPRCURSOR = CConfigValue<Hyprlang::INT>("cursor:enable_hyprcursor");
if (!m_pHyprcursor->valid() || !*PUSEHYPRCURSOR) {
setXCursor(name);
return;
}
auto setXCursor = [this](auto const& name) {
float scale = std::ceil(m_fCursorScale);
auto xcursor = m_pXcursor->getShape(name, m_iSize * scale);
auto& icon = xcursor->images.front();
auto buf = makeShared<CCursorBuffer>((uint8_t*)icon.pixels.data(), icon.size, icon.hotspot);
setCursorBuffer(buf, icon.hotspot / scale, scale);
m_currentXcursor = xcursor;
int delay = 0;
int frame = 0;
if (m_currentXcursor->images.size() > 1)
delay = m_currentXcursor->images[frame].delay;
setAnimationTimer(frame, delay);
};
auto setHyprCursor = [this](auto const& name) {
m_sCurrentCursorShapeData = m_pHyprcursor->getShape(name.c_str(), m_sCurrentStyleInfo);
if (m_sCurrentCursorShapeData.images.size() < 1) {
@ -194,34 +202,34 @@ void CCursorManager::setCursorFromName(const std::string& name) {
if (m_sCurrentCursorShapeData.images.size() < 1) {
Debug::log(ERR, "BUG THIS: No fallback found for a cursor in setCursorFromName");
return false;
}
}
auto buf =
makeShared<CCursorBuffer>(m_sCurrentCursorShapeData.images[0].surface, Vector2D{m_sCurrentCursorShapeData.images[0].size, m_sCurrentCursorShapeData.images[0].size},
Vector2D{m_sCurrentCursorShapeData.images[0].hotspotX, m_sCurrentCursorShapeData.images[0].hotspotY});
auto hotspot = Vector2D{m_sCurrentCursorShapeData.images[0].hotspotX, m_sCurrentCursorShapeData.images[0].hotspotY} / m_fCursorScale;
setCursorBuffer(buf, hotspot, m_fCursorScale);
int delay = 0;
int frame = 0;
if (m_sCurrentCursorShapeData.images.size() > 1)
delay = m_sCurrentCursorShapeData.images[frame].delay;
setAnimationTimer(frame, delay);
return true;
};
if (!m_pHyprcursor->valid() || !*PUSEHYPRCURSOR || !setHyprCursor(name))
setXCursor(name);
return;
}
}
m_vCursorBuffers.emplace_back(makeShared<CCursorBuffer>(m_sCurrentCursorShapeData.images[0].surface,
Vector2D{m_sCurrentCursorShapeData.images[0].size, m_sCurrentCursorShapeData.images[0].size},
Vector2D{m_sCurrentCursorShapeData.images[0].hotspotX, m_sCurrentCursorShapeData.images[0].hotspotY}));
g_pPointerManager->setCursorBuffer(getCursorBuffer(), Vector2D{m_sCurrentCursorShapeData.images[0].hotspotX, m_sCurrentCursorShapeData.images[0].hotspotY} / m_fCursorScale,
m_fCursorScale);
if (m_vCursorBuffers.size() > 1)
dropBufferRef(m_vCursorBuffers.at(0).get());
m_bOurBufferConnected = true;
if (m_sCurrentCursorShapeData.images.size() > 1) {
// animated
m_pAnimationTimer->updateTimeout(std::chrono::milliseconds(m_sCurrentCursorShapeData.images[0].delay));
m_iCurrentAnimationFrame = 0;
} else {
// disarm
m_pAnimationTimer->updateTimeout(std::nullopt);
}
}
void CCursorManager::tickAnimatedCursor() {
if (!m_pHyprcursor->valid() && m_currentXcursor->images.size() > 1 && m_bOurBufferConnected) {
if (!m_bOurBufferConnected)
return;
if (!m_pHyprcursor->valid() && m_currentXcursor->images.size() > 1) {
m_iCurrentAnimationFrame++;
if ((size_t)m_iCurrentAnimationFrame >= m_currentXcursor->images.size())
@ -229,39 +237,24 @@ void CCursorManager::tickAnimatedCursor() {
float scale = std::ceil(m_fCursorScale);
auto& icon = m_currentXcursor->images.at(m_iCurrentAnimationFrame);
m_vCursorBuffers.emplace_back(makeShared<CCursorBuffer>((uint8_t*)icon.pixels.data(), icon.size, icon.hotspot));
g_pPointerManager->setCursorBuffer(getCursorBuffer(), icon.hotspot / scale, scale);
if (m_vCursorBuffers.size() > 1)
dropBufferRef(m_vCursorBuffers.at(0).get());
m_pAnimationTimer->updateTimeout(std::chrono::milliseconds(m_currentXcursor->images[m_iCurrentAnimationFrame].delay));
return;
}
if (m_sCurrentCursorShapeData.images.size() < 2 || !m_bOurBufferConnected)
return;
auto buf = makeShared<CCursorBuffer>((uint8_t*)icon.pixels.data(), icon.size, icon.hotspot);
setCursorBuffer(buf, icon.hotspot / scale, scale);
setAnimationTimer(m_iCurrentAnimationFrame, m_currentXcursor->images[m_iCurrentAnimationFrame].delay);
} else if (m_sCurrentCursorShapeData.images.size() > 1) {
m_iCurrentAnimationFrame++;
if ((size_t)m_iCurrentAnimationFrame >= m_sCurrentCursorShapeData.images.size())
m_iCurrentAnimationFrame = 0;
m_vCursorBuffers.emplace_back(makeShared<CCursorBuffer>(
auto hotspot =
Vector2D{m_sCurrentCursorShapeData.images[m_iCurrentAnimationFrame].hotspotX, m_sCurrentCursorShapeData.images[m_iCurrentAnimationFrame].hotspotY} / m_fCursorScale;
auto buf = makeShared<CCursorBuffer>(
m_sCurrentCursorShapeData.images[m_iCurrentAnimationFrame].surface,
Vector2D{m_sCurrentCursorShapeData.images[m_iCurrentAnimationFrame].size, m_sCurrentCursorShapeData.images[m_iCurrentAnimationFrame].size},
Vector2D{m_sCurrentCursorShapeData.images[m_iCurrentAnimationFrame].hotspotX, m_sCurrentCursorShapeData.images[m_iCurrentAnimationFrame].hotspotY}));
g_pPointerManager->setCursorBuffer(
getCursorBuffer(),
Vector2D{m_sCurrentCursorShapeData.images[m_iCurrentAnimationFrame].hotspotX, m_sCurrentCursorShapeData.images[m_iCurrentAnimationFrame].hotspotY} / m_fCursorScale,
m_fCursorScale);
if (m_vCursorBuffers.size() > 1)
dropBufferRef(m_vCursorBuffers.at(0).get());
m_pAnimationTimer->updateTimeout(std::chrono::milliseconds(m_sCurrentCursorShapeData.images[m_iCurrentAnimationFrame].delay));
Vector2D{m_sCurrentCursorShapeData.images[m_iCurrentAnimationFrame].hotspotX, m_sCurrentCursorShapeData.images[m_iCurrentAnimationFrame].hotspotY});
setCursorBuffer(buf, hotspot, m_fCursorScale);
setAnimationTimer(m_iCurrentAnimationFrame, m_sCurrentCursorShapeData.images[m_iCurrentAnimationFrame].delay);
}
}
SCursorImageData CCursorManager::dataFor(const std::string& name) {
@ -278,11 +271,12 @@ SCursorImageData CCursorManager::dataFor(const std::string& name) {
}
void CCursorManager::setXWaylandCursor() {
static auto PUSEHYPRCURSOR = CConfigValue<Hyprlang::INT>("cursor:enable_hyprcursor");
const auto CURSOR = dataFor("left_ptr");
if (CURSOR.surface) {
if (CURSOR.surface && *PUSEHYPRCURSOR)
g_pXWayland->setCursor(cairo_image_surface_get_data(CURSOR.surface), cairo_image_surface_get_stride(CURSOR.surface), {CURSOR.size, CURSOR.size},
{CURSOR.hotspotX, CURSOR.hotspotY});
} else {
else {
auto xcursor = m_pXcursor->getShape("left_ptr", m_iSize * std::ceil(m_fCursorScale));
auto& icon = xcursor->images.front();
@ -291,6 +285,7 @@ void CCursorManager::setXWaylandCursor() {
}
void CCursorManager::updateTheme() {
static auto PUSEHYPRCURSOR = CConfigValue<Hyprlang::INT>("cursor:enable_hyprcursor");
float highestScale = 1.0;
for (auto& m : g_pCompositor->m_vMonitors) {
@ -298,14 +293,17 @@ void CCursorManager::updateTheme() {
highestScale = m->scale;
}
if (m_sCurrentStyleInfo.size && m_pHyprcursor->valid())
m_fCursorScale = highestScale;
if (*PUSEHYPRCURSOR) {
if (m_sCurrentStyleInfo.size > 0 && m_pHyprcursor->valid())
m_pHyprcursor->cursorSurfaceStyleDone(m_sCurrentStyleInfo);
m_sCurrentStyleInfo.size = std::round(m_iSize * highestScale);
m_fCursorScale = highestScale;
if (m_pHyprcursor->valid())
m_pHyprcursor->loadThemeStyle(m_sCurrentStyleInfo);
}
setCursorFromName("left_ptr");
@ -316,24 +314,27 @@ void CCursorManager::updateTheme() {
}
bool CCursorManager::changeTheme(const std::string& name, const int size) {
static auto PUSEHYPRCURSOR = CConfigValue<Hyprlang::INT>("cursor:enable_hyprcursor");
m_szTheme = name.empty() ? "" : name;
m_iSize = size <= 0 ? 24 : size;
auto xcursor_theme = getenv("XCURSOR_THEME") ? getenv("XCURSOR_THEME") : "default";
if (*PUSEHYPRCURSOR) {
auto options = Hyprcursor::SManagerOptions();
options.logFn = hcLogger;
options.allowDefaultFallback = false;
m_pHyprcursor = std::make_unique<Hyprcursor::CHyprcursorManager>(name.empty() ? "" : name.c_str(), options);
if (m_pHyprcursor->valid()) {
m_szTheme = name;
m_iSize = size;
updateTheme();
return true;
}
Debug::log(ERR, "Hyprcursor failed loading theme \"{}\", falling back to XCursor.", name);
m_pXcursor->loadTheme(name, size);
m_szTheme = name;
m_szTheme = name.empty() ? "" : name;
m_iSize = size;
m_pHyprcursor = std::make_unique<Hyprcursor::CHyprcursorManager>(m_szTheme.empty() ? nullptr : m_szTheme.c_str(), options);
if (!m_pHyprcursor->valid()) {
Debug::log(ERR, "Hyprcursor failed loading theme \"{}\", falling back to XCursor.", m_szTheme);
m_pXcursor->loadTheme(m_szTheme.empty() ? xcursor_theme : m_szTheme, m_iSize);
}
} else
m_pXcursor->loadTheme(m_szTheme.empty() ? xcursor_theme : m_szTheme, m_iSize);
updateTheme();
return true;
}

View file

@ -15,29 +15,11 @@ class CWLSurface;
AQUAMARINE_FORWARD(IBuffer);
class CCursorManager {
public:
CCursorManager();
~CCursorManager();
SP<Aquamarine::IBuffer> getCursorBuffer();
void setCursorFromName(const std::string& name);
void setCursorSurface(SP<CWLSurface> surf, const Vector2D& hotspot);
void setXCursor(const std::string& name);
bool changeTheme(const std::string& name, const int size);
void updateTheme();
SCursorImageData dataFor(const std::string& name); // for xwayland
void setXWaylandCursor();
void tickAnimatedCursor();
class CCursorBuffer : public Aquamarine::IBuffer {
public:
CCursorBuffer(cairo_surface_t* surf, const Vector2D& size, const Vector2D& hotspot);
CCursorBuffer(uint8_t* pixelData, const Vector2D& size, const Vector2D& hotspot);
~CCursorBuffer();
~CCursorBuffer() = default;
virtual Aquamarine::eBufferCapability caps();
virtual Aquamarine::eBufferType type();
@ -53,15 +35,29 @@ class CCursorManager {
cairo_surface_t* surface = nullptr;
uint8_t* pixelData = nullptr;
size_t stride = 0;
friend class CCursorManager;
};
void dropBufferRef(CCursorBuffer* ref);
class CCursorManager {
public:
CCursorManager();
~CCursorManager();
bool m_bOurBufferConnected = false;
SP<Aquamarine::IBuffer> getCursorBuffer();
void setCursorFromName(const std::string& name);
void setCursorSurface(SP<CWLSurface> surf, const Vector2D& hotspot);
void setCursorBuffer(SP<CCursorBuffer> buf, const Vector2D& hotspot, const float& scale);
void setAnimationTimer(const int& frame, const int& delay);
bool changeTheme(const std::string& name, const int size);
void updateTheme();
SCursorImageData dataFor(const std::string& name); // for xwayland
void setXWaylandCursor();
void tickAnimatedCursor();
private:
bool m_bOurBufferConnected = false;
std::vector<SP<CCursorBuffer>> m_vCursorBuffers;
std::unique_ptr<Hyprcursor::CHyprcursorManager> m_pHyprcursor;

View file

@ -135,6 +135,11 @@ void CXCursorManager::loadTheme(std::string const& name, int size) {
continue;
}
if (std::any_of(cursors.begin(), cursors.end(), [&shape](auto const& dp) { return dp->shape == shape; })) {
Debug::log(LOG, "XCursor already has a shape {} loaded, skipping", shape);
continue;
}
auto cursor = makeShared<SXCursors>();
cursor->images = it->get()->images;
cursor->shape = shape;
@ -180,9 +185,8 @@ SP<SXCursors> CXCursorManager::createCursor(std::string const& shape, XcursorIma
return xcursor;
}
std::vector<std::string> CXCursorManager::themePaths(std::string const& theme) {
std::unordered_set<std::string> CXCursorManager::themePaths(std::string const& theme) {
auto const* path = XcursorLibraryPath();
std::vector<std::string> paths;
auto expandTilde = [](std::string const& path) {
if (!path.empty() && path[0] == '~') {
@ -193,15 +197,76 @@ std::vector<std::string> CXCursorManager::themePaths(std::string const& theme) {
return path;
};
if (path) {
auto getInheritThemes = [](std::string const& indexTheme) {
std::ifstream infile(indexTheme);
std::string line;
std::vector<std::string> themes;
Debug::log(LOG, "XCursor parsing index.theme {}", indexTheme);
while (std::getline(infile, line)) {
// Trim leading and trailing whitespace
line.erase(0, line.find_first_not_of(" \t\n\r"));
line.erase(line.find_last_not_of(" \t\n\r") + 1);
if (line.rfind("Inherits", 0) == 0) { // Check if line starts with "Inherits"
std::string inheritThemes = line.substr(8); // Extract the part after "Inherits"
// Remove leading whitespace from inheritThemes and =
inheritThemes.erase(0, inheritThemes.find_first_not_of(" \t\n\r"));
inheritThemes.erase(0, 1);
inheritThemes.erase(0, inheritThemes.find_first_not_of(" \t\n\r"));
std::stringstream inheritStream(inheritThemes);
std::string inheritTheme;
while (std::getline(inheritStream, inheritTheme, ',')) {
// Trim leading and trailing whitespace from each theme
inheritTheme.erase(0, inheritTheme.find_first_not_of(" \t\n\r"));
inheritTheme.erase(inheritTheme.find_last_not_of(" \t\n\r") + 1);
themes.push_back(inheritTheme);
}
}
}
infile.close();
return themes;
};
std::unordered_set<std::string> paths;
std::unordered_set<std::string> inherits;
auto scanTheme = [&path, &paths, &expandTilde, &inherits, &getInheritThemes](auto const& t) {
std::stringstream ss(path);
std::string item;
std::string line;
while (std::getline(ss, item, ':')) {
auto p = expandTilde(item + "/" + theme + "/cursors");
Debug::log(LOG, "XCursor scanning theme {}", t);
if (std::filesystem::exists(p) && std::filesystem::is_directory(p))
paths.push_back(p);
while (std::getline(ss, line, ':')) {
auto p = expandTilde(line + "/" + t + "/cursors");
if (std::filesystem::exists(p) && std::filesystem::is_directory(p)) {
Debug::log(LOG, "XCursor using theme path {}", p);
paths.insert(p);
}
auto inherit = expandTilde(line + "/" + t + "/index.theme");
if (std::filesystem::exists(inherit) && std::filesystem::is_regular_file(inherit)) {
auto inheritThemes = getInheritThemes(inherit);
for (auto const& i : inheritThemes) {
Debug::log(LOG, "XCursor theme {} inherits {}", t, i);
inherits.insert(i);
}
}
}
};
if (path) {
scanTheme(theme);
while (!inherits.empty()) {
auto oldInherits = inherits;
for (auto& i : oldInherits)
scanTheme(i);
if (oldInherits.size() == inherits.size())
break;
}
}
@ -402,14 +467,13 @@ std::vector<SP<SXCursors>> CXCursorManager::loadStandardCursors(std::string cons
std::vector<SP<SXCursors>> CXCursorManager::loadAllFromDir(std::string const& path, int size) {
std::vector<SP<SXCursors>> newCursors;
std::string full;
if (std::filesystem::exists(path) && std::filesystem::is_directory(path)) {
for (const auto& entry : std::filesystem::directory_iterator(path)) {
if (!entry.is_regular_file() && !entry.is_symlink())
continue;
std::string full = entry.path().string();
auto const& full = entry.path().string();
using PcloseType = int (*)(FILE*);
const std::unique_ptr<FILE, PcloseType> f(fopen(full.c_str(), "r"), static_cast<PcloseType>(fclose));
@ -428,7 +492,7 @@ std::vector<SP<SXCursors>> CXCursorManager::loadAllFromDir(std::string const& pa
}
}
std::string shape = entry.path().filename().string();
auto const& shape = entry.path().filename().string();
auto cursor = createCursor(shape, xImages);
newCursors.emplace_back(cursor);

View file

@ -1,6 +1,7 @@
#pragma once
#include <string>
#include <vector>
#include <unordered_set>
#include <array>
#include <cstdint>
#include <hyprutils/math/Vector2D.hpp>
@ -33,7 +34,7 @@ class CXCursorManager {
private:
SP<SXCursors> createCursor(std::string const& shape, XcursorImages* xImages);
std::vector<std::string> themePaths(std::string const& theme);
std::unordered_set<std::string> themePaths(std::string const& theme);
std::string getLegacyShapeName(std::string const& shape);
std::vector<SP<SXCursors>> loadStandardCursors(std::string const& name, int size);
std::vector<SP<SXCursors>> loadAllFromDir(std::string const& path, int size);