#include "hecl/CVar.hpp" #include #include "hecl/CVarManager.hpp" #include "hecl/hecl.hpp" #include namespace hecl { extern CVar* com_developer; extern CVar* com_enableCheats; using namespace std::literals; CVar::CVar(std::string_view name, std::string_view value, std::string_view help, CVar::EFlags flags) : CVar(name, help, EType::Literal) { fromLiteral(value); init(flags); } CVar::CVar(std::string_view name, const atVec2f& value, std::string_view help, EFlags flags) : CVar(name, help, EType::Vec2f) { fromVec2f(value); init(flags); } CVar::CVar(std::string_view name, const atVec2d& value, std::string_view help, EFlags flags) : CVar(name, help, EType::Vec2d) { fromVec2d(value); init(flags); } CVar::CVar(std::string_view name, const atVec3f& value, std::string_view help, EFlags flags) : CVar(name, help, EType::Vec3f) { fromVec3f(value); init(flags, false); } CVar::CVar(std::string_view name, const atVec3d& value, std::string_view help, EFlags flags) : CVar(name, help, EType::Vec3d) { fromVec3d(value); init(flags, false); } CVar::CVar(std::string_view name, const atVec4f& value, std::string_view help, EFlags flags) : CVar(name, help, EType::Vec4f) { fromVec4f(value); init(flags, false); } CVar::CVar(std::string_view name, const atVec4d& value, std::string_view help, EFlags flags) : CVar(name, help, EType::Vec4d) { fromVec4d(value); init(flags, false); } CVar::CVar(std::string_view name, double value, std::string_view help, EFlags flags) : CVar(name, help, EType::Real) { fromReal(value); init(flags); } CVar::CVar(std::string_view name, bool value, std::string_view help, CVar::EFlags flags) : CVar(name, help, EType::Boolean) { fromBoolean(value); init(flags); } CVar::CVar(std::string_view name, int32_t value, std::string_view help, CVar::EFlags flags) : CVar(name, help, EType::Signed) { fromInteger(value); init(flags); } CVar::CVar(std::string_view name, uint32_t value, std::string_view help, CVar::EFlags flags) : CVar(name, help, EType::Unsigned) { fromInteger(value); init(flags); } std::string CVar::help() const { return m_help + (m_defaultValue.empty() ? "" : "\ndefault: " + m_defaultValue) + (isReadOnly() ? " [ReadOnly]" : ""); } atVec2f CVar::toVec2f(bool* isValid) const { if (m_type != EType::Vec2f) { if (isValid != nullptr) *isValid = false; return atVec2f{}; } if (isValid != nullptr) *isValid = true; atVec2f vec{}; athena::simd_floats f; std::sscanf(m_value.c_str(), "%g %g", &f[0], &f[1]); vec.simd.copy_from(f); return vec; } atVec2d CVar::toVec2d(bool* isValid) const { if (m_type != EType::Vec2d) { if (isValid != nullptr) *isValid = false; return atVec2d{}; } if (isValid != nullptr) *isValid = true; atVec2d vec{}; athena::simd_doubles f; std::sscanf(m_value.c_str(), "%lg %lg", &f[0], &f[1]); vec.simd.copy_from(f); return vec; } atVec3f CVar::toVec3f(bool* isValid) const { if (m_type != EType::Vec3f) { if (isValid != nullptr) *isValid = false; return atVec3f{}; } if (isValid != nullptr) *isValid = true; atVec3f vec{}; athena::simd_floats f; std::sscanf(m_value.c_str(), "%g %g %g", &f[0], &f[1], &f[2]); vec.simd.copy_from(f); return vec; } atVec3d CVar::toVec3d(bool* isValid) const { if (m_type != EType::Vec3d) { if (isValid != nullptr) *isValid = false; return atVec3d{}; } if (isValid != nullptr) *isValid = true; atVec3d vec{}; athena::simd_doubles f; std::sscanf(m_value.c_str(), "%lg %lg %lg", &f[0], &f[1], &f[2]); vec.simd.copy_from(f); return vec; } atVec4f CVar::toVec4f(bool* isValid) const { if (m_type != EType::Vec4f) { if (isValid != nullptr) *isValid = false; return atVec4f{}; } if (isValid != nullptr) *isValid = true; atVec4f vec{}; athena::simd_floats f; std::sscanf(m_value.c_str(), "%g %g %g %g", &f[0], &f[1], &f[2], &f[3]); vec.simd.copy_from(f); return vec; } atVec4d CVar::toVec4d(bool* isValid) const { if (m_type != EType::Vec4d) { if (isValid != nullptr) *isValid = false; return atVec4d{}; } if (isValid != nullptr) *isValid = true; atVec4d vec{}; athena::simd_doubles f; std::sscanf(m_value.c_str(), "%lg %lg %lg %lg", &f[0], &f[1], &f[2], &f[3]); vec.simd.copy_from(f); return vec; } double CVar::toReal(bool* isValid) const { if (m_type != EType::Real) { if (isValid) *isValid = false; return 0.0f; } if (isValid != nullptr) *isValid = true; return strtod(m_value.c_str(), nullptr); } bool CVar::toBoolean(bool* isValid) const { if (m_type != EType::Boolean) { if (isValid) *isValid = false; return false; } return athena::utility::parseBool(m_value, isValid); } int32_t CVar::toSigned(bool* isValid) const { if (m_type != EType::Signed && m_type != EType::Unsigned) { if (isValid) *isValid = false; return 0; } if (isValid != nullptr) *isValid = true; return strtol(m_value.c_str(), nullptr, 0); } uint32_t CVar::toUnsigned(bool* isValid) const { if (m_type != EType::Signed && m_type != EType::Unsigned) { if (isValid) *isValid = false; return 0; } if (isValid != nullptr) *isValid = true; return strtoul(m_value.c_str(), nullptr, 0); } std::string CVar::toLiteral(bool* isValid) const { if (m_type != EType::Literal && (com_developer && com_developer->toBoolean())) { if (isValid != nullptr) *isValid = false; } else if (isValid != nullptr) { *isValid = true; } // Even if it's not a literal, it's still safe to return return m_value; } std::wstring CVar::toWideLiteral(bool* isValid) const { if (m_type != EType::Literal && (com_developer && com_developer->toBoolean())) { if (isValid != nullptr) *isValid = false; } else if (isValid != nullptr) { *isValid = true; } // Even if it's not a literal, it's still safe to return return hecl::UTF8ToWide(m_value); } bool CVar::fromVec2f(const atVec2f& val) { if (!safeToModify(EType::Vec2f)) return false; athena::simd_floats f(val.simd); m_value.assign(fmt::format(FMT_STRING("{} {}"), f[0], f[1])); m_flags |= EFlags::Modified; return true; } bool CVar::fromVec2d(const atVec2d& val) { if (!safeToModify(EType::Vec2d)) return false; athena::simd_doubles f(val.simd); m_value.assign(fmt::format(FMT_STRING("{} {}"), f[0], f[1])); m_flags |= EFlags::Modified; return true; } bool CVar::fromVec3f(const atVec3f& val) { if (!safeToModify(EType::Vec3f)) return false; athena::simd_floats f(val.simd); m_value.assign(fmt::format(FMT_STRING("{} {} {}"), f[0], f[1], f[2])); m_flags |= EFlags::Modified; return true; } bool CVar::fromVec3d(const atVec3d& val) { if (!safeToModify(EType::Vec3d)) return false; athena::simd_doubles f(val.simd); m_value.assign(fmt::format(FMT_STRING("{} {} {}"), f[0], f[1], f[2])); m_flags |= EFlags::Modified; return true; } bool CVar::fromVec4f(const atVec4f& val) { if (!safeToModify(EType::Vec4f)) return false; athena::simd_floats f(val.simd); m_value.assign(fmt::format(FMT_STRING("{} {} {} {}"), f[0], f[1], f[2], f[3])); m_flags |= EFlags::Modified; return true; } bool CVar::fromVec4d(const atVec4d& val) { if (!safeToModify(EType::Vec4d)) return false; athena::simd_doubles f(val.simd); m_value.assign(fmt::format(FMT_STRING("{} {} {} {}"), f[0], f[1], f[2], f[3])); m_flags |= EFlags::Modified; return true; } bool CVar::fromReal(double val) { if (!safeToModify(EType::Real)) return false; m_value.assign(fmt::format(FMT_STRING("{}"), val)); setModified(); return true; } bool CVar::fromBoolean(bool val) { if (!safeToModify(EType::Boolean)) return false; if (val) m_value = "true"sv; else m_value = "false"sv; setModified(); return true; } bool CVar::fromInteger(int32_t val) { if ((com_developer && com_enableCheats) && (!com_developer->toBoolean() || !com_enableCheats->toBoolean()) && isCheat()) return false; // We'll accept both signed an unsigned input if (m_type != EType::Signed && m_type != EType::Unsigned) return false; if (isReadOnly() && (com_developer && !com_developer->toBoolean())) return false; // Properly format based on signedness m_value = fmt::format(FMT_STRING("{}"), (m_type == EType::Signed ? val : static_cast(val))); setModified(); return true; } bool CVar::fromInteger(uint32_t val) { if ((com_developer && com_enableCheats) && (!com_developer->toBoolean() || !com_enableCheats->toBoolean()) && isCheat()) return false; // We'll accept both signed an unsigned input if (m_type != EType::Signed && m_type != EType::Unsigned) return false; if (isReadOnly() && (com_developer && !com_developer->toBoolean())) return false; // Properly format based on signedness m_value = fmt::format(FMT_STRING("{}"), (m_type == EType::Unsigned ? val : static_cast(val))); setModified(); return true; } bool CVar::fromLiteral(std::string_view val) { if (!safeToModify(EType::Literal)) return false; m_value.assign(val); setModified(); return true; } bool CVar::fromLiteral(std::wstring_view val) { if (!safeToModify(EType::Literal)) return false; m_value.assign(hecl::WideToUTF8(val)); setModified(); return true; } bool CVar::fromLiteralToType(std::string_view val) { if (!safeToModify(m_type) || !isValidInput(val)) return false; m_value = val; setModified(); return true; } bool CVar::fromLiteralToType(std::wstring_view val) { return fromLiteralToType(hecl::WideToUTF8(val)); } bool CVar::isModified() const { return True(m_flags & EFlags::Modified); } bool CVar::modificationRequiresRestart() const { return True(m_flags & EFlags::ModifyRestart); } bool CVar::isReadOnly() const { return True(m_flags & EFlags::ReadOnly); } bool CVar::isCheat() const { return True(m_flags & EFlags::Cheat); } bool CVar::isHidden() const { return True(m_flags & EFlags::Hidden); } bool CVar::isArchive() const { return True(m_flags & EFlags::Archive); } bool CVar::isInternalArchivable() const { return True(m_flags & EFlags::InternalArchivable); } bool CVar::isColor() const { return True(m_flags & EFlags::Color) && (m_type == EType::Vec3f || m_type == EType::Vec3d || m_type == EType::Vec3f || m_type == EType::Vec4f || m_type == EType::Vec4d); } bool CVar::isNoDeveloper() const { return True(m_flags & EFlags::NoDeveloper); } bool CVar::wasDeserialized() const { return m_wasDeserialized; } bool CVar::hasDefaultValue() const { return m_defaultValue == m_value; } void CVar::clearModified() { if (!modificationRequiresRestart()) m_flags &= ~EFlags::Modified; } void CVar::setModified() { m_flags |= EFlags::Modified; } void CVar::unlock() { if (isReadOnly() && !m_unlocked) { m_oldFlags = m_flags; m_flags &= ~EFlags::ReadOnly; m_unlocked = true; } } void CVar::lock() { if (!isReadOnly() && m_unlocked) { // We want to keep if we've been modified so we can inform our listeners bool modified = True(m_flags & EFlags::Modified); m_flags = m_oldFlags; // If we've been modified insert that back into m_flags if (modified) { m_flags |= EFlags::Modified; } m_unlocked = false; } } void CVar::dispatch() { for (const ListenerFunc& listen : m_listeners) listen(this); } bool isReal(std::string_view v) { char* p; std::strtod(v.data(), &p); return *p == 0; } bool isReal(const std::vector& v) { for (auto& s : v) { if (!isReal(s)) return false; } return true; } bool CVar::isValidInput(std::string_view input) const { std::vector parts = athena::utility::split(input, ' '); char* p; switch (m_type) { case EType::Boolean: { bool valid = false; athena::utility::parseBool(input, &valid); return valid; } case EType::Signed: std::strtol(input.data(), &p, 0); return p == nullptr; case EType::Unsigned: std::strtoul(input.data(), &p, 0); return p == nullptr; case EType::Real: { bool size = parts.size() == 1; bool ret = isReal(input); return ret && size; } case EType::Literal: return true; case EType::Vec2f: case EType::Vec2d: return parts.size() == 2 && isReal(parts); case EType::Vec3f: case EType::Vec3d: return parts.size() == 3 && isReal(parts); case EType::Vec4f: case EType::Vec4d: return parts.size() == 4 && isReal(parts); } return false; } bool CVar::isValidInput(std::wstring_view input) const { return isValidInput(hecl::WideToUTF8(input)); } bool CVar::safeToModify(EType type) const { // Are we NoDevelper? if (isNoDeveloper()) return false; // Are we a cheat? if (isCheat() && (com_developer && com_enableCheats) && (!com_developer->toBoolean() || !com_enableCheats->toBoolean())) return false; // Are we read only? if (isReadOnly() && (com_developer && !com_developer->toBoolean())) return false; return m_type == type; } void CVar::init(EFlags flags, bool removeColor) { m_defaultValue = m_value; m_flags = flags; if (removeColor) { // If the user specifies color, we don't want it m_flags &= ~EFlags::Color; } } } // namespace hecl