def main(): # GENERATES WITHOUT ARGUMENTS: irrev_binary_1.tex irrev_binary_2.tex irrev_binary_rate.tex irrev_binary_k_b.c irrev_binary_K_eq.c from sympy.printing.latex import latex open("irrev_binary_1.tex", "wt").write(as_align_env(eqs[:2])) open("irrev_binary_2.tex", "wt").write(as_align_env(eqs[2:])) open("irrev_binary_rate.tex", "wt").write(latex(rate_expr)) open("irrev_binary_k_b.c", "wt").write("return_val = {};".format(ccode(alt_expl_in_t))) open("irrev_binary_K_eq.c", "wt").write("return_val = {};".format(ccode(alt_expl_in_t.subs({k_b: k_f / K_eq}))))
def main(): # GENERATES WITHOUT ARGUMENTS: irrev_binary_1.tex irrev_binary_2.tex irrev_binary_rate.tex irrev_binary_k_b.c irrev_binary_K_eq.c from sympy.printing.latex import latex open('irrev_binary_1.tex', 'wt').write(as_align_env(eqs[:2])) open('irrev_binary_2.tex', 'wt').write(as_align_env(eqs[2:])) open('irrev_binary_rate.tex', 'wt').write(latex(rate_expr)) open('irrev_binary_k_b.c', 'wt').write('return_val = {};'.format( ccode(alt_expl_in_t))) open('irrev_binary_K_eq.c', 'wt').write('return_val = {};'.format( ccode(alt_expl_in_t.subs({k_b: k_f/K_eq}))))
def main(): # GENERATES WITHOUT ARGUMENTS: rev_binary_1.tex rev_binary_2.tex rev_binary_3.tex rev_binary_rate.tex rev_binary_k_b.c rev_binary_K_eq.c from sympy.printing.latex import latex open('rev_binary_1.tex', 'wt').write(as_align_env(eqs[:2])) open('rev_binary_2.tex', 'wt').write(as_align_env([gen_integral_eq])) open('rev_binary_3.tex', 'wt').write(as_align_env(eqs[2:])) open('rev_binary_rate.tex', 'wt').write(latex(rate_expr)) open('rev_binary_k_b.c', 'wt').write( get_code(alt_expl_in_t_eq.rhs.subs({a: subs[a]}))) open('rev_binary_K_eq.c', 'wt').write( get_code(alt_expl_in_t_eq.rhs.subs({a: subs[a]}), {k_b: k_f/K_eq}))
def main(): # GENERATES WITHOUT ARGUMENTS: rev_binary_1.tex rev_binary_2.tex rev_binary_3.tex rev_binary_rate.tex rev_binary_k_b.c rev_binary_K_eq.c from sympy.printing.latex import latex open('rev_binary_1.tex', 'wt').write(as_align_env(eqs[:2])) open('rev_binary_2.tex', 'wt').write(as_align_env([gen_integral_eq])) open('rev_binary_3.tex', 'wt').write(as_align_env(eqs[2:])) open('rev_binary_rate.tex', 'wt').write(latex(rate_expr, symbol_names=symbol_names)) open('rev_binary_k_b.c', 'wt').write( get_code(alt_expl_in_t_eq.rhs.subs({a: subs[a]}))) open('rev_binary_K_eq.c', 'wt').write( get_code(alt_expl_in_t_eq.rhs.subs({a: subs[a]}), {k_b: k_f/K_eq}))
def main(): # GENERATES WITHOUT ARGUMENTS: rev_unary_1.tex rev_unary_rate.tex rev_unary_k_b.c rev_unary_K_eq.c from sympy.printing.latex import latex open('rev_unary_1.tex', 'wt').write(as_align_env(eqs)) open('rev_unary_rate.tex', 'wt').write(latex(rate_expr)) open('rev_unary_k_b.c', 'wt').write('return_val = {};'.format(ccode(alt_expl_in_t))) open('rev_unary_K_eq.c', 'wt').write('return_val = {};'.format( ccode(alt_expl_in_t.subs({k_b: k_f/K_eq}))))
def main(): # GENERATES WITHOUT ARGUMENTS: rev_unary_1.tex rev_unary_rate.tex rev_unary_k_b.c rev_unary_K_eq.c from sympy.printing.latex import latex print('###########################################') print(symbol_names) print('###########################################') open('rev_unary_1.tex', 'wt').write(as_align_env(eqs)) open('rev_unary_rate.tex', 'wt').write(latex(rate_expr, symbol_names=symbol_names)) open('rev_unary_k_b.c', 'wt').write('return_val = {};'.format(ccode(alt_expl_in_t))) open('rev_unary_K_eq.c', 'wt').write('return_val = {};'.format( ccode(alt_expl_in_t.subs({k_b: k_f / K_eq}))))