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#include "team_member_2.hpp"
bool is_topological_space(const std::string& M)
{
bool result = true;
// use M string to compute result
return result;
}
int main()
{
// supposed a_topological_space_M, is_topological_space function
Suppose_literal (a_topological_space_M, is_topological_space ("M_string"));
// like above, you may introduce a function for each literal below
Suppose_literal (M_is_Hausdorff, true);
Suppose_literal (M_has_a_countable_topological_base, true);
Suppose_literal (p_is_element_of_M, true);
Suppose_literal (U_is_proper_subset_of_M, true);
Suppose_literal (V_is_subset_of_real_coordinate_space_of_dimension_n, true);
Suppose_literal (for_all_p_there_is_an_open_neighbourhood_U, true);
Suppose_literal (U_is_homeomorphic_to_an_open_subset_V, true);
auto manifold_of_dimension_n = M_is_Hausdorff. And (points_can_be_seperated_by_open_sets). And (M_is_second_countable). And (M_has_a_countable_topological_base). And (p_is_element_of_M). And (U_is_proper_subset_of_M). And (V_is_subset_of_real_coordinate_space_of_dimension_n). And (for_all_p_there_is_an_open_neighbourhood_U). And (U_is_homeomorphic_to_an_open_subset_V). Implying (a_topological_space_M);
bool M_is_a_manifold_of_dimension_n = manifold_of_dimension_n. Value (/* truth value */);
Suppose_literal (let_M_be_a_manifold_of_dimension_n, M_is_a_manifold_of_dimension_n);
// like the supposed literal a_topological_space_M, you may introduce a function for each literal below
Suppose_literal (U_is_element_of_M, true);
Suppose_literal (a_pair_U_psi_where_U_is_open, true);
Suppose_literal (psi_maps_U_to_V_a_homeomorphism_to_some_open_V, true);
auto chart = let_M_be_a_manifold_of_dimension_n. And (U_is_element_of_M). And (a_pair_U_psi_where_U_is_open). And (psi_maps_U_to_V_a_homeomorphism_to_some_open_V);
Suppose_literal (the_pair_U_phi_is_a_chart_M, chart. Value(/* truth value */));
// like the supposed literal a_topological_space_M, you may introduce a function for each literal below
Suppose_literal (p_is_element_of_the_pair_U_phi, true);
Suppose_literal (p_is_element_of_U, true);
Suppose_literal (for_all_p_for_some_chart, true);
auto remark_2_1 = the_pair_U_phi_is_a_chart_M. And (p_is_element_of_U). Implying (p_is_element_of_the_pair_U_phi);
auto third_condition_from_definition_2_1 = for_all_p_there_is_an_open_neighbourhood_U. And (U_is_element_of_M). And (U_is_homeomorphic_to_an_open_subset_V). And (V_is_subset_of_real_coordinate_space_of_dimension_n);
auto rewrite_third_condition_from_definition_2_1 = for_all_p_for_some_chart. Implying (third_condition_from_definition_2_1);
auto example_of_a_contradiction = Not (for_all_p_for_some_chart). And (rewrite_third_condition_from_definition_2_1). Sorry ("Qwen3-Coder-Instruct-DRAFT-0.75B-256k-Q4_0.gguf", "In two paragraphs, elaborate how to ensure that not i3l evaluate to true.", 10, 13298, "ggml-cpu-haswell.dll");
return 0;
}
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