diff --git a/cvxpygen/utils.py b/cvxpygen/utils.py index bcff55b..f5ab0d2 100644 --- a/cvxpygen/utils.py +++ b/cvxpygen/utils.py @@ -46,7 +46,7 @@ def write_vec_def(f, vec, name, typ): # Write vector components for i in range(len(vec)): if typ == 'cpg_float': - f.write('(cpg_float)%.20f,\n' % vec[i]) + f.write('(cpg_float)%s,\n' % vec[i].hex()) else: f.write(f'{vec[i]},\n') @@ -95,7 +95,7 @@ def write_dense_mat_def(f, mat, name): # represent matrix as vector (Fortran style) for j in range(mat.shape[1]): for i in range(mat.shape[0]): - f.write('(cpg_float)%.20f,\n' % mat[i, j]) + f.write('(cpg_float)%s,\n' % mat[i, j].hex()) f.write('};\n') @@ -221,7 +221,7 @@ def write_canonicalize_explicit(f, p_id, s, mapping, user_p_col_to_name_usp, use data = mapping.data[mapping.indptr[row]:mapping.indptr[row + 1]] columns = mapping.indices[mapping.indptr[row]:mapping.indptr[row + 1]] for (datum, col) in zip(data, columns): - ex = '(%.20f)+' % datum + ex = '(%s)+' % datum.hex() for user_p_col, user_name in user_p_col_to_name_usp.items(): if user_p_col + user_p_name_to_size_usp[user_name] > col: expr_is_const = False @@ -229,12 +229,12 @@ def write_canonicalize_explicit(f, p_id, s, mapping, user_p_col_to_name_usp, use if abs(datum) == 1: ex = f'({sign_to_str[datum]}{prefix}CPG_Params.{user_name})+' else: - ex = f'(%.20f*{prefix}CPG_Params.{user_name})+' % datum + ex = f'(%s*{prefix}CPG_Params.{user_name})+' % datum.hex() else: if abs(datum) == 1: ex = f'({sign_to_str[datum]}{prefix}CPG_Params.{user_name}[%d])+' % (col - user_p_col) else: - ex = f'(%.20f*{prefix}CPG_Params.{user_name}[%d])+' % (datum, col - user_p_col) + ex = f'(%s*{prefix}CPG_Params.{user_name}[%d])+' % (datum.hex(), col - user_p_col) break expr += ex expr = expr[:-1] @@ -267,7 +267,7 @@ def write_param_def(f, param, name, prefix, suffix): if name.isupper(): write_mat_def(f, param, f'{prefix}canon_{name}{suffix}') elif name == 'd': - f.write(f'cpg_float {prefix}canon_d{suffix} = %.20f;\n' % param[0]) + f.write(f'cpg_float {prefix}canon_d{suffix} = %s;\n' % param[0].hex()) else: write_vec_def(f, param, f'{prefix}canon_{name}{suffix}', 'cpg_float') f.write('\n') @@ -444,7 +444,7 @@ def write_workspace_def(f, configuration, variable_info, dual_variable_info, par value = parameter_info.writable[name] if is_mathematical_scalar(value): user_casts.append('') - user_values.append('%.20f' % value) + user_values.append('%s' % value.hex()) else: write_vec_def(f, value, f'{configuration.prefix}cpg_{name}', 'cpg_float') f.write('\n') @@ -493,9 +493,9 @@ def write_workspace_def(f, configuration, variable_info, dual_variable_info, par if solver_interface.inmemory_preconditioning: struct_values_conditioning.append('0') elif p_id=='d': - struct_values.append('%.20f' % p) + struct_values.append('%s' % p.hex()) if solver_interface.inmemory_preconditioning: - struct_values_conditioning.append('%.20f' % p) + struct_values_conditioning.append('%s' % p.hex()) else: struct_values.append(f'&{configuration.prefix}canon_{p_id}') if solver_interface.inmemory_preconditioning: @@ -975,9 +975,9 @@ def write_example_def(f, configuration, variable_info, dual_variable_info, param f.write(' // Update first entry of every user-defined parameter\n') for name, value in parameter_info.writable.items(): if is_mathematical_scalar(value): - f.write(f' {configuration.prefix}cpg_update_{name}(%.20f);\n' % value) + f.write(f' {configuration.prefix}cpg_update_{name}(%s);\n' % value.hex()) else: - f.write(f' {configuration.prefix}cpg_update_{name}(0, %.20f);\n' % value[0]) + f.write(f' {configuration.prefix}cpg_update_{name}(0, %s);\n' % value[0].hex()) f.write('\n // Solve the problem instance\n') f.write(f' {configuration.prefix}cpg_solve();\n\n')