hyprcursor/libhyprcursor/meta.cpp

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#include "meta.hpp"
#include <hyprlang.hpp>
#include <toml++/toml.hpp>
#include <filesystem>
#include "VarList.hpp"
CMeta* currentMeta = nullptr;
CMeta::CMeta(const std::string& rawdata_, bool hyprlang_ /* false for toml */, bool dataIsPath) : rawdata(rawdata_), hyprlang(hyprlang_), dataPath(dataIsPath) {
if (!dataIsPath)
return;
rawdata = "";
try {
if (std::filesystem::exists(rawdata_ + ".hl")) {
rawdata = rawdata_ + ".hl";
hyprlang = true;
return;
}
if (std::filesystem::exists(rawdata_ + ".toml")) {
rawdata = rawdata_ + ".toml";
hyprlang = false;
return;
}
} catch (...) {}
}
std::optional<std::string> CMeta::parse() {
if (rawdata.empty())
return "Invalid meta (missing?)";
std::optional<std::string> res;
currentMeta = this;
if (hyprlang)
res = parseHL();
else
res = parseTOML();
currentMeta = nullptr;
return res;
}
static std::string removeBeginEndSpacesTabs(std::string str) {
if (str.empty())
return str;
int countBefore = 0;
while (str[countBefore] == ' ' || str[countBefore] == '\t') {
countBefore++;
}
int countAfter = 0;
while ((int)str.length() - countAfter - 1 >= 0 && (str[str.length() - countAfter - 1] == ' ' || str[str.length() - 1 - countAfter] == '\t')) {
countAfter++;
}
str = str.substr(countBefore, str.length() - countBefore - countAfter);
return str;
}
static Hyprlang::CParseResult parseDefineSize(const char* C, const char* V) {
Hyprlang::CParseResult result;
const std::string VALUE = V;
if (!VALUE.contains(",")) {
result.setError("Invalid define_size");
return result;
}
auto LHS = removeBeginEndSpacesTabs(VALUE.substr(0, VALUE.find_first_of(",")));
auto RHS = removeBeginEndSpacesTabs(VALUE.substr(VALUE.find_first_of(",") + 1));
auto DELAY = 0;
CMeta::SDefinedSize size;
if (RHS.contains(",")) {
const auto LL = removeBeginEndSpacesTabs(RHS.substr(0, RHS.find(",")));
const auto RR = removeBeginEndSpacesTabs(RHS.substr(RHS.find(",") + 1));
try {
size.delayMs = std::stoull(RR);
} catch (std::exception& e) {
result.setError(e.what());
return result;
}
RHS = LL;
}
size.file = RHS;
if (!size.file.ends_with(".svg")) {
try {
size.size = std::stoull(LHS);
} catch (std::exception& e) {
result.setError(e.what());
return result;
}
} else
size.size = 0;
currentMeta->parsedData.definedSizes.push_back(size);
return result;
}
static Hyprlang::CParseResult parseOverride(const char* C, const char* V) {
Hyprlang::CParseResult result;
const std::string VALUE = V;
currentMeta->parsedData.overrides.push_back(VALUE);
return result;
}
std::optional<std::string> CMeta::parseHL() {
std::unique_ptr<Hyprlang::CConfig> meta;
try {
meta = std::make_unique<Hyprlang::CConfig>(rawdata.c_str(), Hyprlang::SConfigOptions{.pathIsStream = !dataPath});
meta->addConfigValue("hotspot_x", Hyprlang::FLOAT{0.F});
meta->addConfigValue("hotspot_y", Hyprlang::FLOAT{0.F});
meta->addConfigValue("resize_algorithm", Hyprlang::STRING{"nearest"});
meta->registerHandler(::parseDefineSize, "define_size", {.allowFlags = false});
meta->registerHandler(::parseOverride, "define_override", {.allowFlags = false});
meta->commence();
meta->parse();
} catch (const char* err) { return "failed parsing meta: " + std::string{err}; }
parsedData.hotspotX = std::any_cast<Hyprlang::FLOAT>(meta->getConfigValue("hotspot_x"));
parsedData.hotspotY = std::any_cast<Hyprlang::FLOAT>(meta->getConfigValue("hotspot_y"));
parsedData.resizeAlgo = std::any_cast<Hyprlang::STRING>(meta->getConfigValue("resize_algorithm"));
return {};
}
std::optional<std::string> CMeta::parseTOML() {
try {
auto MANIFEST = dataPath ? toml::parse_file(rawdata) : toml::parse(rawdata);
parsedData.hotspotX = MANIFEST["General"]["hotspot_x"].value_or(0.f);
parsedData.hotspotY = MANIFEST["General"]["hotspot_y"].value_or(0.f);
const std::string OVERRIDES = MANIFEST["General"]["define_override"].value_or("");
const std::string SIZES = MANIFEST["General"]["define_size"].value_or("");
//
CVarList OVERRIDESLIST(OVERRIDES, 0, ';', true);
for (auto& o : OVERRIDESLIST) {
const auto RESULT = ::parseOverride("define_override", o.c_str());
if (RESULT.error)
throw;
}
CVarList SIZESLIST(SIZES, 0, ';', true);
for (auto& s : SIZESLIST) {
const auto RESULT = ::parseDefineSize("define_size", s.c_str());
if (RESULT.error)
throw;
}
parsedData.resizeAlgo = MANIFEST["General"]["resize_algorithm"].value_or("");
} catch (std::exception& e) { return std::string{"Failed parsing toml: "} + e.what(); }
return {};
}