feat(frontends/lean/elaborator): include overload information in error messages

This commit is contained in:
Leonardo de Moura 2015-05-20 17:21:27 -07:00
parent 76c3757db7
commit d5da659be7
5 changed files with 125 additions and 21 deletions

View file

@ -337,7 +337,27 @@ expr elaborator::visit_choice(expr const & e, optional<expr> const & t, constrai
name_generator const & /* ngen */) { name_generator const & /* ngen */) {
return choose(std::make_shared<choice_expr_elaborator>(*this, ctx, full_ctx, meta, type, e)); return choose(std::make_shared<choice_expr_elaborator>(*this, ctx, full_ctx, meta, type, e));
}; };
justification j = mk_justification("none of the overloads is applicable", some_expr(e)); auto pp_fn = [=](formatter const & fmt, pos_info_provider const * pos_prov, substitution const &, bool is_main) {
format r = pp_previous_error_header(fmt, pos_prov, some_expr(e), is_main);
r += format("none of the overloads is applicable:");
for (unsigned i = 0; i < get_num_choices(e); i++) {
expr const & c = get_choice(e, i);
expr const & f = get_app_fn(c);
optional<name> fn;
if (is_constant(f))
fn = const_name(f);
else if (is_local(f))
fn = local_pp_name(f);
r += space();
if (fn) {
r += format(*fn);
} else {
r += format("[nontrivial]");
}
}
return r;
};
justification j = mk_justification(some_expr(e), pp_fn);
cs += mk_choice_cnstr(m, fn, to_delay_factor(cnstr_group::Basic), true, j); cs += mk_choice_cnstr(m, fn, to_delay_factor(cnstr_group::Basic), true, j);
return m; return m;
} }
@ -1158,7 +1178,9 @@ expr elaborator::visit_equations(expr const & eqns, constraint_seq & cs) {
new_cs.linearize(tmp_cs); new_cs.linearize(tmp_cs);
for (constraint const & c : tmp_cs) { for (constraint const & c : tmp_cs) {
justification j = c.get_justification(); justification j = c.get_justification();
auto pp_fn = [=](formatter const & fmt, pos_info_provider const * pp, substitution const & s) { auto pp_fn = [=](formatter const & fmt, pos_info_provider const * pp, substitution const & s, bool is_main) {
if (!is_main)
return format();
format r = j.pp(fmt, pp, s); format r = j.pp(fmt, pp, s);
r += compose(line(), format("The following identifier(s) are introduced as free variables by the " r += compose(line(), format("The following identifier(s) are introduced as free variables by the "
"left-hand-side of the equation:")); "left-hand-side of the equation:"));

View file

@ -6,6 +6,7 @@ Author: Leonardo de Moura
*/ */
#include <string> #include <string>
#include <vector> #include <vector>
#include <unordered_set>
#include "util/buffer.h" #include "util/buffer.h"
#include "util/int64.h" #include "util/int64.h"
#include "util/memory_pool.h" #include "util/memory_pool.h"
@ -26,6 +27,18 @@ format to_pos(optional<expr> const & e, pos_info_provider const * p) {
return f + space(); return f + space();
} }
format pp_previous_error_header(formatter const &, pos_info_provider const * pos_prov, optional<expr> const & ref, bool is_main) {
if (!is_main) {
format r = line();
r += to_pos(ref, pos_prov);
r += format("previous error additional information");
r += line();
return r;
} else {
return format();
}
}
typedef uint64 approx_set; typedef uint64 approx_set;
static approx_set mk_empty_set() { return 0; } static approx_set mk_empty_set() { return 0; }
static approx_set mk_union(approx_set s1, approx_set s2) { return s1 | s2; } static approx_set mk_union(approx_set s1, approx_set s2) { return s1 | s2; }
@ -263,23 +276,50 @@ optional<expr> justification::get_main_expr() const {
} }
} }
} }
format justification::pp(formatter const & fmt, pos_info_provider const * p, substitution const & s) const {
struct jst_hash_fn {
unsigned operator()(justification const & j) const { return j.raw()->m_hash_alloc; }
};
struct jst_ptr_eq {
bool operator()(justification const & j1, justification const & j2) const { return j1.raw() == j2.raw(); }
};
class justification_set {
std::unordered_set<justification, jst_hash_fn, jst_ptr_eq> m_set;
public:
bool contains(justification const & j) const { return m_set.find(j) != m_set.end(); }
void insert(justification const & j) { m_set.insert(j); }
};
format justification::pp_core(formatter const & fmt, pos_info_provider const * p, substitution const & s,
justification_set & set, bool is_main) const {
if (set.contains(*this))
return format();
set.insert(*this);
justification_cell * it = m_ptr; justification_cell * it = m_ptr;
while (true) {
if (!it) if (!it)
return format(); return format();
switch (it->m_kind) { switch (it->m_kind) {
case justification_kind::Asserted: case justification_kind::Asserted:
return to_asserted(it)->m_fn(fmt, p, s); return to_asserted(it)->m_fn(fmt, p, s, is_main);
case justification_kind::Wrapper: case justification_kind::Wrapper:
return to_wrapper(it)->m_fn(fmt, p, s); return to_wrapper(it)->m_fn(fmt, p, s, is_main);
case justification_kind::Assumption: case justification_kind::Assumption:
if (is_main)
return format(format("Assumption "), format(to_assumption(it)->m_idx)); return format(format("Assumption "), format(to_assumption(it)->m_idx));
else
return format();
case justification_kind::Composite: case justification_kind::Composite:
it = to_composite(it)->m_child[0].raw(); return
break; to_composite(it)->m_child[0].pp_core(fmt, p, s, set, is_main) +
to_composite(it)->m_child[1].pp_core(fmt, p, s, set, false);
} }
} }
format justification::pp(formatter const & fmt, pos_info_provider const * p, substitution const & s) const {
justification_set set;
return pp_core(fmt, p, s, set, true);
} }
justification mk_wrapper(justification const & j, optional<expr> const & s, pp_jst_fn const & fn) { justification mk_wrapper(justification const & j, optional<expr> const & s, pp_jst_fn const & fn) {
@ -305,16 +345,22 @@ justification mk_justification(optional<expr> const & s, pp_jst_fn const & fn) {
return justification(new (get_asserted_allocator().allocate()) asserted_cell(fn, s)); return justification(new (get_asserted_allocator().allocate()) asserted_cell(fn, s));
} }
justification mk_justification(optional<expr> const & s, pp_jst_sfn const & fn) { justification mk_justification(optional<expr> const & s, pp_jst_sfn const & fn) {
return mk_justification(s, [=](formatter const & fmt, pos_info_provider const *, substitution const & subst) { return mk_justification(s, [=](formatter const & fmt, pos_info_provider const *, substitution const & subst, bool is_main) {
// Remark: we are not using to_pos(s, p) anymore because we don't try to display complicated error messages anymore. // Remark: we are not using to_pos(s, p) anymore because we don't try to display complicated error messages anymore.
// return compose(to_pos(s, p), fn(fmt, subst)); // return compose(to_pos(s, p), fn(fmt, subst));
if (is_main)
return fn(fmt, subst); return fn(fmt, subst);
else
return format();
}); });
} }
justification mk_justification(char const * msg, optional<expr> const & s) { justification mk_justification(char const * msg, optional<expr> const & s) {
std::string _msg(msg); std::string _msg(msg);
return mk_justification(s, [=](formatter const &, pos_info_provider const *, substitution const &) { return mk_justification(s, [=](formatter const &, pos_info_provider const *, substitution const &, bool is_main) {
if (is_main)
return format(_msg); return format(_msg);
else
return format();
}); });
} }
std::ostream & operator<<(std::ostream & out, justification const & j) { std::ostream & operator<<(std::ostream & out, justification const & j) {

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@ -23,7 +23,9 @@ struct justification_cell;
The pp_jst_fn is a generic funciton that produces these messages. We can associate these functions The pp_jst_fn is a generic funciton that produces these messages. We can associate these functions
to justification objects. to justification objects.
*/ */
typedef std::function<format(formatter const &, pos_info_provider const *, substitution const &)> pp_jst_fn; typedef std::function<format(formatter const &, pos_info_provider const *, substitution const &, bool)> pp_jst_fn;
class justification_set;
/** /**
\brief Objects used to justify unification (and level) constraints and metavariable assignments. \brief Objects used to justify unification (and level) constraints and metavariable assignments.
@ -40,6 +42,8 @@ typedef std::function<format(formatter const &, pos_info_provider const *, subst
class justification { class justification {
justification_cell * m_ptr; justification_cell * m_ptr;
justification(justification_cell * ptr); justification(justification_cell * ptr);
format pp_core(formatter const & fmt, pos_info_provider const * p, substitution const & s,
justification_set & visited, bool is_main) const;
public: public:
justification(); justification();
justification(justification const & s); justification(justification const & s);
@ -85,6 +89,7 @@ typedef std::function<format(formatter const &, substitution const &)> pp_jst_sf
/** \brief Return a format object containing position information for the given expression (if available) */ /** \brief Return a format object containing position information for the given expression (if available) */
format to_pos(optional<expr> const & e, pos_info_provider const * p); format to_pos(optional<expr> const & e, pos_info_provider const * p);
format pp_previous_error_header(formatter const &, pos_info_provider const * pos_prov, optional<expr> const & ref, bool is_main);
/** \brief Provide a custom pretty printer for \c j */ /** \brief Provide a custom pretty printer for \c j */
justification mk_wrapper(justification const & j, optional<expr> const & s, pp_jst_fn const & fn); justification mk_wrapper(justification const & j, optional<expr> const & s, pp_jst_fn const & fn);

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@ -0,0 +1,19 @@
constant set : Type₁ → Type₁
constant finset : Type₁ → Type₁
constant set.mem : Π {A : Type₁}, A → set A → Prop
constant finset.mem : Π {A : Type₁}, A → finset A → Prop
infix ∈ := set.mem
infix ∈ := finset.mem
definition set.subset {A : Type₁} (s₁ s₂ : set A) : Prop :=
∀ ⦃a : A⦄, a ∈ s₁ → a ∈ s₂
definition finset.subset {A : Type₁} (s₁ s₂ : finset A) : Prop :=
∀ ⦃a : A⦄, a ∈ s₁ → a ∈ s₂
infix `⊆`:50 := set.subset
infix `⊆`:50 := finset.subset
example (A : Type₁) (x : A) (S H : set A) (Pin : x ∈ S) (Psub : S ⊆ H) : x ∈ H :=
Psub Pin -- Error, we cannot infer at preprocessing time the binder information for Psub

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@ -0,0 +1,12 @@
subset_error.lean:18:51: error: type mismatch at application
x ∈ S
term
S
has type
set A
but is expected to have type
finset A
subset_error.lean:18:51: previous error additional information
none of the overloads is applicable: finset.mem set.mem
subset_error.lean:18:66: previous error additional information
none of the overloads is applicable: finset.subset set.subset