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Hyprland/src/helpers/WLClasses.cpp

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#include "WLClasses.hpp"
#include "../config/ConfigManager.hpp"
#include "../Compositor.hpp"
SLayerSurface::SLayerSurface() {
alpha.create(g_pConfigManager->getAnimationPropertyConfig("fadeLayers"), nullptr, AVARDAMAGE_ENTIRE);
realPosition.create(g_pConfigManager->getAnimationPropertyConfig("layers"), nullptr, AVARDAMAGE_ENTIRE);
realSize.create(g_pConfigManager->getAnimationPropertyConfig("layers"), nullptr, AVARDAMAGE_ENTIRE);
alpha.m_pLayer = this;
realPosition.m_pLayer = this;
realSize.m_pLayer = this;
alpha.registerVar();
realPosition.registerVar();
realSize.registerVar();
alpha.setValueAndWarp(0.f);
}
SLayerSurface::~SLayerSurface() {
if (!g_pHyprOpenGL)
return;
g_pHyprRenderer->makeEGLCurrent();
std::erase_if(g_pHyprOpenGL->m_mLayerFramebuffers, [&](const auto& other) { return other.first == this; });
}
void SLayerSurface::applyRules() {
noAnimations = false;
forceBlur = false;
ignoreAlpha = false;
ignoreAlphaValue = 0.f;
xray = -1;
animationStyle.reset();
for (auto& rule : g_pConfigManager->getMatchingRules(this)) {
if (rule.rule == "noanim")
noAnimations = true;
else if (rule.rule == "blur")
forceBlur = true;
else if (rule.rule == "blurpopups")
forceBlurPopups = true;
else if (rule.rule.starts_with("ignorealpha") || rule.rule.starts_with("ignorezero")) {
const auto FIRST_SPACE_POS = rule.rule.find_first_of(' ');
std::string alphaValue = "";
if (FIRST_SPACE_POS != std::string::npos)
alphaValue = rule.rule.substr(FIRST_SPACE_POS + 1);
try {
ignoreAlpha = true;
if (!alphaValue.empty())
ignoreAlphaValue = std::stof(alphaValue);
} catch (...) { Debug::log(ERR, "Invalid value passed to ignoreAlpha"); }
} else if (rule.rule.starts_with("xray")) {
CVarList vars{rule.rule, 0, ' '};
try {
xray = configStringToInt(vars[1]);
} catch (...) {}
} else if (rule.rule.starts_with("animation")) {
CVarList vars{rule.rule, 2, 's'};
animationStyle = vars[1];
}
}
}
void SLayerSurface::startAnimation(bool in, bool instant) {
const auto ANIMSTYLE = animationStyle.value_or(realPosition.m_pConfig->pValues->internalStyle);
if (ANIMSTYLE == "slide") {
// get closest edge
const auto MIDDLE = geometry.middle();
const auto PMONITOR = g_pCompositor->getMonitorFromVector(MIDDLE);
const std::array<Vector2D, 4> edgePoints = {
PMONITOR->vecPosition + Vector2D{PMONITOR->vecSize.x / 2, 0},
PMONITOR->vecPosition + Vector2D{PMONITOR->vecSize.x / 2, PMONITOR->vecSize.y},
PMONITOR->vecPosition + Vector2D{0, PMONITOR->vecSize.y},
PMONITOR->vecPosition + Vector2D{PMONITOR->vecSize.x, PMONITOR->vecSize.y / 2},
};
float closest = std::numeric_limits<float>::max();
size_t leader = 0;
for (size_t i = 0; i < 4; ++i) {
float dist = MIDDLE.distance(edgePoints[i]);
if (dist < closest) {
leader = i;
closest = dist;
}
}
realSize.setValueAndWarp(geometry.size());
alpha.setValueAndWarp(in ? 0.f : 1.f);
alpha = in ? 1.f : 0.f;
Vector2D prePos;
switch (leader) {
case 0:
// TOP
prePos = {geometry.x, PMONITOR->vecPosition.y - geometry.h};
break;
case 1:
// BOTTOM
prePos = {geometry.x, PMONITOR->vecPosition.y + PMONITOR->vecPosition.y};
break;
case 2:
// LEFT
prePos = {PMONITOR->vecPosition.x - geometry.w, geometry.y};
break;
case 3:
// RIGHT
prePos = {PMONITOR->vecPosition.x + PMONITOR->vecSize.x, geometry.y};
break;
default: UNREACHABLE();
}
if (in) {
realPosition.setValueAndWarp(prePos);
realPosition = geometry.pos();
} else {
realPosition.setValueAndWarp(geometry.pos());
realPosition = prePos;
}
} else if (ANIMSTYLE.starts_with("popin")) {
float minPerc = 0.f;
if (ANIMSTYLE.find("%") != std::string::npos) {
try {
auto percstr = ANIMSTYLE.substr(ANIMSTYLE.find_last_of(' '));
minPerc = std::stoi(percstr.substr(0, percstr.length() - 1));
} catch (std::exception& e) {
; // oops
}
}
minPerc *= 0.01;
const auto GOALSIZE = (geometry.size() * minPerc).clamp({5, 5});
const auto GOALPOS = geometry.pos() + (geometry.size() - GOALSIZE) / 2.f;
alpha.setValueAndWarp(in ? 0.f : 1.f);
alpha = in ? 1.f : 0.f;
if (in) {
realSize.setValueAndWarp(GOALSIZE);
realPosition.setValueAndWarp(GOALPOS);
realSize = geometry.size();
realPosition = geometry.pos();
} else {
realSize.setValueAndWarp(geometry.size());
realPosition.setValueAndWarp(geometry.pos());
realSize = GOALSIZE;
realPosition = GOALPOS;
}
} else {
// fade
realPosition.setValueAndWarp(geometry.pos());
realSize.setValueAndWarp(geometry.size());
alpha = in ? 1.f : 0.f;
}
if (!in)
fadingOut = true;
}
bool SLayerSurface::isFadedOut() {
if (!fadingOut)
return false;
return !realPosition.isBeingAnimated() && !realSize.isBeingAnimated() && !alpha.isBeingAnimated();
}
int SLayerSurface::popupsCount() {
if (!layerSurface || !mapped || fadingOut)
return 0;
int no = 0;
wlr_layer_surface_v1_for_each_popup_surface(
layerSurface, [](wlr_surface* s, int x, int y, void* data) { *(int*)data += 1; }, &no);
return no;
}
void SKeyboard::updateXKBTranslationState(xkb_keymap* const keymap) {
xkb_state_unref(xkbTranslationState);
if (keymap) {
Debug::log(LOG, "Updating keyboard {:x}'s translation state from a provided keymap", (uintptr_t)this);
xkbTranslationState = xkb_state_new(keymap);
return;
}
const auto WLRKB = wlr_keyboard_from_input_device(keyboard);
const auto KEYMAP = WLRKB->keymap;
const auto STATE = WLRKB->xkb_state;
const auto LAYOUTSNUM = xkb_keymap_num_layouts(KEYMAP);
const auto PCONTEXT = xkb_context_new(XKB_CONTEXT_NO_FLAGS);
for (uint32_t i = 0; i < LAYOUTSNUM; ++i) {
if (xkb_state_layout_index_is_active(STATE, i, XKB_STATE_LAYOUT_EFFECTIVE)) {
Debug::log(LOG, "Updating keyboard {:x}'s translation state from an active index {}", (uintptr_t)this, i);
CVarList keyboardLayouts(currentRules.layout, 0, ',');
CVarList keyboardModels(currentRules.model, 0, ',');
CVarList keyboardVariants(currentRules.variant, 0, ',');
xkb_rule_names rules = {.rules = "", .model = "", .layout = "", .variant = "", .options = ""};
std::string layout, model, variant;
layout = keyboardLayouts[i % keyboardLayouts.size()];
model = keyboardModels[i % keyboardModels.size()];
variant = keyboardVariants[i % keyboardVariants.size()];
rules.layout = layout.c_str();
rules.model = model.c_str();
rules.variant = variant.c_str();
auto KEYMAP = xkb_keymap_new_from_names(PCONTEXT, &rules, XKB_KEYMAP_COMPILE_NO_FLAGS);
if (!KEYMAP) {
Debug::log(ERR, "updateXKBTranslationState: keymap failed 1, fallback without model/variant");
rules.model = "";
rules.variant = "";
KEYMAP = xkb_keymap_new_from_names(PCONTEXT, &rules, XKB_KEYMAP_COMPILE_NO_FLAGS);
}
if (!KEYMAP) {
Debug::log(ERR, "updateXKBTranslationState: keymap failed 2, fallback to us");
rules.layout = "us";
KEYMAP = xkb_keymap_new_from_names(PCONTEXT, &rules, XKB_KEYMAP_COMPILE_NO_FLAGS);
}
xkbTranslationState = xkb_state_new(KEYMAP);
xkb_keymap_unref(KEYMAP);
xkb_context_unref(PCONTEXT);
return;
}
}
Debug::log(LOG, "Updating keyboard {:x}'s translation state from an unknown index", (uintptr_t)this);
xkb_rule_names rules = {
.rules = currentRules.rules.c_str(),
.model = currentRules.model.c_str(),
.layout = currentRules.layout.c_str(),
.variant = currentRules.variant.c_str(),
.options = currentRules.options.c_str(),
};
const auto NEWKEYMAP = xkb_keymap_new_from_names(PCONTEXT, &rules, XKB_KEYMAP_COMPILE_NO_FLAGS);
xkbTranslationState = xkb_state_new(NEWKEYMAP);
xkb_keymap_unref(NEWKEYMAP);
xkb_context_unref(PCONTEXT);
}
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