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ImHex/plugins/builtin/source/content/pl_builtin_functions.cpp

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#include <hex/api/content_registry.hpp>
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#include <hex/helpers/fmt.hpp>
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#include <hex/helpers/net.hpp>
#include <hex/helpers/file.hpp>
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#include <hex/pattern_language/token.hpp>
#include <hex/pattern_language/log_console.hpp>
#include <hex/pattern_language/evaluator.hpp>
#include <hex/pattern_language/pattern_data.hpp>
#include <vector>
#include <fmt/args.h>
namespace hex::plugin::builtin {
std::string format(pl::Evaluator *ctx, auto params) {
auto format = pl::Token::literalToString(params[0], true);
std::string message;
fmt::dynamic_format_arg_store<fmt::format_context> formatArgs;
for (u32 i = 1; i < params.size(); i++) {
auto &param = params[i];
std::visit(overloaded {
[&](pl::PatternData *value) {
formatArgs.push_back(value->toString(ctx->getProvider()));
},
[&](auto &&value) {
formatArgs.push_back(value);
} },
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param);
}
try {
return fmt::vformat(format, formatArgs);
} catch (fmt::format_error &error) {
hex::pl::LogConsole::abortEvaluation(hex::format("format error: {}", error.what()));
}
}
void registerPatternLanguageFunctions() {
using namespace hex::pl;
ContentRegistry::PatternLanguage::addColorPalette("hex.builtin.palette.pastel", { 0x70B4771F, 0x700E7FFF, 0x702CA02C, 0x702827D6, 0x70BD6794, 0x704B568C, 0x70C277E3, 0x707F7F7F, 0x7022BDBC, 0x70CFBE17 });
ContentRegistry::PatternLanguage::Namespace nsStd = { "builtin", "std" };
{
/* print(format, args...) */
ContentRegistry::PatternLanguage::addFunction(nsStd, "print", ContentRegistry::PatternLanguage::MoreParametersThan | 0, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
ctx->getConsole().log(LogConsole::Level::Info, format(ctx, params));
return std::nullopt;
});
/* format(format, args...) */
ContentRegistry::PatternLanguage::addFunction(nsStd, "format", ContentRegistry::PatternLanguage::MoreParametersThan | 0, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
return format(ctx, params);
});
/* env(name) */
ContentRegistry::PatternLanguage::addFunction(nsStd, "env", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
auto name = Token::literalToString(params[0], false);
auto env = ctx->getEnvVariable(name);
if (env)
return env;
else {
ctx->getConsole().log(LogConsole::Level::Warning, hex::format("environment variable '{}' does not exist", name));
return "";
}
});
/* pack_size(...) */
ContentRegistry::PatternLanguage::addFunction(nsStd, "sizeof_pack", 0 | ContentRegistry::PatternLanguage::ExactlyOrMoreParametersThan, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
return u128(params.size());
});
/* error(message) */
ContentRegistry::PatternLanguage::addFunction(nsStd, "error", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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LogConsole::abortEvaluation(Token::literalToString(params[0], true));
return std::nullopt;
});
/* warning(message) */
ContentRegistry::PatternLanguage::addFunction(nsStd, "warning", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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ctx->getConsole().log(LogConsole::Level::Warning, Token::literalToString(params[0], true));
return std::nullopt;
});
}
ContentRegistry::PatternLanguage::Namespace nsStdMem = { "builtin", "std", "mem" };
{
/* base_address() */
ContentRegistry::PatternLanguage::addFunction(nsStdMem, "base_address", ContentRegistry::PatternLanguage::NoParameters, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
return u128(ctx->getProvider()->getBaseAddress());
});
/* size() */
ContentRegistry::PatternLanguage::addFunction(nsStdMem, "size", ContentRegistry::PatternLanguage::NoParameters, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
return u128(ctx->getProvider()->getActualSize());
});
/* find_sequence_in_range(occurrence_index, start_offset, end_offset, bytes...) */
ContentRegistry::PatternLanguage::addFunction(nsStdMem, "find_sequence_in_range", ContentRegistry::PatternLanguage::MoreParametersThan | 3, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
auto occurrenceIndex = Token::literalToUnsigned(params[0]);
auto offsetFrom = Token::literalToUnsigned(params[1]);
auto offsetTo = Token::literalToUnsigned(params[2]);
std::vector<u8> sequence;
for (u32 i = 3; i < params.size(); i++) {
auto byte = Token::literalToUnsigned(params[i]);
if (byte > 0xFF)
LogConsole::abortEvaluation(hex::format("byte #{} value out of range: {} > 0xFF", i, u64(byte)));
sequence.push_back(u8(byte & 0xFF));
}
std::vector<u8> bytes(sequence.size(), 0x00);
u32 occurrences = 0;
const u64 bufferSize = ctx->getProvider()->getSize();
const u64 endOffset = offsetTo <= offsetFrom ? bufferSize : std::min(bufferSize, u64(offsetTo));
for (u64 offset = offsetFrom; offset < endOffset - sequence.size(); offset++) {
ctx->getProvider()->read(offset, bytes.data(), bytes.size());
if (bytes == sequence) {
if (occurrences < occurrenceIndex) {
occurrences++;
continue;
}
return u128(offset);
}
}
LogConsole::abortEvaluation("failed to find sequence");
});
/* read_unsigned(address, size) */
ContentRegistry::PatternLanguage::addFunction(nsStdMem, "read_unsigned", 2, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
auto address = Token::literalToUnsigned(params[0]);
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auto size = Token::literalToUnsigned(params[1]);
if (size > 16)
LogConsole::abortEvaluation("read size out of range");
u128 result = 0;
ctx->getProvider()->read(address, &result, size);
return result;
});
/* read_signed(address, size) */
ContentRegistry::PatternLanguage::addFunction(nsStdMem, "read_signed", 2, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
auto address = Token::literalToUnsigned(params[0]);
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auto size = Token::literalToUnsigned(params[1]);
if (size > 16)
LogConsole::abortEvaluation("read size out of range");
i128 value;
ctx->getProvider()->read(address, &value, size);
return hex::signExtend(size * 8, value);
});
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/* read_string(address, size) */
ContentRegistry::PatternLanguage::addFunction(nsStdMem, "read_string", 2, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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auto address = Token::literalToUnsigned(params[0]);
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auto size = Token::literalToUnsigned(params[1]);
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std::string result(size, '\x00');
ctx->getProvider()->read(address, result.data(), size);
return result;
});
}
ContentRegistry::PatternLanguage::Namespace nsStdString = { "builtin", "std", "string" };
{
/* length(string) */
ContentRegistry::PatternLanguage::addFunction(nsStdString, "length", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
auto string = Token::literalToString(params[0], false);
return u128(string.length());
});
/* at(string, index) */
ContentRegistry::PatternLanguage::addFunction(nsStdString, "at", 2, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
auto string = Token::literalToString(params[0], false);
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auto index = Token::literalToSigned(params[1]);
#if defined(OS_MACOS)
const auto signIndex = index >> (sizeof(index) * 8 - 1);
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const auto absIndex = (index ^ signIndex) - signIndex;
#else
const auto absIndex = std::abs(index);
#endif
if (absIndex > string.length())
LogConsole::abortEvaluation("character index out of range");
if (index >= 0)
return char(string[index]);
else
return char(string[string.length() - -index]);
});
/* substr(string, pos, count) */
ContentRegistry::PatternLanguage::addFunction(nsStdString, "substr", 3, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
auto string = Token::literalToString(params[0], false);
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auto pos = Token::literalToUnsigned(params[1]);
auto size = Token::literalToUnsigned(params[2]);
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if (pos > string.length())
LogConsole::abortEvaluation("character index out of range");
return string.substr(pos, size);
});
/* parse_int(string, base) */
ContentRegistry::PatternLanguage::addFunction(nsStdString, "parse_int", 2, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
auto string = Token::literalToString(params[0], false);
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auto base = Token::literalToUnsigned(params[1]);
return i128(std::strtoll(string.c_str(), nullptr, base));
});
/* parse_float(string) */
ContentRegistry::PatternLanguage::addFunction(nsStdString, "parse_float", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
auto string = Token::literalToString(params[0], false);
return double(std::strtod(string.c_str(), nullptr));
});
}
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ContentRegistry::PatternLanguage::Namespace nsStdHttp = { "builtin", "std", "http" };
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{
/* get(url) */
ContentRegistry::PatternLanguage::addDangerousFunction(nsStdHttp, "get", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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const auto url = Token::literalToString(params[0], false);
hex::Net net;
return net.getString(url).get().body;
});
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}
ContentRegistry::PatternLanguage::Namespace nsStdFile = { "builtin", "std", "file" };
{
static u32 fileCounter = 0;
static std::map<u32, File> openFiles;
/* open(path, mode) */
ContentRegistry::PatternLanguage::addDangerousFunction(nsStdFile, "open", 2, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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const auto path = Token::literalToString(params[0], false);
const auto modeEnum = Token::literalToUnsigned(params[1]);
File::Mode mode;
switch (modeEnum) {
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case 1:
mode = File::Mode::Read;
break;
case 2:
mode = File::Mode::Write;
break;
case 3:
mode = File::Mode::Create;
break;
default:
LogConsole::abortEvaluation("invalid file open mode");
}
auto file = File(path, mode);
if (!file.isValid())
LogConsole::abortEvaluation(hex::format("failed to open file {}", path));
fileCounter++;
openFiles.emplace(std::pair { fileCounter, std::move(file) });
return u128(fileCounter);
});
/* close(file) */
ContentRegistry::PatternLanguage::addDangerousFunction(nsStdFile, "close", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
const auto file = Token::literalToUnsigned(params[0]);
if (!openFiles.contains(file))
LogConsole::abortEvaluation("failed to access invalid file");
openFiles.erase(file);
return std::nullopt;
});
/* read(file, size) */
ContentRegistry::PatternLanguage::addDangerousFunction(nsStdFile, "read", 2, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
const auto file = Token::literalToUnsigned(params[0]);
const auto size = Token::literalToUnsigned(params[1]);
if (!openFiles.contains(file))
LogConsole::abortEvaluation("failed to access invalid file");
return openFiles[file].readString(size);
});
/* write(file, data) */
ContentRegistry::PatternLanguage::addDangerousFunction(nsStdFile, "write", 2, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
const auto file = Token::literalToUnsigned(params[0]);
const auto data = Token::literalToString(params[1], true);
if (!openFiles.contains(file))
LogConsole::abortEvaluation("failed to access invalid file");
openFiles[file].write(data);
return std::nullopt;
});
/* seek(file, offset) */
ContentRegistry::PatternLanguage::addDangerousFunction(nsStdFile, "seek", 2, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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const auto file = Token::literalToUnsigned(params[0]);
const auto offset = Token::literalToUnsigned(params[1]);
if (!openFiles.contains(file))
LogConsole::abortEvaluation("failed to access invalid file");
openFiles[file].seek(offset);
return std::nullopt;
});
/* size(file) */
ContentRegistry::PatternLanguage::addDangerousFunction(nsStdFile, "size", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
const auto file = Token::literalToUnsigned(params[0]);
if (!openFiles.contains(file))
LogConsole::abortEvaluation("failed to access invalid file");
return u128(openFiles[file].getSize());
});
/* resize(file, size) */
ContentRegistry::PatternLanguage::addDangerousFunction(nsStdFile, "resize", 2, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
const auto file = Token::literalToUnsigned(params[0]);
const auto size = Token::literalToUnsigned(params[1]);
if (!openFiles.contains(file))
LogConsole::abortEvaluation("failed to access invalid file");
openFiles[file].setSize(size);
return std::nullopt;
});
/* flush(file) */
ContentRegistry::PatternLanguage::addDangerousFunction(nsStdFile, "flush", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
const auto file = Token::literalToUnsigned(params[0]);
if (!openFiles.contains(file))
LogConsole::abortEvaluation("failed to access invalid file");
openFiles[file].flush();
return std::nullopt;
});
/* remove(file) */
ContentRegistry::PatternLanguage::addDangerousFunction(nsStdFile, "remove", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
const auto file = Token::literalToUnsigned(params[0]);
if (!openFiles.contains(file))
LogConsole::abortEvaluation("failed to access invalid file");
openFiles[file].remove();
return std::nullopt;
});
}
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ContentRegistry::PatternLanguage::Namespace nsStdMath = { "builtin", "std", "math" };
{
/* floor(value) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "floor", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::floor(Token::literalToFloatingPoint(params[0]));
});
/* ceil(value) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "ceil", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::ceil(Token::literalToFloatingPoint(params[0]));
});
/* round(value) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "round", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::round(Token::literalToFloatingPoint(params[0]));
});
/* trunc(value) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "trunc", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::trunc(Token::literalToFloatingPoint(params[0]));
});
/* log10(value) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "log10", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::log10(Token::literalToFloatingPoint(params[0]));
});
/* log2(value) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "log2", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::log2(Token::literalToFloatingPoint(params[0]));
});
/* ln(value) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "ln", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::log(Token::literalToFloatingPoint(params[0]));
});
/* fmod(x, y) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "fmod", 2, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::fmod(Token::literalToFloatingPoint(params[0]), Token::literalToFloatingPoint(params[1]));
});
/* pow(base, exp) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "pow", 2, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::pow(Token::literalToFloatingPoint(params[0]), Token::literalToFloatingPoint(params[1]));
});
/* sqrt(value) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "sqrt", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::sqrt(Token::literalToFloatingPoint(params[0]));
});
/* cbrt(value) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "cbrt", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::cbrt(Token::literalToFloatingPoint(params[0]));
});
/* sin(value) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "sin", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::sin(Token::literalToFloatingPoint(params[0]));
});
/* cos(value) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "cos", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::cos(Token::literalToFloatingPoint(params[0]));
});
/* tan(value) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "tan", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::tan(Token::literalToFloatingPoint(params[0]));
});
/* asin(value) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "asin", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::asin(Token::literalToFloatingPoint(params[0]));
});
/* acos(value) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "acos", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::acos(Token::literalToFloatingPoint(params[0]));
});
/* atan(value) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "atan", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::atan(Token::literalToFloatingPoint(params[0]));
});
/* atan2(y, x) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "atan", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::atan2(Token::literalToFloatingPoint(params[0]), Token::literalToFloatingPoint(params[1]));
});
/* sinh(value) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "sinh", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::sinh(Token::literalToFloatingPoint(params[0]));
});
/* cosh(value) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "cosh", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::cosh(Token::literalToFloatingPoint(params[0]));
});
/* tanh(value) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "tanh", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::tanh(Token::literalToFloatingPoint(params[0]));
});
/* asinh(value) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "asinh", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::asinh(Token::literalToFloatingPoint(params[0]));
});
/* acosh(value) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "acosh", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::acosh(Token::literalToFloatingPoint(params[0]));
});
/* atanh(value) */
ContentRegistry::PatternLanguage::addFunction(nsStdMath, "atanh", 1, [](Evaluator *ctx, auto params) -> std::optional<Token::Literal> {
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return std::atanh(Token::literalToFloatingPoint(params[0]));
});
}
}
}