diff options
| author | Ginger Bill <github@gingerbill.org> | 2016-10-26 15:05:41 +0100 |
|---|---|---|
| committer | Ginger Bill <github@gingerbill.org> | 2016-10-26 15:05:41 +0100 |
| commit | aed7a83f5b8e812b3c2c31bdf745a3107da80190 (patch) | |
| tree | e05d17f33801c8982d019ee56dd596d36f4e305a /src/codegen | |
| parent | 6996df410456292b358b8deaabd5ba2aea7af069 (diff) | |
Code reorganization - Separate files and slice refactoring
Diffstat (limited to 'src/codegen')
| -rw-r--r-- | src/codegen/codegen.cpp | 687 | ||||
| -rw-r--r-- | src/codegen/print_llvm.cpp | 1270 | ||||
| -rw-r--r-- | src/codegen/ssa.cpp | 4875 | ||||
| -rw-r--r-- | src/codegen/value.cpp | 0 |
4 files changed, 0 insertions, 6832 deletions
diff --git a/src/codegen/codegen.cpp b/src/codegen/codegen.cpp deleted file mode 100644 index a6d6b404c..000000000 --- a/src/codegen/codegen.cpp +++ /dev/null @@ -1,687 +0,0 @@ -#include "ssa.cpp" -#include "print_llvm.cpp" - -struct ssaGen { - ssaModule module; - gbFile output_file; -}; - -b32 ssa_gen_init(ssaGen *s, Checker *c) { - if (global_error_collector.count != 0) { - return false; - } - - isize tc = c->parser->total_token_count; - if (tc < 2) { - return false; - } - - ssa_init_module(&s->module, c); - s->module.generate_debug_info = false; - - // TODO(bill): generate appropriate output name - int pos = cast(int)string_extension_position(c->parser->init_fullpath); - gbFileError err = gb_file_create(&s->output_file, gb_bprintf("%.*s.ll", pos, c->parser->init_fullpath.text)); - if (err != gbFileError_None) { - return false; - } - - return true; -} - -void ssa_gen_destroy(ssaGen *s) { - ssa_destroy_module(&s->module); - gb_file_close(&s->output_file); -} - -String ssa_mangle_name(ssaGen *s, String path, String name) { - // NOTE(bill): prefix names not in the init scope - // TODO(bill): make robust and not just rely on the file's name - - ssaModule *m = &s->module; - CheckerInfo *info = m->info; - gbAllocator a = m->allocator; - AstFile *file = *map_get(&info->files, hash_string(path)); - - char *str = gb_alloc_array(a, char, path.len+1); - gb_memmove(str, path.text, path.len); - str[path.len] = 0; - for (isize i = 0; i < path.len; i++) { - if (str[i] == '\\') { - str[i] = '/'; - } - } - - char const *base = gb_path_base_name(str); - char const *ext = gb_path_extension(base); - isize base_len = ext-1-base; - - isize max_len = base_len + 1 + 10 + 1 + name.len; - u8 *new_name = gb_alloc_array(a, u8, max_len); - isize new_name_len = gb_snprintf( - cast(char *)new_name, max_len, - "%.*s-%u.%.*s", - cast(int)base_len, base, - file->id, - LIT(name)); - - return make_string(new_name, new_name_len-1); -} - - -void ssa_gen_tree(ssaGen *s) { - ssaModule *m = &s->module; - CheckerInfo *info = m->info; - gbAllocator a = m->allocator; - - if (v_zero == NULL) { - v_zero = ssa_make_const_int (m->allocator, 0); - v_one = ssa_make_const_int (m->allocator, 1); - v_zero32 = ssa_make_const_i32 (m->allocator, 0); - v_one32 = ssa_make_const_i32 (m->allocator, 1); - v_two32 = ssa_make_const_i32 (m->allocator, 2); - v_false = ssa_make_const_bool(m->allocator, false); - v_true = ssa_make_const_bool(m->allocator, true); - } - - isize global_variable_max_count = 0; - Entity *entry_point = NULL; - - for_array(i, info->entities.entries) { - auto *entry = &info->entities.entries[i]; - Entity *e = cast(Entity *)cast(uintptr)entry->key.key; - String name = e->token.string; - if (e->kind == Entity_Variable) { - global_variable_max_count++; - } else if (e->kind == Entity_Procedure) { - if (e->scope->is_init && name == "main") { - entry_point = e; - } - } - } - - struct ssaGlobalVariable { - ssaValue *var, *init; - DeclInfo *decl; - }; - Array<ssaGlobalVariable> global_variables; - array_init(&global_variables, m->tmp_allocator, global_variable_max_count); - - auto min_dep_map = generate_minimum_dependency_map(info, entry_point); - defer (map_destroy(&min_dep_map)); - - for_array(i, info->entities.entries) { - auto *entry = &info->entities.entries[i]; - Entity *e = cast(Entity *)cast(uintptr)entry->key.key; - String name = e->token.string; - DeclInfo *decl = entry->value; - Scope *scope = e->scope; - - if (!scope->is_file) { - continue; - } - - if (map_get(&min_dep_map, hash_pointer(e)) == NULL) { - // NOTE(bill): Nothing depends upon it so doesn't need to be built - continue; - } - - if (!scope->is_global && !scope->is_init) { - name = ssa_mangle_name(s, e->token.pos.file, name); - } - - - switch (e->kind) { - case Entity_TypeName: - GB_ASSERT(e->type->kind == Type_Named); - map_set(&m->type_names, hash_pointer(e->type), name); - ssa_gen_global_type_name(m, e, name); - break; - - case Entity_Variable: { - ssaValue *g = ssa_make_value_global(a, e, NULL); - if (decl->var_decl_tags & VarDeclTag_thread_local) { - g->Global.is_thread_local = true; - } - ssaGlobalVariable var = {}; - var.var = g; - var.decl = decl; - - if (decl->init_expr != NULL) { - TypeAndValue *tav = map_get(&info->types, hash_pointer(decl->init_expr)); - if (tav != NULL) { - if (tav->value.kind != ExactValue_Invalid) { - ExactValue v = tav->value; - if (v.kind != ExactValue_String) { - g->Global.value = ssa_add_module_constant(m, tav->type, v); - } - } - } - } - - if (g->Global.value == NULL) { - array_add(&global_variables, var); - } - - map_set(&m->values, hash_pointer(e), g); - map_set(&m->members, hash_string(name), g); - } break; - - case Entity_Procedure: { - auto *pd = &decl->proc_decl->ProcDecl; - String original_name = name; - AstNode *body = pd->body; - if (pd->tags & ProcTag_foreign) { - name = pd->name->Ident.string; - } - if (pd->foreign_name.len > 0) { - name = pd->foreign_name; - } else if (pd->link_name.len > 0) { - name = pd->link_name; - } - - ssaValue *p = ssa_make_value_procedure(a, m, e, e->type, decl->type_expr, body, name); - p->Proc.tags = pd->tags; - - map_set(&m->values, hash_pointer(e), p); - HashKey hash_name = hash_string(name); - if (map_get(&m->members, hash_name) == NULL) { - map_set(&m->members, hash_name, p); - } - } break; - } - } - - for_array(i, m->members.entries) { - auto *entry = &m->members.entries[i]; - ssaValue *v = entry->value; - if (v->kind == ssaValue_Proc) - ssa_build_proc(v, NULL); - } - - ssaDebugInfo *compile_unit = m->debug_info.entries[0].value; - GB_ASSERT(compile_unit->kind == ssaDebugInfo_CompileUnit); - ssaDebugInfo *all_procs = ssa_alloc_debug_info(m->allocator, ssaDebugInfo_AllProcs); - - isize all_proc_max_count = 0; - for_array(i, m->debug_info.entries) { - auto *entry = &m->debug_info.entries[i]; - ssaDebugInfo *di = entry->value; - di->id = i; - if (di->kind == ssaDebugInfo_Proc) { - all_proc_max_count++; - } - } - - array_init(&all_procs->AllProcs.procs, m->allocator, all_proc_max_count); - map_set(&m->debug_info, hash_pointer(all_procs), all_procs); // NOTE(bill): This doesn't need to be mapped - compile_unit->CompileUnit.all_procs = all_procs; - - - for_array(i, m->debug_info.entries) { - auto *entry = &m->debug_info.entries[i]; - ssaDebugInfo *di = entry->value; - di->id = i; - if (di->kind == ssaDebugInfo_Proc) { - array_add(&all_procs->AllProcs.procs, di); - } - } - - - { // Startup Runtime - // Cleanup(bill): probably better way of doing code insertion - String name = make_string(SSA_STARTUP_RUNTIME_PROC_NAME); - Type *proc_type = make_type_proc(a, gb_alloc_item(a, Scope), - NULL, 0, - NULL, 0, false); - AstNode *body = gb_alloc_item(a, AstNode); - ssaValue *p = ssa_make_value_procedure(a, m, NULL, proc_type, NULL, body, name); - Token token = {}; - token.string = name; - Entity *e = make_entity_procedure(a, NULL, token, proc_type); - - map_set(&m->values, hash_pointer(e), p); - map_set(&m->members, hash_string(name), p); - - ssaProcedure *proc = &p->Proc; - proc->tags = ProcTag_no_inline; // TODO(bill): is no_inline a good idea? - - ssa_begin_procedure_body(proc); - - // TODO(bill): Should do a dependency graph do check which order to initialize them in? - for_array(i, global_variables) { - ssaGlobalVariable *var = &global_variables[i]; - if (var->decl->init_expr != NULL) { - var->init = ssa_build_expr(proc, var->decl->init_expr); - } - } - - // NOTE(bill): Initialize constants first - for_array(i, global_variables) { - ssaGlobalVariable *var = &global_variables[i]; - if (var->init != NULL) { - if (var->init->kind == ssaValue_Constant) { - ssa_emit_store(proc, var->var, var->init); - } - } - } - - for_array(i, global_variables) { - ssaGlobalVariable *var = &global_variables[i]; - if (var->init != NULL) { - if (var->init->kind != ssaValue_Constant) { - ssa_emit_store(proc, var->var, var->init); - } - } - } - - { // NOTE(bill): Setup type_info data - // TODO(bill): Try and make a lot of this constant aggregate literals in LLVM IR - ssaValue *type_info_data = NULL; - ssaValue *type_info_member_data = NULL; - - ssaValue **found = NULL; - found = map_get(&proc->module->members, hash_string(make_string(SSA_TYPE_INFO_DATA_NAME))); - GB_ASSERT(found != NULL); - type_info_data = *found; - - found = map_get(&proc->module->members, hash_string(make_string(SSA_TYPE_INFO_DATA_MEMBER_NAME))); - GB_ASSERT(found != NULL); - type_info_member_data = *found; - - CheckerInfo *info = proc->module->info; - - // Useful types - Type *t_i64_slice_ptr = make_type_pointer(a, make_type_slice(a, t_i64)); - Type *t_string_slice_ptr = make_type_pointer(a, make_type_slice(a, t_string)); - - auto get_type_info_ptr = [](ssaProcedure *proc, ssaValue *type_info_data, Type *type) -> ssaValue * { - return ssa_emit_array_ep(proc, type_info_data, cast(i32)ssa_type_info_index(proc->module->info, type)); - }; - - i32 type_info_member_index = 0; - - auto type_info_member_offset = [](ssaProcedure *proc, ssaValue *data, isize count, i32 *index) -> ssaValue * { - ssaValue *offset = ssa_emit_array_ep(proc, data, *index); - *index += count; - return offset; - }; - - - - for_array(type_info_map_index, info->type_info_map.entries) { - auto *entry = &info->type_info_map.entries[type_info_map_index]; - Type *t = cast(Type *)cast(uintptr)entry->key.key; - t = default_type(t); - isize entry_index = entry->value; - - ssaValue *tag = NULL; - - switch (t->kind) { - case Type_Named: { - tag = ssa_add_local_generated(proc, t_type_info_named); - - // TODO(bill): Which is better? The mangled name or actual name? - // ssaValue *gsa = ssa_add_global_string_array(proc, make_exact_value_string(t->Named.name)); - ssaValue *gsa = ssa_add_global_string_array(m, t->Named.type_name->token.string); - ssaValue *elem = ssa_array_elem(proc, gsa); - ssaValue *len = ssa_array_len(proc, ssa_emit_load(proc, gsa)); - ssaValue *name = ssa_emit_string(proc, elem, len); - - ssaValue *gep = get_type_info_ptr(proc, type_info_data, t->Named.base); - - ssa_emit_store(proc, ssa_emit_struct_ep(proc, tag, 0), name); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, tag, 1), gep); - } break; - - case Type_Basic: - switch (t->Basic.kind) { - case Basic_bool: - tag = ssa_add_local_generated(proc, t_type_info_boolean); - break; - case Basic_i8: - case Basic_i16: - case Basic_i32: - case Basic_i64: - case Basic_u8: - case Basic_u16: - case Basic_u32: - case Basic_u64: - case Basic_int: - case Basic_uint: { - tag = ssa_add_local_generated(proc, t_type_info_integer); - b32 is_unsigned = (t->Basic.flags & BasicFlag_Unsigned) != 0; - ssaValue *bits = ssa_make_const_int(a, type_size_of(m->sizes, a, t)); - ssaValue *is_signed = ssa_make_const_bool(a, !is_unsigned); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, tag, 0), bits); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, tag, 1), is_signed); - } break; - - case Basic_f32: - case Basic_f64: { - tag = ssa_add_local_generated(proc, t_type_info_float); - ssaValue *bits = ssa_make_const_int(a, type_size_of(m->sizes, a, t)); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, tag, 0), bits); - } break; - - case Basic_rawptr: - tag = ssa_add_local_generated(proc, t_type_info_pointer); - break; - - case Basic_string: - tag = ssa_add_local_generated(proc, t_type_info_string); - break; - - case Basic_any: - tag = ssa_add_local_generated(proc, t_type_info_any); - break; - } - break; - - case Type_Pointer: { - tag = ssa_add_local_generated(proc, t_type_info_pointer); - ssaValue *gep = get_type_info_ptr(proc, type_info_data, t->Pointer.elem); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, tag, 0), gep); - } break; - case Type_Maybe: { - tag = ssa_add_local_generated(proc, t_type_info_maybe); - ssaValue *gep = get_type_info_ptr(proc, type_info_data, t->Maybe.elem); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, tag, 0), gep); - } break; - case Type_Array: { - tag = ssa_add_local_generated(proc, t_type_info_array); - ssaValue *gep = get_type_info_ptr(proc, type_info_data, t->Array.elem); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, tag, 0), gep); - - isize ez = type_size_of(m->sizes, a, t->Array.elem); - ssaValue *elem_size = ssa_emit_struct_ep(proc, tag, 1); - ssa_emit_store(proc, elem_size, ssa_make_const_int(a, ez)); - - ssaValue *count = ssa_emit_struct_ep(proc, tag, 2); - ssa_emit_store(proc, count, ssa_make_const_int(a, t->Array.count)); - - } break; - case Type_Slice: { - tag = ssa_add_local_generated(proc, t_type_info_slice); - ssaValue *gep = get_type_info_ptr(proc, type_info_data, t->Slice.elem); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, tag, 0), gep); - - isize ez = type_size_of(m->sizes, a, t->Slice.elem); - ssaValue *elem_size = ssa_emit_struct_ep(proc, tag, 1); - ssa_emit_store(proc, elem_size, ssa_make_const_int(a, ez)); - - } break; - case Type_Vector: { - tag = ssa_add_local_generated(proc, t_type_info_vector); - ssaValue *gep = get_type_info_ptr(proc, type_info_data, t->Vector.elem); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, tag, 0), gep); - - isize ez = type_size_of(m->sizes, a, t->Vector.elem); - ssaValue *elem_size = ssa_emit_struct_ep(proc, tag, 1); - ssa_emit_store(proc, elem_size, ssa_make_const_int(a, ez)); - - ssaValue *count = ssa_emit_struct_ep(proc, tag, 2); - ssa_emit_store(proc, count, ssa_make_const_int(a, t->Vector.count)); - - } break; - case Type_Record: { - switch (t->Record.kind) { - case TypeRecord_Struct: { - tag = ssa_add_local_generated(proc, t_type_info_struct); - - { - ssaValue *packed = ssa_make_const_bool(a, t->Record.struct_is_packed); - ssaValue *ordered = ssa_make_const_bool(a, t->Record.struct_is_ordered); - ssaValue *size = ssa_make_const_int(a, type_size_of(m->sizes, a, t)); - ssaValue *align = ssa_make_const_int(a, type_align_of(m->sizes, a, t)); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, tag, 1), size); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, tag, 2), align); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, tag, 3), packed); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, tag, 4), ordered); - } - - ssaValue *memory = type_info_member_offset(proc, type_info_member_data, t->Record.field_count, &type_info_member_index); - - type_set_offsets(m->sizes, a, t); // NOTE(bill): Just incase the offsets have not been set yet - for (isize source_index = 0; source_index < t->Record.field_count; source_index++) { - // TODO(bill): Order fields in source order not layout order - Entity *f = t->Record.fields_in_src_order[source_index]; - ssaValue *tip = get_type_info_ptr(proc, type_info_data, f->type); - i64 foffset = t->Record.struct_offsets[f->Variable.field_index]; - GB_ASSERT(f->kind == Entity_Variable && f->Variable.field); - - ssaValue *field = ssa_emit_ptr_offset(proc, memory, ssa_make_const_int(a, source_index)); - ssaValue *name = ssa_emit_struct_ep(proc, field, 0); - ssaValue *type_info = ssa_emit_struct_ep(proc, field, 1); - ssaValue *offset = ssa_emit_struct_ep(proc, field, 2); - - if (f->token.string.len > 0) { - ssa_emit_store(proc, name, ssa_emit_global_string(proc, f->token.string)); - } - ssa_emit_store(proc, type_info, tip); - ssa_emit_store(proc, offset, ssa_make_const_int(a, foffset)); - } - - Type *slice_type = make_type_slice(a, t_type_info_member); - Type *slice_type_ptr = make_type_pointer(a, slice_type); - ssaValue *slice = ssa_emit_struct_ep(proc, tag, 0); - ssaValue *field_count = ssa_make_const_int(a, t->Record.field_count); - - ssaValue *elem = ssa_emit_struct_ep(proc, slice, 0); - ssaValue *len = ssa_emit_struct_ep(proc, slice, 1); - ssaValue *cap = ssa_emit_struct_ep(proc, slice, 2); - - ssa_emit_store(proc, elem, memory); - ssa_emit_store(proc, len, field_count); - ssa_emit_store(proc, cap, field_count); - } break; - case TypeRecord_Union: - tag = ssa_add_local_generated(proc, t_type_info_union); - { - ssaValue *size = ssa_make_const_int(a, type_size_of(m->sizes, a, t)); - ssaValue *align = ssa_make_const_int(a, type_align_of(m->sizes, a, t)); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, tag, 1), size); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, tag, 2), align); - } - break; - case TypeRecord_RawUnion: { - tag = ssa_add_local_generated(proc, t_type_info_raw_union); - { - ssaValue *size = ssa_make_const_int(a, type_size_of(m->sizes, a, t)); - ssaValue *align = ssa_make_const_int(a, type_align_of(m->sizes, a, t)); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, tag, 1), size); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, tag, 2), align); - } - - ssaValue *memory = type_info_member_offset(proc, type_info_member_data, t->Record.field_count, &type_info_member_index); - - for (isize i = 0; i < t->Record.field_count; i++) { - ssaValue *field = ssa_emit_ptr_offset(proc, memory, ssa_make_const_int(a, i)); - ssaValue *name = ssa_emit_struct_ep(proc, field, 0); - ssaValue *type_info = ssa_emit_struct_ep(proc, field, 1); - ssaValue *offset = ssa_emit_struct_ep(proc, field, 2); - - Entity *f = t->Record.fields[i]; - ssaValue *tip = get_type_info_ptr(proc, type_info_data, f->type); - - if (f->token.string.len > 0) { - ssa_emit_store(proc, name, ssa_emit_global_string(proc, f->token.string)); - } - ssa_emit_store(proc, type_info, tip); - ssa_emit_store(proc, offset, ssa_make_const_int(a, 0)); - } - - Type *slice_type = make_type_slice(a, t_type_info_member); - Type *slice_type_ptr = make_type_pointer(a, slice_type); - ssaValue *slice = ssa_emit_struct_ep(proc, tag, 0); - ssaValue *field_count = ssa_make_const_int(a, t->Record.field_count); - - ssaValue *elem = ssa_emit_struct_ep(proc, slice, 0); - ssaValue *len = ssa_emit_struct_ep(proc, slice, 1); - ssaValue *cap = ssa_emit_struct_ep(proc, slice, 2); - - ssa_emit_store(proc, elem, memory); - ssa_emit_store(proc, len, field_count); - ssa_emit_store(proc, cap, field_count); - } break; - case TypeRecord_Enum: { - tag = ssa_add_local_generated(proc, t_type_info_enum); - Type *enum_base = t->Record.enum_base; - if (enum_base == NULL) { - enum_base = t_int; - } - ssaValue *base = ssa_emit_struct_ep(proc, tag, 0); - ssa_emit_store(proc, base, get_type_info_ptr(proc, type_info_data, enum_base)); - - if (t->Record.other_field_count > 0) { - Entity **fields = t->Record.other_fields; - isize count = t->Record.other_field_count; - ssaValue *value_array = NULL; - ssaValue *name_array = NULL; - - - { - Token token = {Token_Identifier}; - i32 id = cast(i32)entry_index; - char name_base[] = "__$enum_values"; - isize name_len = gb_size_of(name_base) + 10; - token.string.text = gb_alloc_array(a, u8, name_len); - token.string.len = gb_snprintf(cast(char *)token.string.text, name_len, - "%s-%d", name_base, id)-1; - Entity *e = make_entity_variable(a, NULL, token, make_type_array(a, t_i64, count)); - value_array = ssa_make_value_global(a, e, NULL); - value_array->Global.is_private = true; - ssa_module_add_value(m, e, value_array); - map_set(&m->members, hash_string(token.string), value_array); - } - { - Token token = {Token_Identifier}; - i32 id = cast(i32)entry_index; - char name_base[] = "__$enum_names"; - isize name_len = gb_size_of(name_base) + 10; - token.string.text = gb_alloc_array(a, u8, name_len); - token.string.len = gb_snprintf(cast(char *)token.string.text, name_len, - "%s-%d", name_base, id)-1; - Entity *e = make_entity_variable(a, NULL, token, make_type_array(a, t_string, count)); - name_array = ssa_make_value_global(a, e, NULL); - name_array->Global.is_private = true; - ssa_module_add_value(m, e, name_array); - map_set(&m->members, hash_string(token.string), name_array); - } - - for (isize i = 0; i < count; i++) { - ssaValue *value_gep = ssa_emit_struct_ep(proc, value_array, i); - ssaValue *name_gep = ssa_emit_struct_ep(proc, name_array, i); - - ssa_emit_store(proc, value_gep, ssa_make_const_i64(a, fields[i]->Constant.value.value_integer)); - ssa_emit_store(proc, name_gep, ssa_emit_global_string(proc, fields[i]->token.string)); - } - - ssaValue *v_count = ssa_make_const_int(a, count); - - - ssaValue *values = ssa_emit_struct_ep(proc, tag, 1); - ssaValue *names = ssa_emit_struct_ep(proc, tag, 2); - ssaValue *value_slice = ssa_add_local_generated(proc, type_deref(t_i64_slice_ptr)); - ssaValue *name_slice = ssa_add_local_generated(proc, type_deref(t_string_slice_ptr)); - - ssa_emit_store(proc, ssa_emit_struct_ep(proc, value_slice, 0), ssa_array_elem(proc, value_array)); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, value_slice, 1), v_count); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, value_slice, 2), v_count); - - ssa_emit_store(proc, ssa_emit_struct_ep(proc, name_slice, 0), ssa_array_elem(proc, name_array)); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, name_slice, 1), v_count); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, name_slice, 2), v_count); - - ssa_emit_store(proc, values, ssa_emit_load(proc, value_slice)); - ssa_emit_store(proc, names, ssa_emit_load(proc, name_slice)); - } - } break; - } - } break; - - case Type_Tuple: { - tag = ssa_add_local_generated(proc, t_type_info_tuple); - - { - ssaValue *align = ssa_make_const_int(a, type_align_of(m->sizes, a, t)); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, tag, 2), align); - } - - ssaValue *memory = type_info_member_offset(proc, type_info_member_data, t->Tuple.variable_count, &type_info_member_index); - - for (isize i = 0; i < t->Tuple.variable_count; i++) { - ssaValue *field = ssa_emit_ptr_offset(proc, memory, ssa_make_const_int(a, i)); - ssaValue *name = ssa_emit_struct_ep(proc, field, 0); - ssaValue *type_info = ssa_emit_struct_ep(proc, field, 1); - // NOTE(bill): offset is not used for tuples - - Entity *f = t->Tuple.variables[i]; - ssaValue *tip = get_type_info_ptr(proc, type_info_data, f->type); - - if (f->token.string.len > 0) { - ssa_emit_store(proc, name, ssa_emit_global_string(proc, f->token.string)); - } - ssa_emit_store(proc, type_info, tip); - } - - Type *slice_type = make_type_slice(a, t_type_info_member); - Type *slice_type_ptr = make_type_pointer(a, slice_type); - ssaValue *slice = ssa_emit_struct_ep(proc, tag, 0); - ssaValue *variable_count = ssa_make_const_int(a, t->Tuple.variable_count); - - ssaValue *elem = ssa_emit_struct_ep(proc, slice, 0); - ssaValue *len = ssa_emit_struct_ep(proc, slice, 1); - ssaValue *cap = ssa_emit_struct_ep(proc, slice, 2); - - ssa_emit_store(proc, elem, memory); - ssa_emit_store(proc, len, variable_count); - ssa_emit_store(proc, cap, variable_count); - } break; - - case Type_Proc: { - tag = ssa_add_local_generated(proc, t_type_info_procedure); - - ssaValue *params = ssa_emit_struct_ep(proc, tag, 0); - ssaValue *results = ssa_emit_struct_ep(proc, tag, 1); - ssaValue *variadic = ssa_emit_struct_ep(proc, tag, 2); - - if (t->Proc.params) { - ssa_emit_store(proc, params, get_type_info_ptr(proc, type_info_data, t->Proc.params)); - } - if (t->Proc.results) { - ssa_emit_store(proc, results, get_type_info_ptr(proc, type_info_data, t->Proc.results)); - } - ssa_emit_store(proc, variadic, ssa_make_const_bool(a, t->Proc.variadic)); - - // TODO(bill): Type_Info for procedures - } break; - } - - if (tag != NULL) { - ssaValue *gep = ssa_emit_array_ep(proc, type_info_data, entry_index); - ssaValue *val = ssa_emit_conv(proc, ssa_emit_load(proc, tag), t_type_info); - ssa_emit_store(proc, gep, val); - } - } - } - - ssa_end_procedure_body(proc); - } - - for_array(i, m->procs) { - ssa_build_proc(m->procs[i], m->procs[i]->Proc.parent); - } - - - // m->layout = make_string("e-p:64:64:64-i1:8:8-i8:8:8-i16:16:16-i32:32:32-i64:64:64-f32:32:32-f64:64:64-v64:64:64-v128:128:128-a0:0:64-s0:64:64-f80:128:128-n8:16:32:64"); -} - - -void ssa_gen_ir(ssaGen *s) { - ssaFileBuffer buf = {}; - ssa_file_buffer_init(&buf, &s->output_file); - defer (ssa_file_buffer_destroy(&buf)); - - ssa_print_llvm_ir(&buf, &s->module); -} diff --git a/src/codegen/print_llvm.cpp b/src/codegen/print_llvm.cpp deleted file mode 100644 index a1495f302..000000000 --- a/src/codegen/print_llvm.cpp +++ /dev/null @@ -1,1270 +0,0 @@ -struct ssaFileBuffer { - gbVirtualMemory vm; - isize offset; - gbFile *output; -}; - -void ssa_file_buffer_init(ssaFileBuffer *f, gbFile *output) { - isize size = 8*gb_virtual_memory_page_size(NULL); - f->vm = gb_vm_alloc(NULL, size); - f->offset = 0; - f->output = output; -} - -void ssa_file_buffer_destroy(ssaFileBuffer *f) { - if (f->offset > 0) { - // NOTE(bill): finish writing buffered data - gb_file_write(f->output, f->vm.data, f->offset); - } - - gb_vm_free(f->vm); -} - -void ssa_file_buffer_write(ssaFileBuffer *f, void *data, isize len) { - if (len > f->vm.size) { - gb_file_write(f->output, data, len); - return; - } - - if ((f->vm.size - f->offset) < len) { - gb_file_write(f->output, f->vm.data, f->offset); - f->offset = 0; - } - u8 *cursor = cast(u8 *)f->vm.data + f->offset; - gb_memmove(cursor, data, len); - f->offset += len; -} - - -void ssa_fprintf(ssaFileBuffer *f, char *fmt, ...) { - va_list va; - va_start(va, fmt); - char buf[4096] = {}; - isize len = gb_snprintf_va(buf, gb_size_of(buf), fmt, va); - ssa_file_buffer_write(f, buf, len-1); - va_end(va); -} - - -void ssa_file_write(ssaFileBuffer *f, void *data, isize len) { - ssa_file_buffer_write(f, data, len); -} - -b32 ssa_valid_char(u8 c) { - if (c >= 0x80) - return false; - - if (gb_char_is_alphanumeric(c)) - return true; - - switch (c) { - case '$': - case '-': - case '.': - case '_': - return true; - } - - return false; -} - -void ssa_print_escape_string(ssaFileBuffer *f, String name, b32 print_quotes) { - isize extra = 0; - for (isize i = 0; i < name.len; i++) { - u8 c = name.text[i]; - if (!ssa_valid_char(c)) - extra += 2; - } - - if (extra == 0) { - ssa_fprintf(f, "%.*s", LIT(name)); - return; - } - - - char hex_table[] = "0123456789ABCDEF"; - isize buf_len = name.len + extra + 2; - - gbTempArenaMemory tmp = gb_temp_arena_memory_begin(&string_buffer_arena); - defer (gb_temp_arena_memory_end(tmp)); - - u8 *buf = gb_alloc_array(string_buffer_allocator, u8, buf_len); - - isize j = 0; - - if (print_quotes) { - buf[j++] = '"'; - } - - for (isize i = 0; i < name.len; i++) { - u8 c = name.text[i]; - if (ssa_valid_char(c)) { - buf[j++] = c; - } else { - buf[j] = '\\'; - buf[j+1] = hex_table[c >> 4]; - buf[j+2] = hex_table[c & 0x0f]; - j += 3; - } - } - - if (print_quotes) { - buf[j++] = '"'; - } - - ssa_file_write(f, buf, j); -} - - - -void ssa_print_encoded_local(ssaFileBuffer *f, String name) { - ssa_fprintf(f, "%%"); - ssa_print_escape_string(f, name, true); -} - -void ssa_print_encoded_global(ssaFileBuffer *f, String name, b32 global_scope) { - ssa_fprintf(f, "@"); - if (!global_scope && name != make_string("main")) { - ssa_fprintf(f, "."); - } - ssa_print_escape_string(f, name, true); -} - - -void ssa_print_type(ssaFileBuffer *f, ssaModule *m, Type *t) { - BaseTypeSizes s = m->sizes; - i64 word_bits = 8*s.word_size; - GB_ASSERT_NOT_NULL(t); - t = default_type(t); - - switch (t->kind) { - case Type_Basic: - switch (t->Basic.kind) { - case Basic_bool: ssa_fprintf(f, "i1"); break; - case Basic_i8: ssa_fprintf(f, "i8"); break; - case Basic_i16: ssa_fprintf(f, "i16"); break; - case Basic_i32: ssa_fprintf(f, "i32"); break; - case Basic_i64: ssa_fprintf(f, "i64"); break; - case Basic_u8: ssa_fprintf(f, "i8"); break; - case Basic_u16: ssa_fprintf(f, "i16"); break; - case Basic_u32: ssa_fprintf(f, "i32"); break; - case Basic_u64: ssa_fprintf(f, "i64"); break; - case Basic_f32: ssa_fprintf(f, "float"); break; - case Basic_f64: ssa_fprintf(f, "double"); break; - case Basic_rawptr: ssa_fprintf(f, "%%..rawptr"); break; - case Basic_string: ssa_fprintf(f, "%%..string"); break; - case Basic_uint: ssa_fprintf(f, "i%lld", word_bits); break; - case Basic_int: ssa_fprintf(f, "i%lld", word_bits); break; - case Basic_any: ssa_fprintf(f, "%%..any"); break; - } - break; - case Type_Pointer: - ssa_print_type(f, m, t->Pointer.elem); - ssa_fprintf(f, "*"); - break; - case Type_Maybe: - ssa_fprintf(f, "{"); - ssa_print_type(f, m, t->Maybe.elem); - ssa_fprintf(f, ", "); - ssa_print_type(f, m, t_bool); - ssa_fprintf(f, "}"); - break; - case Type_Array: - ssa_fprintf(f, "[%lld x ", t->Array.count); - ssa_print_type(f, m, t->Array.elem); - ssa_fprintf(f, "]"); - break; - case Type_Vector: - ssa_fprintf(f, "<%lld x ", t->Vector.count); - ssa_print_type(f, m, t->Vector.elem); - ssa_fprintf(f, ">"); - break; - case Type_Slice: - ssa_fprintf(f, "{"); - ssa_print_type(f, m, t->Slice.elem); - ssa_fprintf(f, "*, i%lld, i%lld}", word_bits, word_bits); - break; - case Type_Record: { - switch (t->Record.kind) { - case TypeRecord_Struct: - if (t->Record.struct_is_packed) { - ssa_fprintf(f, "<"); - } - ssa_fprintf(f, "{"); - for (isize i = 0; i < t->Record.field_count; i++) { - if (i > 0) { - ssa_fprintf(f, ", "); - } - Type *ft = t->Record.fields[i]->type; - Type *bft = base_type(ft); - if (!is_type_struct(bft)) { - ft = bft; - } - ssa_print_type(f, m, ft); - } - ssa_fprintf(f, "}"); - if (t->Record.struct_is_packed) { - ssa_fprintf(f, ">"); - } - break; - case TypeRecord_Union: { - i64 size_of_union = type_size_of(s, heap_allocator(), t) - s.word_size; - ssa_fprintf(f, "{[%lld x i8], i%lld}", size_of_union, word_bits); - } break; - case TypeRecord_RawUnion: - ssa_fprintf(f, "[%lld x i8]", type_size_of(s, heap_allocator(), t)); - break; - case TypeRecord_Enum: - ssa_print_type(f, m, t->Record.enum_base); - break; - } - } break; - - - case Type_Named: - if (is_type_struct(t) || is_type_union(t)) { - String *name = map_get(&m->type_names, hash_pointer(t)); - GB_ASSERT(name != NULL); - ssa_print_encoded_local(f, *name); - // ssa_print_encoded_local(f, t->Named.name); - } else { - ssa_print_type(f, m, base_type(t)); - } - break; - case Type_Tuple: - if (t->Tuple.variable_count == 1) { - ssa_print_type(f, m, t->Tuple.variables[0]->type); - } else { - ssa_fprintf(f, "{"); - for (isize i = 0; i < t->Tuple.variable_count; i++) { - if (i > 0) ssa_fprintf(f, ", "); - ssa_print_type(f, m, t->Tuple.variables[i]->type); - } - ssa_fprintf(f, "}"); - } - break; - case Type_Proc: { - if (t->Proc.result_count == 0) { - ssa_fprintf(f, "void"); - } else { - ssa_print_type(f, m, t->Proc.results); - } - ssa_fprintf(f, " ("); - auto *params = &t->Proc.params->Tuple; - for (isize i = 0; i < t->Proc.param_count; i++) { - if (i > 0) { - ssa_fprintf(f, ", "); - } - ssa_print_type(f, m, params->variables[i]->type); - } - ssa_fprintf(f, ")*"); - } break; - } -} - -void ssa_print_exact_value(ssaFileBuffer *f, ssaModule *m, ExactValue value, Type *type); - -void ssa_print_compound_element(ssaFileBuffer *f, ssaModule *m, ExactValue v, Type *elem_type) { - ssa_print_type(f, m, elem_type); - ssa_fprintf(f, " "); - - if (v.kind != ExactValue_Invalid && is_type_maybe(elem_type)) { - Type *t = base_type(elem_type)->Maybe.elem; - ssa_fprintf(f, "{"); - ssa_print_type(f, m, t); - ssa_fprintf(f, " "); - } - - if (v.kind == ExactValue_Invalid || base_type(elem_type) == t_any) { - ssa_fprintf(f, "zeroinitializer"); - } else if (v.kind == ExactValue_String) { - // HACK NOTE(bill): This is a hack but it works because strings are created at the very end - // of the .ll file - ssaValue *str_array = ssa_add_global_string_array(m, v.value_string); - - ssa_fprintf(f, "{i8* getelementptr inbounds ("); - ssa_print_type(f, m, str_array->Global.entity->type); - ssa_fprintf(f, ", "); - ssa_print_type(f, m, str_array->Global.entity->type); - ssa_fprintf(f, "* "); - ssa_print_encoded_global(f, str_array->Global.entity->token.string, false); - ssa_fprintf(f, ", "); - ssa_print_type(f, m, t_int); - ssa_fprintf(f, " 0, i32 0), "); - ssa_print_type(f, m, t_int); - ssa_fprintf(f, " %lld}", cast(i64)v.value_string.len); - - } else { - ssa_print_exact_value(f, m, v, elem_type); - } - - if (v.kind != ExactValue_Invalid && is_type_maybe(elem_type)) { - ssa_fprintf(f, ", "); - ssa_print_type(f, m, t_bool); - ssa_fprintf(f, " "); - ssa_fprintf(f, "true}"); - } -} - -void ssa_print_exact_value(ssaFileBuffer *f, ssaModule *m, ExactValue value, Type *type) { - type = base_type(type); - if (is_type_float(type)) { - value = exact_value_to_float(value); - } else if (is_type_integer(type)) { - value = exact_value_to_integer(value); - } else if (is_type_pointer(type)) { - value = exact_value_to_integer(value); - } - - switch (value.kind) { - case ExactValue_Bool: - ssa_fprintf(f, "%s", (value.value_bool ? "true" : "false")); - break; - case ExactValue_String: { - ssa_fprintf(f, "c\""); - ssa_print_escape_string(f, value.value_string, false); - ssa_fprintf(f, "\""); - } break; - case ExactValue_Integer: { - if (is_type_pointer(type)) { - if (value.value_integer == 0) { - ssa_fprintf(f, "null"); - } else { - ssa_fprintf(f, "inttoptr ("); - ssa_print_type(f, m, t_int); - ssa_fprintf(f, " %llu to ", value.value_integer); - ssa_print_type(f, m, t_rawptr); - ssa_fprintf(f, ")"); - } - } else { - ssa_fprintf(f, "%lld", value.value_integer); - } - } break; - case ExactValue_Float: { - u64 u = *cast(u64*)&value.value_float; - if (is_type_float(type) && type->Basic.kind == Basic_f32) { - // IMPORTANT NOTE(bill): LLVM requires all floating point constants to be - // a 64 bit number if bits_of(float type) <= 64. - // For some bizarre reason, you need to clear the bottom 29 bits - // https://groups.google.com/forum/#!topic/llvm-dev/IlqV3TbSk6M - u >>= 29; - u <<= 29; - } - ssa_fprintf(f, "0x%016llx", u); - } break; - case ExactValue_Pointer: - if (value.value_pointer == NULL) { - ssa_fprintf(f, "null"); - } else { - ssa_fprintf(f, "inttoptr ("); - ssa_print_type(f, m, t_int); - ssa_fprintf(f, " %llu to ", cast(u64)cast(uintptr)value.value_pointer); - ssa_print_type(f, m, t_rawptr); - ssa_fprintf(f, ")"); - } - break; - - case ExactValue_Compound: { - type = base_type(type); - if (is_type_array(type)) { - ast_node(cl, CompoundLit, value.value_compound); - isize elem_count = cl->elems.count; - if (elem_count == 0) { - ssa_fprintf(f, "zeroinitializer"); - break; - } - - ssa_fprintf(f, "["); - Type *elem_type = type->Array.elem; - - for (isize i = 0; i < elem_count; i++) { - if (i > 0) { - ssa_fprintf(f, ", "); - } - TypeAndValue *tav = type_and_value_of_expression(m->info, cl->elems[i]); - GB_ASSERT(tav != NULL); - ssa_print_compound_element(f, m, tav->value, elem_type); - } - for (isize i = elem_count; i < type->Array.count; i++) { - if (i >= elem_count) { - ssa_fprintf(f, ", "); - } - ssa_print_type(f, m, elem_type); - ssa_fprintf(f, " zeroinitializer"); - } - - ssa_fprintf(f, "]"); - } else if (is_type_vector(type)) { - ast_node(cl, CompoundLit, value.value_compound); - isize elem_count = cl->elems.count; - if (elem_count == 0) { - ssa_fprintf(f, "zeroinitializer"); - break; - } - - ssa_fprintf(f, "<"); - Type *elem_type = type->Vector.elem; - - if (elem_count == 1 && type->Vector.count > 1) { - TypeAndValue *tav = type_and_value_of_expression(m->info, cl->elems[0]); - GB_ASSERT(tav != NULL); - - for (isize i = 0; i < type->Vector.count; i++) { - if (i > 0) { - ssa_fprintf(f, ", "); - } - ssa_print_compound_element(f, m, tav->value, elem_type); - } - } else { - for (isize i = 0; i < elem_count; i++) { - if (i > 0) { - ssa_fprintf(f, ", "); - } - TypeAndValue *tav = type_and_value_of_expression(m->info, cl->elems[i]); - GB_ASSERT(tav != NULL); - ssa_print_compound_element(f, m, tav->value, elem_type); - } - } - - ssa_fprintf(f, ">"); - } else if (is_type_struct(type)) { - gbTempArenaMemory tmp = gb_temp_arena_memory_begin(&m->tmp_arena); - defer (gb_temp_arena_memory_end(tmp)); - - ast_node(cl, CompoundLit, value.value_compound); - - if (cl->elems.count == 0) { - ssa_fprintf(f, "zeroinitializer"); - break; - } - - - isize value_count = type->Record.field_count; - ExactValue *values = gb_alloc_array(m->tmp_allocator, ExactValue, value_count); - - - if (cl->elems[0]->kind == AstNode_FieldValue) { - isize elem_count = cl->elems.count; - for (isize i = 0; i < elem_count; i++) { - ast_node(fv, FieldValue, cl->elems[i]); - String name = fv->field->Ident.string; - - TypeAndValue *tav = type_and_value_of_expression(m->info, fv->value); - GB_ASSERT(tav != NULL); - - Selection sel = lookup_field(m->allocator, type, name, false); - Entity *f = type->Record.fields[sel.index[0]]; - - values[f->Variable.field_index] = tav->value; - } - } else { - for (isize i = 0; i < value_count; i++) { - TypeAndValue *tav = type_and_value_of_expression(m->info, cl->elems[i]); - GB_ASSERT(tav != NULL); - - Entity *f = type->Record.fields_in_src_order[i]; - - values[f->Variable.field_index] = tav->value; - } - } - - - - if (type->Record.struct_is_packed) { - ssa_fprintf(f, "<"); - } - ssa_fprintf(f, "{"); - - - for (isize i = 0; i < value_count; i++) { - if (i > 0) { - ssa_fprintf(f, ", "); - } - Type *elem_type = type->Record.fields[i]->type; - - ssa_print_compound_element(f, m, values[i], elem_type); - } - - - ssa_fprintf(f, "}"); - if (type->Record.struct_is_packed) { - ssa_fprintf(f, ">"); - } - } else { - ssa_fprintf(f, "zeroinitializer"); - } - - } break; - - default: - ssa_fprintf(f, "zeroinitializer"); - // GB_PANIC("Invalid ExactValue: %d", value.kind); - break; - } -} - -void ssa_print_block_name(ssaFileBuffer *f, ssaBlock *b) { - if (b != NULL) { - ssa_print_escape_string(f, b->label, false); - ssa_fprintf(f, "-%td", b->index); - } else { - ssa_fprintf(f, "<INVALID-BLOCK>"); - } -} - -void ssa_print_value(ssaFileBuffer *f, ssaModule *m, ssaValue *value, Type *type_hint) { - if (value == NULL) { - ssa_fprintf(f, "!!!NULL_VALUE"); - return; - } - switch (value->kind) { - default: GB_PANIC("Unknown ssaValue kind"); break; - - case ssaValue_Constant: - ssa_print_exact_value(f, m, value->Constant.value, type_hint); - break; - - case ssaValue_ConstantSlice: { - auto *cs = &value->ConstantSlice; - if (cs->backing_array == NULL || cs->count == 0) { - ssa_fprintf(f, "zeroinitializer"); - } else { - Type *at = base_type(type_deref(ssa_type(cs->backing_array))); - Type *et = at->Array.elem; - ssa_fprintf(f, "{"); - ssa_print_type(f, m, et); - ssa_fprintf(f, "* getelementptr inbounds ("); - ssa_print_type(f, m, at); - ssa_fprintf(f, ", "); - ssa_print_type(f, m, at); - ssa_fprintf(f, "* "); - ssa_print_value(f, m, cs->backing_array, at); - ssa_fprintf(f, ", "); - ssa_print_type(f, m, t_int); - ssa_fprintf(f, " 0, i32 0), "); - ssa_print_type(f, m, t_int); - ssa_fprintf(f, " %lld, ", cs->count); - ssa_print_type(f, m, t_int); - ssa_fprintf(f, " %lld}", cs->count); - } - } break; - - case ssaValue_Nil: - ssa_fprintf(f, "zeroinitializer"); - break; - - case ssaValue_TypeName: - ssa_print_encoded_local(f, value->TypeName.name); - break; - case ssaValue_Global: { - Scope *scope = value->Global.entity->scope; - b32 in_global_scope = false; - if (scope != NULL) { - in_global_scope = scope->is_global || scope->is_init; - } - ssa_print_encoded_global(f, value->Global.entity->token.string, in_global_scope); - } break; - case ssaValue_Param: - ssa_print_encoded_local(f, value->Param.entity->token.string); - break; - case ssaValue_Proc: - ssa_print_encoded_global(f, value->Proc.name, (value->Proc.tags & (ProcTag_foreign|ProcTag_link_name)) != 0); - break; - case ssaValue_Instr: - ssa_fprintf(f, "%%%d", value->index); - break; - } -} - -void ssa_print_instr(ssaFileBuffer *f, ssaModule *m, ssaValue *value) { - GB_ASSERT(value->kind == ssaValue_Instr); - ssaInstr *instr = &value->Instr; - - ssa_fprintf(f, "\t"); - - switch (instr->kind) { - case ssaInstr_StartupRuntime: { - ssa_fprintf(f, "call void "); - ssa_print_encoded_global(f, make_string(SSA_STARTUP_RUNTIME_PROC_NAME), false); - ssa_fprintf(f, "()\n"); - } break; - - case ssaInstr_Comment: - ssa_fprintf(f, "; %.*s\n", LIT(instr->Comment.text)); - break; - - case ssaInstr_Local: { - Type *type = instr->Local.entity->type; - ssa_fprintf(f, "%%%d = alloca ", value->index); - ssa_print_type(f, m, type); - ssa_fprintf(f, ", align %lld\n", type_align_of(m->sizes, m->allocator, type)); - } break; - - case ssaInstr_ZeroInit: { - Type *type = type_deref(ssa_type(instr->ZeroInit.address)); - ssa_fprintf(f, "store "); - ssa_print_type(f, m, type); - ssa_fprintf(f, " zeroinitializer, "); - ssa_print_type(f, m, type); - ssa_fprintf(f, "* %%%d\n", instr->ZeroInit.address->index); - } break; - - case ssaInstr_Store: { - Type *type = ssa_type(instr->Store.value); - ssa_fprintf(f, "store "); - ssa_print_type(f, m, type); - ssa_fprintf(f, " "); - ssa_print_value(f, m, instr->Store.value, type); - ssa_fprintf(f, ", "); - ssa_print_type(f, m, type); - ssa_fprintf(f, "* "); - ssa_print_value(f, m, instr->Store.address, type); - ssa_fprintf(f, "\n"); - } break; - - case ssaInstr_Load: { - Type *type = instr->Load.type; - ssa_fprintf(f, "%%%d = load ", value->index); - ssa_print_type(f, m, type); - ssa_fprintf(f, ", "); - ssa_print_type(f, m, type); - ssa_fprintf(f, "* "); - ssa_print_value(f, m, instr->Load.address, type); - ssa_fprintf(f, ", align %lld\n", type_align_of(m->sizes, m->allocator, type)); - } break; - - case ssaInstr_ArrayElementPtr: { - Type *et = ssa_type(instr->ArrayElementPtr.address); - ssa_fprintf(f, "%%%d = getelementptr inbounds ", value->index); - - ssa_print_type(f, m, type_deref(et)); - ssa_fprintf(f, ", "); - ssa_print_type(f, m, et); - ssa_fprintf(f, " "); - ssa_print_value(f, m, instr->ArrayElementPtr.address, et); - ssa_fprintf(f, ", "); - ssa_print_type(f, m, t_int); - ssa_fprintf(f, " 0, "); - - ssaValue *index =instr->ArrayElementPtr.elem_index; - Type *t = ssa_type(index); - ssa_print_type(f, m, t); - ssa_fprintf(f, " "); - ssa_print_value(f, m, index, t); - ssa_fprintf(f, "\n"); - } break; - - case ssaInstr_StructElementPtr: { - Type *et = ssa_type(instr->StructElementPtr.address); - ssa_fprintf(f, "%%%d = getelementptr inbounds ", value->index); - - ssa_print_type(f, m, type_deref(et)); - ssa_fprintf(f, ", "); - ssa_print_type(f, m, et); - ssa_fprintf(f, " "); - ssa_print_value(f, m, instr->StructElementPtr.address, et); - ssa_fprintf(f, ", "); - ssa_print_type(f, m, t_int); - ssa_fprintf(f, " 0, "); - ssa_print_type(f, m, t_i32); - ssa_fprintf(f, " %d", instr->StructElementPtr.elem_index); - ssa_fprintf(f, "\n"); - } break; - - case ssaInstr_PtrOffset: { - Type *pt = ssa_type(instr->PtrOffset.address); - ssa_fprintf(f, "%%%d = getelementptr inbounds ", value->index); - ssa_print_type(f, m, type_deref(pt)); - ssa_fprintf(f, ", "); - ssa_print_type(f, m, pt); - ssa_fprintf(f, " "); - ssa_print_value(f, m, instr->PtrOffset.address, pt); - - ssaValue *offset = instr->PtrOffset.offset; - Type *t = ssa_type(offset); - ssa_fprintf(f, ", "); - ssa_print_type(f, m, t); - ssa_fprintf(f, " "); - ssa_print_value(f, m, offset, t); - ssa_fprintf(f, "\n"); - } break; - - case ssaInstr_Phi: { - ssa_fprintf(f, "%%%d = phi ", value->index); - ssa_print_type(f, m, instr->Phi.type); - ssa_fprintf(f, " ", value->index); - - for (isize i = 0; i < instr->Phi.edges.count; i++) { - if (i > 0) { - ssa_fprintf(f, ", "); - } - - ssaValue *edge = instr->Phi.edges[i]; - ssaBlock *block = NULL; - if (instr->parent != NULL && - i < instr->parent->preds.count) { - block = instr->parent->preds[i]; - } - - ssa_fprintf(f, "[ "); - ssa_print_value(f, m, edge, instr->Phi.type); - ssa_fprintf(f, ", %%"); - ssa_print_block_name(f, block); - ssa_fprintf(f, " ]"); - } - ssa_fprintf(f, "\n"); - } break; - - case ssaInstr_ArrayExtractValue: { - Type *et = ssa_type(instr->ArrayExtractValue.address); - ssa_fprintf(f, "%%%d = extractvalue ", value->index); - - ssa_print_type(f, m, et); - ssa_fprintf(f, " "); - ssa_print_value(f, m, instr->ArrayExtractValue.address, et); - ssa_fprintf(f, ", %d\n", instr->ArrayExtractValue.index); - } break; - - case ssaInstr_StructExtractValue: { - Type *et = ssa_type(instr->StructExtractValue.address); - ssa_fprintf(f, "%%%d = extractvalue ", value->index); - - ssa_print_type(f, m, et); - ssa_fprintf(f, " "); - ssa_print_value(f, m, instr->StructExtractValue.address, et); - ssa_fprintf(f, ", %d\n", instr->StructExtractValue.index); - } break; - - case ssaInstr_Jump: {; - ssa_fprintf(f, "br label %%"); - ssa_print_block_name(f, instr->Jump.block); - ssa_fprintf(f, "\n"); - } break; - - case ssaInstr_If: {; - ssa_fprintf(f, "br "); - ssa_print_type(f, m, t_bool); - ssa_fprintf(f, " "); - ssa_print_value(f, m, instr->If.cond, t_bool); - ssa_fprintf(f, ", ", instr->If.cond->index); - ssa_fprintf(f, "label %%"); ssa_print_block_name(f, instr->If.true_block); - ssa_fprintf(f, ", label %%"); ssa_print_block_name(f, instr->If.false_block); - ssa_fprintf(f, "\n"); - } break; - - case ssaInstr_Return: { - auto *ret = &instr->Return; - ssa_fprintf(f, "ret "); - if (ret->value == NULL) { - ssa_fprintf(f, "void"); - } else { - Type *t = ssa_type(ret->value); - ssa_print_type(f, m, t); - ssa_fprintf(f, " "); - ssa_print_value(f, m, ret->value, t); - } - - ssa_fprintf(f, "\n"); - - } break; - - case ssaInstr_Conv: { - auto *c = &instr->Conv; - ssa_fprintf(f, "%%%d = %.*s ", value->index, LIT(ssa_conv_strings[c->kind])); - ssa_print_type(f, m, c->from); - ssa_fprintf(f, " "); - ssa_print_value(f, m, c->value, c->from); - ssa_fprintf(f, " to "); - ssa_print_type(f, m, c->to); - ssa_fprintf(f, "\n"); - - } break; - - case ssaInstr_Unreachable: { - ssa_fprintf(f, "unreachable\n"); - } break; - - case ssaInstr_BinaryOp: { - auto *bo = &value->Instr.BinaryOp; - Type *type = base_type(ssa_type(bo->left)); - Type *elem_type = type; - while (elem_type->kind == Type_Vector) { - elem_type = base_type(elem_type->Vector.elem); - } - - ssa_fprintf(f, "%%%d = ", value->index); - - if (gb_is_between(bo->op, Token__ComparisonBegin+1, Token__ComparisonEnd-1)) { - if (is_type_string(elem_type)) { - ssa_fprintf(f, "call "); - ssa_print_type(f, m, t_bool); - char *runtime_proc = ""; - switch (bo->op) { - case Token_CmpEq: runtime_proc = "__string_eq"; break; - case Token_NotEq: runtime_proc = "__string_ne"; break; - case Token_Lt: runtime_proc = "__string_lt"; break; - case Token_Gt: runtime_proc = "__string_gt"; break; - case Token_LtEq: runtime_proc = "__string_le"; break; - case Token_GtEq: runtime_proc = "__string_gt"; break; - } - - ssa_fprintf(f, " "); - ssa_print_encoded_global(f, make_string(runtime_proc), false); - ssa_fprintf(f, "("); - ssa_print_type(f, m, type); - ssa_fprintf(f, " "); - ssa_print_value(f, m, bo->left, type); - ssa_fprintf(f, ", "); - ssa_print_type(f, m, type); - ssa_fprintf(f, " "); - ssa_print_value(f, m, bo->right, type); - ssa_fprintf(f, ")\n"); - return; - - } else if (is_type_float(elem_type)) { - ssa_fprintf(f, "fcmp "); - switch (bo->op) { - case Token_CmpEq: ssa_fprintf(f, "oeq"); break; - case Token_NotEq: ssa_fprintf(f, "one"); break; - case Token_Lt: ssa_fprintf(f, "olt"); break; - case Token_Gt: ssa_fprintf(f, "ogt"); break; - case Token_LtEq: ssa_fprintf(f, "ole"); break; - case Token_GtEq: ssa_fprintf(f, "oge"); break; - } - } else { - ssa_fprintf(f, "icmp "); - if (bo->op != Token_CmpEq && - bo->op != Token_NotEq) { - if (is_type_unsigned(elem_type)) { - ssa_fprintf(f, "u"); - } else { - ssa_fprintf(f, "s"); - } - } - switch (bo->op) { - case Token_CmpEq: ssa_fprintf(f, "eq"); break; - case Token_NotEq: ssa_fprintf(f, "ne"); break; - case Token_Lt: ssa_fprintf(f, "lt"); break; - case Token_Gt: ssa_fprintf(f, "gt"); break; - case Token_LtEq: ssa_fprintf(f, "le"); break; - case Token_GtEq: ssa_fprintf(f, "ge"); break; - } - } - } else { - if (is_type_float(elem_type)) - ssa_fprintf(f, "f"); - - switch (bo->op) { - case Token_Add: ssa_fprintf(f, "add"); break; - case Token_Sub: ssa_fprintf(f, "sub"); break; - case Token_And: ssa_fprintf(f, "and"); break; - case Token_Or: ssa_fprintf(f, "or"); break; - case Token_Xor: ssa_fprintf(f, "xor"); break; - case Token_Shl: ssa_fprintf(f, "shl"); break; - case Token_Shr: ssa_fprintf(f, "lshr"); break; - case Token_Mul: ssa_fprintf(f, "mul"); break; - case Token_Not: ssa_fprintf(f, "xor"); break; - - case Token_AndNot: GB_PANIC("Token_AndNot Should never be called"); - - default: { - if (!is_type_float(elem_type)) { - if (is_type_unsigned(elem_type)) ssa_fprintf(f, "u"); - else ssa_fprintf(f, "s"); - } - - switch (bo->op) { - case Token_Quo: ssa_fprintf(f, "div"); break; - case Token_Mod: ssa_fprintf(f, "rem"); break; - } - } break; - } - } - - ssa_fprintf(f, " "); - ssa_print_type(f, m, type); - ssa_fprintf(f, " "); - ssa_print_value(f, m, bo->left, type); - ssa_fprintf(f, ", "); - ssa_print_value(f, m, bo->right, type); - ssa_fprintf(f, "\n"); - - } break; - - case ssaInstr_Call: { - auto *call = &instr->Call; - Type *result_type = call->type; - if (result_type) { - ssa_fprintf(f, "%%%d = ", value->index); - } - ssa_fprintf(f, "call "); - if (result_type) { - ssa_print_type(f, m, result_type); - } else { - ssa_fprintf(f, "void"); - } - ssa_fprintf(f, " "); - ssa_print_value(f, m, call->value, call->type); - - - ssa_fprintf(f, "("); - if (call->arg_count > 0) { - Type *proc_type = base_type(ssa_type(call->value)); - GB_ASSERT(proc_type->kind == Type_Proc); - auto *params = &proc_type->Proc.params->Tuple; - for (isize i = 0; i < call->arg_count; i++) { - Entity *e = params->variables[i]; - GB_ASSERT(e != NULL); - Type *t = e->type; - if (i > 0) { - ssa_fprintf(f, ", "); - } - ssa_print_type(f, m, t); - ssa_fprintf(f, " "); - ssaValue *arg = call->args[i]; - ssa_print_value(f, m, arg, t); - } - } - ssa_fprintf(f, ")\n"); - - } break; - - case ssaInstr_Select: { - ssa_fprintf(f, "%%%d = select i1 ", value->index); - ssa_print_value(f, m, instr->Select.cond, t_bool); - ssa_fprintf(f, ", "); - ssa_print_type(f, m, ssa_type(instr->Select.true_value)); - ssa_fprintf(f, " "); - ssa_print_value(f, m, instr->Select.true_value, ssa_type(instr->Select.true_value)); - ssa_fprintf(f, ", "); - ssa_print_type(f, m, ssa_type(instr->Select.false_value)); - ssa_fprintf(f, " "); - ssa_print_value(f, m, instr->Select.false_value, ssa_type(instr->Select.false_value)); - ssa_fprintf(f, "\n"); - } break; - - case ssaInstr_VectorExtractElement: { - Type *vt = ssa_type(instr->VectorExtractElement.vector); - Type *it = ssa_type(instr->VectorExtractElement.index); - ssa_fprintf(f, "%%%d = extractelement ", value->index); - - ssa_print_type(f, m, vt); - ssa_fprintf(f, " "); - ssa_print_value(f, m, instr->VectorExtractElement.vector, vt); - ssa_fprintf(f, ", "); - ssa_print_type(f, m, it); - ssa_fprintf(f, " "); - ssa_print_value(f, m, instr->VectorExtractElement.index, it); - ssa_fprintf(f, "\n"); - } break; - - case ssaInstr_VectorInsertElement: { - auto *ie = &instr->VectorInsertElement; - Type *vt = ssa_type(ie->vector); - ssa_fprintf(f, "%%%d = insertelement ", value->index); - - ssa_print_type(f, m, vt); - ssa_fprintf(f, " "); - ssa_print_value(f, m, ie->vector, vt); - ssa_fprintf(f, ", "); - - ssa_print_type(f, m, ssa_type(ie->elem)); - ssa_fprintf(f, " "); - ssa_print_value(f, m, ie->elem, ssa_type(ie->elem)); - ssa_fprintf(f, ", "); - - ssa_print_type(f, m, ssa_type(ie->index)); - ssa_fprintf(f, " "); - ssa_print_value(f, m, ie->index, ssa_type(ie->index)); - - ssa_fprintf(f, "\n"); - } break; - - case ssaInstr_VectorShuffle: { - auto *sv = &instr->VectorShuffle; - Type *vt = ssa_type(sv->vector); - ssa_fprintf(f, "%%%d = shufflevector ", value->index); - - ssa_print_type(f, m, vt); - ssa_fprintf(f, " "); - ssa_print_value(f, m, sv->vector, vt); - ssa_fprintf(f, ", "); - - ssa_print_type(f, m, vt); - ssa_fprintf(f, " "); - ssa_print_value(f, m, sv->vector, vt); - ssa_fprintf(f, ", "); - - ssa_fprintf(f, "<%td x i32> <", sv->index_count); - for (isize i = 0; i < sv->index_count; i++) { - if (i > 0) { - ssa_fprintf(f, ", "); - } - ssa_fprintf(f, "i32 %d", sv->indices[i]); - } - ssa_fprintf(f, ">"); - ssa_fprintf(f, "\n"); - } break; - - - default: { - GB_PANIC("<unknown instr> %d\n", instr->kind); - ssa_fprintf(f, "; <unknown instr> %d\n", instr->kind); - } break; - } -} - -void ssa_print_proc(ssaFileBuffer *f, ssaModule *m, ssaProcedure *proc) { - if (proc->body == NULL) { - ssa_fprintf(f, "declare "); - if (proc->tags & ProcTag_dll_import) { - ssa_fprintf(f, "dllimport "); - } - if (proc->tags & ProcTag_dll_export) { - ssa_fprintf(f, "dllexport "); - } - } else { - ssa_fprintf(f, "\ndefine "); - } - - if (proc->tags & ProcTag_stdcall) { - ssa_fprintf(f, "cc 64 "); - } else if (proc->tags & ProcTag_fastcall) { - ssa_fprintf(f, "cc 65 "); - } - - auto *proc_type = &proc->type->Proc; - - if (proc_type->result_count == 0) { - ssa_fprintf(f, "void"); - } else { - ssa_print_type(f, m, proc_type->results); - } - - ssa_fprintf(f, " "); - ssa_print_encoded_global(f, proc->name, (proc->tags & (ProcTag_foreign|ProcTag_link_name)) != 0); - ssa_fprintf(f, "("); - - if (proc_type->param_count > 0) { - auto *params = &proc_type->params->Tuple; - for (isize i = 0; i < params->variable_count; i++) { - Entity *e = params->variables[i]; - if (i > 0) { - ssa_fprintf(f, ", "); - } - ssa_print_type(f, m, e->type); - if (proc->body != NULL) { - ssa_fprintf(f, " %%%.*s", LIT(e->token.string)); - } - } - } - - ssa_fprintf(f, ") "); - - if (proc->tags & ProcTag_inline) { - ssa_fprintf(f, "alwaysinline "); - } - if (proc->tags & ProcTag_no_inline) { - ssa_fprintf(f, "noinline "); - } - - - if (proc->module->generate_debug_info && proc->entity != NULL) { - if (proc->body != NULL) { - ssaDebugInfo *di = *map_get(&proc->module->debug_info, hash_pointer(proc->entity)); - GB_ASSERT(di->kind == ssaDebugInfo_Proc); - ssa_fprintf(f, "!dbg !%d ", di->id); - } - } - - - if (proc->body != NULL) { - // ssa_fprintf(f, "nounwind uwtable {\n"); - - ssa_fprintf(f, "{\n"); - for_array(i, proc->blocks) { - ssaBlock *block = proc->blocks[i]; - - if (i > 0) ssa_fprintf(f, "\n"); - ssa_print_block_name(f, block); - ssa_fprintf(f, ":\n"); - - for_array(j, block->instrs) { - ssaValue *value = block->instrs[j]; - ssa_print_instr(f, m, value); - } - } - ssa_fprintf(f, "}\n"); - } else { - ssa_fprintf(f, "\n"); - } - - for_array(i, proc->children) { - ssa_print_proc(f, m, proc->children[i]); - } -} - -void ssa_print_type_name(ssaFileBuffer *f, ssaModule *m, ssaValue *v) { - GB_ASSERT(v->kind == ssaValue_TypeName); - Type *bt = base_type(ssa_type(v)); - if (!is_type_struct(bt) && !is_type_union(bt)) { - return; - } - ssa_print_encoded_local(f, v->TypeName.name); - ssa_fprintf(f, " = type "); - ssa_print_type(f, m, base_type(v->TypeName.type)); - ssa_fprintf(f, "\n"); -} - -void ssa_print_llvm_ir(ssaFileBuffer *f, ssaModule *m) { - if (m->layout.len > 0) { - ssa_fprintf(f, "target datalayout = \"%.*s\"\n", LIT(m->layout)); - } - - ssa_print_encoded_local(f, make_string("..string")); - ssa_fprintf(f, " = type {i8*, "); - ssa_print_type(f, m, t_int); - ssa_fprintf(f, "} ; Basic_string\n"); - ssa_print_encoded_local(f, make_string("..rawptr")); - ssa_fprintf(f, " = type i8* ; Basic_rawptr\n"); - - ssa_print_encoded_local(f, make_string("..any")); - ssa_fprintf(f, " = type {"); - ssa_print_type(f, m, t_type_info_ptr); - ssa_fprintf(f, ", "); - ssa_print_type(f, m, t_rawptr); - ssa_fprintf(f, "} ; Basic_any\n"); - - - for_array(member_index, m->members.entries) { - auto *entry = &m->members.entries[member_index]; - ssaValue *v = entry->value; - if (v->kind != ssaValue_TypeName) { - continue; - } - ssa_print_type_name(f, m, v); - } - - for_array(member_index, m->members.entries) { - auto *entry = &m->members.entries[member_index]; - ssaValue *v = entry->value; - if (v->kind != ssaValue_Proc) { - continue; - } - if (v->Proc.body == NULL) { - ssa_print_proc(f, m, &v->Proc); - } - } - - for_array(member_index, m->members.entries) { - auto *entry = &m->members.entries[member_index]; - ssaValue *v = entry->value; - if (v->kind != ssaValue_Proc) { - continue; - } - if (v->Proc.body != NULL) { - ssa_print_proc(f, m, &v->Proc); - } - } - - - for_array(member_index, m->members.entries) { - auto *entry = &m->members.entries[member_index]; - ssaValue *v = entry->value; - if (v->kind != ssaValue_Global) { - continue; - } - auto *g = &v->Global; - Scope *scope = g->entity->scope; - b32 in_global_scope = false; - if (scope != NULL) { - in_global_scope = scope->is_global || scope->is_init; - } - ssa_print_encoded_global(f, g->entity->token.string, in_global_scope); - ssa_fprintf(f, " = "); - if (g->is_thread_local) { - ssa_fprintf(f, "thread_local "); - } - if (g->is_constant) { - if (g->is_private) { - ssa_fprintf(f, "private "); - } - ssa_fprintf(f, "constant "); - } else { - ssa_fprintf(f, "global "); - } - - - ssa_print_type(f, m, g->entity->type); - ssa_fprintf(f, " "); - if (g->value != NULL) { - ssa_print_value(f, m, g->value, g->entity->type); - } else { - ssa_fprintf(f, "zeroinitializer"); - } - ssa_fprintf(f, "\n"); - } - - - if (m->generate_debug_info) { - ssa_fprintf(f, "\n"); - ssa_fprintf(f, "!llvm.dbg.cu = !{!0}\n"); - - for_array(di_index, m->debug_info.entries) { - auto *entry = &m->debug_info.entries[di_index]; - ssaDebugInfo *di = entry->value; - ssa_fprintf(f, "!%d = ", di->id); - defer (ssa_fprintf(f, "\n")); - - switch (di->kind) { - case ssaDebugInfo_CompileUnit: { - auto *cu = &di->CompileUnit; - ssaDebugInfo *file = *map_get(&m->debug_info, hash_pointer(cu->file)); - ssa_fprintf(f, - "distinct !DICompileUnit(" - "language: DW_LANG_Go, " // Is this good enough? - "file: !%d, " - "producer: \"%.*s\", " - "flags: \"\", " - "runtimeVersion: 0, " - "isOptimized: false, " - "emissionKind: FullDebug" - ")", - file->id, LIT(cu->producer)); - - } break; - case ssaDebugInfo_File: - ssa_fprintf(f, "!DIFile(filename: \""); - ssa_print_escape_string(f, di->File.filename, false); - ssa_fprintf(f, "\", directory: \""); - ssa_print_escape_string(f, di->File.directory, false); - ssa_fprintf(f, "\")"); - break; - case ssaDebugInfo_Proc: - ssa_fprintf(f, "distinct !DISubprogram(" - "name: \"%.*s\", " - // "linkageName: \"\", " - "file: !%d, " - "line: %td, " - "isDefinition: true, " - "isLocal: false, " - "unit: !0" - ")", - LIT(di->Proc.name), - di->Proc.file->id, - di->Proc.pos.line); - break; - - case ssaDebugInfo_AllProcs: - ssa_fprintf(f, "!{"); - for_array(proc_index, di->AllProcs.procs) { - ssaDebugInfo *p = di->AllProcs.procs[proc_index]; - if (proc_index > 0) {ssa_fprintf(f, ",");} - ssa_fprintf(f, "!%d", p->id); - } - ssa_fprintf(f, "}"); - break; - } - } - } -} diff --git a/src/codegen/ssa.cpp b/src/codegen/ssa.cpp deleted file mode 100644 index b18802ec7..000000000 --- a/src/codegen/ssa.cpp +++ /dev/null @@ -1,4875 +0,0 @@ -struct ssaModule; -struct ssaProcedure; -struct ssaBlock; -struct ssaValue; -struct ssaInstr; - -enum ssaDebugInfoKind { - ssaDebugInfo_Invalid, - - ssaDebugInfo_CompileUnit, - ssaDebugInfo_File, - ssaDebugInfo_Proc, - ssaDebugInfo_AllProcs, - - ssaDebugInfo_Count, -}; - -struct ssaDebugInfo { - ssaDebugInfoKind kind; - i32 id; - - union { - struct { - AstFile * file; - String producer; - ssaDebugInfo *all_procs; - } CompileUnit; - struct { - AstFile *file; - String filename; - String directory; - } File; - struct { - Entity * entity; - String name; - ssaDebugInfo *file; - TokenPos pos; - } Proc; - struct { - Array<ssaDebugInfo *> procs; - } AllProcs; - }; -}; - -struct ssaModule { - CheckerInfo * info; - BaseTypeSizes sizes; - gbArena arena; - gbArena tmp_arena; - gbAllocator allocator; - gbAllocator tmp_allocator; - b32 generate_debug_info; - - u32 stmt_state_flags; - - // String source_filename; - String layout; - // String triple; - - Map<ssaValue *> values; // Key: Entity * - Map<ssaValue *> members; // Key: String - Map<String> type_names; // Key: Type * - Map<ssaDebugInfo *> debug_info; // Key: Unique pointer - i32 global_string_index; - i32 global_array_index; // For ConstantSlice - - Array<ssaValue *> procs; // NOTE(bill): Procedures to generate -}; - -// NOTE(bill): For more info, see https://en.wikipedia.org/wiki/Dominator_(graph_theory) -struct ssaDomNode { - ssaBlock *idom; // Parent - Array<ssaBlock *> children; - i32 pre, post; // Ordering in tree -}; - - -struct ssaBlock { - i32 index; - String label; - ssaProcedure *parent; - AstNode * node; // Can be NULL - Scope * scope; - isize scope_index; - ssaDomNode dom; - i32 gaps; - - Array<ssaValue *> instrs; - Array<ssaValue *> locals; - - Array<ssaBlock *> preds; - Array<ssaBlock *> succs; -}; - -struct ssaTargetList { - ssaTargetList *prev; - ssaBlock * break_; - ssaBlock * continue_; - ssaBlock * fallthrough_; -}; - -enum ssaDeferExitKind { - ssaDeferExit_Default, - ssaDeferExit_Return, - ssaDeferExit_Branch, -}; -enum ssaDeferKind { - ssaDefer_Node, - ssaDefer_Instr, -}; - -struct ssaDefer { - ssaDeferKind kind; - isize scope_index; - ssaBlock * block; - union { - AstNode *stmt; - // NOTE(bill): `instr` will be copied every time to create a new one - ssaValue *instr; - }; -}; - -struct ssaProcedure { - ssaProcedure * parent; - Array<ssaProcedure *> children; - - Entity * entity; - ssaModule * module; - String name; - Type * type; - AstNode * type_expr; - AstNode * body; - u64 tags; - - isize scope_index; - Array<ssaDefer> defer_stmts; - Array<ssaBlock *> blocks; - ssaBlock * decl_block; - ssaBlock * entry_block; - ssaBlock * curr_block; - ssaTargetList * target_list; - Array<ssaValue *> referrers; -}; - -#define SSA_STARTUP_RUNTIME_PROC_NAME "__$startup_runtime" -#define SSA_TYPE_INFO_DATA_NAME "__$type_info_data" -#define SSA_TYPE_INFO_DATA_MEMBER_NAME "__$type_info_data_member" - - -#define SSA_INSTR_KINDS \ - SSA_INSTR_KIND(Invalid), \ - SSA_INSTR_KIND(Comment), \ - SSA_INSTR_KIND(Local), \ - SSA_INSTR_KIND(ZeroInit), \ - SSA_INSTR_KIND(Store), \ - SSA_INSTR_KIND(Load), \ - SSA_INSTR_KIND(PtrOffset), \ - SSA_INSTR_KIND(ArrayElementPtr), \ - SSA_INSTR_KIND(StructElementPtr), \ - SSA_INSTR_KIND(ArrayExtractValue), \ - SSA_INSTR_KIND(StructExtractValue), \ - SSA_INSTR_KIND(Conv), \ - SSA_INSTR_KIND(Jump), \ - SSA_INSTR_KIND(If), \ - SSA_INSTR_KIND(Return), \ - SSA_INSTR_KIND(Select), \ - SSA_INSTR_KIND(Phi), \ - SSA_INSTR_KIND(Unreachable), \ - SSA_INSTR_KIND(BinaryOp), \ - SSA_INSTR_KIND(Call), \ - SSA_INSTR_KIND(VectorExtractElement), \ - SSA_INSTR_KIND(VectorInsertElement), \ - SSA_INSTR_KIND(VectorShuffle), \ - SSA_INSTR_KIND(StartupRuntime), - -#define SSA_CONV_KINDS \ - SSA_CONV_KIND(Invalid), \ - SSA_CONV_KIND(trunc), \ - SSA_CONV_KIND(zext), \ - SSA_CONV_KIND(fptrunc), \ - SSA_CONV_KIND(fpext), \ - SSA_CONV_KIND(fptoui), \ - SSA_CONV_KIND(fptosi), \ - SSA_CONV_KIND(uitofp), \ - SSA_CONV_KIND(sitofp), \ - SSA_CONV_KIND(ptrtoint), \ - SSA_CONV_KIND(inttoptr), \ - SSA_CONV_KIND(bitcast), - -enum ssaInstrKind { -#define SSA_INSTR_KIND(x) GB_JOIN2(ssaInstr_, x) - SSA_INSTR_KINDS -#undef SSA_INSTR_KIND -}; - -String const ssa_instr_strings[] = { -#define SSA_INSTR_KIND(x) {cast(u8 *)#x, gb_size_of(#x)-1} - SSA_INSTR_KINDS -#undef SSA_INSTR_KIND -}; - -enum ssaConvKind { -#define SSA_CONV_KIND(x) GB_JOIN2(ssaConv_, x) - SSA_CONV_KINDS -#undef SSA_CONV_KIND -}; - -String const ssa_conv_strings[] = { -#define SSA_CONV_KIND(x) {cast(u8 *)#x, gb_size_of(#x)-1} - SSA_CONV_KINDS -#undef SSA_CONV_KIND -}; - -struct ssaInstr { - ssaInstrKind kind; - - ssaBlock *parent; - Type *type; - - union { - struct { - String text; - } Comment; - struct { - Entity * entity; - Type * type; - b32 zero_initialized; - Array<ssaValue *> referrers; - } Local; - struct { - ssaValue *address; - } ZeroInit; - struct { - ssaValue *address; - ssaValue *value; - } Store; - struct { - Type *type; - ssaValue *address; - } Load; - struct { - ssaValue *address; - Type * result_type; - ssaValue *elem_index; - } ArrayElementPtr; - struct { - ssaValue *address; - Type * result_type; - i32 elem_index; - } StructElementPtr; - struct { - ssaValue *address; - ssaValue *offset; - } PtrOffset; - struct { - ssaValue *address; - Type * result_type; - i32 index; - } ArrayExtractValue; - struct { - ssaValue *address; - Type * result_type; - i32 index; - } StructExtractValue; - struct { - ssaValue *value; - ssaValue *elem; - i32 index; - } InsertValue; - struct { - ssaConvKind kind; - ssaValue *value; - Type *from, *to; - } Conv; - struct { - ssaBlock *block; - } Jump; - struct { - ssaValue *cond; - ssaBlock *true_block; - ssaBlock *false_block; - } If; - struct { - ssaValue *value; - } Return; - struct {} Unreachable; - struct { - ssaValue *cond; - ssaValue *true_value; - ssaValue *false_value; - } Select; - struct { - Array<ssaValue *> edges; - Type *type; - } Phi; - struct { - Type *type; - TokenKind op; - ssaValue *left, *right; - } BinaryOp; - struct { - Type *type; // return type - ssaValue *value; - ssaValue **args; - isize arg_count; - } Call; - struct { - ssaValue *vector; - ssaValue *index; - } VectorExtractElement; - struct { - ssaValue *vector; - ssaValue *elem; - ssaValue *index; - } VectorInsertElement; - struct { - ssaValue *vector; - i32 *indices; - isize index_count; - Type *type; - } VectorShuffle; - - struct {} StartupRuntime; - }; -}; - - -enum ssaValueKind { - ssaValue_Invalid, - - ssaValue_Constant, - ssaValue_ConstantSlice, - ssaValue_Nil, - ssaValue_TypeName, - ssaValue_Global, - ssaValue_Param, - - ssaValue_Proc, - ssaValue_Block, - ssaValue_Instr, - - ssaValue_Count, -}; - -struct ssaValue { - ssaValueKind kind; - i32 index; - union { - struct { - Type * type; - ExactValue value; - } Constant; - struct { - Type *type; - ssaValue *backing_array; - i64 count; - } ConstantSlice; - struct { - Type *type; - } Nil; - struct { - String name; - Type * type; - } TypeName; - struct { - b32 is_constant; - b32 is_private; - b32 is_thread_local; - Entity * entity; - Type * type; - ssaValue *value; - Array<ssaValue *> referrers; - } Global; - struct { - ssaProcedure *parent; - Entity *entity; - Type * type; - Array<ssaValue *> referrers; - } Param; - ssaProcedure Proc; - ssaBlock Block; - ssaInstr Instr; - }; -}; - -gb_global ssaValue *v_zero = NULL; -gb_global ssaValue *v_one = NULL; -gb_global ssaValue *v_zero32 = NULL; -gb_global ssaValue *v_one32 = NULL; -gb_global ssaValue *v_two32 = NULL; -gb_global ssaValue *v_false = NULL; -gb_global ssaValue *v_true = NULL; - -enum ssaAddrKind { - ssaAddr_Default, - ssaAddr_Vector, -}; - -struct ssaAddr { - ssaValue * addr; - AstNode * expr; // NOTE(bill): Just for testing - probably remove later - ssaAddrKind kind; - union { - struct { - ssaValue *index; - } Vector; - }; -}; - -ssaAddr ssa_make_addr(ssaValue *addr, AstNode *expr) { - ssaAddr v = {addr, expr}; - return v; -} -ssaAddr ssa_make_addr_vector(ssaValue *addr, ssaValue *index, AstNode *expr) { - ssaAddr v = ssa_make_addr(addr, expr); - v.kind = ssaAddr_Vector; - v.Vector.index = index; - return v; -} - - -ssaValue *ssa_make_value_global(gbAllocator a, Entity *e, ssaValue *value); - - -void ssa_module_add_value(ssaModule *m, Entity *e, ssaValue *v) { - map_set(&m->values, hash_pointer(e), v); -} - -ssaDebugInfo *ssa_alloc_debug_info(gbAllocator a, ssaDebugInfoKind kind) { - ssaDebugInfo *di = gb_alloc_item(a, ssaDebugInfo); - di->kind = kind; - return di; -} - - -ssaDefer ssa_add_defer_node(ssaProcedure *proc, isize scope_index, AstNode *stmt) { - ssaDefer d = {ssaDefer_Node}; - d.scope_index = scope_index; - d.block = proc->curr_block; - d.stmt = stmt; - array_add(&proc->defer_stmts, d); - return d; -} - - -ssaDefer ssa_add_defer_instr(ssaProcedure *proc, isize scope_index, ssaValue *instr) { - ssaDefer d = {ssaDefer_Instr}; - d.scope_index = proc->scope_index; - d.block = proc->curr_block; - d.instr = instr; // NOTE(bill): It will make a copy everytime it is called - array_add(&proc->defer_stmts, d); - return d; -} - -void ssa_init_module(ssaModule *m, Checker *c) { - // TODO(bill): Determine a decent size for the arena - isize token_count = c->parser->total_token_count; - isize arena_size = 4 * token_count * gb_size_of(ssaValue); - gb_arena_init_from_allocator(&m->arena, heap_allocator(), arena_size); - gb_arena_init_from_allocator(&m->tmp_arena, heap_allocator(), arena_size); - m->allocator = gb_arena_allocator(&m->arena); - m->tmp_allocator = gb_arena_allocator(&m->tmp_arena); - m->info = &c->info; - m->sizes = c->sizes; - - map_init(&m->values, heap_allocator()); - map_init(&m->members, heap_allocator()); - map_init(&m->debug_info, heap_allocator()); - map_init(&m->type_names, heap_allocator()); - array_init(&m->procs, heap_allocator()); - - // Default states - m->stmt_state_flags = 0; - m->stmt_state_flags |= StmtStateFlag_bounds_check; - - { - // Add type info data - { - String name = make_string(SSA_TYPE_INFO_DATA_NAME); - isize count = c->info.type_info_map.entries.count; - Entity *e = make_entity_variable(m->allocator, NULL, make_token_ident(name), make_type_array(m->allocator, t_type_info, count)); - ssaValue *g = ssa_make_value_global(m->allocator, e, NULL); - g->Global.is_private = true; - ssa_module_add_value(m, e, g); - map_set(&m->members, hash_string(name), g); - } - - // Type info member buffer - { - // NOTE(bill): Removes need for heap allocation by making it global memory - isize count = 0; - - for_array(entry_index, m->info->type_info_map.entries) { - auto *entry = &m->info->type_info_map.entries[entry_index]; - Type *t = cast(Type *)cast(uintptr)entry->key.key; - - switch (t->kind) { - case Type_Record: - switch (t->Record.kind) { - case TypeRecord_Struct: - case TypeRecord_RawUnion: - count += t->Record.field_count; - } - break; - case Type_Tuple: - count += t->Tuple.variable_count; - break; - } - } - - String name = make_string(SSA_TYPE_INFO_DATA_MEMBER_NAME); - Entity *e = make_entity_variable(m->allocator, NULL, make_token_ident(name), - make_type_array(m->allocator, t_type_info_member, count)); - ssaValue *g = ssa_make_value_global(m->allocator, e, NULL); - ssa_module_add_value(m, e, g); - map_set(&m->members, hash_string(name), g); - } - } - - { - ssaDebugInfo *di = ssa_alloc_debug_info(m->allocator, ssaDebugInfo_CompileUnit); - di->CompileUnit.file = m->info->files.entries[0].value; // Zeroth is the init file - di->CompileUnit.producer = make_string("odin"); - - map_set(&m->debug_info, hash_pointer(m), di); - } -} - -void ssa_destroy_module(ssaModule *m) { - map_destroy(&m->values); - map_destroy(&m->members); - map_destroy(&m->type_names); - map_destroy(&m->debug_info); - array_free(&m->procs); - gb_arena_free(&m->arena); -} - - -Type *ssa_type(ssaValue *value); -Type *ssa_instr_type(ssaInstr *instr) { - switch (instr->kind) { - case ssaInstr_Local: - return instr->Local.type; - case ssaInstr_Load: - return instr->Load.type; - case ssaInstr_StructElementPtr: - return instr->StructElementPtr.result_type; - case ssaInstr_ArrayElementPtr: - return instr->ArrayElementPtr.result_type; - case ssaInstr_PtrOffset: - return ssa_type(instr->PtrOffset.address); - case ssaInstr_Phi: - return instr->Phi.type; - case ssaInstr_ArrayExtractValue: - return instr->ArrayExtractValue.result_type; - case ssaInstr_StructExtractValue: - return instr->StructExtractValue.result_type; - case ssaInstr_BinaryOp: - return instr->BinaryOp.type; - case ssaInstr_Conv: - return instr->Conv.to; - case ssaInstr_Select: - return ssa_type(instr->Select.true_value); - case ssaInstr_Call: { - Type *pt = base_type(instr->Call.type); - if (pt != NULL) { - if (pt->kind == Type_Tuple && pt->Tuple.variable_count == 1) { - return pt->Tuple.variables[0]->type; - } - return pt; - } - return NULL; - } break; - case ssaInstr_VectorExtractElement: { - Type *vt = ssa_type(instr->VectorExtractElement.vector); - Type *bt = base_vector_type(vt); - GB_ASSERT(!is_type_vector(bt)); - return bt; - } break; - case ssaInstr_VectorInsertElement: - return ssa_type(instr->VectorInsertElement.vector); - case ssaInstr_VectorShuffle: - return instr->VectorShuffle.type; - } - return NULL; -} - -Type *ssa_type(ssaValue *value) { - switch (value->kind) { - case ssaValue_Constant: - return value->Constant.type; - case ssaValue_ConstantSlice: - return value->ConstantSlice.type; - case ssaValue_Nil: - return value->Nil.type; - case ssaValue_TypeName: - return value->TypeName.type; - case ssaValue_Global: - return value->Global.type; - case ssaValue_Param: - return value->Param.type; - case ssaValue_Proc: - return value->Proc.type; - case ssaValue_Instr: - return ssa_instr_type(&value->Instr); - } - return NULL; -} - -void ssa_set_instr_parent(ssaValue *instr, ssaBlock *parent) { - if (instr->kind == ssaValue_Instr) { - instr->Instr.parent = parent; - } -} - -Array<ssaValue *> *ssa_value_referrers(ssaValue *v) { - switch (v->kind) { - case ssaValue_Global: - return &v->Global.referrers; - case ssaValue_Param: - return &v->Param.referrers; - case ssaValue_Proc: { - if (v->Proc.parent != NULL) { - return &v->Proc.referrers; - } - return NULL; - } - case ssaValue_Instr: { - ssaInstr *i = &v->Instr; - switch (i->kind) { - case ssaInstr_Local: - return &i->Local.referrers; - } - } break; - } - - return NULL; -} - - -void ssa_add_operands(Array<ssaValue *> *ops, ssaInstr *i) { - switch (i->kind) { - case ssaInstr_Comment: - break; - case ssaInstr_Local: - break; - case ssaInstr_ZeroInit: - array_add(ops, i->ZeroInit.address); - break; - case ssaInstr_Store: - array_add(ops, i->Store.address); - array_add(ops, i->Store.value); - break; - case ssaInstr_Load: - array_add(ops, i->Load.address); - break; - case ssaInstr_ArrayElementPtr: - array_add(ops, i->ArrayElementPtr.address); - array_add(ops, i->ArrayElementPtr.elem_index); - break; - case ssaInstr_StructElementPtr: - array_add(ops, i->StructElementPtr.address); - break; - case ssaInstr_PtrOffset: - array_add(ops, i->PtrOffset.address); - array_add(ops, i->PtrOffset.offset); - break; - case ssaInstr_ArrayExtractValue: - array_add(ops, i->ArrayExtractValue.address); - break; - case ssaInstr_StructExtractValue: - array_add(ops, i->StructExtractValue.address); - break; - case ssaInstr_Conv: - array_add(ops, i->Conv.value); - break; - case ssaInstr_Jump: - break; - case ssaInstr_If: - array_add(ops, i->If.cond); - break; - case ssaInstr_Return: - if (i->Return.value != NULL) { - array_add(ops, i->Return.value); - } - break; - case ssaInstr_Select: - array_add(ops, i->Select.cond); - break; - case ssaInstr_Phi: - for_array(j, i->Phi.edges) { - array_add(ops, i->Phi.edges[j]); - } - break; - case ssaInstr_Unreachable: break; - case ssaInstr_BinaryOp: - array_add(ops, i->BinaryOp.left); - array_add(ops, i->BinaryOp.right); - break; - case ssaInstr_Call: - array_add(ops, i->Call.value); - for (isize j = 0; j < i->Call.arg_count; j++) { - array_add(ops, i->Call.args[j]); - } - break; - case ssaInstr_VectorExtractElement: - array_add(ops, i->VectorExtractElement.vector); - array_add(ops, i->VectorExtractElement.index); - break; - case ssaInstr_VectorInsertElement: - array_add(ops, i->VectorInsertElement.vector); - array_add(ops, i->VectorInsertElement.elem); - array_add(ops, i->VectorInsertElement.index); - break; - case ssaInstr_VectorShuffle: - array_add(ops, i->VectorShuffle.vector); - break; - case ssaInstr_StartupRuntime: - break; - } -} - - - - - -ssaDebugInfo *ssa_add_debug_info_file(ssaProcedure *proc, AstFile *file) { - if (!proc->module->generate_debug_info) { - return NULL; - } - - GB_ASSERT(file != NULL); - ssaDebugInfo *di = ssa_alloc_debug_info(proc->module->allocator, ssaDebugInfo_File); - di->File.file = file; - - String filename = file->tokenizer.fullpath; - String directory = filename; - isize slash_index = 0; - for (isize i = filename.len-1; i >= 0; i--) { - if (filename.text[i] == '\\' || - filename.text[i] == '/') { - break; - } - slash_index = i; - } - directory.len = slash_index-1; - filename.text = filename.text + slash_index; - filename.len -= slash_index; - - - di->File.filename = filename; - di->File.directory = directory; - - map_set(&proc->module->debug_info, hash_pointer(file), di); - return di; -} - - -ssaDebugInfo *ssa_add_debug_info_proc(ssaProcedure *proc, Entity *entity, String name, ssaDebugInfo *file) { - if (!proc->module->generate_debug_info) { - return NULL; - } - - GB_ASSERT(entity != NULL); - ssaDebugInfo *di = ssa_alloc_debug_info(proc->module->allocator, ssaDebugInfo_Proc); - di->Proc.entity = entity; - di->Proc.name = name; - di->Proc.file = file; - di->Proc.pos = entity->token.pos; - - map_set(&proc->module->debug_info, hash_pointer(entity), di); - return di; -} - - - - -ssaValue *ssa_build_expr(ssaProcedure *proc, AstNode *expr); -ssaValue *ssa_build_single_expr(ssaProcedure *proc, AstNode *expr, TypeAndValue *tv); -ssaAddr ssa_build_addr(ssaProcedure *proc, AstNode *expr); -ssaValue *ssa_emit_conv(ssaProcedure *proc, ssaValue *value, Type *a_type, b32 is_argument = false); -ssaValue *ssa_emit_transmute(ssaProcedure *proc, ssaValue *value, Type *a_type); -void ssa_build_proc(ssaValue *value, ssaProcedure *parent); - - - - -ssaValue *ssa_alloc_value(gbAllocator a, ssaValueKind kind) { - ssaValue *v = gb_alloc_item(a, ssaValue); - v->kind = kind; - return v; -} - -ssaValue *ssa_alloc_instr(ssaProcedure *proc, ssaInstrKind kind) { - ssaValue *v = ssa_alloc_value(proc->module->allocator, ssaValue_Instr); - v->Instr.kind = kind; - return v; -} - -ssaValue *ssa_make_value_type_name(gbAllocator a, String name, Type *type) { - ssaValue *v = ssa_alloc_value(a, ssaValue_TypeName); - v->TypeName.name = name; - v->TypeName.type = type; - return v; -} - -ssaValue *ssa_make_value_global(gbAllocator a, Entity *e, ssaValue *value) { - ssaValue *v = ssa_alloc_value(a, ssaValue_Global); - v->Global.entity = e; - v->Global.type = make_type_pointer(a, e->type); - v->Global.value = value; - array_init(&v->Global.referrers, heap_allocator()); // TODO(bill): Replace heap allocator here - return v; -} -ssaValue *ssa_make_value_param(gbAllocator a, ssaProcedure *parent, Entity *e) { - ssaValue *v = ssa_alloc_value(a, ssaValue_Param); - v->Param.parent = parent; - v->Param.entity = e; - v->Param.type = e->type; - array_init(&v->Param.referrers, heap_allocator()); // TODO(bill): Replace heap allocator here - return v; -} -ssaValue *ssa_make_value_nil(gbAllocator a, Type *type) { - ssaValue *v = ssa_alloc_value(a, ssaValue_Nil); - v->Nil.type = type; - return v; -} - - - -ssaValue *ssa_make_instr_local(ssaProcedure *p, Entity *e, b32 zero_initialized) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_Local); - ssaInstr *i = &v->Instr; - i->Local.entity = e; - i->Local.type = make_type_pointer(p->module->allocator, e->type); - i->Local.zero_initialized = zero_initialized; - array_init(&i->Local.referrers, heap_allocator()); // TODO(bill): Replace heap allocator here - ssa_module_add_value(p->module, e, v); - return v; -} - - -ssaValue *ssa_make_instr_store(ssaProcedure *p, ssaValue *address, ssaValue *value) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_Store); - ssaInstr *i = &v->Instr; - i->Store.address = address; - i->Store.value = value; - return v; -} - -ssaValue *ssa_make_instr_zero_init(ssaProcedure *p, ssaValue *address) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_ZeroInit); - ssaInstr *i = &v->Instr; - i->ZeroInit.address = address; - return v; -} - -ssaValue *ssa_make_instr_load(ssaProcedure *p, ssaValue *address) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_Load); - ssaInstr *i = &v->Instr; - i->Load.address = address; - i->Load.type = type_deref(ssa_type(address)); - return v; -} - -ssaValue *ssa_make_instr_array_element_ptr(ssaProcedure *p, ssaValue *address, ssaValue *elem_index) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_ArrayElementPtr); - ssaInstr *i = &v->Instr; - Type *t = ssa_type(address); - GB_ASSERT(is_type_pointer(t)); - t = base_type(type_deref(t)); - GB_ASSERT(is_type_array(t)); - - Type *result_type = make_type_pointer(p->module->allocator, t->Array.elem); - - i->ArrayElementPtr.address = address; - i->ArrayElementPtr.elem_index = elem_index; - i->ArrayElementPtr.result_type = result_type; - - GB_ASSERT_MSG(is_type_pointer(ssa_type(address)), - "%s", type_to_string(ssa_type(address))); - return v; -} -ssaValue *ssa_make_instr_struct_element_ptr(ssaProcedure *p, ssaValue *address, i32 elem_index, Type *result_type) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_StructElementPtr); - ssaInstr *i = &v->Instr; - i->StructElementPtr.address = address; - i->StructElementPtr.elem_index = elem_index; - i->StructElementPtr.result_type = result_type; - - GB_ASSERT_MSG(is_type_pointer(ssa_type(address)), - "%s", type_to_string(ssa_type(address))); - return v; -} -ssaValue *ssa_make_instr_ptr_offset(ssaProcedure *p, ssaValue *address, ssaValue *offset) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_PtrOffset); - ssaInstr *i = &v->Instr; - i->PtrOffset.address = address; - i->PtrOffset.offset = offset; - - GB_ASSERT_MSG(is_type_pointer(ssa_type(address)), - "%s", type_to_string(ssa_type(address))); - GB_ASSERT_MSG(is_type_integer(ssa_type(offset)), - "%s", type_to_string(ssa_type(address))); - - return v; -} - - - -ssaValue *ssa_make_instr_array_extract_value(ssaProcedure *p, ssaValue *address, i32 index) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_ArrayExtractValue); - ssaInstr *i = &v->Instr; - i->ArrayExtractValue.address = address; - i->ArrayExtractValue.index = index; - Type *t = base_type(ssa_type(address)); - GB_ASSERT(is_type_array(t)); - i->ArrayExtractValue.result_type = t->Array.elem; - return v; -} - -ssaValue *ssa_make_instr_struct_extract_value(ssaProcedure *p, ssaValue *address, i32 index, Type *result_type) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_StructExtractValue); - ssaInstr *i = &v->Instr; - i->StructExtractValue.address = address; - i->StructExtractValue.index = index; - i->StructExtractValue.result_type = result_type; - return v; -} - -ssaValue *ssa_make_instr_binary_op(ssaProcedure *p, TokenKind op, ssaValue *left, ssaValue *right, Type *type) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_BinaryOp); - ssaInstr *i = &v->Instr; - i->BinaryOp.op = op; - i->BinaryOp.left = left; - i->BinaryOp.right = right; - i->BinaryOp.type = type; - return v; -} - -ssaValue *ssa_make_instr_jump(ssaProcedure *p, ssaBlock *block) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_Jump); - ssaInstr *i = &v->Instr; - i->Jump.block = block; - return v; -} -ssaValue *ssa_make_instr_if(ssaProcedure *p, ssaValue *cond, ssaBlock *true_block, ssaBlock *false_block) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_If); - ssaInstr *i = &v->Instr; - i->If.cond = cond; - i->If.true_block = true_block; - i->If.false_block = false_block; - return v; -} - - -ssaValue *ssa_make_instr_phi(ssaProcedure *p, Array<ssaValue *> edges, Type *type) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_Phi); - ssaInstr *i = &v->Instr; - i->Phi.edges = edges; - i->Phi.type = type; - return v; -} - -ssaValue *ssa_make_instr_unreachable(ssaProcedure *p) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_Unreachable); - return v; -} - -ssaValue *ssa_make_instr_return(ssaProcedure *p, ssaValue *value) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_Return); - v->Instr.Return.value = value; - return v; -} - -ssaValue *ssa_make_instr_select(ssaProcedure *p, ssaValue *cond, ssaValue *t, ssaValue *f) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_Select); - v->Instr.Select.cond = cond; - v->Instr.Select.true_value = t; - v->Instr.Select.false_value = f; - return v; -} - -ssaValue *ssa_make_instr_call(ssaProcedure *p, ssaValue *value, ssaValue **args, isize arg_count, Type *result_type) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_Call); - v->Instr.Call.value = value; - v->Instr.Call.args = args; - v->Instr.Call.arg_count = arg_count; - v->Instr.Call.type = result_type; - return v; -} - -ssaValue *ssa_make_instr_conv(ssaProcedure *p, ssaConvKind kind, ssaValue *value, Type *from, Type *to) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_Conv); - v->Instr.Conv.kind = kind; - v->Instr.Conv.value = value; - v->Instr.Conv.from = from; - v->Instr.Conv.to = to; - return v; -} - -ssaValue *ssa_make_instr_extract_element(ssaProcedure *p, ssaValue *vector, ssaValue *index) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_VectorExtractElement); - v->Instr.VectorExtractElement.vector = vector; - v->Instr.VectorExtractElement.index = index; - return v; -} - -ssaValue *ssa_make_instr_insert_element(ssaProcedure *p, ssaValue *vector, ssaValue *elem, ssaValue *index) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_VectorInsertElement); - v->Instr.VectorInsertElement.vector = vector; - v->Instr.VectorInsertElement.elem = elem; - v->Instr.VectorInsertElement.index = index; - return v; -} - -ssaValue *ssa_make_instr_vector_shuffle(ssaProcedure *p, ssaValue *vector, i32 *indices, isize index_count) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_VectorShuffle); - v->Instr.VectorShuffle.vector = vector; - v->Instr.VectorShuffle.indices = indices; - v->Instr.VectorShuffle.index_count = index_count; - - Type *vt = base_type(ssa_type(vector)); - v->Instr.VectorShuffle.type = make_type_vector(p->module->allocator, vt->Vector.elem, index_count); - - return v; -} - -ssaValue *ssa_make_instr_comment(ssaProcedure *p, String text) { - ssaValue *v = ssa_alloc_instr(p, ssaInstr_Comment); - v->Instr.Comment.text = text; - return v; -} - - - -ssaValue *ssa_make_value_constant(gbAllocator a, Type *type, ExactValue value) { - ssaValue *v = ssa_alloc_value(a, ssaValue_Constant); - v->Constant.type = type; - v->Constant.value = value; - return v; -} - - -ssaValue *ssa_make_value_constant_slice(gbAllocator a, Type *type, ssaValue *backing_array, i64 count) { - ssaValue *v = ssa_alloc_value(a, ssaValue_ConstantSlice); - v->ConstantSlice.type = type; - v->ConstantSlice.backing_array = backing_array; - v->ConstantSlice.count = count; - return v; -} - -ssaValue *ssa_make_const_int(gbAllocator a, i64 i) { - return ssa_make_value_constant(a, t_int, make_exact_value_integer(i)); -} -ssaValue *ssa_make_const_i32(gbAllocator a, i64 i) { - return ssa_make_value_constant(a, t_i32, make_exact_value_integer(i)); -} -ssaValue *ssa_make_const_i64(gbAllocator a, i64 i) { - return ssa_make_value_constant(a, t_i64, make_exact_value_integer(i)); -} -ssaValue *ssa_make_const_bool(gbAllocator a, b32 b) { - return ssa_make_value_constant(a, t_bool, make_exact_value_bool(b != 0)); -} - -ssaValue *ssa_add_module_constant(ssaModule *m, Type *type, ExactValue value) { - if (is_type_slice(type)) { - ast_node(cl, CompoundLit, value.value_compound); - gbAllocator a = m->allocator; - - isize count = cl->elems.count; - if (count > 0) { - Type *elem = base_type(type)->Slice.elem; - Type *t = make_type_array(a, elem, count); - ssaValue *backing_array = ssa_add_module_constant(m, t, value); - - - isize max_len = 7+8+1; - u8 *str = cast(u8 *)gb_alloc_array(a, u8, max_len); - isize len = gb_snprintf(cast(char *)str, max_len, "__csba$%x", m->global_array_index); - m->global_array_index++; - - String name = make_string(str, len-1); - - Entity *e = make_entity_constant(a, NULL, make_token_ident(name), t, value); - ssaValue *g = ssa_make_value_global(a, e, backing_array); - ssa_module_add_value(m, e, g); - map_set(&m->members, hash_string(name), g); - - return ssa_make_value_constant_slice(a, type, g, count); - } else { - return ssa_make_value_constant_slice(a, type, NULL, 0); - } - } - - return ssa_make_value_constant(m->allocator, type, value); -} - - -ssaValue *ssa_make_value_procedure(gbAllocator a, ssaModule *m, Entity *entity, Type *type, AstNode *type_expr, AstNode *body, String name) { - ssaValue *v = ssa_alloc_value(a, ssaValue_Proc); - v->Proc.module = m; - v->Proc.entity = entity; - v->Proc.type = type; - v->Proc.type_expr = type_expr; - v->Proc.body = body; - v->Proc.name = name; - array_init(&v->Proc.referrers, heap_allocator(), 0); // TODO(bill): replace heap allocator - return v; -} - -ssaValue *ssa_make_value_block(ssaProcedure *proc, AstNode *node, Scope *scope, String label) { - ssaValue *v = ssa_alloc_value(proc->module->allocator, ssaValue_Block); - v->Block.label = label; - v->Block.node = node; - v->Block.scope = scope; - v->Block.parent = proc; - - array_init(&v->Block.instrs, heap_allocator()); - array_init(&v->Block.locals, heap_allocator()); - - array_init(&v->Block.preds, heap_allocator()); - array_init(&v->Block.succs, heap_allocator()); - - return v; -} - -b32 ssa_is_blank_ident(AstNode *node) { - if (node->kind == AstNode_Ident) { - ast_node(i, Ident, node); - return is_blank_ident(i->string); - } - return false; -} - - -ssaInstr *ssa_get_last_instr(ssaBlock *block) { - if (block != NULL) { - isize len = block->instrs.count; - if (len > 0) { - ssaValue *v = block->instrs[len-1]; - GB_ASSERT(v->kind == ssaValue_Instr); - return &v->Instr; - } - } - return NULL; - -} - -b32 ssa_is_instr_terminating(ssaInstr *i) { - if (i != NULL) { - switch (i->kind) { - case ssaInstr_Return: - case ssaInstr_Unreachable: - return true; - } - } - - return false; -} - -ssaValue *ssa_emit(ssaProcedure *proc, ssaValue *instr) { - GB_ASSERT(instr->kind == ssaValue_Instr); - ssaBlock *b = proc->curr_block; - instr->Instr.parent = b; - if (b != NULL) { - ssaInstr *i = ssa_get_last_instr(b); - if (!ssa_is_instr_terminating(i)) { - array_add(&b->instrs, instr); - } - } - return instr; -} -ssaValue *ssa_emit_store(ssaProcedure *p, ssaValue *address, ssaValue *value) { - return ssa_emit(p, ssa_make_instr_store(p, address, value)); -} -ssaValue *ssa_emit_load(ssaProcedure *p, ssaValue *address) { - return ssa_emit(p, ssa_make_instr_load(p, address)); -} -ssaValue *ssa_emit_select(ssaProcedure *p, ssaValue *cond, ssaValue *t, ssaValue *f) { - return ssa_emit(p, ssa_make_instr_select(p, cond, t, f)); -} - -ssaValue *ssa_emit_zero_init(ssaProcedure *p, ssaValue *address) { - return ssa_emit(p, ssa_make_instr_zero_init(p, address)); -} - -ssaValue *ssa_emit_comment(ssaProcedure *p, String text) { - return ssa_emit(p, ssa_make_instr_comment(p, text)); -} - - -ssaValue *ssa_add_local(ssaProcedure *proc, Entity *e, b32 zero_initialized = true) { - ssaBlock *b = proc->decl_block; // all variables must be in the first block - ssaValue *instr = ssa_make_instr_local(proc, e, zero_initialized); - instr->Instr.parent = b; - array_add(&b->instrs, instr); - array_add(&b->locals, instr); - - // if (zero_initialized) { - ssa_emit_zero_init(proc, instr); - // } - - return instr; -} - -ssaValue *ssa_add_local_for_identifier(ssaProcedure *proc, AstNode *name, b32 zero_initialized) { - Entity **found = map_get(&proc->module->info->definitions, hash_pointer(name)); - if (found) { - Entity *e = *found; - ssa_emit_comment(proc, e->token.string); - return ssa_add_local(proc, e, zero_initialized); - } - return NULL; -} - -ssaValue *ssa_add_local_generated(ssaProcedure *proc, Type *type) { - GB_ASSERT(type != NULL); - - Scope *scope = NULL; - if (proc->curr_block) { - scope = proc->curr_block->scope; - } - Entity *e = make_entity_variable(proc->module->allocator, - scope, - empty_token, - type); - return ssa_add_local(proc, e, true); -} - -ssaValue *ssa_add_param(ssaProcedure *proc, Entity *e) { - ssaValue *v = ssa_make_value_param(proc->module->allocator, proc, e); -#if 1 - ssaValue *l = ssa_add_local(proc, e); - ssa_emit_store(proc, l, v); -#else - ssa_module_add_value(proc->module, e, v); -#endif - return v; -} - - -ssaValue *ssa_emit_call(ssaProcedure *p, ssaValue *value, ssaValue **args, isize arg_count) { - Type *pt = base_type(ssa_type(value)); - GB_ASSERT(pt->kind == Type_Proc); - Type *results = pt->Proc.results; - return ssa_emit(p, ssa_make_instr_call(p, value, args, arg_count, results)); -} - -ssaValue *ssa_emit_global_call(ssaProcedure *proc, char *name_, ssaValue **args, isize arg_count) { - String name = make_string(name_); - ssaValue **found = map_get(&proc->module->members, hash_string(name)); - GB_ASSERT_MSG(found != NULL, "%.*s", LIT(name)); - ssaValue *gp = *found; - return ssa_emit_call(proc, gp, args, arg_count); -} - - -Type *ssa_addr_type(ssaAddr lval) { - if (lval.addr != NULL) { - Type *t = ssa_type(lval.addr); - GB_ASSERT(is_type_pointer(t)); - return type_deref(t); - } - return NULL; -} - -ssaBlock *ssa_add_block(ssaProcedure *proc, AstNode *node, char *label) { - Scope *scope = NULL; - if (node != NULL) { - Scope **found = map_get(&proc->module->info->scopes, hash_pointer(node)); - if (found) { - scope = *found; - } else { - GB_PANIC("Block scope not found for %.*s", LIT(ast_node_strings[node->kind])); - } - } - - ssaValue *value = ssa_make_value_block(proc, node, scope, make_string(label)); - ssaBlock *block = &value->Block; - array_add(&proc->blocks, block); - return block; -} - -void ssa_block_replace_pred(ssaBlock *b, ssaBlock *from, ssaBlock *to) { - for_array(i, b->preds) { - ssaBlock *pred = b->preds[i]; - if (pred == from) { - b->preds[i] = to; - } - } -} - -void ssa_block_replace_succ(ssaBlock *b, ssaBlock *from, ssaBlock *to) { - for_array(i, b->succs) { - ssaBlock *succ = b->succs[i]; - if (succ == from) { - b->succs[i] = to; - } - } -} - -b32 ssa_block_has_phi(ssaBlock *b) { - return b->instrs[0]->Instr.kind == ssaInstr_Phi; -} - - - - - - - - -void ssa_build_stmt(ssaProcedure *proc, AstNode *s); -void ssa_emit_no_op(ssaProcedure *proc); -void ssa_emit_jump(ssaProcedure *proc, ssaBlock *block); - -void ssa_build_defer_stmt(ssaProcedure *proc, ssaDefer d) { - ssaBlock *b = ssa_add_block(proc, NULL, "defer"); - // NOTE(bill): The prev block may defer injection before it's terminator - ssaInstr *last_instr = ssa_get_last_instr(proc->curr_block); - if (last_instr == NULL || !ssa_is_instr_terminating(last_instr)) { - ssa_emit_jump(proc, b); - } - proc->curr_block = b; - ssa_emit_comment(proc, make_string("defer")); - if (d.kind == ssaDefer_Node) { - ssa_build_stmt(proc, d.stmt); - } else if (d.kind == ssaDefer_Instr) { - // NOTE(bill): Need to make a new copy - ssaValue *instr = cast(ssaValue *)gb_alloc_copy(proc->module->allocator, d.instr, gb_size_of(ssaValue)); - ssa_emit(proc, instr); - } -} - -void ssa_emit_defer_stmts(ssaProcedure *proc, ssaDeferExitKind kind, ssaBlock *block) { - isize count = proc->defer_stmts.count; - isize i = count; - while (i --> 0) { - ssaDefer d = proc->defer_stmts[i]; - if (kind == ssaDeferExit_Default) { - if (proc->scope_index == d.scope_index && - d.scope_index > 1) { - ssa_build_defer_stmt(proc, d); - array_pop(&proc->defer_stmts); - continue; - } else { - break; - } - } else if (kind == ssaDeferExit_Return) { - ssa_build_defer_stmt(proc, d); - } else if (kind == ssaDeferExit_Branch) { - GB_ASSERT(block != NULL); - isize lower_limit = block->scope_index+1; - if (lower_limit < d.scope_index) { - ssa_build_defer_stmt(proc, d); - } - } - } -} - -void ssa_open_scope(ssaProcedure *proc) { - proc->scope_index++; -} - - -void ssa_close_scope(ssaProcedure *proc, ssaDeferExitKind kind, ssaBlock *block) { - ssa_emit_defer_stmts(proc, kind, block); - GB_ASSERT(proc->scope_index > 0); - proc->scope_index--; -} - -void ssa_add_edge(ssaBlock *from, ssaBlock *to) { - array_add(&from->succs, to); - array_add(&to->preds, from); -} - - - -void ssa_emit_unreachable(ssaProcedure *proc) { - ssa_emit(proc, ssa_make_instr_unreachable(proc)); -} - -void ssa_emit_return(ssaProcedure *proc, ssaValue *v) { - ssa_emit_defer_stmts(proc, ssaDeferExit_Return, NULL); - ssa_emit(proc, ssa_make_instr_return(proc, v)); -} - -void ssa_emit_jump(ssaProcedure *proc, ssaBlock *target_block) { - ssaBlock *b = proc->curr_block; - if (b == NULL) { - return; - } - ssa_emit(proc, ssa_make_instr_jump(proc, target_block)); - ssa_add_edge(b, target_block); - proc->curr_block = NULL; -} - -void ssa_emit_if(ssaProcedure *proc, ssaValue *cond, ssaBlock *true_block, ssaBlock *false_block) { - ssaBlock *b = proc->curr_block; - if (b == NULL) { - return; - } - ssa_emit(proc, ssa_make_instr_if(proc, cond, true_block, false_block)); - ssa_add_edge(b, true_block); - ssa_add_edge(b, false_block); - proc->curr_block = NULL; -} - - -ssaValue *ssa_addr_store(ssaProcedure *proc, ssaAddr addr, ssaValue *value) { - if (addr.addr == NULL) { - return NULL; - } - - if (addr.kind == ssaAddr_Vector) { - ssaValue *v = ssa_emit_load(proc, addr.addr); - Type *elem_type = base_type(ssa_type(v))->Vector.elem; - ssaValue *elem = ssa_emit_conv(proc, value, elem_type); - ssaValue *out = ssa_emit(proc, ssa_make_instr_insert_element(proc, v, elem, addr.Vector.index)); - return ssa_emit_store(proc, addr.addr, out); - } else { - ssaValue *v = ssa_emit_conv(proc, value, ssa_addr_type(addr)); - return ssa_emit_store(proc, addr.addr, v); - } -} -ssaValue *ssa_addr_load(ssaProcedure *proc, ssaAddr addr) { - if (addr.addr == NULL) { - GB_PANIC("Illegal addr load"); - return NULL; - } - - if (addr.kind == ssaAddr_Vector) { - ssaValue *v = ssa_emit_load(proc, addr.addr); - return ssa_emit(proc, ssa_make_instr_extract_element(proc, v, addr.Vector.index)); - } - Type *t = base_type(ssa_type(addr.addr)); - if (t->kind == Type_Proc) { - // NOTE(bill): Imported procedures don't require a load as they are pointers - return addr.addr; - } - return ssa_emit_load(proc, addr.addr); -} - - - - -void ssa_begin_procedure_body(ssaProcedure *proc) { - array_init(&proc->blocks, heap_allocator()); - array_init(&proc->defer_stmts, heap_allocator()); - array_init(&proc->children, heap_allocator()); - - proc->decl_block = ssa_add_block(proc, proc->type_expr, "decls"); - proc->entry_block = ssa_add_block(proc, proc->type_expr, "entry"); - proc->curr_block = proc->entry_block; - - if (proc->type->Proc.params != NULL) { - auto *params = &proc->type->Proc.params->Tuple; - for (isize i = 0; i < params->variable_count; i++) { - Entity *e = params->variables[i]; - ssa_add_param(proc, e); - } - } -} - - -void ssa_optimize_blocks(ssaProcedure *proc); -void ssa_build_referrers(ssaProcedure *proc); -void ssa_build_dom_tree (ssaProcedure *proc); -void ssa_opt_mem2reg (ssaProcedure *proc); - -void ssa_end_procedure_body(ssaProcedure *proc) { - if (proc->type->Proc.result_count == 0) { - ssa_emit_return(proc, NULL); - } - - if (proc->curr_block->instrs.count == 0) { - ssa_emit_unreachable(proc); - } - - proc->curr_block = proc->decl_block; - ssa_emit_jump(proc, proc->entry_block); - -#if 0 - ssa_optimize_blocks(proc); - ssa_build_referrers(proc); - ssa_build_dom_tree(proc); - - // TODO(bill): mem2reg optimization - // [ ] Local never loaded? Eliminate - // [ ] Local never stored? Replace all loads with `Nil` - // [ ] Local stored once? Replace loads with dominating store - // [ ] Convert to phi nodes - ssa_opt_mem2reg(proc); -#endif - -// Number registers - i32 reg_index = 0; - for_array(i, proc->blocks) { - ssaBlock *b = proc->blocks[i]; - b->index = i; - for_array(j, b->instrs) { - ssaValue *value = b->instrs[j]; - GB_ASSERT(value->kind == ssaValue_Instr); - ssaInstr *instr = &value->Instr; - if (ssa_instr_type(instr) == NULL) { // NOTE(bill): Ignore non-returning instructions - continue; - } - value->index = reg_index; - reg_index++; - } - } -} - -void ssa_push_target_list(ssaProcedure *proc, ssaBlock *break_, ssaBlock *continue_, ssaBlock *fallthrough_) { - ssaTargetList *tl = gb_alloc_item(proc->module->allocator, ssaTargetList); - tl->prev = proc->target_list; - tl->break_ = break_; - tl->continue_ = continue_; - tl->fallthrough_ = fallthrough_; - proc->target_list = tl; -} - -void ssa_pop_target_list(ssaProcedure *proc) { - proc->target_list = proc->target_list->prev; -} - - -ssaValue *ssa_emit_ptr_offset(ssaProcedure *proc, ssaValue *ptr, ssaValue *offset) { - offset = ssa_emit_conv(proc, offset, t_int); - return ssa_emit(proc, ssa_make_instr_ptr_offset(proc, ptr, offset)); -} - -ssaValue *ssa_emit_arith(ssaProcedure *proc, TokenKind op, ssaValue *left, ssaValue *right, Type *type) { - Type *t_left = ssa_type(left); - Type *t_right = ssa_type(right); - - if (op == Token_Add) { - if (is_type_pointer(t_left)) { - ssaValue *ptr = ssa_emit_conv(proc, left, type); - ssaValue *offset = right; - return ssa_emit_ptr_offset(proc, ptr, offset); - } else if (is_type_pointer(ssa_type(right))) { - ssaValue *ptr = ssa_emit_conv(proc, right, type); - ssaValue *offset = left; - return ssa_emit_ptr_offset(proc, ptr, offset); - } - } else if (op == Token_Sub) { - if (is_type_pointer(t_left) && is_type_integer(t_right)) { - // ptr - int - ssaValue *ptr = ssa_emit_conv(proc, left, type); - ssaValue *offset = right; - return ssa_emit_ptr_offset(proc, ptr, offset); - } else if (is_type_pointer(t_left) && is_type_pointer(t_right)) { - GB_ASSERT(is_type_integer(type)); - Type *ptr_type = t_left; - ssaModule *m = proc->module; - ssaValue *x = ssa_emit_conv(proc, left, type); - ssaValue *y = ssa_emit_conv(proc, right, type); - ssaValue *diff = ssa_emit_arith(proc, op, x, y, type); - ssaValue *elem_size = ssa_make_const_int(m->allocator, type_size_of(m->sizes, m->allocator, ptr_type)); - return ssa_emit_arith(proc, Token_Quo, diff, elem_size, type); - } - } - - - switch (op) { - case Token_AndNot: { - // NOTE(bill): x &~ y == x & (~y) == x & (y ~ -1) - // NOTE(bill): "not" `x` == `x` "xor" `-1` - ssaValue *neg = ssa_add_module_constant(proc->module, type, make_exact_value_integer(-1)); - op = Token_Xor; - right = ssa_emit_arith(proc, op, right, neg, type); - GB_ASSERT(right->Instr.kind == ssaInstr_BinaryOp); - right->Instr.BinaryOp.type = type; - op = Token_And; - } /* fallthrough */ - case Token_Add: - case Token_Sub: - case Token_Mul: - case Token_Quo: - case Token_Mod: - case Token_And: - case Token_Or: - case Token_Xor: - left = ssa_emit_conv(proc, left, type); - right = ssa_emit_conv(proc, right, type); - break; - } - - return ssa_emit(proc, ssa_make_instr_binary_op(proc, op, left, right, type)); -} - -ssaValue *ssa_emit_comp(ssaProcedure *proc, TokenKind op_kind, ssaValue *left, ssaValue *right) { - Type *a = base_type(ssa_type(left)); - Type *b = base_type(ssa_type(right)); - - if (are_types_identical(a, b)) { - // NOTE(bill): No need for a conversion - } else if (left->kind == ssaValue_Constant || left->kind == ssaValue_Nil) { - left = ssa_emit_conv(proc, left, ssa_type(right)); - } else if (right->kind == ssaValue_Constant || right->kind == ssaValue_Nil) { - right = ssa_emit_conv(proc, right, ssa_type(left)); - } - - Type *result = t_bool; - if (is_type_vector(a)) { - result = make_type_vector(proc->module->allocator, t_bool, a->Vector.count); - } - return ssa_emit(proc, ssa_make_instr_binary_op(proc, op_kind, left, right, result)); -} - -ssaValue *ssa_emit_array_ep(ssaProcedure *proc, ssaValue *s, ssaValue *index) { - ssaValue *gep = NULL; - Type *st = base_type(type_deref(ssa_type(s))); - GB_ASSERT(is_type_array(st)); - - // NOTE(bill): For some weird legacy reason in LLVM, structure elements must be accessed as an i32 - index = ssa_emit_conv(proc, index, t_i32); - return ssa_emit(proc, ssa_make_instr_array_element_ptr(proc, s, index)); -} - -ssaValue *ssa_emit_array_ep(ssaProcedure *proc, ssaValue *s, i32 index) { - return ssa_emit_array_ep(proc, s, ssa_make_const_i32(proc->module->allocator, index)); -} - - -ssaValue *ssa_emit_struct_ep(ssaProcedure *proc, ssaValue *s, i32 index) { - gbAllocator a = proc->module->allocator; - Type *t = base_type(type_deref(ssa_type(s))); - Type *result_type = NULL; - ssaValue *gep = NULL; - - if (is_type_struct(t)) { - GB_ASSERT(t->Record.field_count > 0); - GB_ASSERT(gb_is_between(index, 0, t->Record.field_count-1)); - result_type = make_type_pointer(a, t->Record.fields[index]->type); - } else if (is_type_tuple(t)) { - GB_ASSERT(t->Tuple.variable_count > 0); - GB_ASSERT(gb_is_between(index, 0, t->Tuple.variable_count-1)); - result_type = make_type_pointer(a, t->Tuple.variables[index]->type); - } else if (is_type_slice(t)) { - switch (index) { - case 0: result_type = make_type_pointer(a, make_type_pointer(a, t->Slice.elem)); break; - case 1: result_type = make_type_pointer(a, t_int); break; - case 2: result_type = make_type_pointer(a, t_int); break; - } - } else if (is_type_string(t)) { - switch (index) { - case 0: result_type = make_type_pointer(a, t_u8_ptr); break; - case 1: result_type = make_type_pointer(a, t_int); break; - } - } else if (is_type_any(t)) { - switch (index) { - case 0: result_type = make_type_pointer(a, t_type_info_ptr); break; - case 1: result_type = make_type_pointer(a, t_rawptr); break; - } - } else if (is_type_maybe(t)) { - switch (index) { - case 0: result_type = make_type_pointer(a, t->Maybe.elem); break; - case 1: result_type = make_type_pointer(a, t_bool); break; - } - } else if (is_type_union(t)) { - switch (index) { - case 1: result_type = make_type_pointer(a, t_int); break; - - case 0: - default: - GB_PANIC("TODO(bill): struct_gep 0 for unions"); - break; - } - } else { - GB_PANIC("TODO(bill): struct_gep type: %s, %d", type_to_string(ssa_type(s)), index); - } - - GB_ASSERT(result_type != NULL); - - gep = ssa_make_instr_struct_element_ptr(proc, s, index, result_type); - return ssa_emit(proc, gep); -} - - - -ssaValue *ssa_emit_array_ev(ssaProcedure *proc, ssaValue *s, i32 index) { - ssaValue *gep = NULL; - Type *st = base_type(ssa_type(s)); - GB_ASSERT(is_type_array(st)); - return ssa_emit(proc, ssa_make_instr_array_extract_value(proc, s, index)); -} - -ssaValue *ssa_emit_struct_ev(ssaProcedure *proc, ssaValue *s, i32 index) { - // NOTE(bill): For some weird legacy reason in LLVM, structure elements must be accessed as an i32 - - gbAllocator a = proc->module->allocator; - Type *t = base_type(ssa_type(s)); - Type *result_type = NULL; - - if (is_type_struct(t)) { - GB_ASSERT(t->Record.field_count > 0); - GB_ASSERT(gb_is_between(index, 0, t->Record.field_count-1)); - result_type = t->Record.fields[index]->type; - } else if (is_type_tuple(t)) { - GB_ASSERT(t->Tuple.variable_count > 0); - GB_ASSERT(gb_is_between(index, 0, t->Tuple.variable_count-1)); - result_type = t->Tuple.variables[index]->type; - } else if (is_type_slice(t)) { - switch (index) { - case 0: result_type = make_type_pointer(a, t->Slice.elem); break; - case 1: result_type = t_int; break; - case 2: result_type = t_int; break; - } - } else if (is_type_string(t)) { - switch (index) { - case 0: result_type = t_u8_ptr; break; - case 1: result_type = t_int; break; - } - } else if (is_type_any(t)) { - switch (index) { - case 0: result_type = t_type_info_ptr; break; - case 1: result_type = t_rawptr; break; - } - } else if (is_type_maybe(t)) { - switch (index) { - case 0: result_type = t->Maybe.elem; break; - case 1: result_type = t_bool; break; - } - } else if (is_type_union(t)) { - switch (index) { - case 1: result_type = t_int; break; - - case 0: - default: - GB_PANIC("TODO(bill): struct_gep 0 for unions"); - break; - } - } else { - GB_PANIC("TODO(bill): struct_ev type: %s, %d", type_to_string(ssa_type(s)), index); - } - - GB_ASSERT(result_type != NULL); - - return ssa_emit(proc, ssa_make_instr_struct_extract_value(proc, s, index, result_type)); -} - - -ssaValue *ssa_emit_deep_field_gep(ssaProcedure *proc, Type *type, ssaValue *e, Selection sel) { - GB_ASSERT(sel.index.count > 0); - - for_array(i, sel.index) { - i32 index = cast(i32)sel.index[i]; - if (is_type_pointer(type)) { - type = type_deref(type); - e = ssa_emit_load(proc, e); - e = ssa_emit_ptr_offset(proc, e, v_zero); // TODO(bill): Do I need these copies? - } - type = base_type(type); - - - if (is_type_raw_union(type)) { - type = type->Record.fields[index]->type; - e = ssa_emit_conv(proc, e, make_type_pointer(proc->module->allocator, type)); - } else if (type->kind == Type_Record) { - type = type->Record.fields[index]->type; - e = ssa_emit_struct_ep(proc, e, index); - } else if (type->kind == Type_Basic) { - switch (type->Basic.kind) { - case Basic_any: { - if (index == 0) { - type = t_type_info_ptr; - } else if (index == 1) { - type = t_rawptr; - } - e = ssa_emit_struct_ep(proc, e, index); - } break; - - case Basic_string: - e = ssa_emit_struct_ep(proc, e, index); - break; - - default: - GB_PANIC("un-gep-able type"); - break; - } - } else if (type->kind == Type_Slice) { - e = ssa_emit_struct_ep(proc, e, index); - } else { - GB_PANIC("un-gep-able type"); - } - } - - return e; -} - - -ssaValue *ssa_emit_deep_field_ev(ssaProcedure *proc, Type *type, ssaValue *e, Selection sel) { - GB_ASSERT(sel.index.count > 0); - - for_array(i, sel.index) { - isize index = sel.index[i]; - if (is_type_pointer(type)) { - type = type_deref(type); - e = ssa_emit_load(proc, e); - e = ssa_emit_ptr_offset(proc, e, v_zero); // TODO(bill): Do I need these copies? - } - type = base_type(type); - - - if (is_type_raw_union(type)) { - type = type->Record.fields[index]->type; - e = ssa_emit_conv(proc, e, make_type_pointer(proc->module->allocator, type)); - } else { - e = ssa_emit_struct_ev(proc, e, index); - } - } - - return e; -} - - - -isize ssa_type_info_index(CheckerInfo *info, Type *type) { - type = default_type(type); - - isize entry_index = -1; - HashKey key = hash_pointer(type); - auto *found_entry_index = map_get(&info->type_info_map, key); - if (found_entry_index) { - entry_index = *found_entry_index; - } - if (entry_index < 0) { - // NOTE(bill): Do manual search - // TODO(bill): This is O(n) and can be very slow - for_array(i, info->type_info_map.entries){ - auto *e = &info->type_info_map.entries[i]; - Type *prev_type = cast(Type *)e->key.ptr; - if (are_types_identical(prev_type, type)) { - entry_index = e->value; - // NOTE(bill): Add it to the search map - map_set(&info->type_info_map, key, entry_index); - break; - } - } - } - - if (entry_index < 0) { - compiler_error("Type_Info for `%s` could not be found", type_to_string(type)); - } - return entry_index; -} - -ssaValue *ssa_type_info(ssaProcedure *proc, Type *type) { - ssaValue **found = map_get(&proc->module->members, hash_string(make_string(SSA_TYPE_INFO_DATA_NAME))); - GB_ASSERT(found != NULL); - ssaValue *type_info_data = *found; - - CheckerInfo *info = proc->module->info; - ssaValue *entry_index = ssa_make_const_i32(proc->module->allocator, ssa_type_info_index(info, type)); - return ssa_emit_array_ep(proc, type_info_data, entry_index); -} - - - - - - - -ssaValue *ssa_array_elem(ssaProcedure *proc, ssaValue *array) { - return ssa_emit_array_ep(proc, array, v_zero32); -} -ssaValue *ssa_array_len(ssaProcedure *proc, ssaValue *array) { - Type *t = ssa_type(array); - GB_ASSERT(t->kind == Type_Array); - return ssa_make_const_int(proc->module->allocator, t->Array.count); -} -ssaValue *ssa_array_cap(ssaProcedure *proc, ssaValue *array) { - return ssa_array_len(proc, array); -} - -ssaValue *ssa_slice_elem(ssaProcedure *proc, ssaValue *slice) { - Type *t = ssa_type(slice); - GB_ASSERT(t->kind == Type_Slice); - return ssa_emit_struct_ev(proc, slice, 0); -} -ssaValue *ssa_slice_len(ssaProcedure *proc, ssaValue *slice) { - Type *t = ssa_type(slice); - GB_ASSERT(t->kind == Type_Slice); - return ssa_emit_struct_ev(proc, slice, 1); -} -ssaValue *ssa_slice_cap(ssaProcedure *proc, ssaValue *slice) { - Type *t = ssa_type(slice); - GB_ASSERT(t->kind == Type_Slice); - return ssa_emit_struct_ev(proc, slice, 2); -} - -ssaValue *ssa_string_elem(ssaProcedure *proc, ssaValue *string) { - Type *t = ssa_type(string); - GB_ASSERT(t->kind == Type_Basic && t->Basic.kind == Basic_string); - return ssa_emit_struct_ev(proc, string, 0); -} -ssaValue *ssa_string_len(ssaProcedure *proc, ssaValue *string) { - Type *t = ssa_type(string); - GB_ASSERT(t->kind == Type_Basic && t->Basic.kind == Basic_string); - return ssa_emit_struct_ev(proc, string, 1); -} - - - -ssaValue *ssa_add_local_slice(ssaProcedure *proc, Type *slice_type, ssaValue *base, ssaValue *low, ssaValue *high, ssaValue *max) { - // TODO(bill): array bounds checking for slice creation - // TODO(bill): check that low < high <= max - gbAllocator a = proc->module->allocator; - Type *bt = base_type(ssa_type(base)); - - if (low == NULL) { - low = v_zero; - } - if (high == NULL) { - switch (bt->kind) { - case Type_Array: high = ssa_array_len(proc, base); break; - case Type_Slice: high = ssa_slice_len(proc, base); break; - case Type_Pointer: high = v_one; break; - } - } - if (max == NULL) { - switch (bt->kind) { - case Type_Array: max = ssa_array_cap(proc, base); break; - case Type_Slice: max = ssa_slice_cap(proc, base); break; - case Type_Pointer: max = high; break; - } - } - GB_ASSERT(max != NULL); - - ssaValue *len = ssa_emit_arith(proc, Token_Sub, high, low, t_int); - ssaValue *cap = ssa_emit_arith(proc, Token_Sub, max, low, t_int); - - ssaValue *elem = NULL; - switch (bt->kind) { - case Type_Array: elem = ssa_array_elem(proc, base); break; - case Type_Slice: elem = ssa_slice_elem(proc, base); break; - case Type_Pointer: elem = ssa_emit_load(proc, base); break; - } - - elem = ssa_emit_ptr_offset(proc, elem, low); - - ssaValue *slice = ssa_add_local_generated(proc, slice_type); - - ssaValue *gep = NULL; - gep = ssa_emit_struct_ep(proc, slice, 0); - ssa_emit_store(proc, gep, elem); - - gep = ssa_emit_struct_ep(proc, slice, 1); - ssa_emit_store(proc, gep, len); - - gep = ssa_emit_struct_ep(proc, slice, 2); - ssa_emit_store(proc, gep, cap); - - return slice; -} - - -ssaValue *ssa_add_global_string_array(ssaModule *m, String string) { - gbAllocator a = m->allocator; - - isize max_len = 6+8+1; - u8 *str = cast(u8 *)gb_alloc_array(a, u8, max_len); - isize len = gb_snprintf(cast(char *)str, max_len, "__str$%x", m->global_string_index); - m->global_string_index++; - - String name = make_string(str, len-1); - Token token = {Token_String}; - token.string = name; - Type *type = make_type_array(a, t_u8, string.len); - ExactValue ev = make_exact_value_string(string); - Entity *entity = make_entity_constant(a, NULL, token, type, ev); - ssaValue *g = ssa_make_value_global(a, entity, ssa_add_module_constant(m, type, ev)); - g->Global.is_private = true; - // g->Global.is_constant = true; - - ssa_module_add_value(m, entity, g); - map_set(&m->members, hash_string(name), g); - - return g; -} - -ssaValue *ssa_emit_string(ssaProcedure *proc, ssaValue *elem, ssaValue *len) { - ssaValue *str = ssa_add_local_generated(proc, t_string); - ssaValue *str_elem = ssa_emit_struct_ep(proc, str, 0); - ssaValue *str_len = ssa_emit_struct_ep(proc, str, 1); - ssa_emit_store(proc, str_elem, elem); - ssa_emit_store(proc, str_len, len); - return ssa_emit_load(proc, str); -} - - -ssaValue *ssa_emit_global_string(ssaProcedure *proc, String str) { - ssaValue *global_array = ssa_add_global_string_array(proc->module, str); - ssaValue *elem = ssa_array_elem(proc, global_array); - ssaValue *len = ssa_make_const_int(proc->module->allocator, str.len); - return ssa_emit_string(proc, elem, len); -} - - -String lookup_polymorphic_field(CheckerInfo *info, Type *dst, Type *src) { - Type *prev_src = src; - // Type *prev_dst = dst; - src = base_type(type_deref(src)); - // dst = base_type(type_deref(dst)); - b32 src_is_ptr = src != prev_src; - // b32 dst_is_ptr = dst != prev_dst; - - GB_ASSERT(is_type_struct(src)); - for (isize i = 0; i < src->Record.field_count; i++) { - Entity *f = src->Record.fields[i]; - if (f->kind == Entity_Variable && f->Variable.anonymous) { - if (are_types_identical(dst, f->type)) { - return f->token.string; - } - if (src_is_ptr && is_type_pointer(dst)) { - if (are_types_identical(type_deref(dst), f->type)) { - return f->token.string; - } - } - String name = lookup_polymorphic_field(info, dst, f->type); - if (name.len > 0) { - return name; - } - } - } - return make_string(""); -} - -ssaValue *ssa_emit_bitcast(ssaProcedure *proc, ssaValue *data, Type *type) { - return ssa_emit(proc, ssa_make_instr_conv(proc, ssaConv_bitcast, data, ssa_type(data), type)); -} - - -ssaValue *ssa_emit_conv(ssaProcedure *proc, ssaValue *value, Type *t, b32 is_argument) { - Type *src_type = ssa_type(value); - if (are_types_identical(t, src_type)) { - return value; - } - - - Type *src = get_enum_base_type(base_type(src_type)); - Type *dst = get_enum_base_type(base_type(t)); - - if (value->kind == ssaValue_Constant) { - if (is_type_any(dst)) { - ssaValue *default_value = ssa_add_local_generated(proc, default_type(src_type)); - ssa_emit_store(proc, default_value, value); - return ssa_emit_conv(proc, ssa_emit_load(proc, default_value), t_any, is_argument); - } else if (dst->kind == Type_Basic) { - ExactValue ev = value->Constant.value; - if (is_type_float(dst)) { - ev = exact_value_to_float(ev); - } else if (is_type_string(dst)) { - // Handled elsewhere - GB_ASSERT(ev.kind == ExactValue_String); - } else if (is_type_integer(dst)) { - ev = exact_value_to_integer(ev); - } else if (is_type_pointer(dst)) { - // IMPORTANT NOTE(bill): LLVM doesn't support pointer constants expect `null` - ssaValue *i = ssa_add_module_constant(proc->module, t_uint, ev); - return ssa_emit(proc, ssa_make_instr_conv(proc, ssaConv_inttoptr, i, t_uint, dst)); - } - return ssa_add_module_constant(proc->module, t, ev); - } - } - - if (are_types_identical(src, dst)) { - return value; - } - - if (is_type_maybe(dst)) { - gbAllocator a = proc->module->allocator; - Type *elem = base_type(dst)->Maybe.elem; - ssaValue *maybe = ssa_add_local_generated(proc, dst); - ssaValue *val = ssa_emit_struct_ep(proc, maybe, 0); - ssaValue *set = ssa_emit_struct_ep(proc, maybe, 1); - ssa_emit_store(proc, val, value); - ssa_emit_store(proc, set, v_true); - return ssa_emit_load(proc, maybe); - } - - // integer -> integer - if (is_type_integer(src) && is_type_integer(dst)) { - GB_ASSERT(src->kind == Type_Basic && - dst->kind == Type_Basic); - i64 sz = type_size_of(proc->module->sizes, proc->module->allocator, src); - i64 dz = type_size_of(proc->module->sizes, proc->module->allocator, dst); - if (sz == dz) { - // NOTE(bill): In LLVM, all integers are signed and rely upon 2's compliment - return value; - } - - ssaConvKind kind = ssaConv_trunc; - if (dz >= sz) { - kind = ssaConv_zext; - } - return ssa_emit(proc, ssa_make_instr_conv(proc, kind, value, src, dst)); - } - - // boolean -> integer - if (is_type_boolean(src) && is_type_integer(dst)) { - return ssa_emit(proc, ssa_make_instr_conv(proc, ssaConv_zext, value, src, dst)); - } - - // integer -> boolean - if (is_type_integer(src) && is_type_boolean(dst)) { - return ssa_emit_comp(proc, Token_NotEq, value, v_zero); - } - - - // float -> float - if (is_type_float(src) && is_type_float(dst)) { - i64 sz = basic_type_sizes[src->Basic.kind]; - i64 dz = basic_type_sizes[dst->Basic.kind]; - ssaConvKind kind = ssaConv_fptrunc; - if (dz >= sz) { - kind = ssaConv_fpext; - } - return ssa_emit(proc, ssa_make_instr_conv(proc, kind, value, src, dst)); - } - - // float <-> integer - if (is_type_float(src) && is_type_integer(dst)) { - ssaConvKind kind = ssaConv_fptosi; - if (is_type_unsigned(dst)) { - kind = ssaConv_fptoui; - } - return ssa_emit(proc, ssa_make_instr_conv(proc, kind, value, src, dst)); - } - if (is_type_integer(src) && is_type_float(dst)) { - ssaConvKind kind = ssaConv_sitofp; - if (is_type_unsigned(src)) { - kind = ssaConv_uitofp; - } - return ssa_emit(proc, ssa_make_instr_conv(proc, kind, value, src, dst)); - } - - // Pointer <-> int - if (is_type_pointer(src) && is_type_int_or_uint(dst)) { - return ssa_emit(proc, ssa_make_instr_conv(proc, ssaConv_ptrtoint, value, src, dst)); - } - if (is_type_int_or_uint(src) && is_type_pointer(dst)) { - return ssa_emit(proc, ssa_make_instr_conv(proc, ssaConv_inttoptr, value, src, dst)); - } - - if (is_type_union(dst)) { - for (isize i = 0; i < dst->Record.field_count; i++) { - Entity *f = dst->Record.fields[i]; - if (are_types_identical(f->type, src_type)) { - ssa_emit_comment(proc, make_string("union - child to parent")); - gbAllocator allocator = proc->module->allocator; - ssaValue *parent = ssa_add_local_generated(proc, t); - ssaValue *tag = ssa_make_const_int(allocator, i); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, parent, 1), tag); - - ssaValue *data = ssa_emit_conv(proc, parent, t_rawptr); - - Type *tag_type = src_type; - Type *tag_type_ptr = make_type_pointer(allocator, tag_type); - ssaValue *underlying = ssa_emit_bitcast(proc, data, tag_type_ptr); - ssa_emit_store(proc, underlying, value); - - return ssa_emit_load(proc, parent); - } - } - } - - // NOTE(bill): This has to be done beofre `Pointer <-> Pointer` as it's - // subtype polymorphism casting - if (true || is_argument) { - Type *sb = base_type(type_deref(src)); - b32 src_is_ptr = src != sb; - if (is_type_struct(sb)) { - String field_name = lookup_polymorphic_field(proc->module->info, t, src); - // gb_printf("field_name: %.*s\n", LIT(field_name)); - if (field_name.len > 0) { - // NOTE(bill): It can be casted - Selection sel = lookup_field(proc->module->allocator, sb, field_name, false); - if (sel.entity != NULL) { - ssa_emit_comment(proc, make_string("cast - polymorphism")); - if (src_is_ptr) { - value = ssa_emit_load(proc, value); - } - return ssa_emit_deep_field_ev(proc, sb, value, sel); - } - } - } - } - - - - // Pointer <-> Pointer - if (is_type_pointer(src) && is_type_pointer(dst)) { - return ssa_emit_bitcast(proc, value, dst); - } - - - - // proc <-> proc - if (is_type_proc(src) && is_type_proc(dst)) { - return ssa_emit_bitcast(proc, value, dst); - } - - // pointer -> proc - if (is_type_pointer(src) && is_type_proc(dst)) { - return ssa_emit_bitcast(proc, value, dst); - } - // proc -> pointer - if (is_type_proc(src) && is_type_pointer(dst)) { - return ssa_emit_bitcast(proc, value, dst); - } - - - - // []byte/[]u8 <-> string - if (is_type_u8_slice(src) && is_type_string(dst)) { - ssaValue *elem = ssa_slice_elem(proc, value); - ssaValue *len = ssa_slice_len(proc, value); - return ssa_emit_string(proc, elem, len); - } - if (is_type_string(src) && is_type_u8_slice(dst)) { - ssaValue *elem = ssa_string_elem(proc, value); - ssaValue *elem_ptr = ssa_add_local_generated(proc, ssa_type(elem)); - ssa_emit_store(proc, elem_ptr, elem); - - ssaValue *len = ssa_string_len(proc, value); - ssaValue *slice = ssa_add_local_slice(proc, dst, elem_ptr, v_zero, len, len); - return ssa_emit_load(proc, slice); - } - - if (is_type_vector(dst)) { - Type *dst_elem = dst->Vector.elem; - value = ssa_emit_conv(proc, value, dst_elem); - ssaValue *v = ssa_add_local_generated(proc, t); - v = ssa_emit_load(proc, v); - v = ssa_emit(proc, ssa_make_instr_insert_element(proc, v, value, v_zero32)); - // NOTE(bill): Broadcast lowest value to all values - isize index_count = dst->Vector.count; - i32 *indices = gb_alloc_array(proc->module->allocator, i32, index_count); - for (isize i = 0; i < index_count; i++) { - indices[i] = 0; - } - - v = ssa_emit(proc, ssa_make_instr_vector_shuffle(proc, v, indices, index_count)); - return v; - } - - if (is_type_any(dst)) { - ssaValue *result = ssa_add_local_generated(proc, t_any); - - if (is_type_untyped_nil(src)) { - return ssa_emit_load(proc, result); - } - - ssaValue *data = NULL; - if (value->kind == ssaValue_Instr && - value->Instr.kind == ssaInstr_Load) { - // NOTE(bill): Addressable value - data = value->Instr.Load.address; - } else { - // NOTE(bill): Non-addressable value - data = ssa_add_local_generated(proc, src_type); - ssa_emit_store(proc, data, value); - } - GB_ASSERT(is_type_pointer(ssa_type(data))); - GB_ASSERT(is_type_typed(src_type)); - data = ssa_emit_conv(proc, data, t_rawptr); - - - ssaValue *ti = ssa_type_info(proc, src_type); - - ssaValue *gep0 = ssa_emit_struct_ep(proc, result, 0); - ssaValue *gep1 = ssa_emit_struct_ep(proc, result, 1); - ssa_emit_store(proc, gep0, ti); - ssa_emit_store(proc, gep1, data); - - return ssa_emit_load(proc, result); - } - - if (is_type_untyped_nil(src) && type_has_nil(dst)) { - return ssa_make_value_nil(proc->module->allocator, t); - } - - - gb_printf_err("ssa_emit_conv: src -> dst\n"); - gb_printf_err("Not Identical %s != %s\n", type_to_string(src_type), type_to_string(t)); - gb_printf_err("Not Identical %s != %s\n", type_to_string(src), type_to_string(dst)); - - - GB_PANIC("Invalid type conversion: `%s` to `%s`", type_to_string(src_type), type_to_string(t)); - - return NULL; -} - - -ssaValue *ssa_emit_transmute(ssaProcedure *proc, ssaValue *value, Type *t) { - Type *src_type = ssa_type(value); - if (are_types_identical(t, src_type)) { - return value; - } - - Type *src = base_type(src_type); - Type *dst = base_type(t); - if (are_types_identical(t, src_type)) { - return value; - } - - i64 sz = type_size_of(proc->module->sizes, proc->module->allocator, src); - i64 dz = type_size_of(proc->module->sizes, proc->module->allocator, dst); - - if (sz == dz) { - return ssa_emit_bitcast(proc, value, dst); - } - - - GB_PANIC("Invalid transmute conversion: `%s` to `%s`", type_to_string(src_type), type_to_string(t)); - - return NULL; -} - -ssaValue *ssa_emit_down_cast(ssaProcedure *proc, ssaValue *value, Type *t) { - GB_ASSERT(is_type_pointer(ssa_type(value))); - gbAllocator allocator = proc->module->allocator; - - String field_name = check_down_cast_name(t, type_deref(ssa_type(value))); - GB_ASSERT(field_name.len > 0); - Selection sel = lookup_field(proc->module->allocator, t, field_name, false); - Type *t_u8_ptr = make_type_pointer(allocator, t_u8); - ssaValue *bytes = ssa_emit_conv(proc, value, t_u8_ptr); - - i64 offset_ = type_offset_of_from_selection(proc->module->sizes, allocator, type_deref(t), sel); - ssaValue *offset = ssa_make_const_int(allocator, -offset_); - ssaValue *head = ssa_emit_ptr_offset(proc, bytes, offset); - return ssa_emit_conv(proc, head, t); -} - -ssaValue *ssa_emit_union_cast(ssaProcedure *proc, ssaValue *value, Type *tuple) { - GB_ASSERT(tuple->kind == Type_Tuple); - gbAllocator a = proc->module->allocator; - - Type *src_type = ssa_type(value); - b32 is_ptr = is_type_pointer(src_type); - - ssaValue *v = ssa_add_local_generated(proc, tuple); - - if (is_ptr) { - Type *src = base_type(type_deref(src_type)); - Type *src_ptr = src_type; - GB_ASSERT(is_type_union(src)); - Type *dst_ptr = tuple->Tuple.variables[0]->type; - Type *dst = type_deref(dst_ptr); - - ssaValue *tag = ssa_emit_load(proc, ssa_emit_struct_ep(proc, value, 1)); - ssaValue *dst_tag = NULL; - for (isize i = 1; i < src->Record.field_count; i++) { - Entity *f = src->Record.fields[i]; - if (are_types_identical(f->type, dst)) { - dst_tag = ssa_make_const_int(a, i); - break; - } - } - GB_ASSERT(dst_tag != NULL); - - ssaBlock *ok_block = ssa_add_block(proc, NULL, "union_cast.ok"); - ssaBlock *end_block = ssa_add_block(proc, NULL, "union_cast.end"); - ssaValue *cond = ssa_emit_comp(proc, Token_CmpEq, tag, dst_tag); - ssa_emit_if(proc, cond, ok_block, end_block); - proc->curr_block = ok_block; - - ssaValue *gep0 = ssa_emit_struct_ep(proc, v, 0); - ssaValue *gep1 = ssa_emit_struct_ep(proc, v, 1); - - ssaValue *data = ssa_emit_conv(proc, value, dst_ptr); - ssa_emit_store(proc, gep0, data); - ssa_emit_store(proc, gep1, v_true); - - ssa_emit_jump(proc, end_block); - proc->curr_block = end_block; - - } else { - Type *src = base_type(src_type); - GB_ASSERT(is_type_union(src)); - Type *dst = tuple->Tuple.variables[0]->type; - Type *dst_ptr = make_type_pointer(a, dst); - - ssaValue *tag = ssa_emit_struct_ev(proc, value, 1); - ssaValue *dst_tag = NULL; - for (isize i = 1; i < src->Record.field_count; i++) { - Entity *f = src->Record.fields[i]; - if (are_types_identical(f->type, dst)) { - dst_tag = ssa_make_const_int(a, i); - break; - } - } - GB_ASSERT(dst_tag != NULL); - - // HACK(bill): This is probably not very efficient - ssaValue *union_copy = ssa_add_local_generated(proc, src_type); - ssa_emit_store(proc, union_copy, value); - - ssaBlock *ok_block = ssa_add_block(proc, NULL, "union_cast.ok"); - ssaBlock *end_block = ssa_add_block(proc, NULL, "union_cast.end"); - ssaValue *cond = ssa_emit_comp(proc, Token_CmpEq, tag, dst_tag); - ssa_emit_if(proc, cond, ok_block, end_block); - proc->curr_block = ok_block; - - ssaValue *gep0 = ssa_emit_struct_ep(proc, v, 0); - ssaValue *gep1 = ssa_emit_struct_ep(proc, v, 1); - - ssaValue *data = ssa_emit_load(proc, ssa_emit_conv(proc, union_copy, dst_ptr)); - ssa_emit_store(proc, gep0, data); - ssa_emit_store(proc, gep1, v_true); - - ssa_emit_jump(proc, end_block); - proc->curr_block = end_block; - - } - return ssa_emit_load(proc, v); -} - -void ssa_build_cond(ssaProcedure *proc, AstNode *cond, ssaBlock *true_block, ssaBlock *false_block); - -ssaValue *ssa_emit_logical_binary_expr(ssaProcedure *proc, AstNode *expr) { - ast_node(be, BinaryExpr, expr); -#if 0 - ssaBlock *true_ = ssa_add_block(proc, NULL, "logical.cmp.true"); - ssaBlock *false_ = ssa_add_block(proc, NULL, "logical.cmp.false"); - ssaBlock *done = ssa_add_block(proc, NULL, "logical.cmp.done"); - - ssaValue *result = ssa_add_local_generated(proc, t_bool); - ssa_build_cond(proc, expr, true_, false_); - - proc->curr_block = true_; - ssa_emit_store(proc, result, v_true); - ssa_emit_jump(proc, done); - - proc->curr_block = false_; - ssa_emit_store(proc, result, v_false); - ssa_emit_jump(proc, done); - - proc->curr_block = done; - - return ssa_emit_load(proc, result); -#else - ssaBlock *rhs = ssa_add_block(proc, NULL, "logical.cmp.rhs"); - ssaBlock *done = ssa_add_block(proc, NULL, "logical.cmp.done"); - - Type *type = type_of_expr(proc->module->info, expr); - type = default_type(type); - - ssaValue *short_circuit = NULL; - if (be->op.kind == Token_CmpAnd) { - ssa_build_cond(proc, be->left, rhs, done); - short_circuit = v_false; - } else if (be->op.kind == Token_CmpOr) { - ssa_build_cond(proc, be->left, done, rhs); - short_circuit = v_true; - } - - if (rhs->preds.count == 0) { - proc->curr_block = done; - return short_circuit; - } - - if (done->preds.count == 0) { - proc->curr_block = rhs; - return ssa_build_expr(proc, be->right); - } - - Array<ssaValue *> edges = {}; - array_init(&edges, proc->module->allocator, done->preds.count+1); - for_array(i, done->preds) { - array_add(&edges, short_circuit); - } - - proc->curr_block = rhs; - array_add(&edges, ssa_build_expr(proc, be->right)); - ssa_emit_jump(proc, done); - proc->curr_block = done; - - return ssa_emit(proc, ssa_make_instr_phi(proc, edges, type)); -#endif -} - - -void ssa_array_bounds_check(ssaProcedure *proc, Token token, ssaValue *index, ssaValue *len) { - if ((proc->module->stmt_state_flags & StmtStateFlag_no_bounds_check) != 0) { - return; - } - - gbAllocator a = proc->module->allocator; - ssaValue **args = gb_alloc_array(a, ssaValue *, 5); - args[0] = ssa_emit_global_string(proc, token.pos.file); - args[1] = ssa_make_const_int(a, token.pos.line); - args[2] = ssa_make_const_int(a, token.pos.column); - args[3] = ssa_emit_conv(proc, index, t_int); - args[4] = ssa_emit_conv(proc, len, t_int); - - ssa_emit_global_call(proc, "__bounds_check_error", args, 5); -} - -void ssa_slice_bounds_check(ssaProcedure *proc, Token token, ssaValue *low, ssaValue *high, ssaValue *max, b32 is_substring) { - if ((proc->module->stmt_state_flags & StmtStateFlag_no_bounds_check) != 0) { - return; - } - - gbAllocator a = proc->module->allocator; - ssaValue **args = gb_alloc_array(a, ssaValue *, 6); - args[0] = ssa_emit_global_string(proc, token.pos.file); - args[1] = ssa_make_const_int(a, token.pos.line); - args[2] = ssa_make_const_int(a, token.pos.column); - args[3] = ssa_emit_conv(proc, low, t_int); - args[4] = ssa_emit_conv(proc, high, t_int); - args[5] = ssa_emit_conv(proc, max, t_int); - - if (!is_substring) { - ssa_emit_global_call(proc, "__slice_expr_error", args, 6); - } else { - ssa_emit_global_call(proc, "__substring_expr_error", args, 5); - } -} - -ssaValue *ssa_find_global_variable(ssaProcedure *proc, String name) { - ssaValue **value = map_get(&proc->module->members, hash_string(name)); - GB_ASSERT_MSG(value != NULL, "Unable to find global variable `%.*s`", LIT(name)); - return *value; -} - -ssaValue *ssa_find_implicit_value_backing(ssaProcedure *proc, ImplicitValueId id) { - Entity *e = proc->module->info->implicit_values[id]; - GB_ASSERT(e->kind == Entity_ImplicitValue); - Entity *backing = e->ImplicitValue.backing; - ssaValue **value = map_get(&proc->module->values, hash_pointer(backing)); - GB_ASSERT_MSG(value != NULL, "Unable to find implicit value backing `%.*s`", LIT(backing->token.string)); - return *value; -} - - - -ssaValue *ssa_build_single_expr(ssaProcedure *proc, AstNode *expr, TypeAndValue *tv) { - expr = unparen_expr(expr); - switch (expr->kind) { - case_ast_node(bl, BasicLit, expr); - GB_PANIC("Non-constant basic literal"); - case_end; - - case_ast_node(i, Ident, expr); - Entity *e = *map_get(&proc->module->info->uses, hash_pointer(expr)); - if (e->kind == Entity_Builtin) { - Token token = ast_node_token(expr); - GB_PANIC("TODO(bill): ssa_build_single_expr Entity_Builtin `%.*s`\n" - "\t at %.*s(%td:%td)", LIT(builtin_procs[e->Builtin.id].name), - LIT(token.pos.file), token.pos.line, token.pos.column); - return NULL; - } else if (e->kind == Entity_Nil) { - return ssa_make_value_nil(proc->module->allocator, tv->type); - } else if (e->kind == Entity_ImplicitValue) { - return ssa_emit_load(proc, ssa_find_implicit_value_backing(proc, e->ImplicitValue.id)); - } - - auto *found = map_get(&proc->module->values, hash_pointer(e)); - if (found) { - ssaValue *v = *found; - if (v->kind == ssaValue_Proc) { - return v; - } - // if (e->kind == Entity_Variable && e->Variable.param) { - // return v; - // } - return ssa_emit_load(proc, v); - } - return NULL; - case_end; - - case_ast_node(re, RunExpr, expr); - // TODO(bill): Run Expression - return ssa_build_single_expr(proc, re->expr, tv); - case_end; - - case_ast_node(de, DerefExpr, expr); - return ssa_addr_load(proc, ssa_build_addr(proc, expr)); - case_end; - - case_ast_node(se, SelectorExpr, expr); - TypeAndValue *tav = map_get(&proc->module->info->types, hash_pointer(expr)); - GB_ASSERT(tav != NULL); - return ssa_addr_load(proc, ssa_build_addr(proc, expr)); - case_end; - - case_ast_node(ue, UnaryExpr, expr); - switch (ue->op.kind) { - case Token_Pointer: - return ssa_emit_ptr_offset(proc, ssa_build_addr(proc, ue->expr).addr, v_zero); // Make a copy of the pointer - - case Token_Maybe: - return ssa_emit_conv(proc, ssa_build_expr(proc, ue->expr), type_of_expr(proc->module->info, expr)); - - case Token_Add: - return ssa_build_expr(proc, ue->expr); - - case Token_Sub: // NOTE(bill): -`x` == 0 - `x` - return ssa_emit_arith(proc, ue->op.kind, v_zero, ssa_build_expr(proc, ue->expr), tv->type); - - case Token_Not: // Boolean not - case Token_Xor: { // Bitwise not - // NOTE(bill): "not" `x` == `x` "xor" `-1` - ssaValue *left = ssa_build_expr(proc, ue->expr); - ssaValue *right = ssa_add_module_constant(proc->module, tv->type, make_exact_value_integer(-1)); - return ssa_emit_arith(proc, ue->op.kind, - left, right, - tv->type); - } break; - } - case_end; - - case_ast_node(be, BinaryExpr, expr); - switch (be->op.kind) { - case Token_Add: - case Token_Sub: - case Token_Mul: - case Token_Quo: - case Token_Mod: - case Token_And: - case Token_Or: - case Token_Xor: - case Token_AndNot: - case Token_Shl: - case Token_Shr: - return ssa_emit_arith(proc, be->op.kind, - ssa_build_expr(proc, be->left), - ssa_build_expr(proc, be->right), - tv->type); - - - case Token_CmpEq: - case Token_NotEq: - case Token_Lt: - case Token_LtEq: - case Token_Gt: - case Token_GtEq: { - ssaValue *left = ssa_build_expr(proc, be->left); - ssaValue *right = ssa_build_expr(proc, be->right); - - ssaValue *cmp = ssa_emit_comp(proc, be->op.kind, left, right); - return ssa_emit_conv(proc, cmp, default_type(tv->type)); - } break; - - case Token_CmpAnd: - case Token_CmpOr: - return ssa_emit_logical_binary_expr(proc, expr); - - case Token_as: - ssa_emit_comment(proc, make_string("cast - as")); - return ssa_emit_conv(proc, ssa_build_expr(proc, be->left), tv->type); - - case Token_transmute: - ssa_emit_comment(proc, make_string("cast - transmute")); - return ssa_emit_transmute(proc, ssa_build_expr(proc, be->left), tv->type); - - case Token_down_cast: - ssa_emit_comment(proc, make_string("cast - down_cast")); - return ssa_emit_down_cast(proc, ssa_build_expr(proc, be->left), tv->type); - - case Token_union_cast: - ssa_emit_comment(proc, make_string("cast - union_cast")); - return ssa_emit_union_cast(proc, ssa_build_expr(proc, be->left), tv->type); - - default: - GB_PANIC("Invalid binary expression"); - break; - } - case_end; - - case_ast_node(pl, ProcLit, expr); - // NOTE(bill): Generate a new name - // parent$count - isize name_len = proc->name.len + 1 + 8 + 1; - u8 *name_text = gb_alloc_array(proc->module->allocator, u8, name_len); - name_len = gb_snprintf(cast(char *)name_text, name_len, "%.*s$%d", LIT(proc->name), cast(i32)proc->children.count); - String name = make_string(name_text, name_len-1); - - Type *type = type_of_expr(proc->module->info, expr); - ssaValue *value = ssa_make_value_procedure(proc->module->allocator, - proc->module, NULL, type, pl->type, pl->body, name); - - value->Proc.tags = pl->tags; - - array_add(&proc->children, &value->Proc); - ssa_build_proc(value, proc); - - return value; - case_end; - - - case_ast_node(cl, CompoundLit, expr); - ssa_emit_comment(proc, make_string("CompoundLit")); - Type *type = type_of_expr(proc->module->info, expr); - Type *bt = base_type(type); - ssaValue *v = ssa_add_local_generated(proc, type); - - Type *et = NULL; - switch (bt->kind) { - case Type_Vector: et = bt->Vector.elem; break; - case Type_Array: et = bt->Array.elem; break; - case Type_Slice: et = bt->Slice.elem; break; - } - - auto is_elem_const = [](ssaModule *m, AstNode *elem, Type *elem_type) -> b32 { - if (base_type(elem_type) == t_any) { - return false; - } - if (elem->kind == AstNode_FieldValue) { - elem = elem->FieldValue.value; - } - TypeAndValue *tav = type_and_value_of_expression(m->info, elem); - GB_ASSERT(tav != NULL); - return tav->value.kind != ExactValue_Invalid; - }; - - switch (bt->kind) { - default: GB_PANIC("Unknown CompoundLit type: %s", type_to_string(type)); break; - - case Type_Vector: { - ssaValue *result = ssa_add_module_constant(proc->module, type, make_exact_value_compound(expr)); - for_array(index, cl->elems) { - AstNode *elem = cl->elems[index]; - if (is_elem_const(proc->module, elem, et)) { - continue; - } - ssaValue *field_elem = ssa_build_expr(proc, elem); - Type *t = ssa_type(field_elem); - GB_ASSERT(t->kind != Type_Tuple); - ssaValue *ev = ssa_emit_conv(proc, field_elem, et); - ssaValue *i = ssa_make_const_int(proc->module->allocator, index); - result = ssa_emit(proc, ssa_make_instr_insert_element(proc, result, ev, i)); - } - - if (cl->elems.count == 1 && bt->Vector.count > 1) { - isize index_count = bt->Vector.count; - i32 *indices = gb_alloc_array(proc->module->allocator, i32, index_count); - for (isize i = 0; i < index_count; i++) { - indices[i] = 0; - } - ssaValue *sv = ssa_emit(proc, ssa_make_instr_vector_shuffle(proc, result, indices, index_count)); - ssa_emit_store(proc, v, sv); - return ssa_emit_load(proc, v); - } - return result; - } break; - - case Type_Record: { - GB_ASSERT(is_type_struct(bt)); - auto *st = &bt->Record; - if (cl->elems.count > 0) { - ssa_emit_store(proc, v, ssa_add_module_constant(proc->module, type, make_exact_value_compound(expr))); - for_array(field_index, cl->elems) { - AstNode *elem = cl->elems[field_index]; - - ssaValue *field_expr = NULL; - Entity *field = NULL; - isize index = field_index; - - if (elem->kind == AstNode_FieldValue) { - ast_node(fv, FieldValue, elem); - Selection sel = lookup_field(proc->module->allocator, bt, fv->field->Ident.string, false); - index = sel.index[0]; - elem = fv->value; - } else { - TypeAndValue *tav = type_and_value_of_expression(proc->module->info, elem); - Selection sel = lookup_field(proc->module->allocator, bt, st->fields_in_src_order[field_index]->token.string, false); - index = sel.index[0]; - } - - field = st->fields[index]; - if (is_elem_const(proc->module, elem, field->type)) { - continue; - } - - field_expr = ssa_build_expr(proc, elem); - - GB_ASSERT(ssa_type(field_expr)->kind != Type_Tuple); - - - - Type *ft = field->type; - ssaValue *fv = ssa_emit_conv(proc, field_expr, ft); - ssaValue *gep = ssa_emit_struct_ep(proc, v, index); - ssa_emit_store(proc, gep, fv); - } - } - } break; - case Type_Array: { - if (cl->elems.count > 0) { - ssa_emit_store(proc, v, ssa_add_module_constant(proc->module, type, make_exact_value_compound(expr))); - for_array(i, cl->elems) { - AstNode *elem = cl->elems[i]; - if (is_elem_const(proc->module, elem, et)) { - continue; - } - ssaValue *field_expr = ssa_build_expr(proc, elem); - Type *t = ssa_type(field_expr); - GB_ASSERT(t->kind != Type_Tuple); - ssaValue *ev = ssa_emit_conv(proc, field_expr, et); - ssaValue *gep = ssa_emit_array_ep(proc, v, i); - ssa_emit_store(proc, gep, ev); - } - } - } break; - case Type_Slice: { - if (cl->elems.count > 0) { - Type *elem_type = bt->Slice.elem; - Type *elem_ptr_type = make_type_pointer(proc->module->allocator, elem_type); - Type *elem_ptr_ptr_type = make_type_pointer(proc->module->allocator, elem_ptr_type); - Type *t_int_ptr = make_type_pointer(proc->module->allocator, t_int); - ssaValue *slice = ssa_add_module_constant(proc->module, type, make_exact_value_compound(expr)); - GB_ASSERT(slice->kind == ssaValue_ConstantSlice); - - ssaValue *data = ssa_emit_array_ep(proc, slice->ConstantSlice.backing_array, v_zero32); - - for_array(i, cl->elems) { - AstNode *elem = cl->elems[i]; - if (is_elem_const(proc->module, elem, et)) { - continue; - } - - ssaValue *field_expr = ssa_build_expr(proc, elem); - Type *t = ssa_type(field_expr); - GB_ASSERT(t->kind != Type_Tuple); - ssaValue *ev = ssa_emit_conv(proc, field_expr, elem_type); - ssaValue *offset = ssa_emit_ptr_offset(proc, data, ssa_make_const_int(proc->module->allocator, i)); - ssa_emit_store(proc, offset, ev); - } - - ssaValue *gep0 = ssa_emit_struct_ep(proc, v, 0); - ssaValue *gep1 = ssa_emit_struct_ep(proc, v, 1); - ssaValue *gep2 = ssa_emit_struct_ep(proc, v, 1); - - ssa_emit_store(proc, gep0, data); - ssa_emit_store(proc, gep1, ssa_make_const_int(proc->module->allocator, slice->ConstantSlice.count)); - ssa_emit_store(proc, gep2, ssa_make_const_int(proc->module->allocator, slice->ConstantSlice.count)); - } - } break; - } - - return ssa_emit_load(proc, v); - case_end; - - - case_ast_node(ce, CallExpr, expr); - AstNode *p = unparen_expr(ce->proc); - if (p->kind == AstNode_Ident) { - Entity **found = map_get(&proc->module->info->uses, hash_pointer(p)); - if (found && (*found)->kind == Entity_Builtin) { - Entity *e = *found; - switch (e->Builtin.id) { - case BuiltinProc_type_info: { - Type *t = default_type(type_of_expr(proc->module->info, ce->args[0])); - return ssa_type_info(proc, t); - } break; - case BuiltinProc_type_info_of_val: { - Type *t = default_type(type_of_expr(proc->module->info, ce->args[0])); - return ssa_type_info(proc, t); - } break; - - case BuiltinProc_new: { - ssa_emit_comment(proc, make_string("new")); - // new :: proc(Type) -> ^Type - gbAllocator allocator = proc->module->allocator; - - Type *type = type_of_expr(proc->module->info, ce->args[0]); - Type *ptr_type = make_type_pointer(allocator, type); - - i64 s = type_size_of(proc->module->sizes, allocator, type); - i64 a = type_align_of(proc->module->sizes, allocator, type); - - ssaValue **args = gb_alloc_array(allocator, ssaValue *, 2); - args[0] = ssa_make_const_int(allocator, s); - args[1] = ssa_make_const_int(allocator, a); - ssaValue *call = ssa_emit_global_call(proc, "alloc_align", args, 2); - ssaValue *v = ssa_emit_conv(proc, call, ptr_type); - return v; - } break; - - case BuiltinProc_new_slice: { - ssa_emit_comment(proc, make_string("new_slice")); - // new_slice :: proc(Type, len: int[, cap: int]) -> ^Type - gbAllocator allocator = proc->module->allocator; - - Type *type = type_of_expr(proc->module->info, ce->args[0]); - Type *ptr_type = make_type_pointer(allocator, type); - Type *slice_type = make_type_slice(allocator, type); - - i64 s = type_size_of(proc->module->sizes, allocator, type); - i64 a = type_align_of(proc->module->sizes, allocator, type); - - ssaValue *elem_size = ssa_make_const_int(allocator, s); - ssaValue *elem_align = ssa_make_const_int(allocator, a); - - ssaValue *len =ssa_emit_conv(proc, ssa_build_expr(proc, ce->args[1]), t_int); - ssaValue *cap = len; - if (ce->args.count == 3) { - cap = ssa_emit_conv(proc, ssa_build_expr(proc, ce->args[2]), t_int); - } - - ssa_slice_bounds_check(proc, ast_node_token(ce->args[1]), v_zero, len, cap, false); - - ssaValue *slice_size = ssa_emit_arith(proc, Token_Mul, elem_size, cap, t_int); - - ssaValue **args = gb_alloc_array(allocator, ssaValue *, 2); - args[0] = slice_size; - args[1] = elem_align; - ssaValue *call = ssa_emit_global_call(proc, "alloc_align", args, 2); - - ssaValue *ptr = ssa_emit_conv(proc, call, ptr_type, true); - ssaValue *slice = ssa_add_local_generated(proc, slice_type); - - ssaValue *gep0 = ssa_emit_struct_ep(proc, slice, 0); - ssaValue *gep1 = ssa_emit_struct_ep(proc, slice, 1); - ssaValue *gep2 = ssa_emit_struct_ep(proc, slice, 2); - ssa_emit_store(proc, gep0, ptr); - ssa_emit_store(proc, gep1, len); - ssa_emit_store(proc, gep2, cap); - return ssa_emit_load(proc, slice); - } break; - - case BuiltinProc_assert: { - ssa_emit_comment(proc, make_string("assert")); - ssaValue *cond = ssa_build_expr(proc, ce->args[0]); - GB_ASSERT(is_type_boolean(ssa_type(cond))); - - cond = ssa_emit_comp(proc, Token_CmpEq, cond, v_false); - ssaBlock *err = ssa_add_block(proc, NULL, "builtin.assert.err"); - ssaBlock *done = ssa_add_block(proc, NULL, "builtin.assert.done"); - - ssa_emit_if(proc, cond, err, done); - proc->curr_block = err; - - // TODO(bill): Cleanup allocations here - Token token = ast_node_token(ce->args[0]); - TokenPos pos = token.pos; - gbString expr = expr_to_string(ce->args[0]); - defer (gb_string_free(expr)); - isize expr_len = gb_string_length(expr); - String expr_str = {}; - expr_str.text = cast(u8 *)gb_alloc_copy_align(proc->module->allocator, expr, expr_len, 1); - expr_str.len = expr_len; - - ssaValue **args = gb_alloc_array(proc->module->allocator, ssaValue *, 4); - args[0] = ssa_emit_global_string(proc, pos.file); - args[1] = ssa_make_const_int(proc->module->allocator, pos.line); - args[2] = ssa_make_const_int(proc->module->allocator, pos.column); - args[3] = ssa_emit_global_string(proc, expr_str); - ssa_emit_global_call(proc, "__assert", args, 4); - - ssa_emit_jump(proc, done); - proc->curr_block = done; - - return NULL; - } break; - - case BuiltinProc_panic: { - ssa_emit_comment(proc, make_string("panic")); - ssaValue *msg = ssa_build_expr(proc, ce->args[0]); - GB_ASSERT(is_type_string(ssa_type(msg))); - - Token token = ast_node_token(ce->args[0]); - TokenPos pos = token.pos; - - ssaValue **args = gb_alloc_array(proc->module->allocator, ssaValue *, 4); - args[0] = ssa_emit_global_string(proc, pos.file); - args[1] = ssa_make_const_int(proc->module->allocator, pos.line); - args[2] = ssa_make_const_int(proc->module->allocator, pos.column); - args[3] = msg; - ssa_emit_global_call(proc, "__assert", args, 4); - - return NULL; - } break; - - - case BuiltinProc_copy: { - ssa_emit_comment(proc, make_string("copy")); - // copy :: proc(dst, src: []Type) -> int - AstNode *dst_node = ce->args[0]; - AstNode *src_node = ce->args[1]; - ssaValue *dst_slice = ssa_build_expr(proc, dst_node); - ssaValue *src_slice = ssa_build_expr(proc, src_node); - Type *slice_type = base_type(ssa_type(dst_slice)); - GB_ASSERT(slice_type->kind == Type_Slice); - Type *elem_type = slice_type->Slice.elem; - i64 size_of_elem = type_size_of(proc->module->sizes, proc->module->allocator, elem_type); - - - ssaValue *dst = ssa_emit_conv(proc, ssa_slice_elem(proc, dst_slice), t_rawptr, true); - ssaValue *src = ssa_emit_conv(proc, ssa_slice_elem(proc, src_slice), t_rawptr, true); - - ssaValue *len_dst = ssa_slice_len(proc, dst_slice); - ssaValue *len_src = ssa_slice_len(proc, src_slice); - - ssaValue *cond = ssa_emit_comp(proc, Token_Lt, len_dst, len_src); - ssaValue *len = ssa_emit_select(proc, cond, len_dst, len_src); - - ssaValue *elem_size = ssa_make_const_int(proc->module->allocator, size_of_elem); - ssaValue *byte_count = ssa_emit_arith(proc, Token_Mul, len, elem_size, t_int); - - ssaValue **args = gb_alloc_array(proc->module->allocator, ssaValue *, 3); - args[0] = dst; - args[1] = src; - args[2] = byte_count; - - ssa_emit_global_call(proc, "__mem_copy", args, 3); - - return len; - } break; - case BuiltinProc_append: { - ssa_emit_comment(proc, make_string("append")); - // append :: proc(s: ^[]Type, item: Type) -> bool - AstNode *sptr_node = ce->args[0]; - AstNode *item_node = ce->args[1]; - ssaValue *slice_ptr = ssa_build_expr(proc, sptr_node); - ssaValue *slice = ssa_emit_load(proc, slice_ptr); - - ssaValue *elem = ssa_slice_elem(proc, slice); - ssaValue *len = ssa_slice_len(proc, slice); - ssaValue *cap = ssa_slice_cap(proc, slice); - - Type *elem_type = type_deref(ssa_type(elem)); - - ssaValue *item_value = ssa_build_expr(proc, item_node); - item_value = ssa_emit_conv(proc, item_value, elem_type, true); - - ssaValue *item = ssa_add_local_generated(proc, elem_type); - ssa_emit_store(proc, item, item_value); - - - // NOTE(bill): Check if can append is possible - ssaValue *cond = ssa_emit_comp(proc, Token_Lt, len, cap); - ssaBlock *able = ssa_add_block(proc, NULL, "builtin.append.able"); - ssaBlock *done = ssa_add_block(proc, NULL, "builtin.append.done"); - - ssa_emit_if(proc, cond, able, done); - proc->curr_block = able; - - // Add new slice item - i64 item_size = type_size_of(proc->module->sizes, proc->module->allocator, elem_type); - ssaValue *byte_count = ssa_make_const_int(proc->module->allocator, item_size); - - ssaValue *offset = ssa_emit_ptr_offset(proc, elem, len); - offset = ssa_emit_conv(proc, offset, t_rawptr, true); - - item = ssa_emit_ptr_offset(proc, item, v_zero); - item = ssa_emit_conv(proc, item, t_rawptr, true); - - ssaValue **args = gb_alloc_array(proc->module->allocator, ssaValue *, 3); - args[0] = offset; - args[1] = item; - args[2] = byte_count; - - ssa_emit_global_call(proc, "__mem_copy", args, 3); - - // Increment slice length - ssaValue *new_len = ssa_emit_arith(proc, Token_Add, len, v_one, t_int); - ssaValue *gep = ssa_emit_struct_ep(proc, slice_ptr, 1); - ssa_emit_store(proc, gep, new_len); - - ssa_emit_jump(proc, done); - proc->curr_block = done; - - return ssa_emit_conv(proc, cond, t_bool, true); - } break; - - case BuiltinProc_swizzle: { - ssa_emit_comment(proc, make_string("swizzle")); - ssaValue *vector = ssa_build_expr(proc, ce->args[0]); - isize index_count = ce->args.count-1; - if (index_count == 0) { - return vector; - } - - i32 *indices = gb_alloc_array(proc->module->allocator, i32, index_count); - isize index = 0; - for_array(i, ce->args) { - if (i == 0) continue; - TypeAndValue *tv = type_and_value_of_expression(proc->module->info, ce->args[i]); - GB_ASSERT(is_type_integer(tv->type)); - GB_ASSERT(tv->value.kind == ExactValue_Integer); - indices[index++] = cast(i32)tv->value.value_integer; - } - - return ssa_emit(proc, ssa_make_instr_vector_shuffle(proc, vector, indices, index_count)); - - } break; - -#if 0 - case BuiltinProc_ptr_offset: { - ssa_emit_comment(proc, make_string("ptr_offset")); - ssaValue *ptr = ssa_build_expr(proc, ce->args[0]); - ssaValue *offset = ssa_build_expr(proc, ce->args[1]); - return ssa_emit_ptr_offset(proc, ptr, offset); - } break; - - case BuiltinProc_ptr_sub: { - ssa_emit_comment(proc, make_string("ptr_sub")); - ssaValue *ptr_a = ssa_build_expr(proc, ce->args[0]); - ssaValue *ptr_b = ssa_build_expr(proc, ce->args[1]); - Type *ptr_type = base_type(ssa_type(ptr_a)); - GB_ASSERT(ptr_type->kind == Type_Pointer); - isize elem_size = type_size_of(proc->module->sizes, proc->module->allocator, ptr_type->Pointer.elem); - - ssaValue *v = ssa_emit_arith(proc, Token_Sub, ptr_a, ptr_b, t_int); - if (elem_size > 1) { - ssaValue *ez = ssa_make_const_int(proc->module->allocator, elem_size); - v = ssa_emit_arith(proc, Token_Quo, v, ez, t_int); - } - - return v; - } break; -#endif - - case BuiltinProc_slice_ptr: { - ssa_emit_comment(proc, make_string("slice_ptr")); - ssaValue *ptr = ssa_build_expr(proc, ce->args[0]); - ssaValue *len = ssa_build_expr(proc, ce->args[1]); - ssaValue *cap = len; - - len = ssa_emit_conv(proc, len, t_int, true); - - if (ce->args.count == 3) { - cap = ssa_build_expr(proc, ce->args[2]); - cap = ssa_emit_conv(proc, cap, t_int, true); - } - - - Type *slice_type = make_type_slice(proc->module->allocator, type_deref(ssa_type(ptr))); - ssaValue *slice = ssa_add_local_generated(proc, slice_type); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, slice, 0), ptr); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, slice, 1), len); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, slice, 2), cap); - return ssa_emit_load(proc, slice); - } break; - - case BuiltinProc_min: { - ssa_emit_comment(proc, make_string("min")); - ssaValue *x = ssa_build_expr(proc, ce->args[0]); - ssaValue *y = ssa_build_expr(proc, ce->args[1]); - Type *t = base_type(ssa_type(x)); - ssaValue *cond = ssa_emit_comp(proc, Token_Lt, x, y); - return ssa_emit_select(proc, cond, x, y); - } break; - - case BuiltinProc_max: { - ssa_emit_comment(proc, make_string("max")); - ssaValue *x = ssa_build_expr(proc, ce->args[0]); - ssaValue *y = ssa_build_expr(proc, ce->args[1]); - Type *t = base_type(ssa_type(x)); - ssaValue *cond = ssa_emit_comp(proc, Token_Gt, x, y); - return ssa_emit_select(proc, cond, x, y); - } break; - - case BuiltinProc_abs: { - ssa_emit_comment(proc, make_string("abs")); - - ssaValue *x = ssa_build_expr(proc, ce->args[0]); - Type *t = ssa_type(x); - - ssaValue *neg_x = ssa_emit_arith(proc, Token_Sub, v_zero, x, t); - ssaValue *cond = ssa_emit_comp(proc, Token_Lt, x, v_zero); - return ssa_emit_select(proc, cond, neg_x, x); - } break; - - case BuiltinProc_enum_to_string: { - ssa_emit_comment(proc, make_string("enum_to_string")); - ssaValue *x = ssa_build_expr(proc, ce->args[0]); - Type *t = ssa_type(x); - ssaValue *ti = ssa_type_info(proc, t); - - - ssaValue **args = gb_alloc_array(proc->module->allocator, ssaValue *, 2); - args[0] = ti; - args[1] = ssa_emit_conv(proc, x, t_i64); - return ssa_emit_global_call(proc, "__enum_to_string", args, 2); - } break; - } - } - } - - - // NOTE(bill): Regular call - ssaValue *value = ssa_build_expr(proc, ce->proc); - Type *proc_type_ = base_type(ssa_type(value)); - GB_ASSERT(proc_type_->kind == Type_Proc); - auto *type = &proc_type_->Proc; - - isize arg_index = 0; - - isize arg_count = 0; - for_array(i, ce->args) { - AstNode *a = ce->args[i]; - Type *at = base_type(type_of_expr(proc->module->info, a)); - if (at->kind == Type_Tuple) { - arg_count += at->Tuple.variable_count; - } else { - arg_count++; - } - } - ssaValue **args = gb_alloc_array(proc->module->allocator, ssaValue *, arg_count); - b32 variadic = proc_type_->Proc.variadic; - b32 vari_expand = ce->ellipsis.pos.line != 0; - - for_array(i, ce->args) { - ssaValue *a = ssa_build_expr(proc, ce->args[i]); - Type *at = ssa_type(a); - if (at->kind == Type_Tuple) { - for (isize i = 0; i < at->Tuple.variable_count; i++) { - Entity *e = at->Tuple.variables[i]; - ssaValue *v = ssa_emit_struct_ev(proc, a, i); - args[arg_index++] = v; - } - } else { - args[arg_index++] = a; - } - } - - auto *pt = &type->params->Tuple; - - if (variadic) { - isize i = 0; - for (; i < type->param_count-1; i++) { - args[i] = ssa_emit_conv(proc, args[i], pt->variables[i]->type, true); - } - if (!vari_expand) { - Type *variadic_type = pt->variables[i]->type; - GB_ASSERT(is_type_slice(variadic_type)); - variadic_type = base_type(variadic_type)->Slice.elem; - for (; i < arg_count; i++) { - args[i] = ssa_emit_conv(proc, args[i], variadic_type, true); - } - } - } else { - for (isize i = 0; i < arg_count; i++) { - args[i] = ssa_emit_conv(proc, args[i], pt->variables[i]->type, true); - } - } - - if (variadic && !vari_expand) { - ssa_emit_comment(proc, make_string("variadic call argument generation")); - gbAllocator allocator = proc->module->allocator; - Type *slice_type = pt->variables[type->param_count-1]->type; - Type *elem_type = base_type(slice_type)->Slice.elem; - Type *elem_ptr_type = make_type_pointer(allocator, elem_type); - ssaValue *slice = ssa_add_local_generated(proc, slice_type); - isize slice_len = arg_count+1 - type->param_count; - - if (slice_len > 0) { - ssaValue *base_array = ssa_add_local_generated(proc, make_type_array(allocator, elem_type, slice_len)); - - for (isize i = type->param_count-1, j = 0; i < arg_count; i++, j++) { - ssaValue *addr = ssa_emit_array_ep(proc, base_array, j); - ssa_emit_store(proc, addr, args[i]); - } - - ssaValue *base_elem = ssa_emit_array_ep(proc, base_array, 0); - ssaValue *slice_elem = ssa_emit_struct_ep(proc, slice, 0); - ssa_emit_store(proc, slice_elem, base_elem); - ssaValue *len = ssa_make_const_int(allocator, slice_len); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, slice, 1), len); - ssa_emit_store(proc, ssa_emit_struct_ep(proc, slice, 2), len); - } - - if (args[0]->kind == ssaValue_Constant) { - auto *c = &args[0]->Constant; - gb_printf_err("%s %d\n", type_to_string(c->type), c->value.kind); - } - - arg_count = type->param_count; - args[arg_count-1] = ssa_emit_load(proc, slice); - } - - return ssa_emit_call(proc, value, args, arg_count); - case_end; - - case_ast_node(de, DemaybeExpr, expr); - return ssa_emit_load(proc, ssa_build_addr(proc, expr).addr); - case_end; - - case_ast_node(se, SliceExpr, expr); - return ssa_emit_load(proc, ssa_build_addr(proc, expr).addr); - case_end; - - case_ast_node(ie, IndexExpr, expr); - return ssa_emit_load(proc, ssa_build_addr(proc, expr).addr); - case_end; - } - - GB_PANIC("Unexpected expression: %.*s", LIT(ast_node_strings[expr->kind])); - return NULL; -} - - -ssaValue *ssa_build_expr(ssaProcedure *proc, AstNode *expr) { - expr = unparen_expr(expr); - - TypeAndValue *tv = map_get(&proc->module->info->types, hash_pointer(expr)); - GB_ASSERT_NOT_NULL(tv); - - if (tv->value.kind != ExactValue_Invalid) { - if (tv->value.kind == ExactValue_String) { - ssa_emit_comment(proc, make_string("Emit string constant")); - if (tv->value.value_string.len > 0) { - return ssa_emit_global_string(proc, tv->value.value_string); - } else { - ssaValue *null_string = ssa_add_local_generated(proc, t_string); - return ssa_emit_load(proc, null_string); - } - } - - return ssa_add_module_constant(proc->module, tv->type, tv->value); - } - - ssaValue *value = NULL; - if (tv->mode == Addressing_Variable) { - value = ssa_addr_load(proc, ssa_build_addr(proc, expr)); - } else { - value = ssa_build_single_expr(proc, expr, tv); - } - - return value; -} - -ssaValue *ssa_add_using_variable(ssaProcedure *proc, Entity *e) { - GB_ASSERT(e->kind == Entity_Variable && e->Variable.anonymous); - String name = e->token.string; - Entity *parent = e->using_parent; - Selection sel = lookup_field(proc->module->allocator, parent->type, name, false); - GB_ASSERT(sel.entity != NULL); - ssaValue **pv = map_get(&proc->module->values, hash_pointer(parent)); - ssaValue *v = NULL; - if (pv != NULL) { - v = *pv; - } else { - v = ssa_build_addr(proc, e->using_expr).addr; - } - GB_ASSERT(v != NULL); - ssaValue *var = ssa_emit_deep_field_gep(proc, parent->type, v, sel); - map_set(&proc->module->values, hash_pointer(e), var); - return var; -} - -ssaAddr ssa_build_addr(ssaProcedure *proc, AstNode *expr) { - switch (expr->kind) { - case_ast_node(i, Ident, expr); - if (ssa_is_blank_ident(expr)) { - ssaAddr val = {}; - return val; - } - - Entity *e = entity_of_ident(proc->module->info, expr); - TypeAndValue *tv = map_get(&proc->module->info->types, hash_pointer(expr)); - - if (e->kind == Entity_Constant) { - if (base_type(e->type) == t_string) { - // HACK TODO(bill): This is lazy but it works - String str = e->Constant.value.value_string; - ssaValue *global_array = ssa_add_global_string_array(proc->module, str); - ssaValue *elem = ssa_array_elem(proc, global_array); - ssaValue *len = ssa_make_const_int(proc->module->allocator, str.len); - ssaValue *v = ssa_add_local_generated(proc, e->type); - ssaValue *str_elem = ssa_emit_struct_ep(proc, v, 0); - ssaValue *str_len = ssa_emit_struct_ep(proc, v, 1); - ssa_emit_store(proc, str_elem, elem); - ssa_emit_store(proc, str_len, len); - return ssa_make_addr(v, expr); - } - } - - ssaValue *v = NULL; - ssaValue **found = map_get(&proc->module->values, hash_pointer(e)); - if (found) { - v = *found; - } else if (e->kind == Entity_Variable && e->Variable.anonymous) { - v = ssa_add_using_variable(proc, e); - } else if (e->kind == Entity_ImplicitValue) { - // TODO(bill): Should a copy be made? - v = ssa_find_implicit_value_backing(proc, e->ImplicitValue.id); - } - - if (v == NULL) { - GB_PANIC("Unknown value: %s, entity: %p %.*s\n", expr_to_string(expr), e, LIT(entity_strings[e->kind])); - } - - return ssa_make_addr(v, expr); - case_end; - - case_ast_node(pe, ParenExpr, expr); - return ssa_build_addr(proc, unparen_expr(expr)); - case_end; - - case_ast_node(se, SelectorExpr, expr); - ssa_emit_comment(proc, make_string("SelectorExpr")); - String selector = unparen_expr(se->selector)->Ident.string; - Type *type = base_type(type_of_expr(proc->module->info, se->expr)); - - if (type == t_invalid) { - // NOTE(bill): Imports - Entity *imp = entity_of_ident(proc->module->info, se->expr); - if (imp != NULL) { - GB_ASSERT(imp->kind == Entity_ImportName); - } - return ssa_build_addr(proc, unparen_expr(se->selector)); - } else { - Selection sel = lookup_field(proc->module->allocator, type, selector, false); - GB_ASSERT(sel.entity != NULL); - - ssaValue *a = ssa_build_addr(proc, se->expr).addr; - a = ssa_emit_deep_field_gep(proc, type, a, sel); - return ssa_make_addr(a, expr); - } - case_end; - - case_ast_node(ue, UnaryExpr, expr); - switch (ue->op.kind) { - case Token_Pointer: { - return ssa_build_addr(proc, ue->expr); - } - default: - GB_PANIC("Invalid unary expression for ssa_build_addr"); - } - case_end; - - case_ast_node(be, BinaryExpr, expr); - switch (be->op.kind) { - case Token_as: { - ssa_emit_comment(proc, make_string("Cast - as")); - // NOTE(bill): Needed for dereference of pointer conversion - Type *type = type_of_expr(proc->module->info, expr); - ssaValue *v = ssa_add_local_generated(proc, type); - ssa_emit_store(proc, v, ssa_emit_conv(proc, ssa_build_expr(proc, be->left), type)); - return ssa_make_addr(v, expr); - } - case Token_transmute: { - ssa_emit_comment(proc, make_string("Cast - transmute")); - // NOTE(bill): Needed for dereference of pointer conversion - Type *type = type_of_expr(proc->module->info, expr); - ssaValue *v = ssa_add_local_generated(proc, type); - ssa_emit_store(proc, v, ssa_emit_transmute(proc, ssa_build_expr(proc, be->left), type)); - return ssa_make_addr(v, expr); - } - default: - GB_PANIC("Invalid binary expression for ssa_build_addr: %.*s\n", LIT(be->op.string)); - break; - } - case_end; - - case_ast_node(ie, IndexExpr, expr); - ssa_emit_comment(proc, make_string("IndexExpr")); - Type *t = base_type(type_of_expr(proc->module->info, ie->expr)); - gbAllocator a = proc->module->allocator; - - - b32 deref = is_type_pointer(t); - t = type_deref(t); - - ssaValue *using_addr = NULL; - if (!is_type_indexable(t)) { - // Using index expression - Entity *using_field = find_using_index_expr(t); - if (using_field != NULL) { - Selection sel = lookup_field(a, t, using_field->token.string, false); - ssaValue *e = ssa_build_addr(proc, ie->expr).addr; - using_addr = ssa_emit_deep_field_gep(proc, t, e, sel); - - t = using_field->type; - } - } - - - switch (t->kind) { - case Type_Vector: { - ssaValue *vector = NULL; - if (using_addr != NULL) { - vector = using_addr; - } else { - vector = ssa_build_addr(proc, ie->expr).addr; - if (deref) { - vector = ssa_emit_load(proc, vector); - } - } - ssaValue *index = ssa_emit_conv(proc, ssa_build_expr(proc, ie->index), t_int); - ssaValue *len = ssa_make_const_int(a, t->Vector.count); - ssa_array_bounds_check(proc, ast_node_token(ie->index), index, len); - return ssa_make_addr_vector(vector, index, expr); - } break; - - case Type_Array: { - ssaValue *array = NULL; - if (using_addr != NULL) { - array = using_addr; - } else { - array = ssa_build_addr(proc, ie->expr).addr; - if (deref) { - array = ssa_emit_load(proc, array); - } - } - ssaValue *index = ssa_emit_conv(proc, ssa_build_expr(proc, ie->index), t_int); - ssaValue *elem = ssa_emit_array_ep(proc, array, index); - ssaValue *len = ssa_make_const_int(a, t->Vector.count); - ssa_array_bounds_check(proc, ast_node_token(ie->index), index, len); - return ssa_make_addr(elem, expr); - } break; - - case Type_Slice: { - ssaValue *slice = NULL; - if (using_addr != NULL) { - slice = ssa_emit_load(proc, using_addr); - } else { - slice = ssa_build_expr(proc, ie->expr); - if (deref) { - slice = ssa_emit_load(proc, slice); - } - } - ssaValue *elem = ssa_slice_elem(proc, slice); - ssaValue *len = ssa_slice_len(proc, slice); - ssaValue *index = ssa_emit_conv(proc, ssa_build_expr(proc, ie->index), t_int); - ssa_array_bounds_check(proc, ast_node_token(ie->index), index, len); - ssaValue *v = ssa_emit_ptr_offset(proc, elem, index); - return ssa_make_addr(v, expr); - - } break; - - case Type_Basic: { // Basic_string - TypeAndValue *tv = map_get(&proc->module->info->types, hash_pointer(ie->expr)); - ssaValue *elem = NULL; - ssaValue *len = NULL; - if (tv != NULL && tv->mode == Addressing_Constant) { - ssaValue *array = ssa_add_global_string_array(proc->module, tv->value.value_string); - elem = ssa_array_elem(proc, array); - len = ssa_make_const_int(a, tv->value.value_string.len); - } else { - ssaValue *str = NULL; - if (using_addr != NULL) { - str = ssa_emit_load(proc, using_addr); - } else { - str = ssa_build_expr(proc, ie->expr); - if (deref) { - str = ssa_emit_load(proc, str); - } - } - elem = ssa_string_elem(proc, str); - len = ssa_string_len(proc, str); - } - - ssaValue *index = ssa_emit_conv(proc, ssa_build_expr(proc, ie->index), t_int); - ssa_array_bounds_check(proc, ast_node_token(ie->index), index, len); - - ssaValue *v = ssa_emit_ptr_offset(proc, elem, index); - return ssa_make_addr(v, expr); - } break; - } - case_end; - - case_ast_node(se, SliceExpr, expr); - ssa_emit_comment(proc, make_string("SliceExpr")); - gbAllocator a = proc->module->allocator; - ssaValue *low = v_zero; - ssaValue *high = NULL; - ssaValue *max = NULL; - - if (se->low != NULL) low = ssa_build_expr(proc, se->low); - if (se->high != NULL) high = ssa_build_expr(proc, se->high); - if (se->triple_indexed) max = ssa_build_expr(proc, se->max); - ssaValue *addr = ssa_build_addr(proc, se->expr).addr; - ssaValue *base = ssa_emit_load(proc, addr); - Type *type = base_type(ssa_type(base)); - - if (is_type_pointer(type)) { - type = type_deref(type); - addr = base; - base = ssa_emit_load(proc, base); - } - - // TODO(bill): Cleanup like mad! - - switch (type->kind) { - case Type_Slice: { - Type *slice_type = type; - - if (high == NULL) high = ssa_slice_len(proc, base); - if (max == NULL) max = ssa_slice_cap(proc, base); - GB_ASSERT(max != NULL); - - ssa_slice_bounds_check(proc, se->open, low, high, max, false); - - ssaValue *elem = ssa_slice_elem(proc, base); - ssaValue *len = ssa_emit_arith(proc, Token_Sub, high, low, t_int); - ssaValue *cap = ssa_emit_arith(proc, Token_Sub, max, low, t_int); - ssaValue *slice = ssa_add_local_generated(proc, slice_type); - - ssaValue *gep0 = ssa_emit_struct_ep(proc, slice, 0); - ssaValue *gep1 = ssa_emit_struct_ep(proc, slice, 1); - ssaValue *gep2 = ssa_emit_struct_ep(proc, slice, 2); - ssa_emit_store(proc, gep0, elem); - ssa_emit_store(proc, gep1, len); - ssa_emit_store(proc, gep2, cap); - - return ssa_make_addr(slice, expr); - } - - case Type_Array: { - Type *slice_type = make_type_slice(a, type->Array.elem); - - if (high == NULL) high = ssa_array_len(proc, base); - if (max == NULL) max = ssa_array_cap(proc, base); - GB_ASSERT(max != NULL); - - ssa_slice_bounds_check(proc, se->open, low, high, max, false); - - ssaValue *elem = ssa_array_elem(proc, addr); - ssaValue *len = ssa_emit_arith(proc, Token_Sub, high, low, t_int); - ssaValue *cap = ssa_emit_arith(proc, Token_Sub, max, low, t_int); - ssaValue *slice = ssa_add_local_generated(proc, slice_type); - - ssaValue *gep0 = ssa_emit_struct_ep(proc, slice, 0); - ssaValue *gep1 = ssa_emit_struct_ep(proc, slice, 1); - ssaValue *gep2 = ssa_emit_struct_ep(proc, slice, 2); - ssa_emit_store(proc, gep0, elem); - ssa_emit_store(proc, gep1, len); - ssa_emit_store(proc, gep2, cap); - - return ssa_make_addr(slice, expr); - } - - case Type_Basic: { - GB_ASSERT(type == t_string); - if (high == NULL) { - high = ssa_string_len(proc, base); - } - - ssa_slice_bounds_check(proc, se->open, low, high, high, true); - - ssaValue *elem, *len; - len = ssa_emit_arith(proc, Token_Sub, high, low, t_int); - - elem = ssa_string_elem(proc, base); - elem = ssa_emit_ptr_offset(proc, elem, low); - - ssaValue *str = ssa_add_local_generated(proc, t_string); - ssaValue *gep0 = ssa_emit_struct_ep(proc, str, 0); - ssaValue *gep1 = ssa_emit_struct_ep(proc, str, 1); - ssa_emit_store(proc, gep0, elem); - ssa_emit_store(proc, gep1, len); - - return ssa_make_addr(str, expr); - } break; - } - - GB_PANIC("Unknown slicable type"); - case_end; - - case_ast_node(de, DerefExpr, expr); - // TODO(bill): Is a ptr copy needed? - ssaValue *addr = ssa_emit_ptr_offset(proc, ssa_build_expr(proc, de->expr), v_zero); - return ssa_make_addr(addr, expr); - case_end; - - case_ast_node(de, DemaybeExpr, expr); - ssa_emit_comment(proc, make_string("DemaybeExpr")); - ssaValue *maybe = ssa_build_expr(proc, de->expr); - Type *t = default_type(type_of_expr(proc->module->info, expr)); - GB_ASSERT(is_type_tuple(t)); - - Type *elem = ssa_type(maybe); - GB_ASSERT(is_type_maybe(elem)); - elem = base_type(elem)->Maybe.elem; - - ssaValue *result = ssa_add_local_generated(proc, t); - ssaValue *gep0 = ssa_emit_struct_ep(proc, result, 0); - ssaValue *gep1 = ssa_emit_struct_ep(proc, result, 1); - ssa_emit_store(proc, gep0, ssa_emit_struct_ev(proc, maybe, 0)); - ssa_emit_store(proc, gep1, ssa_emit_struct_ev(proc, maybe, 1)); - - return ssa_make_addr(result, expr); - case_end; - - case_ast_node(ce, CallExpr, expr); - ssaValue *e = ssa_build_expr(proc, expr); - ssaValue *v = ssa_add_local_generated(proc, ssa_type(e)); - ssa_emit_store(proc, v, e); - return ssa_make_addr(v, expr); - case_end; - } - - TokenPos token_pos = ast_node_token(expr).pos; - GB_PANIC("Unexpected address expression\n" - "\tAstNode: %.*s @ " - "%.*s(%td:%td)\n", - LIT(ast_node_strings[expr->kind]), - LIT(token_pos.file), token_pos.line, token_pos.column); - - - return ssa_make_addr(NULL, NULL); -} - -void ssa_build_assign_op(ssaProcedure *proc, ssaAddr lhs, ssaValue *value, TokenKind op) { - ssaValue *old_value = ssa_addr_load(proc, lhs); - Type *type = ssa_type(old_value); - - ssaValue *change = value; - if (is_type_pointer(type) && is_type_integer(ssa_type(value))) { - change = ssa_emit_conv(proc, value, default_type(ssa_type(value))); - } else { - change = ssa_emit_conv(proc, value, type); - } - ssaValue *new_value = ssa_emit_arith(proc, op, old_value, change, type); - ssa_addr_store(proc, lhs, new_value); -} - -void ssa_build_cond(ssaProcedure *proc, AstNode *cond, ssaBlock *true_block, ssaBlock *false_block) { - switch (cond->kind) { - case_ast_node(pe, ParenExpr, cond); - ssa_build_cond(proc, pe->expr, true_block, false_block); - return; - case_end; - - case_ast_node(ue, UnaryExpr, cond); - if (ue->op.kind == Token_Not) { - ssa_build_cond(proc, ue->expr, false_block, true_block); - return; - } - case_end; - - case_ast_node(be, BinaryExpr, cond); - if (be->op.kind == Token_CmpAnd) { - ssaBlock *block = ssa_add_block(proc, NULL, "cmp.and"); - ssa_build_cond(proc, be->left, block, false_block); - proc->curr_block = block; - ssa_build_cond(proc, be->right, true_block, false_block); - return; - } else if (be->op.kind == Token_CmpOr) { - ssaBlock *block = ssa_add_block(proc, NULL, "cmp.or"); - ssa_build_cond(proc, be->left, true_block, block); - proc->curr_block = block; - ssa_build_cond(proc, be->right, true_block, false_block); - return; - } - case_end; - } - - ssaValue *expr = ssa_build_expr(proc, cond); - expr = ssa_emit_conv(proc, expr, t_bool); - ssa_emit_if(proc, expr, true_block, false_block); -} - -void ssa_gen_global_type_name(ssaModule *m, Entity *e, String name); -void ssa_mangle_sub_type_name(ssaModule *m, Entity *field, String parent) { - if (field->kind != Entity_TypeName) { - return; - } - auto *tn = &field->type->Named; - String cn = field->token.string; - - isize len = parent.len + 1 + cn.len; - String child = {NULL, len}; - child.text = gb_alloc_array(m->allocator, u8, len); - - isize i = 0; - gb_memmove(child.text+i, parent.text, parent.len); - i += parent.len; - child.text[i++] = '.'; - gb_memmove(child.text+i, cn.text, cn.len); - - map_set(&m->type_names, hash_pointer(field->type), child); - ssa_gen_global_type_name(m, field, child); -} - -void ssa_gen_global_type_name(ssaModule *m, Entity *e, String name) { - ssaValue *t = ssa_make_value_type_name(m->allocator, name, e->type); - ssa_module_add_value(m, e, t); - map_set(&m->members, hash_string(name), t); - - Type *bt = base_type(e->type); - if (bt->kind == Type_Record) { - auto *s = &bt->Record; - for (isize j = 0; j < s->other_field_count; j++) { - ssa_mangle_sub_type_name(m, s->other_fields[j], name); - } - } - - if (is_type_union(bt)) { - auto *s = &bt->Record; - // NOTE(bill): Zeroth entry is null (for `match type` stmts) - for (isize j = 1; j < s->field_count; j++) { - ssa_mangle_sub_type_name(m, s->fields[j], name); - } - } -} - - - -void ssa_build_stmt_list(ssaProcedure *proc, AstNodeArray stmts) { - for_array(i, stmts) { - ssa_build_stmt(proc, stmts[i]); - } -} - -void ssa_build_stmt(ssaProcedure *proc, AstNode *node) { - u32 prev_stmt_state_flags = proc->module->stmt_state_flags; - defer (proc->module->stmt_state_flags = prev_stmt_state_flags); - - if (node->stmt_state_flags != 0) { - u32 in = node->stmt_state_flags; - u32 out = proc->module->stmt_state_flags; - defer (proc->module->stmt_state_flags = out); - - if (in & StmtStateFlag_bounds_check) { - out |= StmtStateFlag_bounds_check; - out &= ~StmtStateFlag_no_bounds_check; - } else if (in & StmtStateFlag_no_bounds_check) { - out |= StmtStateFlag_no_bounds_check; - out &= ~StmtStateFlag_bounds_check; - } - } - - - switch (node->kind) { - case_ast_node(bs, EmptyStmt, node); - case_end; - - case_ast_node(us, UsingStmt, node); - AstNode *decl = unparen_expr(us->node); - if (decl->kind == AstNode_VarDecl) { - ssa_build_stmt(proc, decl); - } - case_end; - - case_ast_node(vd, VarDecl, node); - ssaModule *m = proc->module; - gbTempArenaMemory tmp = gb_temp_arena_memory_begin(&m->tmp_arena); - defer (gb_temp_arena_memory_end(tmp)); - - if (vd->values.count == 0) { // declared and zero-initialized - for_array(i, vd->names) { - AstNode *name = vd->names[i]; - if (!ssa_is_blank_ident(name)) { - ssa_add_local_for_identifier(proc, name, true); - } - } - } else { // Tuple(s) - Array<ssaAddr> lvals; - Array<ssaValue *> inits; - array_init(&lvals, m->tmp_allocator, vd->names.count); - array_init(&inits, m->tmp_allocator, vd->names.count); - - for_array(i, vd->names) { - AstNode *name = vd->names[i]; - ssaAddr lval = ssa_make_addr(NULL, NULL); - if (!ssa_is_blank_ident(name)) { - ssa_add_local_for_identifier(proc, name, false); - lval = ssa_build_addr(proc, name); - } - - array_add(&lvals, lval); - } - - for_array(i, vd->values) { - ssaValue *init = ssa_build_expr(proc, vd->values[i]); - Type *t = ssa_type(init); - if (t->kind == Type_Tuple) { - for (isize i = 0; i < t->Tuple.variable_count; i++) { - Entity *e = t->Tuple.variables[i]; - ssaValue *v = ssa_emit_struct_ev(proc, init, i); - array_add(&inits, v); - } - } else { - array_add(&inits, init); - } - } - - - for_array(i, inits) { - ssaValue *v = ssa_emit_conv(proc, inits[i], ssa_addr_type(lvals[i])); - ssa_addr_store(proc, lvals[i], v); - } - } - case_end; - - case_ast_node(pd, ProcDecl, node); - if (pd->body != NULL) { - auto *info = proc->module->info; - - Entity **found = map_get(&info->definitions, hash_pointer(pd->name)); - GB_ASSERT_MSG(found != NULL, "Unable to find: %.*s", LIT(pd->name->Ident.string)); - Entity *e = *found; - - // NOTE(bill): Generate a new name - // parent.name-guid - String original_name = pd->name->Ident.string; - String pd_name = original_name; - if (pd->link_name.len > 0) { - pd_name = pd->link_name; - } - - isize name_len = proc->name.len + 1 + pd_name.len + 1 + 10 + 1; - u8 *name_text = gb_alloc_array(proc->module->allocator, u8, name_len); - i32 guid = cast(i32)proc->children.count; - name_len = gb_snprintf(cast(char *)name_text, name_len, "%.*s.%.*s-%d", LIT(proc->name), LIT(pd_name), guid); - String name = make_string(name_text, name_len-1); - - - ssaValue *value = ssa_make_value_procedure(proc->module->allocator, - proc->module, e, e->type, pd->type, pd->body, name); - - value->Proc.tags = pd->tags; - value->Proc.parent = proc; - - ssa_module_add_value(proc->module, e, value); - array_add(&proc->children, &value->Proc); - array_add(&proc->module->procs, value); - } else { - auto *info = proc->module->info; - - Entity **found = map_get(&info->definitions, hash_pointer(pd->name)); - GB_ASSERT_MSG(found != NULL, "Unable to find: %.*s", LIT(pd->name->Ident.string)); - Entity *e = *found; - - // FFI - Foreign function interace - String original_name = pd->name->Ident.string; - String name = original_name; - if (pd->foreign_name.len > 0) { - name = pd->foreign_name; - } - - ssaValue *value = ssa_make_value_procedure(proc->module->allocator, - proc->module, e, e->type, pd->type, pd->body, name); - - value->Proc.tags = pd->tags; - - ssa_module_add_value(proc->module, e, value); - ssa_build_proc(value, proc); - - if (value->Proc.tags & ProcTag_foreign) { - HashKey key = hash_string(name); - auto *prev_value = map_get(&proc->module->members, key); - if (prev_value == NULL) { - // NOTE(bill): Don't do mutliple declarations in the IR - map_set(&proc->module->members, key, value); - } - } else { - array_add(&proc->children, &value->Proc); - } - } - case_end; - - case_ast_node(td, TypeDecl, node); - - // NOTE(bill): Generate a new name - // parent_proc.name-guid - String td_name = td->name->Ident.string; - isize name_len = proc->name.len + 1 + td_name.len + 1 + 10 + 1; - u8 *name_text = gb_alloc_array(proc->module->allocator, u8, name_len); - i32 guid = cast(i32)proc->module->members.entries.count; - name_len = gb_snprintf(cast(char *)name_text, name_len, "%.*s.%.*s-%d", LIT(proc->name), LIT(td_name), guid); - String name = make_string(name_text, name_len-1); - - Entity **found = map_get(&proc->module->info->definitions, hash_pointer(td->name)); - GB_ASSERT(found != NULL); - Entity *e = *found; - ssaValue *value = ssa_make_value_type_name(proc->module->allocator, - name, e->type); - map_set(&proc->module->type_names, hash_pointer(e->type), name); - ssa_gen_global_type_name(proc->module, e, name); - case_end; - - case_ast_node(ids, IncDecStmt, node); - ssa_emit_comment(proc, make_string("IncDecStmt")); - TokenKind op = ids->op.kind; - if (op == Token_Increment) { - op = Token_Add; - } else if (op == Token_Decrement) { - op = Token_Sub; - } - ssaAddr lval = ssa_build_addr(proc, ids->expr); - ssaValue *one = ssa_emit_conv(proc, v_one, ssa_addr_type(lval)); - ssa_build_assign_op(proc, lval, one, op); - - case_end; - - case_ast_node(as, AssignStmt, node); - ssa_emit_comment(proc, make_string("AssignStmt")); - - ssaModule *m = proc->module; - gbTempArenaMemory tmp = gb_temp_arena_memory_begin(&m->tmp_arena); - defer (gb_temp_arena_memory_end(tmp)); - - switch (as->op.kind) { - case Token_Eq: { - Array<ssaAddr> lvals; - array_init(&lvals, m->tmp_allocator); - - for_array(i, as->lhs) { - AstNode *lhs = as->lhs[i]; - ssaAddr lval = {}; - if (!ssa_is_blank_ident(lhs)) { - lval = ssa_build_addr(proc, lhs); - } - array_add(&lvals, lval); - } - - if (as->lhs.count == as->rhs.count) { - if (as->lhs.count == 1) { - AstNode *rhs = as->rhs[0]; - ssaValue *init = ssa_build_expr(proc, rhs); - ssa_addr_store(proc, lvals[0], init); - } else { - Array<ssaValue *> inits; - array_init(&inits, m->tmp_allocator, lvals.count); - - for_array(i, as->rhs) { - ssaValue *init = ssa_build_expr(proc, as->rhs[i]); - array_add(&inits, init); - } - - for_array(i, inits) { - ssa_addr_store(proc, lvals[i], inits[i]); - } - } - } else { - Array<ssaValue *> inits; - array_init(&inits, m->tmp_allocator, lvals.count); - - for_array(i, as->rhs) { - ssaValue *init = ssa_build_expr(proc, as->rhs[i]); - Type *t = ssa_type(init); - // TODO(bill): refactor for code reuse as this is repeated a bit - if (t->kind == Type_Tuple) { - for (isize i = 0; i < t->Tuple.variable_count; i++) { - Entity *e = t->Tuple.variables[i]; - ssaValue *v = ssa_emit_struct_ev(proc, init, i); - array_add(&inits, v); - } - } else { - array_add(&inits, init); - } - } - - for_array(i, inits) { - ssa_addr_store(proc, lvals[i], inits[i]); - } - } - - } break; - - default: { - // NOTE(bill): Only 1 += 1 is allowed, no tuples - // +=, -=, etc - i32 op = cast(i32)as->op.kind; - op += Token_Add - Token_AddEq; // Convert += to + - ssaAddr lhs = ssa_build_addr(proc, as->lhs[0]); - ssaValue *value = ssa_build_expr(proc, as->rhs[0]); - ssa_build_assign_op(proc, lhs, value, cast(TokenKind)op); - } break; - } - case_end; - - case_ast_node(es, ExprStmt, node); - // NOTE(bill): No need to use return value - ssa_build_expr(proc, es->expr); - case_end; - - case_ast_node(bs, BlockStmt, node); - ssa_open_scope(proc); - ssa_build_stmt_list(proc, bs->stmts); - ssa_close_scope(proc, ssaDeferExit_Default, NULL); - case_end; - - case_ast_node(ds, DeferStmt, node); - ssa_emit_comment(proc, make_string("DeferStmt")); - isize scope_index = proc->scope_index; - if (ds->stmt->kind == AstNode_BlockStmt) { - scope_index--; - } - ssa_add_defer_node(proc, scope_index, ds->stmt); - case_end; - - case_ast_node(rs, ReturnStmt, node); - ssa_emit_comment(proc, make_string("ReturnStmt")); - ssaValue *v = NULL; - auto *return_type_tuple = &proc->type->Proc.results->Tuple; - isize return_count = proc->type->Proc.result_count; - if (return_count == 0) { - // No return values - } else if (return_count == 1) { - Entity *e = return_type_tuple->variables[0]; - v = ssa_emit_conv(proc, ssa_build_expr(proc, rs->results[0]), e->type); - } else { - gbTempArenaMemory tmp = gb_temp_arena_memory_begin(&proc->module->tmp_arena); - defer (gb_temp_arena_memory_end(tmp)); - - Array<ssaValue *> results; - array_init(&results, proc->module->tmp_allocator, return_count); - - for_array(res_index, rs->results) { - ssaValue *res = ssa_build_expr(proc, rs->results[res_index]); - Type *t = ssa_type(res); - if (t->kind == Type_Tuple) { - for (isize i = 0; i < t->Tuple.variable_count; i++) { - Entity *e = t->Tuple.variables[i]; - ssaValue *v = ssa_emit_struct_ev(proc, res, i); - array_add(&results, v); - } - } else { - array_add(&results, res); - } - } - - Type *ret_type = proc->type->Proc.results; - v = ssa_add_local_generated(proc, ret_type); - for_array(i, results) { - Entity *e = return_type_tuple->variables[i]; - ssaValue *res = ssa_emit_conv(proc, results[i], e->type); - ssaValue *field = ssa_emit_struct_ep(proc, v, i); - ssa_emit_store(proc, field, res); - } - - v = ssa_emit_load(proc, v); - - } - ssa_emit_return(proc, v); - - case_end; - - case_ast_node(is, IfStmt, node); - ssa_emit_comment(proc, make_string("IfStmt")); - if (is->init != NULL) { - ssaBlock *init = ssa_add_block(proc, node, "if.init"); - ssa_emit_jump(proc, init); - proc->curr_block = init; - ssa_build_stmt(proc, is->init); - } - ssaBlock *then = ssa_add_block(proc, node, "if.then"); - ssaBlock *done = ssa_add_block(proc, node, "if.done"); // NOTE(bill): Append later - ssaBlock *else_ = done; - if (is->else_stmt != NULL) { - else_ = ssa_add_block(proc, is->else_stmt, "if.else"); - } - - ssa_build_cond(proc, is->cond, then, else_); - proc->curr_block = then; - - ssa_open_scope(proc); - ssa_build_stmt(proc, is->body); - ssa_close_scope(proc, ssaDeferExit_Default, NULL); - - ssa_emit_jump(proc, done); - - if (is->else_stmt != NULL) { - proc->curr_block = else_; - - ssa_open_scope(proc); - ssa_build_stmt(proc, is->else_stmt); - ssa_close_scope(proc, ssaDeferExit_Default, NULL); - - ssa_emit_jump(proc, done); - } - proc->curr_block = done; - case_end; - - case_ast_node(fs, ForStmt, node); - ssa_emit_comment(proc, make_string("ForStmt")); - if (fs->init != NULL) { - ssaBlock *init = ssa_add_block(proc, node, "for.init"); - ssa_emit_jump(proc, init); - proc->curr_block = init; - ssa_build_stmt(proc, fs->init); - } - ssaBlock *body = ssa_add_block(proc, node, "for.body"); - ssaBlock *done = ssa_add_block(proc, node, "for.done"); // NOTE(bill): Append later - - ssaBlock *loop = body; - - if (fs->cond != NULL) { - loop = ssa_add_block(proc, node, "for.loop"); - } - ssaBlock *cont = loop; - if (fs->post != NULL) { - cont = ssa_add_block(proc, node, "for.post"); - - } - ssa_emit_jump(proc, loop); - proc->curr_block = loop; - if (loop != body) { - ssa_build_cond(proc, fs->cond, body, done); - proc->curr_block = body; - } - - ssa_push_target_list(proc, done, cont, NULL); - - ssa_open_scope(proc); - ssa_build_stmt(proc, fs->body); - ssa_close_scope(proc, ssaDeferExit_Default, NULL); - - ssa_pop_target_list(proc); - ssa_emit_jump(proc, cont); - - if (fs->post != NULL) { - proc->curr_block = cont; - ssa_build_stmt(proc, fs->post); - ssa_emit_jump(proc, loop); - } - - - proc->curr_block = done; - - case_end; - - case_ast_node(ms, MatchStmt, node); - ssa_emit_comment(proc, make_string("MatchStmt")); - if (ms->init != NULL) { - ssa_build_stmt(proc, ms->init); - } - ssaValue *tag = v_true; - if (ms->tag != NULL) { - tag = ssa_build_expr(proc, ms->tag); - } - ssaBlock *done = ssa_add_block(proc, node, "match.done"); // NOTE(bill): Append later - - ast_node(body, BlockStmt, ms->body); - - AstNodeArray default_stmts = {}; - ssaBlock *default_fall = NULL; - ssaBlock *default_block = NULL; - - ssaBlock *fall = NULL; - b32 append_fall = false; - - isize case_count = body->stmts.count; - for_array(i, body->stmts) { - AstNode *clause = body->stmts[i]; - ssaBlock *body = fall; - - ast_node(cc, CaseClause, clause); - - if (body == NULL) { - if (cc->list.count == 0) { - body = ssa_add_block(proc, clause, "match.dflt.body"); - } else { - body = ssa_add_block(proc, clause, "match.case.body"); - } - } - if (append_fall && body == fall) { - append_fall = false; - } - - fall = done; - if (i+1 < case_count) { - append_fall = true; - fall = ssa_add_block(proc, clause, "match.fall.body"); - } - - if (cc->list.count == 0) { - // default case - default_stmts = cc->stmts; - default_fall = fall; - default_block = body; - continue; - } - - ssaBlock *next_cond = NULL; - for_array(j, cc->list) { - AstNode *expr = cc->list[j]; - next_cond = ssa_add_block(proc, clause, "match.case.next"); - - ssaValue *cond = ssa_emit_comp(proc, Token_CmpEq, tag, ssa_build_expr(proc, expr)); - ssa_emit_if(proc, cond, body, next_cond); - proc->curr_block = next_cond; - } - proc->curr_block = body; - - ssa_push_target_list(proc, done, NULL, fall); - ssa_open_scope(proc); - ssa_build_stmt_list(proc, cc->stmts); - ssa_close_scope(proc, ssaDeferExit_Default, body); - ssa_pop_target_list(proc); - - ssa_emit_jump(proc, done); - proc->curr_block = next_cond; - } - - if (default_block != NULL) { - ssa_emit_jump(proc, default_block); - proc->curr_block = default_block; - - ssa_push_target_list(proc, done, NULL, default_fall); - ssa_open_scope(proc); - ssa_build_stmt_list(proc, default_stmts); - ssa_close_scope(proc, ssaDeferExit_Default, default_block); - ssa_pop_target_list(proc); - } - - ssa_emit_jump(proc, done); - proc->curr_block = done; - case_end; - - - case_ast_node(ms, TypeMatchStmt, node); - ssa_emit_comment(proc, make_string("TypeMatchStmt")); - gbAllocator allocator = proc->module->allocator; - - ssaValue *parent = ssa_build_expr(proc, ms->tag); - Type *union_type = type_deref(ssa_type(parent)); - GB_ASSERT(is_type_union(union_type)); - - ssa_emit_comment(proc, make_string("get union's tag")); - ssaValue *tag_index = ssa_emit_struct_ep(proc, parent, 1); - tag_index = ssa_emit_load(proc, tag_index); - - ssaValue *data = ssa_emit_conv(proc, parent, t_rawptr); - - ssaBlock *start_block = ssa_add_block(proc, node, "type-match.case.first"); - ssa_emit_jump(proc, start_block); - proc->curr_block = start_block; - - ssaBlock *done = ssa_add_block(proc, node, "type-match.done"); // NOTE(bill): Append later - - ast_node(body, BlockStmt, ms->body); - - - String tag_var_name = ms->var->Ident.string; - - AstNodeArray default_stmts = {}; - ssaBlock *default_block = NULL; - - isize case_count = body->stmts.count; - for_array(i, body->stmts) { - AstNode *clause = body->stmts[i]; - ast_node(cc, CaseClause, clause); - - if (cc->list.count == 0) { - // default case - default_stmts = cc->stmts; - default_block = ssa_add_block(proc, clause, "type-match.dflt.body"); - continue; - } - - - ssaBlock *body = ssa_add_block(proc, clause, "type-match.case.body"); - - Scope *scope = *map_get(&proc->module->info->scopes, hash_pointer(clause)); - Entity *tag_var_entity = current_scope_lookup_entity(scope, tag_var_name); - GB_ASSERT_MSG(tag_var_entity != NULL, "%.*s", LIT(tag_var_name)); - ssaValue *tag_var = ssa_add_local(proc, tag_var_entity); - ssaValue *data_ptr = ssa_emit_conv(proc, data, tag_var_entity->type); - ssa_emit_store(proc, tag_var, data_ptr); - - - - Type *bt = type_deref(tag_var_entity->type); - ssaValue *index = NULL; - Type *ut = base_type(union_type); - GB_ASSERT(ut->Record.kind == TypeRecord_Union); - for (isize field_index = 1; field_index < ut->Record.field_count; field_index++) { - Entity *f = base_type(union_type)->Record.fields[field_index]; - if (are_types_identical(f->type, bt)) { - index = ssa_make_const_int(allocator, field_index); - break; - } - } - GB_ASSERT(index != NULL); - - ssaBlock *next_cond = ssa_add_block(proc, clause, "type-match.case.next"); - ssaValue *cond = ssa_emit_comp(proc, Token_CmpEq, tag_index, index); - ssa_emit_if(proc, cond, body, next_cond); - proc->curr_block = next_cond; - - proc->curr_block = body; - - ssa_push_target_list(proc, done, NULL, NULL); - ssa_open_scope(proc); - ssa_build_stmt_list(proc, cc->stmts); - ssa_close_scope(proc, ssaDeferExit_Default, body); - ssa_pop_target_list(proc); - - ssa_emit_jump(proc, done); - proc->curr_block = next_cond; - } - - if (default_block != NULL) { - ssa_emit_jump(proc, default_block); - proc->curr_block = default_block; - - ssa_push_target_list(proc, done, NULL, NULL); - ssa_open_scope(proc); - ssa_build_stmt_list(proc, default_stmts); - ssa_close_scope(proc, ssaDeferExit_Default, default_block); - ssa_pop_target_list(proc); - } - - ssa_emit_jump(proc, done); - proc->curr_block = done; - case_end; - - case_ast_node(bs, BranchStmt, node); - ssaBlock *block = NULL; - switch (bs->token.kind) { - case Token_break: - for (ssaTargetList *t = proc->target_list; t != NULL && block == NULL; t = t->prev) { - block = t->break_; - } - break; - case Token_continue: - for (ssaTargetList *t = proc->target_list; t != NULL && block == NULL; t = t->prev) { - block = t->continue_; - } - break; - case Token_fallthrough: - for (ssaTargetList *t = proc->target_list; t != NULL && block == NULL; t = t->prev) { - block = t->fallthrough_; - } - break; - } - if (block != NULL) { - ssa_emit_defer_stmts(proc, ssaDeferExit_Branch, block); - } - switch (bs->token.kind) { - case Token_break: ssa_emit_comment(proc, make_string("break")); break; - case Token_continue: ssa_emit_comment(proc, make_string("continue")); break; - case Token_fallthrough: ssa_emit_comment(proc, make_string("fallthrough")); break; - } - ssa_emit_jump(proc, block); - ssa_emit_unreachable(proc); - case_end; - - - - case_ast_node(pa, PushAllocator, node); - ssa_emit_comment(proc, make_string("PushAllocator")); - ssa_open_scope(proc); - defer (ssa_close_scope(proc, ssaDeferExit_Default, NULL)); - - ssaValue *context_ptr = ssa_find_implicit_value_backing(proc, ImplicitValue_context); - ssaValue *prev_context = ssa_add_local_generated(proc, t_context); - ssa_emit_store(proc, prev_context, ssa_emit_load(proc, context_ptr)); - - ssa_add_defer_instr(proc, proc->scope_index, ssa_make_instr_store(proc, context_ptr, ssa_emit_load(proc, prev_context))); - - ssaValue *gep = ssa_emit_struct_ep(proc, context_ptr, 1); - ssa_emit_store(proc, gep, ssa_build_expr(proc, pa->expr)); - - ssa_build_stmt(proc, pa->body); - - case_end; - - - case_ast_node(pa, PushContext, node); - ssa_emit_comment(proc, make_string("PushContext")); - ssa_open_scope(proc); - defer (ssa_close_scope(proc, ssaDeferExit_Default, NULL)); - - ssaValue *context_ptr = ssa_find_implicit_value_backing(proc, ImplicitValue_context); - ssaValue *prev_context = ssa_add_local_generated(proc, t_context); - ssa_emit_store(proc, prev_context, ssa_emit_load(proc, context_ptr)); - - ssa_add_defer_instr(proc, proc->scope_index, ssa_make_instr_store(proc, context_ptr, ssa_emit_load(proc, prev_context))); - - ssa_emit_store(proc, context_ptr, ssa_build_expr(proc, pa->expr)); - - ssa_build_stmt(proc, pa->body); - case_end; - - - } -} - - -void ssa_emit_startup_runtime(ssaProcedure *proc) { - GB_ASSERT(proc->parent == NULL && proc->name == "main"); - - ssa_emit(proc, ssa_alloc_instr(proc, ssaInstr_StartupRuntime)); -} - -void ssa_insert_code_before_proc(ssaProcedure* proc, ssaProcedure *parent) { - if (parent == NULL) { - if (proc->name == "main") { - ssa_emit_startup_runtime(proc); - } - } -} - -void ssa_build_proc(ssaValue *value, ssaProcedure *parent) { - ssaProcedure *proc = &value->Proc; - - proc->parent = parent; - - if (proc->entity != NULL) { - ssaModule *m = proc->module; - CheckerInfo *info = m->info; - Entity *e = proc->entity; - String filename = e->token.pos.file; - AstFile **found = map_get(&info->files, hash_string(filename)); - GB_ASSERT(found != NULL); - AstFile *f = *found; - ssaDebugInfo *di_file = NULL; - - ssaDebugInfo **di_file_found = map_get(&m->debug_info, hash_pointer(f)); - if (di_file_found) { - di_file = *di_file_found; - GB_ASSERT(di_file->kind == ssaDebugInfo_File); - } else { - di_file = ssa_add_debug_info_file(proc, f); - } - - ssa_add_debug_info_proc(proc, e, proc->name, di_file); - } - - if (proc->body != NULL) { - u32 prev_stmt_state_flags = proc->module->stmt_state_flags; - defer (proc->module->stmt_state_flags = prev_stmt_state_flags); - - if (proc->tags != 0) { - u32 in = proc->tags; - u32 out = proc->module->stmt_state_flags; - defer (proc->module->stmt_state_flags = out); - - if (in & ProcTag_bounds_check) { - out |= StmtStateFlag_bounds_check; - out &= ~StmtStateFlag_no_bounds_check; - } else if (in & ProcTag_no_bounds_check) { - out |= StmtStateFlag_no_bounds_check; - out &= ~StmtStateFlag_bounds_check; - } - } - - - ssa_begin_procedure_body(proc); - ssa_insert_code_before_proc(proc, parent); - ssa_build_stmt(proc, proc->body); - ssa_end_procedure_body(proc); - } -} - - - - - - - -Array<ssaValue *> ssa_get_block_phi_nodes(ssaBlock *b) { - Array<ssaValue *> phis = {}; - for_array(i, b->instrs) { - ssaInstr *instr = &b->instrs[i]->Instr; - if (instr->kind != ssaInstr_Phi) { - phis = b->instrs; - phis.count = i; - return phis; - } - } - return phis; -} - -void ssa_remove_pred(ssaBlock *b, ssaBlock *p) { - auto phis = ssa_get_block_phi_nodes(b); - isize i = 0; - for_array(j, b->preds) { - ssaBlock *pred = b->preds[j]; - if (pred != p) { - b->preds[i] = b->preds[j]; - for_array(k, phis) { - auto *phi = &phis[k]->Instr.Phi; - phi->edges[i] = phi->edges[j]; - } - i++; - } - } - b->preds.count = i; - for_array(k, phis) { - auto *phi = &phis[k]->Instr.Phi; - phi->edges.count = i; - } - -} - -void ssa_remove_dead_blocks(ssaProcedure *proc) { - isize j = 0; - for_array(i, proc->blocks) { - ssaBlock *b = proc->blocks[i]; - if (b == NULL) { - continue; - } - // NOTE(bill): Swap order - b->index = j; - proc->blocks[j++] = b; - } - proc->blocks.count = j; -} - -void ssa_mark_reachable(ssaBlock *b) { - isize const WHITE = 0; - isize const BLACK = -1; - b->index = BLACK; - for_array(i, b->succs) { - ssaBlock *succ = b->succs[i]; - if (succ->index == WHITE) { - ssa_mark_reachable(succ); - } - } -} - -void ssa_remove_unreachable_blocks(ssaProcedure *proc) { - isize const WHITE = 0; - isize const BLACK = -1; - for_array(i, proc->blocks) { - proc->blocks[i]->index = WHITE; - } - - ssa_mark_reachable(proc->blocks[0]); - - for_array(i, proc->blocks) { - ssaBlock *b = proc->blocks[i]; - if (b->index == WHITE) { - for_array(j, b->succs) { - ssaBlock *c = b->succs[j]; - if (c->index == BLACK) { - ssa_remove_pred(c, b); - } - } - // NOTE(bill): Mark as empty but don't actually free it - // As it's been allocated with an arena - proc->blocks[i] = NULL; - } - } - ssa_remove_dead_blocks(proc); -} - -b32 ssa_opt_block_fusion(ssaProcedure *proc, ssaBlock *a) { - if (a->succs.count != 1) { - return false; - } - ssaBlock *b = a->succs[0]; - if (b->preds.count != 1) { - return false; - } - - if (ssa_block_has_phi(b)) { - return false; - } - - array_pop(&a->instrs); // Remove branch at end - for_array(i, b->instrs) { - array_add(&a->instrs, b->instrs[i]); - ssa_set_instr_parent(b->instrs[i], a); - } - - array_clear(&a->succs); - for_array(i, b->succs) { - array_add(&a->succs, b->succs[i]); - } - - // Fix preds links - for_array(i, b->succs) { - ssa_block_replace_pred(b->succs[i], b, a); - } - - proc->blocks[b->index] = NULL; - return true; -} - -void ssa_optimize_blocks(ssaProcedure *proc) { - ssa_remove_unreachable_blocks(proc); - -#if 1 - b32 changed = true; - while (changed) { - changed = false; - for_array(i, proc->blocks) { - ssaBlock *b = proc->blocks[i]; - if (b == NULL) { - continue; - } - GB_ASSERT(b->index == i); - - if (ssa_opt_block_fusion(proc, b)) { - changed = true; - } - // TODO(bill): other simple block optimizations - } - } -#endif - - ssa_remove_dead_blocks(proc); -} -void ssa_build_referrers(ssaProcedure *proc) { - gbTempArenaMemory tmp = gb_temp_arena_memory_begin(&proc->module->tmp_arena); - defer (gb_temp_arena_memory_end(tmp)); - - Array<ssaValue *> ops = {}; // NOTE(bill): Act as a buffer - array_init(&ops, proc->module->tmp_allocator, 64); // HACK(bill): This _could_ overflow the temp arena - for_array(i, proc->blocks) { - ssaBlock *b = proc->blocks[i]; - for_array(j, b->instrs) { - ssaValue *instr = b->instrs[j]; - array_clear(&ops); - ssa_add_operands(&ops, &instr->Instr); - for_array(k, ops) { - ssaValue *op = ops[k]; - if (op == NULL) { - continue; - } - auto *refs = ssa_value_referrers(op); - if (refs != NULL) { - array_add(refs, instr); - } - } - } - } -} - - - - - - - -// State of Lengauer-Tarjan algorithm -// Based on this paper: http://jgaa.info/accepted/2006/GeorgiadisTarjanWerneck2006.10.1.pdf -struct ssaLTState { - isize count; - // NOTE(bill): These are arrays - ssaBlock **sdom; // Semidominator - ssaBlock **parent; // Parent in DFS traversal of CFG - ssaBlock **ancestor; -}; - -// ยง2.2 - bottom of page -void ssa_lt_link(ssaLTState *lt, ssaBlock *p, ssaBlock *q) { - lt->ancestor[q->index] = p; -} - -i32 ssa_lt_depth_first_search(ssaLTState *lt, ssaBlock *p, i32 i, ssaBlock **preorder) { - preorder[i] = p; - p->dom.pre = i++; - lt->sdom[p->index] = p; - ssa_lt_link(lt, NULL, p); - for_array(index, p->succs) { - ssaBlock *q = p->succs[index]; - if (lt->sdom[q->index] == NULL) { - lt->parent[q->index] = p; - i = ssa_lt_depth_first_search(lt, q, i, preorder); - } - } - return i; -} - -ssaBlock *ssa_lt_eval(ssaLTState *lt, ssaBlock *v) { - ssaBlock *u = v; - for (; - lt->ancestor[v->index] != NULL; - v = lt->ancestor[v->index]) { - if (lt->sdom[v->index]->dom.pre < lt->sdom[u->index]->dom.pre) { - u = v; - } - } - return u; -} - -void ssa_number_dom_tree(ssaBlock *v, i32 pre, i32 post, i32 *pre_out, i32 *post_out) { - v->dom.pre = pre++; - for_array(i, v->dom.children) { - ssaBlock *child = v->dom.children[i]; - i32 new_pre = 0, new_post = 0; - ssa_number_dom_tree(child, pre, post, &new_pre, &new_post); - pre = new_pre; - post = new_post; - } - v->dom.post = post++; - *pre_out = pre; - *post_out = post; -} - - -// NOTE(bill): Requires `ssa_optimize_blocks` to be called before this -void ssa_build_dom_tree(ssaProcedure *proc) { - // Based on this paper: http://jgaa.info/accepted/2006/GeorgiadisTarjanWerneck2006.10.1.pdf - - gbTempArenaMemory tmp = gb_temp_arena_memory_begin(&proc->module->tmp_arena); - defer (gb_temp_arena_memory_end(tmp)); - - isize n = proc->blocks.count; - ssaBlock **buf = gb_alloc_array(proc->module->tmp_allocator, ssaBlock *, 5*n); - - ssaLTState lt = {}; - lt.count = n; - lt.sdom = &buf[0*n]; - lt.parent = &buf[1*n]; - lt.ancestor = &buf[2*n]; - - ssaBlock **preorder = &buf[3*n]; - ssaBlock **buckets = &buf[4*n]; - ssaBlock *root = proc->blocks[0]; - - // Step 1 - number vertices - i32 pre_num = ssa_lt_depth_first_search(<, root, 0, preorder); - gb_memmove(buckets, preorder, n*gb_size_of(preorder[0])); - - for (i32 i = n-1; i > 0; i--) { - ssaBlock *w = preorder[i]; - - // Step 3 - Implicitly define idom for nodes - for (ssaBlock *v = buckets[i]; v != w; v = buckets[v->dom.pre]) { - ssaBlock *u = ssa_lt_eval(<, v); - if (lt.sdom[u->index]->dom.pre < i) { - v->dom.idom = u; - } else { - v->dom.idom = w; - } - } - - // Step 2 - Compute all sdoms - lt.sdom[w->index] = lt.parent[w->index]; - for_array(pred_index, w->preds) { - ssaBlock *v = w->preds[pred_index]; - ssaBlock *u = ssa_lt_eval(<, v); - if (lt.sdom[u->index]->dom.pre < lt.sdom[w->index]->dom.pre) { - lt.sdom[w->index] = lt.sdom[u->index]; - } - } - - ssa_lt_link(<, lt.parent[w->index], w); - - if (lt.parent[w->index] == lt.sdom[w->index]) { - w->dom.idom = lt.parent[w->index]; - } else { - buckets[i] = buckets[lt.sdom[w->index]->dom.pre]; - buckets[lt.sdom[w->index]->dom.pre] = w; - } - } - - // The rest of Step 3 - for (ssaBlock *v = buckets[0]; v != root; v = buckets[v->dom.pre]) { - v->dom.idom = root; - } - - // Step 4 - Explicitly define idom for nodes (in preorder) - for (isize i = 1; i < n; i++) { - ssaBlock *w = preorder[i]; - if (w == root) { - w->dom.idom = NULL; - } else { - // Weird tree relationships here! - - if (w->dom.idom != lt.sdom[w->index]) { - w->dom.idom = w->dom.idom->dom.idom; - } - - // Calculate children relation as inverse of idom - auto *children = &w->dom.idom->dom.children; - if (children->data == NULL) { - // TODO(bill): Is this good enough for memory allocations? - array_init(children, heap_allocator()); - } - array_add(children, w); - } - } - - i32 pre = 0; - i32 pos = 0; - ssa_number_dom_tree(root, 0, 0, &pre, &pos); -} - - - - -void ssa_opt_mem2reg(ssaProcedure *proc) { - // TODO(bill): -} diff --git a/src/codegen/value.cpp b/src/codegen/value.cpp deleted file mode 100644 index e69de29bb..000000000 --- a/src/codegen/value.cpp +++ /dev/null |