#include "MiscFunctions.hpp" #include "../defines.hpp" #include #include "../Compositor.hpp" void addWLSignal(wl_signal* pSignal, wl_listener* pListener, void* pOwner, std::string ownerString) { ASSERT(pSignal); ASSERT(pListener); wl_signal_add(pSignal, pListener); Debug::log(LOG, "Registered signal for owner %x: %x -> %x (owner: %s)", pOwner, pSignal, pListener, ownerString.c_str()); } void handleNoop(struct wl_listener *listener, void *data) { // Do nothing } void wlr_signal_emit_safe(struct wl_signal *signal, void *data) { struct wl_listener cursor; struct wl_listener end; /* Add two special markers: one cursor and one end marker. This way, we know * that we've already called listeners on the left of the cursor and that we * don't want to call listeners on the right of the end marker. The 'it' * function can remove any element it wants from the list without troubles. * wl_list_for_each_safe tries to be safe but it fails: it works fine * if the current item is removed, but not if the next one is. */ wl_list_insert(&signal->listener_list, &cursor.link); cursor.notify = handleNoop; wl_list_insert(signal->listener_list.prev, &end.link); end.notify = handleNoop; while (cursor.link.next != &end.link) { struct wl_list *pos = cursor.link.next; struct wl_listener *l = wl_container_of(pos, l, link); wl_list_remove(&cursor.link); wl_list_insert(pos, &cursor.link); l->notify(l, data); } wl_list_remove(&cursor.link); wl_list_remove(&end.link); } std::string getFormat(const char *fmt, ...) { char buf[2048] = ""; va_list args; va_start(args, fmt); vsprintf(buf, fmt, args); va_end(args); return std::string(buf); } void scaleBox(wlr_box* box, float scale) { box->width = std::round((box->x + box->width) * scale) - std::round(box->x * scale); box->height = std::round((box->y + box->height) * scale) - std::round(box->y * scale); box->x = std::round(box->x * scale); box->y = std::round(box->y * scale); } std::string removeBeginEndSpacesTabs(std::string str) { while (str[0] == ' ' || str[0] == '\t') { str = str.substr(1); } while (str.length() != 0 && (str[str.length() - 1] == ' ' || str[str.length() - 1] == '\t')) { str = str.substr(0, str.length() - 1); } return str; } float getPlusMinusKeywordResult(std::string source, float relative) { float result = INT_MAX; if (source.find_first_of("+") == 0) { try { if (source.find('.') != std::string::npos) result = relative + std::stof(source.substr(1)); else result = relative + std::stoi(source.substr(1)); } catch (...) { Debug::log(ERR, "Invalid arg \"%s\" in getPlusMinusKeywordResult!", source.c_str()); return INT_MAX; } } else if (source.find_first_of("-") == 0) { try { if (source.find('.') != std::string::npos) result = relative - std::stof(source.substr(1)); else result = relative - std::stoi(source.substr(1)); } catch (...) { Debug::log(ERR, "Invalid arg \"%s\" in getPlusMinusKeywordResult!", source.c_str()); return INT_MAX; } } else { try { if (source.find('.') != std::string::npos) result = stof(source); else result = stoi(source); } catch (...) { Debug::log(ERR, "Invalid arg \"%s\" in getPlusMinusKeywordResult!", source.c_str()); return INT_MAX; } } return result; } bool isNumber(const std::string& str) { return std::ranges::all_of(str.begin(), str.end(), [](char c) { return isdigit(c) != 0; }); } bool isDirection(const std::string& arg) { return arg == "l" || arg == "r" || arg == "u" || arg == "d" || arg == "t" || arg == "b"; } int getWorkspaceIDFromString(const std::string& in, std::string& outName) { int result = INT_MAX; if (in.find("name:") == 0) { const auto WORKSPACENAME = in.substr(in.find_first_of(':') + 1); const auto WORKSPACE = g_pCompositor->getWorkspaceByName(WORKSPACENAME); if (!WORKSPACE) { result = g_pCompositor->getNextAvailableNamedWorkspace(); } else { result = WORKSPACE->m_iID; } outName = WORKSPACENAME; } else { result = std::clamp((int)getPlusMinusKeywordResult(in, g_pCompositor->m_pLastMonitor->activeWorkspace), 1, INT_MAX); outName = std::to_string(result); } return result; } float vecToRectDistanceSquared(const Vector2D& vec, const Vector2D& p1, const Vector2D& p2) { const float DX = std::max((double)0, std::max(p1.x - vec.x, vec.x - p2.x)); const float DY = std::max((double)0, std::max(p1.y - vec.y, vec.y - p2.y)); return DX * DX + DY * DY; }