#include "active_record.h" static ID attributes_id; static ID types_id; static ID additional_types_id; static ID values_id; static ID delegate_hash_id; static ID value_before_type_cast_id; static ID type_id; VALUE panko_read_lazy_attributes_hash(VALUE object) { volatile VALUE attributes_set, lazy_attributes_hash; attributes_set = rb_ivar_get(object, attributes_id); if (NIL_P(attributes_set)) { return Qnil; } lazy_attributes_hash = rb_ivar_get(attributes_set, attributes_id); return lazy_attributes_hash; } void read_attribute_from_hash(VALUE attributes_hash, VALUE member, volatile VALUE* value, volatile VALUE* type) { volatile VALUE attribute_metadata = rb_hash_aref(attributes_hash, member); if (attribute_metadata != Qnil) { *value = rb_ivar_get(attribute_metadata, value_before_type_cast_id); if (NIL_P(*type)) { *type = rb_ivar_get(attribute_metadata, type_id); } } } struct attributes { VALUE attributes_hash; VALUE types; VALUE additional_types; VALUE values; // heuristicts bool shouldReadFromHash; bool tryToReadFromAdditionalTypes; }; struct attributes init_context(VALUE obj) { struct attributes attributes_ctx; attributes_ctx.attributes_hash = Qnil; attributes_ctx.values = Qnil; attributes_ctx.types = Qnil; attributes_ctx.additional_types = Qnil; attributes_ctx.shouldReadFromHash = false; attributes_ctx.tryToReadFromAdditionalTypes = false; volatile VALUE lazy_attributes_hash = panko_read_lazy_attributes_hash(obj); if (RB_TYPE_P(lazy_attributes_hash, T_HASH)) { attributes_ctx.attributes_hash = lazy_attributes_hash; attributes_ctx.shouldReadFromHash = true; } else { volatile VALUE delegate_hash = rb_ivar_get(lazy_attributes_hash, delegate_hash_id); if (PANKO_EMPTY_HASH(delegate_hash) == false) { attributes_ctx.attributes_hash = delegate_hash; attributes_ctx.shouldReadFromHash = true; } attributes_ctx.types = rb_ivar_get(lazy_attributes_hash, types_id); attributes_ctx.values = rb_ivar_get(lazy_attributes_hash, values_id); attributes_ctx.additional_types = rb_ivar_get(lazy_attributes_hash, additional_types_id); attributes_ctx.tryToReadFromAdditionalTypes = PANKO_EMPTY_HASH(attributes_ctx.additional_types) == false; } return attributes_ctx; } VALUE read_attribute(struct attributes attributes_ctx, Attribute attribute) { VALUE member = attribute->name_str; volatile VALUE value = Qundef; if (!NIL_P(attributes_ctx.values)) { value = rb_hash_aref(attributes_ctx.values, member); if (NIL_P(value)) { value = Qundef; } } if (value == Qundef && attributes_ctx.shouldReadFromHash == true) { read_attribute_from_hash(attributes_ctx.attributes_hash, member, &value, &attribute->type); } if (NIL_P(attribute->type) && !NIL_P(value)) { if (attributes_ctx.tryToReadFromAdditionalTypes == true) { attribute->type = rb_hash_aref(attributes_ctx.additional_types, member); } if (!NIL_P(attributes_ctx.types) && NIL_P(attribute->type)) { attribute->type = rb_hash_aref(attributes_ctx.types, member); } } if (!NIL_P(attribute->type) && !NIL_P(value)) { return type_cast(attribute->type, value); } return value; } void active_record_attributes_writer(VALUE obj, VALUE attributes, EachAttributeFunc func, VALUE writer) { long i; struct attributes attributes_ctx = init_context(obj); volatile VALUE record_class = CLASS_OF(obj); for (i = 0; i < RARRAY_LEN(attributes); i++) { volatile VALUE raw_attribute = RARRAY_AREF(attributes, i); Attribute attribute = PANKO_ATTRIBUTE_READ(raw_attribute); attribute_try_invalidate(attribute, record_class); volatile VALUE value = read_attribute(attributes_ctx, attribute); func(writer, attr_name_for_serialization(attribute), value); } } void init_active_record_attributes_writer(VALUE mPanko) { attributes_id = rb_intern("@attributes"); delegate_hash_id = rb_intern("@delegate_hash"); values_id = rb_intern("@values"); types_id = rb_intern("@types"); additional_types_id = rb_intern("@additional_types"); type_id = rb_intern("@type"); value_before_type_cast_id = rb_intern("@value_before_type_cast"); }