def _latex(self, printer: LatexPrinter, *args: Any) -> str: s, *_ = self.args s = printer._print(s) subscript = _indices_to_subscript(_determine_indices(s)) name = (R"\rho^\mathrm{c}" + subscript if self._name is None else self._name) return Rf"{name}\left({s}\right)"
def _latex(self, printer: LatexPrinter, *args: Any) -> str: s, _, width, *_ = self.args s = printer._print(s) subscript = _indices_to_subscript(_determine_indices(width)) name = Rf"\Gamma{subscript}" if self._name is None else self._name return Rf"{name}\left({s}\right)"
def _latex(self, printer: LatexPrinter, *args: Any) -> str: angle, *_ = self.args angle = printer._print(angle) return Rf"\boldsymbol{{R_z}}\left({angle}\right)"
def _latex(self, printer: LatexPrinter, *args: Any) -> str: array = printer._print(self.array) if self.axis is None: return Rf"\sum{{{array}}}" axis = printer._print(self.axis) return Rf"\sum_{{\mathrm{{axis{axis}}}}}{{{array}}}"
def _latex(self, printer: LatexPrinter, *args: Any) -> str: return printer._print(self.evaluate(), *args)
def _latex(self, printer: LatexPrinter, *args: Any) -> str: beta = printer._print(self.args[0]) return Rf"\boldsymbol{{B_z}}\left({beta}\right)"
def _latex(self, printer: LatexPrinter, *args: Any) -> str: momentum = printer._print(self._momentum) return Rf"\theta\left({momentum}\right)"
def _latex(self, printer: LatexPrinter, *args: Any) -> str: momentum = printer._print(self._momentum) return f"m_{{{momentum}}}"
def _latex(self, printer: LatexPrinter, *args: Any) -> str: momentum = printer._print(self._momentum) return Rf"\left|\vec{{{momentum}}}\right|"