local env = environment() local N = Const("N") local p = Const("p") local q = Const("q") local a = Const("a") local b = Const("b") local f = Const("f") local H1 = Const("H1") local H2 = Const("H2") local And = Const("and") local and_intro = Const("and_intro") local A = Local("A", Bool) local B = Local("B", Bool) env = add_decl(env, mk_var_decl("N", Type)) env = add_decl(env, mk_var_decl("p", mk_arrow(N, N, Bool))) env = add_decl(env, mk_var_decl("q", mk_arrow(N, Bool))) env = add_decl(env, mk_var_decl("f", mk_arrow(N, N))) env = add_decl(env, mk_var_decl("a", N)) env = add_decl(env, mk_var_decl("b", N)) env = add_decl(env, mk_var_decl("and", mk_arrow(Bool, Bool, Bool))) env = add_decl(env, mk_var_decl("and_intro", Pi({A, B}, mk_arrow(A, B, And(A, B))))) env = add_decl(env, mk_var_decl("foo_intro", Pi({A, B}, mk_arrow(B, B)))) env = add_decl(env, mk_var_decl("foo_intro2", Pi({A, B}, mk_arrow(B, B)))) env = add_decl(env, mk_axiom("Ax1", q(a))) env = add_decl(env, mk_axiom("Ax2", q(a))) env = add_decl(env, mk_axiom("Ax3", q(b))) local Ax1 = Const("Ax1") local Ax2 = Const("Ax2") local Ax3 = Const("Ax3") local foo_intro = Const("foo_intro") local foo_intro2 = Const("foo_intro2") local cs = {} local ng = name_generator("foo") local tc = type_checker(env, ng, function (c) print(c); cs[#cs+1] = c end) local m1 = mk_metavar("m1", Bool) print("before is_def_eq") assert(not tc:is_def_eq(and_intro(m1, q(a)), and_intro(q(a), q(b)))) assert(#cs == 0) local cs = {} local tc = type_checker(env, ng, function (c) print(c); cs[#cs+1] = c end) assert(tc:is_def_eq(foo_intro(m1, q(a), Ax1), foo_intro(q(a), q(a), Ax2))) assert(#cs == 1) -- constraint is used, but there is an alternative that does not use it assert(cs[1]:lhs() == m1) assert(cs[1]:rhs() == q(a)) cs = {} local tc = type_checker(env, ng, function (c) print(c); cs[#cs+1] = c end) assert(tc:is_def_eq(foo_intro(m1, q(a), Ax1), foo_intro2(q(a), q(a), Ax2))) assert(#cs == 0) -- constraint should be ignored since we have shown definitional equality using proof irrelevance cs = {} local tc = type_checker(env, ng, function (c) print(c); cs[#cs+1] = c end) print("before failure") assert(not pcall(function() print(tc:check(and_intro(m1, q(a), Ax1, Ax3))) end)) assert(#cs == 0) -- the check failed, so the constraints should be preserved cs = {} print("before success") print(tc:check(and_intro(m1, q(a), Ax1, Ax2))) assert(#cs == 1) -- the check succeeded, and we must get one constraint -- Demo: infer method may generate constraints -- local m2 = mk_metavar("m2", mk_metavar("ty_m2", mk_sort(mk_meta_univ("s_m2")))) -- print(tc:infer(mk_pi("x", m2, Var(0))))