Transition to new pass/poset setup
This commit is contained in:
Nathan Braswell
71
k.krak
71
k.krak
@@ -85,10 +85,10 @@ fun main(argc: int, argv: **char): int {
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var pass_poset = poset<pair<*tree<ast>, str>>()
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var name_ast_map = map<str, *tree<ast>>()
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var passes = map<str, fun(*tree<ast>): bool>()
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var passes = map<str, fun(*tree<ast>): void>()
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// resolves a single import
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passes[str("import_resolver")] = fun(import_binding: *tree<ast>): bool {
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passes[str("import")] = fun(import_binding: *tree<ast>) {
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var file_path = binding_str(import_binding)
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println("Running import resolver for " + file_path)
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if (!name_ast_map.contains_key(file_path)) {
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@@ -99,41 +99,51 @@ fun main(argc: int, argv: **char): int {
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}
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set_bindings(import_binding, name_ast_map[file_path])
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return true
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}
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// ensures that all imports reachable from this one are resolved
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passes[str("import_checker")] = fun(import_binding: *tree<ast>): bool {
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var all_resolved = true
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var file_path = binding_str(import_binding)
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println("Running import checker for " + file_path)
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name_ast_map[file_path]->children.for_each(fun(n: *tree<ast>) {
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match (n->data) {
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ast::_import(b) {
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if (!bound(b.first)) {
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all_resolved = false
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pass_poset.add_relationship(make_pair(import_binding, str("import_checker")), make_pair(b.first, str("import_resolver")))
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println(to_string(b.first->data) + " is not bound!")
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} else {
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println(to_string(b.first->data) + " is bound!")
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pass_poset.add_close_dep(make_pair(import_binding, str("import")), make_pair(b.first, str("import")))
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}
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}
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}
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})
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}
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return all_resolved
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// emit C
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var C_str = str()
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passes[str("emit_C")] = fun(import_binding: *tree<ast>) {
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if !pass_poset.done(make_pair(import_binding, str("import"))) {
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pass_poset.add_open_dep(make_pair(import_binding, str("emit_C")), make_pair(import_binding, str("import")))
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return
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}
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var file_path = binding_str(import_binding)
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println("Running emit C for " + file_path)
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var emit_C: fun(*tree<ast>, int): void = fun(t: *tree<ast>, level: int) {
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match (t->data) {
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ast::_identifier(b) {
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C_str += b.first
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}
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ast::_import(b) {
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pass_poset.add_close_dep(make_pair(import_binding, str("emit_C")), make_pair(b.first, str("emit_C")))
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}
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}
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t->children.for_each(fun(c: *tree<ast>) {
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emit_C(c, level+1)
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})
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}
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emit_C(name_ast_map[file_path], 0)
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}
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var top_binding = make_binding(kraken_file_name)
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pass_poset.add_relationship(make_pair(top_binding, str("import_checker")), make_pair(top_binding, str("import_resolver")))
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pass_poset.add_job(make_pair(top_binding, str("emit_C")))
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while (pass_poset.size() != 0) {
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var file_pass = pass_poset.top()
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printlnerr("doing pass " + file_pass.second + " on " + to_string(file_pass.first->data))
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var done = passes[file_pass.second](file_pass.first)
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if (done)
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pass_poset.remove(file_pass)
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}
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pass_poset.run(fun(file_pass: pair<*tree<ast>, str>) {
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printlnerr("doing pass new style " + file_pass.second + " on " + to_string(file_pass.first->data))
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passes[file_pass.second](file_pass.first)
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})
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println()
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println()
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@@ -145,9 +155,8 @@ fun main(argc: int, argv: **char): int {
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})
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var kraken_c_output_name = kraken_file_name + ".c"
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var c_code = str("//don't you wish this was real kraken\n")
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var c_flags = str("")
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write_file(kraken_c_output_name, c_code)
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write_file(kraken_c_output_name, C_str)
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if (compile_c) {
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var compile_string = "cc -g " + opt_str + " -Wno-int-to-pointer-cast -Wno-pointer-to-int-cast -Wno-incompatible-pointer-types -std=c99 " + c_flags + " " + kraken_c_output_name + " -o " + executable_name
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@@ -326,7 +335,11 @@ fun syntax_to_ast(file_name: str, syntax: *tree<symbol>, import_paths: ref vec<s
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return _case(s->children.map(syntax_to_ast_helper))
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}))
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} else if (syntax->data.name == "declaration_statement") {
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var children = vec(_identifier(concat(get_node("identifier", syntax)), parse_type(get_node("type", syntax))))
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var t = type(base_type::_unknown(), 0, false)
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var type_syntax = get_node("type", syntax)
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if type_syntax != null<tree<symbol>>()
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t = parse_type(type_syntax)
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var children = vec(_identifier(concat(get_node("identifier", syntax)), t))
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children += get_nodes("boolean_expression", syntax).map(syntax_to_ast_helper)
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return _declaration(children)
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} else if (syntax->data.name == "assignment_statement")
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@@ -377,10 +390,6 @@ fun syntax_to_ast(file_name: str, syntax: *tree<symbol>, import_paths: ref vec<s
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return null<tree<ast>>()
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}
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var result = _translation_unit(file_name, syntax->children.map(syntax_to_ast_helper))
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printlnerr("made")
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print_tree(result, 1)
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printlnerr("from")
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print_tree(syntax, 1)
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return result
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}
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fun print_tree<T>(t: *tree<T>, level: int) {
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@@ -11,7 +11,6 @@ import symbol:*
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import ast_nodes:*
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// for error with syntax tree
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import pass_common:*
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import poset:*
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fun type_size(t: *type): ulong
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return type_size_and_alignment(t).first
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@@ -177,22 +177,22 @@ obj c_generator (Object) {
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match (*node) {
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ast_node::function(backing) generate_function_definition(node)
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ast_node::type_def(backing) {
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type_poset.add_vertex(node)
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type_poset.add_job(node)
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backing.variables.for_each(fun(i: *ast_node) {
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var var_type = get_ast_type(i->declaration_statement.identifier)
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if (!var_type->indirection && var_type->type_def)
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type_poset.add_relationship(node, var_type->type_def)
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type_poset.add_open_dep(node, var_type->type_def)
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})
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}
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}
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})
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}
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ast_node::type_def(backing) {
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type_poset.add_vertex(child)
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type_poset.add_job(child)
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backing.variables.for_each(fun(i: *ast_node) {
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var var_type = get_ast_type(i->declaration_statement.identifier)
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if (!var_type->indirection && var_type->type_def)
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type_poset.add_relationship(child, var_type->type_def)
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type_poset.add_open_dep(child, var_type->type_def)
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})
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}
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ast_node::adt_def(backing) error("ADT remaining!")
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@@ -111,5 +111,9 @@ obj map<T,U> (Object, Serializable) {
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for (var i = 0; i < keys.size; i++;)
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func(keys[i], values[i])
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}
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fun for_each(func: fun(ref T, ref U):void) {
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for (var i = 0; i < keys.size; i++;)
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func(keys[i], values[i])
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}
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}
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@@ -10,98 +10,81 @@ fun poset<T>(): poset<T> {
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}
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obj poset<T> (Object) {
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var adj_matrix: map<T, set<T>>
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var open_deps: map<T, set<T>>
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var close_deps: map<T, set<T>>
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var opened: set<T>
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var closed: set<T>
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fun construct(): *poset<T> {
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adj_matrix.construct()
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open_deps.construct()
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close_deps.construct()
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opened.construct()
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closed.construct()
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return this
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}
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fun copy_construct(old: *poset<T>) {
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adj_matrix.copy_construct(&old->adj_matrix)
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open_deps.copy_construct(&old->open_deps)
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close_deps.copy_construct(&old->close_deps)
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opened.copy_construct(&old->opened)
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closed.copy_construct(&old->closed)
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}
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fun operator=(other: ref poset<T>) {
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destruct()
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copy_construct(&other)
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}
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fun destruct() {
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adj_matrix.destruct()
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open_deps.destruct()
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close_deps.destruct()
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opened.destruct()
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closed.destruct()
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}
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fun size(): int {
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return adj_matrix.size()
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return open_deps.size()
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}
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fun add_relationship(first: T, second: T) {
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if (!adj_matrix.contains_key(first))
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add_vertex(first)
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if (!adj_matrix.contains_key(second))
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add_vertex(second)
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adj_matrix[first].add(second)
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fun add_open_dep(first: T, second: T) {
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add_job(first)
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add_job(second)
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open_deps[first].add(second)
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}
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fun add_vertex(vertex: T) {
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if (adj_matrix.contains_key(vertex))
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fun add_close_dep(first: T, second: T) {
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add_job(first)
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add_job(second)
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close_deps[first].add(second)
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}
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fun add_job(vertex: T) {
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if (open_deps.contains_key(vertex))
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return;
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adj_matrix.set(vertex, set<T>())
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open_deps.set(vertex, set<T>())
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close_deps.set(vertex, set<T>())
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}
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fun get_depends_on(vertex: T): set<T> {
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var depends_on = set<T>()
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adj_matrix.for_each(fun(key: T, value: set<T>) {
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if (value.contains(vertex))
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depends_on.add(key)
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})
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return depends_on
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fun done(job: T): bool {
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return closed.contains(job)
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}
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fun top(): T {
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for (var i = 0; i < adj_matrix.keys.size; i++;) {
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if (adj_matrix.values[i].size() == 0) {
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return adj_matrix.keys[i]
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}
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}
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error("Nothing to top")
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}
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fun remove(x: ref T) {
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var dependencies = adj_matrix.get_ptr_or_null(x)
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if (dependencies == null<set<T>>())
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error("Trying to remove item from poset that doesn't contain it!")
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if (dependencies->size() != 0)
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error("Trying to remove item from poset that still has dependencies on it!")
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for (var j = 0; j < adj_matrix.keys.size; j++;) {
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// remove is ok if it doesn't exist
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adj_matrix.values[j].remove(x)
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}
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adj_matrix.remove(x)
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}
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fun pop(): T {
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for (var i = 0; i < adj_matrix.keys.size; i++;) {
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if (adj_matrix.values[i].size() == 0) {
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var to_ret = adj_matrix.keys[i]
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for (var j = 0; j < adj_matrix.keys.size; j++;) {
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// remove is ok if it doesn't exist
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/*if (adj_matrix.values[i].contains(to_ret)) {*/
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adj_matrix.values[j].remove(to_ret)
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/*}*/
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fun run(f: fun(T): void) {
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opened = set<T>()
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closed = set<T>()
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while closed.size() != size() {
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// intentionally not refs, as it can change out from under us
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open_deps.for_each(fun(v: T, ods: set<T>) {
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if !closed.contains(v) && closed.contains(ods) {
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if !opened.contains(v) {
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f(v)
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if closed.contains(open_deps[v]) {
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opened.add(v)
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}
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}
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if closed.contains(open_deps[v]) && closed.contains(close_deps[v]) {
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closed.add(v)
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}
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}
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adj_matrix.remove(to_ret)
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return to_ret
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}
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}
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error("Nothing to pop")
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}
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fun get_sorted(): vec<T> {
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var sorted = vec<T>()
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var to_do = queue<T>()
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// because we're going to destructivly update
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var temp_adj_matrix = adj_matrix
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temp_adj_matrix.for_each(fun(key: T, value: set<T>)
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if (temp_adj_matrix[key].size() == 0) to_do.push(key);)
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while (!to_do.empty()) {
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var current = to_do.pop()
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sorted.add(current)
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get_depends_on(current).for_each(fun(vert: T) {
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temp_adj_matrix[vert].remove(current)
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if (temp_adj_matrix[vert].size() == 0)
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to_do.push(vert)
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})
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}
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return sorted
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}
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fun get_sorted(): vec<T> {
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var to_ret = vec<T>()
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run(fun(i: T) {
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to_ret.add(i)
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})
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return to_ret
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}
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}
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