Obj*
I32SortCache_value(Int32SortCache *self, int32_t ord, Obj *blank) {
if (ord == self->null_ord) {
return NULL;
}
else if (ord < 0) {
THROW(ERR, "Ordinal less than 0 for %o: %i32", self->field, ord);
}
else {
Integer32 *int_blank = (Integer32*)CERTIFY(blank, INTEGER32);
InStream_Seek(self->dat_in, ord * sizeof(int32_t));
Int32_Set_Value(int_blank, InStream_Read_I32(self->dat_in));
}
return blank;
}
void
Inverter_invert_doc(Inverter *self, Doc *doc) {
InverterIVARS *const ivars = Inverter_IVARS(self);
Hash *const fields = (Hash*)Doc_Get_Fields(doc);
uint32_t num_keys = Hash_Iterate(fields);
// Prepare for the new doc.
Inverter_Set_Doc(self, doc);
// Extract and invert the doc's fields.
while (num_keys--) {
Obj *key, *obj;
Hash_Next(fields, &key, &obj);
CharBuf *field = (CharBuf*)CERTIFY(key, CHARBUF);
InverterEntry *inventry = S_fetch_entry(ivars, field);
InverterEntryIVARS *inventry_ivars = InvEntry_IVARS(inventry);
FieldType *type = inventry_ivars->type;
// Get the field value.
switch (FType_Primitive_ID(type) & FType_PRIMITIVE_ID_MASK) {
case FType_TEXT: {
CharBuf *char_buf
= (CharBuf*)CERTIFY(obj, CHARBUF);
ViewCharBuf *value
= (ViewCharBuf*)inventry_ivars->value;
ViewCB_Assign(value, char_buf);
break;
}
case FType_BLOB: {
ByteBuf *byte_buf
= (ByteBuf*)CERTIFY(obj, BYTEBUF);
ViewByteBuf *value
= (ViewByteBuf*)inventry_ivars->value;
ViewBB_Assign(value, byte_buf);
break;
}
case FType_INT32: {
int32_t int_val = (int32_t)Obj_To_I64(obj);
Integer32* value = (Integer32*)inventry_ivars->value;
Int32_Set_Value(value, int_val);
break;
}
case FType_INT64: {
int64_t int_val = Obj_To_I64(obj);
Integer64* value = (Integer64*)inventry_ivars->value;
Int64_Set_Value(value, int_val);
break;
}
case FType_FLOAT32: {
float float_val = (float)Obj_To_F64(obj);
Float32* value = (Float32*)inventry_ivars->value;
Float32_Set_Value(value, float_val);
break;
}
case FType_FLOAT64: {
double float_val = Obj_To_F64(obj);
Float64* value = (Float64*)inventry_ivars->value;
Float64_Set_Value(value, float_val);
break;
}
default:
THROW(ERR, "Unrecognized type: %o", type);
}
Inverter_Add_Field(self, inventry);
}
}
static void
test_accessors(TestBatch *batch) {
Float32 *f32 = Float32_new(1.0);
Float64 *f64 = Float64_new(1.0);
Integer32 *i32 = Int32_new(1);
Integer64 *i64 = Int64_new(1);
float wanted32 = 1.33f;
double wanted64 = 1.33;
float got32;
double got64;
Float32_Set_Value(f32, 1.33f);
TEST_FLOAT_EQ(batch, Float32_Get_Value(f32), 1.33f,
"F32 Set_Value Get_Value");
Float64_Set_Value(f64, 1.33);
got64 = Float64_Get_Value(f64);
TEST_TRUE(batch, *(int64_t*)&got64 == *(int64_t*)&wanted64,
"F64 Set_Value Get_Value");
TEST_TRUE(batch, Float32_To_I64(f32) == 1, "Float32_To_I64");
TEST_TRUE(batch, Float64_To_I64(f64) == 1, "Float64_To_I64");
got32 = (float)Float32_To_F64(f32);
TEST_TRUE(batch, *(int32_t*)&got32 == *(int32_t*)&wanted32,
"Float32_To_F64");
got64 = Float64_To_F64(f64);
TEST_TRUE(batch, *(int64_t*)&got64 == *(int64_t*)&wanted64,
"Float64_To_F64");
Int32_Set_Value(i32, I32_MIN);
TEST_INT_EQ(batch, Int32_Get_Value(i32), I32_MIN,
"I32 Set_Value Get_Value");
Int64_Set_Value(i64, I64_MIN);
TEST_TRUE(batch, Int64_Get_Value(i64) == I64_MIN,
"I64 Set_Value Get_Value");
Int32_Set_Value(i32, -1);
Int64_Set_Value(i64, -1);
TEST_TRUE(batch, Int32_To_F64(i32) == -1, "Int32_To_F64");
TEST_TRUE(batch, Int64_To_F64(i64) == -1, "Int64_To_F64");
TEST_INT_EQ(batch, Bool_Get_Value(CFISH_TRUE), true,
"Bool_Get_Value [true]");
TEST_INT_EQ(batch, Bool_Get_Value(CFISH_FALSE), false,
"Bool_Get_Value [false]");
TEST_TRUE(batch, Bool_To_I64(CFISH_TRUE) == true,
"Bool_To_I64 [true]");
TEST_TRUE(batch, Bool_To_I64(CFISH_FALSE) == false,
"Bool_To_I64 [false]");
TEST_TRUE(batch, Bool_To_F64(CFISH_TRUE) == 1.0,
"Bool_To_F64 [true]");
TEST_TRUE(batch, Bool_To_F64(CFISH_FALSE) == 0.0,
"Bool_To_F64 [false]");
DECREF(i64);
DECREF(i32);
DECREF(f64);
DECREF(f32);
}
