def _repr_html_(self): from sympy.printing.latex import LatexPrinter from sympy.physics.vector import vlatex lp = LatexPrinter() x = vlatex(self.loop.x) y = vlatex(self.loop.y) return lp.doprint(r"$$ \begin{bmatrix} {%s} \\ {%s} \end{bmatrix} $$" % (x, y))
def doprint(self, expr): # #if isinstance(expr,)' print expr #tex = SLP().doprint(expr) tex = SLP.doprint(self, expr) print tex #tex = self.doprint( expr) return r"%s" % tex
def doprint(self, expr): # #if isinstance(expr,)' print expr #tex = SLP().doprint(expr) tex = SLP.doprint(self,expr) print tex #tex = self.doprint( expr) return r"%s" % tex
def _repr_html_(self): from sympy.printing.latex import LatexPrinter from sympy.physics.vector import vlatex lp = LatexPrinter() x = vlatex(self.x) y = vlatex(self.y) # return lp.doprint("$$ \\langle {0}, \\\\ {1} \\rangle $$".format(x,y)) return lp.doprint(r"$$ \begin{bmatrix} {%s} \\ {%s} \end{bmatrix} $$" % (x, y))
def doprint(self, expr): expr = self._convert_Decim(expr) tex = LatexPrinter.doprint(self, expr) return tex.replace(r'\operatorname{', r'\mathrm{')
def doprint(self, expr): tex = SLP.doprint(self,expr) return r"%s" % tex
def doprint(self, expr): tex = LatexPrinter.doprint(self, expr) return tex.replace(r'\operatorname{', r'\mathrm{')
def doprint(self, expr): tex = LatexPrinter.doprint(self, expr) return tex.replace(r"\operatorname{", r"\mathrm{")
def doprint(self, expr): ##expr = expr.subs(Float(1), S.One) tex = LatexPrinter.doprint(self, expr) return tex.replace(r'\operatorname{', r'\mathrm{')