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path: root/src/managers/AnimationManager.cpp
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#include "AnimationManager.hpp"
#include "../Compositor.hpp"
#include "HookSystemManager.hpp"
#include "macros.hpp"
#include "../config/ConfigValue.hpp"
#include "../desktop/Window.hpp"
#include "../desktop/LayerSurface.hpp"
#include "eventLoop/EventLoopManager.hpp"
#include "../helpers/varlist/VarList.hpp"

#include <hyprgraphics/color/Color.hpp>

int wlTick(SP<CEventLoopTimer> self, void* data) {
    if (g_pAnimationManager)
        g_pAnimationManager->onTicked();

    if (g_pCompositor->m_bSessionActive && g_pAnimationManager && g_pHookSystem && !g_pCompositor->m_bUnsafeState &&
        std::ranges::any_of(g_pCompositor->m_vMonitors, [](const auto& mon) { return mon->m_bEnabled && mon->output; })) {
        g_pAnimationManager->tick();
        EMIT_HOOK_EVENT("tick", nullptr);
    }

    if (g_pAnimationManager && g_pAnimationManager->shouldTickForNext())
        g_pAnimationManager->scheduleTick();

    return 0;
}

CAnimationManager::CAnimationManager() {
    std::vector<Vector2D> points = {Vector2D(0.0, 0.75), Vector2D(0.15, 1.0)};
    m_mBezierCurves["default"].setup(&points);

    m_pAnimationTimer = SP<CEventLoopTimer>(new CEventLoopTimer(std::chrono::microseconds(500), wlTick, nullptr));
    g_pEventLoopManager->addTimer(m_pAnimationTimer);
}

void CAnimationManager::removeAllBeziers() {
    m_mBezierCurves.clear();

    // add the default one
    std::vector<Vector2D> points = {Vector2D(0.0, 0.75), Vector2D(0.15, 1.0)};
    m_mBezierCurves["default"].setup(&points);
}

void CAnimationManager::addBezierWithName(std::string name, const Vector2D& p1, const Vector2D& p2) {
    std::vector points = {p1, p2};
    m_mBezierCurves[name].setup(&points);
}

void CAnimationManager::onTicked() {
    m_bTickScheduled = false;
}

void CAnimationManager::tick() {
    static std::chrono::time_point lastTick = std::chrono::high_resolution_clock::now();
    m_fLastTickTime                         = std::chrono::duration_cast<std::chrono::microseconds>(std::chrono::high_resolution_clock::now() - lastTick).count() / 1000.0;
    lastTick                                = std::chrono::high_resolution_clock::now();

    if (m_vActiveAnimatedVariables.empty())
        return;

    bool        animGlobalDisabled = false;

    static auto PANIMENABLED = CConfigValue<Hyprlang::INT>("animations:enabled");

    if (!*PANIMENABLED)
        animGlobalDisabled = true;

    static auto* const                  PSHADOWSENABLED = (Hyprlang::INT* const*)g_pConfigManager->getConfigValuePtr("decoration:shadow:enabled");

    const auto                          DEFAULTBEZIER = m_mBezierCurves.find("default");

    std::vector<CBaseAnimatedVariable*> animationEndedVars;

    for (auto const& av : m_vActiveAnimatedVariables) {

        if (av->m_eDamagePolicy == AVARDAMAGE_SHADOW && !*PSHADOWSENABLED) {
            av->warp(false);
            animationEndedVars.push_back(av);
            continue;
        }

        // get the spent % (0 - 1)
        const float SPENT = av->getPercent();

        // window stuff
        PHLWINDOW    PWINDOW            = av->m_pWindow.lock();
        PHLWORKSPACE PWORKSPACE         = av->m_pWorkspace.lock();
        PHLLS        PLAYER             = av->m_pLayer.lock();
        PHLMONITOR   PMONITOR           = nullptr;
        bool         animationsDisabled = animGlobalDisabled;

        if (PWINDOW) {
            if (av->m_eDamagePolicy == AVARDAMAGE_ENTIRE) {
                g_pHyprRenderer->damageWindow(PWINDOW);
            } else if (av->m_eDamagePolicy == AVARDAMAGE_BORDER) {
                const auto PDECO = PWINDOW->getDecorationByType(DECORATION_BORDER);
                PDECO->damageEntire();
            } else if (av->m_eDamagePolicy == AVARDAMAGE_SHADOW) {
                const auto PDECO = PWINDOW->getDecorationByType(DECORATION_SHADOW);
                PDECO->damageEntire();
            }

            PMONITOR = PWINDOW->m_pMonitor.lock();
            if (!PMONITOR)
                continue;
            animationsDisabled = PWINDOW->m_sWindowData.noAnim.valueOr(animationsDisabled);
        } else if (PWORKSPACE) {
            PMONITOR = PWORKSPACE->m_pMonitor.lock();
            if (!PMONITOR)
                continue;

            // dont damage the whole monitor on workspace change, unless it's a special workspace, because dim/blur etc
            if (PWORKSPACE->m_bIsSpecialWorkspace)
                g_pHyprRenderer->damageMonitor(PMONITOR);

            // TODO: just make this into a damn callback already vax...
            for (auto const& w : g_pCompositor->m_vWindows) {
                if (!w->m_bIsMapped || w->isHidden() || w->m_pWorkspace != PWORKSPACE)
                    continue;

                if (w->m_bIsFloating && !w->m_bPinned) {
                    // still doing the full damage hack for floating because sometimes when the window
                    // goes through multiple monitors the last rendered frame is missing damage somehow??
                    const CBox windowBoxNoOffset = w->getFullWindowBoundingBox();
                    const CBox monitorBox        = {PMONITOR->vecPosition, PMONITOR->vecSize};
                    if (windowBoxNoOffset.intersection(monitorBox) != windowBoxNoOffset) // on edges between multiple monitors
                        g_pHyprRenderer->damageWindow(w, true);
                }

                if (PWORKSPACE->m_bIsSpecialWorkspace)
                    g_pHyprRenderer->damageWindow(w, true); // hack for special too because it can cross multiple monitors
            }

            // damage any workspace window that is on any monitor
            for (auto const& w : g_pCompositor->m_vWindows) {
                if (!validMapped(w) || w->m_pWorkspace != PWORKSPACE || w->m_bPinned)
                    continue;

                g_pHyprRenderer->damageWindow(w);
            }
        } else if (PLAYER) {
            // "some fucking layers miss 1 pixel???" -- vaxry
            CBox expandBox = CBox{PLAYER->realPosition.value(), PLAYER->realSize.value()};
            expandBox.expand(5);
            g_pHyprRenderer->damageBox(&expandBox);

            PMONITOR = g_pCompositor->getMonitorFromVector(PLAYER->realPosition.goal() + PLAYER->realSize.goal() / 2.F);
            if (!PMONITOR)
                continue;
            animationsDisabled = animationsDisabled || PLAYER->noAnimations;
        }

        const bool VISIBLE = PWINDOW && PWINDOW->m_pWorkspace ? PWINDOW->m_pWorkspace->isVisible() : true;

        // beziers are with a switch unforto
        // TODO: maybe do something cleaner

        static const auto updateVariable = [&]<Animable T>(CAnimatedVariable<T>& av) {
            // for disabled anims just warp
            if (av.m_pConfig->pValues->internalEnabled == 0 || animationsDisabled) {
                av.warp(false);
                return;
            }

            if (SPENT >= 1.f || av.m_Begun == av.m_Goal) {
                av.warp(false);
                return;
            }

            const auto BEZIER = m_mBezierCurves.find(av.m_pConfig->pValues->internalBezier);
            const auto POINTY = BEZIER != m_mBezierCurves.end() ? BEZIER->second.getYForPoint(SPENT) : DEFAULTBEZIER->second.getYForPoint(SPENT);

            const auto DELTA = av.m_Goal - av.m_Begun;

            if (BEZIER != m_mBezierCurves.end())
                av.m_Value = av.m_Begun + DELTA * POINTY;
            else
                av.m_Value = av.m_Begun + DELTA * POINTY;
        };

        static const auto updateColorVariable = [&](CAnimatedVariable<CHyprColor>& av) {
            // for disabled anims just warp
            if (av.m_pConfig->pValues->internalEnabled == 0 || animationsDisabled) {
                av.warp(false);
                return;
            }

            if (SPENT >= 1.f || av.m_Begun == av.m_Goal) {
                av.warp(false);
                return;
            }

            const auto BEZIER = m_mBezierCurves.find(av.m_pConfig->pValues->internalBezier);
            const auto POINTY = BEZIER != m_mBezierCurves.end() ? BEZIER->second.getYForPoint(SPENT) : DEFAULTBEZIER->second.getYForPoint(SPENT);

            // convert both to OkLab, then lerp that, and convert back.
            // This is not as fast as just lerping rgb, but it's WAY more precise...
            // Use the CHyprColor cache for OkLab

            const auto&                L1 = av.m_Begun.asOkLab();
            const auto&                L2 = av.m_Goal.asOkLab();

            static const auto          lerp = [](const float one, const float two, const float progress) -> float { return one + (two - one) * progress; };

            const Hyprgraphics::CColor lerped = Hyprgraphics::CColor::SOkLab{
                .l = lerp(L1.l, L2.l, POINTY),
                .a = lerp(L1.a, L2.a, POINTY),
                .b = lerp(L1.b, L2.b, POINTY),
            };

            av.m_Value = {lerped, lerp(av.m_Begun.a, av.m_Goal.a, POINTY)};

            return;
        };

        switch (av->m_Type) {
            case AVARTYPE_FLOAT: {
                auto typedAv = dynamic_cast<CAnimatedVariable<float>*>(av);
                updateVariable(*typedAv);
                break;
            }
            case AVARTYPE_VECTOR: {
                auto typedAv = dynamic_cast<CAnimatedVariable<Vector2D>*>(av);
                updateVariable(*typedAv);
                break;
            }
            case AVARTYPE_COLOR: {
                auto typedAv = dynamic_cast<CAnimatedVariable<CHyprColor>*>(av);
                updateColorVariable(*typedAv);
                break;
            }
            default: UNREACHABLE();
        }
        // set size and pos if valid, but only if damage policy entire (dont if border for example)
        if (validMapped(PWINDOW) && av->m_eDamagePolicy == AVARDAMAGE_ENTIRE && !PWINDOW->isX11OverrideRedirect())
            g_pXWaylandManager->setWindowSize(PWINDOW, PWINDOW->m_vRealSize.goal());

        // check if we did not finish animating. If so, trigger onAnimationEnd.
        if (!av->isBeingAnimated())
            animationEndedVars.push_back(av);

        // lastly, handle damage, but only if whatever we are animating is visible.
        if (!VISIBLE)
            continue;

        if (av->m_fUpdateCallback)
            av->m_fUpdateCallback(av);

        switch (av->m_eDamagePolicy) {
            case AVARDAMAGE_ENTIRE: {
                if (PWINDOW) {
                    PWINDOW->updateWindowDecos();
                    g_pHyprRenderer->damageWindow(PWINDOW);
                } else if (PWORKSPACE) {
                    for (auto const& w : g_pCompositor->m_vWindows) {
                        if (!validMapped(w) || w->m_pWorkspace != PWORKSPACE)
                            continue;

                        w->updateWindowDecos();

                        // damage any workspace window that is on any monitor
                        if (!w->m_bPinned)
                            g_pHyprRenderer->damageWindow(w);
                    }
                } else if (PLAYER) {
                    if (PLAYER->layer <= 1)
                        g_pHyprOpenGL->markBlurDirtyForMonitor(PMONITOR);

                    // some fucking layers miss 1 pixel???
                    CBox expandBox = CBox{PLAYER->realPosition.value(), PLAYER->realSize.value()};
                    expandBox.expand(5);
                    g_pHyprRenderer->damageBox(&expandBox);
                }
                break;
            }
            case AVARDAMAGE_BORDER: {
                RASSERT(PWINDOW, "Tried to AVARDAMAGE_BORDER a non-window AVAR!");

                const auto PDECO = PWINDOW->getDecorationByType(DECORATION_BORDER);
                PDECO->damageEntire();

                break;
            }
            case AVARDAMAGE_SHADOW: {
                RASSERT(PWINDOW, "Tried to AVARDAMAGE_SHADOW a non-window AVAR!");

                const auto PDECO = PWINDOW->getDecorationByType(DECORATION_SHADOW);

                PDECO->damageEntire();

                break;
            }
            default: {
                break;
            }
        }

        // manually schedule a frame
        if (PMONITOR)
            g_pCompositor->scheduleFrameForMonitor(PMONITOR, Aquamarine::IOutput::AQ_SCHEDULE_ANIMATION);
    }

    // do it here, because if this alters the animation vars vec we would be in trouble above.
    for (auto const& ave : animationEndedVars) {
        ave->onAnimationEnd();
    }
}

bool CAnimationManager::deltaSmallToFlip(const Vector2D& a, const Vector2D& b) {
    return std::abs(a.x - b.x) < 0.5f && std::abs(a.y - b.y) < 0.5f;
}

bool CAnimationManager::deltaSmallToFlip(const CHyprColor& a, const CHyprColor& b) {
    return std::abs(a.r - b.r) < 0.5f && std::abs(a.g - b.g) < 0.5f && std::abs(a.b - b.b) < 0.5f && std::abs(a.a - b.a) < 0.5f;
}

bool CAnimationManager::deltaSmallToFlip(const float& a, const float& b) {
    return std::abs(a - b) < 0.5f;
}

bool CAnimationManager::deltazero(const Vector2D& a, const Vector2D& b) {
    return a.x == b.x && a.y == b.y;
}

bool CAnimationManager::deltazero(const float& a, const float& b) {
    return a == b;
}

bool CAnimationManager::deltazero(const CHyprColor& a, const CHyprColor& b) {
    return a.r == b.r && a.g == b.g && a.b == b.b && a.a == b.a;
}

bool CAnimationManager::bezierExists(const std::string& bezier) {
    for (auto const& [bc, bz] : m_mBezierCurves) {
        if (bc == bezier)
            return true;
    }

    return false;
}

//
// Anims
//
//

void CAnimationManager::animationPopin(PHLWINDOW pWindow, bool close, float minPerc) {
    const auto GOALPOS  = pWindow->m_vRealPosition.goal();
    const auto GOALSIZE = pWindow->m_vRealSize.goal();

    if (!close) {
        pWindow->m_vRealSize.setValue((GOALSIZE * minPerc).clamp({5, 5}, {GOALSIZE.x, GOALSIZE.y}));
        pWindow->m_vRealPosition.setValue(GOALPOS + GOALSIZE / 2.f - pWindow->m_vRealSize.m_Value / 2.f);
    } else {
        pWindow->m_vRealSize     = (GOALSIZE * minPerc).clamp({5, 5}, {GOALSIZE.x, GOALSIZE.y});
        pWindow->m_vRealPosition = GOALPOS + GOALSIZE / 2.f - pWindow->m_vRealSize.m_Goal / 2.f;
    }
}

void CAnimationManager::animationSlide(PHLWINDOW pWindow, std::string force, bool close) {
    pWindow->m_vRealSize.warp(false); // size we preserve in slide

    const auto GOALPOS  = pWindow->m_vRealPosition.goal();
    const auto GOALSIZE = pWindow->m_vRealSize.goal();

    const auto PMONITOR = pWindow->m_pMonitor.lock();

    if (!PMONITOR)
        return; // unsafe state most likely

    Vector2D posOffset;

    if (force != "") {
        if (force == "bottom")
            posOffset = Vector2D(GOALPOS.x, PMONITOR->vecPosition.y + PMONITOR->vecSize.y);
        else if (force == "left")
            posOffset = GOALPOS - Vector2D(GOALSIZE.x, 0.0);
        else if (force == "right")
            posOffset = GOALPOS + Vector2D(GOALSIZE.x, 0.0);
        else
            posOffset = Vector2D(GOALPOS.x, PMONITOR->vecPosition.y - GOALSIZE.y);

        if (!close)
            pWindow->m_vRealPosition.setValue(posOffset);
        else
            pWindow->m_vRealPosition = posOffset;

        return;
    }

    const auto MIDPOINT = GOALPOS + GOALSIZE / 2.f;

    // check sides it touches
    const bool DISPLAYLEFT   = STICKS(pWindow->m_vPosition.x, PMONITOR->vecPosition.x + PMONITOR->vecReservedTopLeft.x);
    const bool DISPLAYRIGHT  = STICKS(pWindow->m_vPosition.x + pWindow->m_vSize.x, PMONITOR->vecPosition.x + PMONITOR->vecSize.x - PMONITOR->vecReservedBottomRight.x);
    const bool DISPLAYTOP    = STICKS(pWindow->m_vPosition.y, PMONITOR->vecPosition.y + PMONITOR->vecReservedTopLeft.y);
    const bool DISPLAYBOTTOM = STICKS(pWindow->m_vPosition.y + pWindow->m_vSize.y, PMONITOR->vecPosition.y + PMONITOR->vecSize.y - PMONITOR->vecReservedBottomRight.y);

    if (DISPLAYBOTTOM && DISPLAYTOP) {
        if (DISPLAYLEFT && DISPLAYRIGHT) {
            posOffset = GOALPOS + Vector2D(0.0, GOALSIZE.y);
        } else if (DISPLAYLEFT) {
            posOffset = GOALPOS - Vector2D(GOALSIZE.x, 0.0);
        } else {
            posOffset = GOALPOS + Vector2D(GOALSIZE.x, 0.0);
        }
    } else if (DISPLAYTOP) {
        posOffset = GOALPOS - Vector2D(0.0, GOALSIZE.y);
    } else if (DISPLAYBOTTOM) {
        posOffset = GOALPOS + Vector2D(0.0, GOALSIZE.y);
    } else {
        if (MIDPOINT.y > PMONITOR->vecPosition.y + PMONITOR->vecSize.y / 2.f)
            posOffset = Vector2D(GOALPOS.x, PMONITOR->vecPosition.y + PMONITOR->vecSize.y);
        else
            posOffset = Vector2D(GOALPOS.x, PMONITOR->vecPosition.y - GOALSIZE.y);
    }

    if (!close)
        pWindow->m_vRealPosition.setValue(posOffset);
    else
        pWindow->m_vRealPosition = posOffset;
}

void CAnimationManager::onWindowPostCreateClose(PHLWINDOW pWindow, bool close) {
    if (!close) {
        pWindow->m_vRealPosition.m_pConfig = g_pConfigManager->getAnimationPropertyConfig("windowsIn");
        pWindow->m_vRealSize.m_pConfig     = g_pConfigManager->getAnimationPropertyConfig("windowsIn");
        pWindow->m_fAlpha.m_pConfig        = g_pConfigManager->getAnimationPropertyConfig("fadeIn");
    } else {
        pWindow->m_vRealPosition.m_pConfig = g_pConfigManager->getAnimationPropertyConfig("windowsOut");
        pWindow->m_vRealSize.m_pConfig     = g_pConfigManager->getAnimationPropertyConfig("windowsOut");
        pWindow->m_fAlpha.m_pConfig        = g_pConfigManager->getAnimationPropertyConfig("fadeOut");
    }

    auto ANIMSTYLE = pWindow->m_vRealPosition.m_pConfig->pValues->internalStyle;
    transform(ANIMSTYLE.begin(), ANIMSTYLE.end(), ANIMSTYLE.begin(), ::tolower);

    CVarList animList(ANIMSTYLE, 0, 's');

    // if the window is not being animated, that means the layout set a fixed size for it, don't animate.
    if (!pWindow->m_vRealPosition.isBeingAnimated() && !pWindow->m_vRealSize.isBeingAnimated())
        return;

    // if the animation is disabled and we are leaving, ignore the anim to prevent the snapshot being fucked
    if (!pWindow->m_vRealPosition.m_pConfig->pValues->internalEnabled)
        return;

    if (pWindow->m_sWindowData.animationStyle.hasValue()) {
        const auto STYLE = pWindow->m_sWindowData.animationStyle.value();
        // the window has config'd special anim
        if (STYLE.starts_with("slide")) {
            CVarList animList2(STYLE, 0, 's');
            animationSlide(pWindow, animList2[1], close);
        } else {
            // anim popin, fallback

            float minPerc = 0.f;
            if (STYLE.find("%") != std::string::npos) {
                try {
                    auto percstr = STYLE.substr(STYLE.find_last_of(' '));
                    minPerc      = std::stoi(percstr.substr(0, percstr.length() - 1));
                } catch (std::exception& e) {
                    ; // oops
                }
            }

            animationPopin(pWindow, close, minPerc / 100.f);
        }
    } else {
        if (animList[0] == "slide")
            animationSlide(pWindow, animList[1], close);
        else {
            // anim popin, fallback

            float minPerc = 0.f;
            if (!ANIMSTYLE.starts_with("%")) {
                try {
                    auto percstr = ANIMSTYLE.substr(ANIMSTYLE.find_last_of(' '));
                    minPerc      = std::stoi(percstr.substr(0, percstr.length() - 1));
                } catch (std::exception& e) {
                    ; // oops
                }
            }

            animationPopin(pWindow, close, minPerc / 100.f);
        }
    }
}

std::string CAnimationManager::styleValidInConfigVar(const std::string& config, const std::string& style) {
    if (config.starts_with("window")) {
        if (style.starts_with("slide"))
            return "";
        else if (style.starts_with("popin")) {
            // try parsing
            float minPerc = 0.f;
            if (style.find('%') != std::string::npos) {
                try {
                    auto percstr = style.substr(style.find_last_of(' '));
                    minPerc      = std::stoi(percstr.substr(0, percstr.length() - 1));
                } catch (std::exception& e) { return "invalid minperc"; }

                return "";
            }

            minPerc; // fix warning

            return "";
        }

        return "unknown style";
    } else if (config.starts_with("workspaces") || config.starts_with("specialWorkspace")) {
        if (style == "slide" || style == "slidevert" || style == "fade")
            return "";
        else if (style.starts_with("slidefade")) {
            // try parsing
            float movePerc = 0.f;
            if (style.find('%') != std::string::npos) {
                try {
                    auto percstr = style.substr(style.find_last_of(' ') + 1);
                    movePerc     = std::stoi(percstr.substr(0, percstr.length() - 1));
                } catch (std::exception& e) { return "invalid movePerc"; }

                return "";
            }

            movePerc; // fix warning

            return "";
        }

        return "unknown style";
    } else if (config == "borderangle") {
        if (style == "loop" || style == "once")
            return "";
        return "unknown style";
    } else if (config.starts_with("layers")) {
        if (style == "fade" || style == "" || style == "slide")
            return "";
        else if (style.starts_with("popin")) {
            // try parsing
            float minPerc = 0.f;
            if (style.find('%') != std::string::npos) {
                try {
                    auto percstr = style.substr(style.find_last_of(' '));
                    minPerc      = std::stoi(percstr.substr(0, percstr.length() - 1));
                } catch (std::exception& e) { return "invalid minperc"; }

                return "";
            }

            minPerc; // fix warning

            return "";
        }
        return "";
        return "unknown style";
    } else {
        return "animation has no styles";
    }

    return "";
}

CBezierCurve* CAnimationManager::getBezier(const std::string& name) {
    const auto BEZIER = std::find_if(m_mBezierCurves.begin(), m_mBezierCurves.end(), [&](const auto& other) { return other.first == name; });

    return BEZIER == m_mBezierCurves.end() ? &m_mBezierCurves["default"] : &BEZIER->second;
}

std::unordered_map<std::string, CBezierCurve> CAnimationManager::getAllBeziers() {
    return m_mBezierCurves;
}

bool CAnimationManager::shouldTickForNext() {
    return !m_vActiveAnimatedVariables.empty();
}

void CAnimationManager::scheduleTick() {
    if (m_bTickScheduled)
        return;

    m_bTickScheduled = true;

    const auto PMOSTHZ = g_pHyprRenderer->m_pMostHzMonitor;

    if (!PMOSTHZ) {
        m_pAnimationTimer->updateTimeout(std::chrono::milliseconds(16));
        return;
    }

    float       refreshDelayMs = std::floor(1000.f / PMOSTHZ->refreshRate);

    const float SINCEPRES = std::chrono::duration_cast<std::chrono::microseconds>(std::chrono::steady_clock::now() - PMOSTHZ->lastPresentationTimer.chrono()).count() / 1000.f;

    const auto  TOPRES = std::clamp(refreshDelayMs - SINCEPRES, 1.1f, 1000.f); // we can't send 0, that will disarm it

    m_pAnimationTimer->updateTimeout(std::chrono::milliseconds((int)std::floor(TOPRES)));
}