Fixing C++ function check_date() to get the "fuzzydate" as
date_mode_t rather than ulonglong, so conversion from
date_time_t to ulonglong is now done inside C++ check_date(),
and no conversion is needed in the callers' code.
As an additional safety, modified the code not to pass
TIME_FUZZY_DATE to the low level C functions:
- check_date()
- str_to_datetime()
- str_to_time()
- number_to_datetime()
because TIME_FUZZY_DATE is known only on the C++ level,
C functions do not know it.
Soon we'll be adding more flags into the C++ level (i.e. to date_time_t),
e.g. for rounding. It's a good idea to prevent passing C++ specific
flags into pure C routines before this change.
Asserts were added into the affected C functions to verify
that the caller passed only known C level flags.
- Adding a helper class Sec6 to store (neg,seconds,microseconds)
- Adding a helper class VSec6 (Sec6 with a flag for "IS NULL")
- Wrapping related functions as methods of Sec6;
* number_to_datetime()
* number_to_time()
* my_decimal2seconds()
* Item::get_seconds()
* A big piece of code in Item_func_sec_to_time::get_date()
- Using the new classes in places where second-to-temporal
conversion takes place:
* Field_timestamp::store(double)
* Field_timestamp::store(longlong)
* Field_timestamp_with_dec::store_decimal(my_decimal)
* Field_temporal_with_date::store(double)
* Field_temporal_with_date::store(longlong)
* Field_time::store(double)
* Field_time::store(longlong)
* Field_time::store_decimal(my_decimal)
* Field_temporal_with_date::store_decimal(my_decimal)
* get_interval_value()
* Item_func_sec_to_time::get_date()
* Item_func_from_unixtime::get_date()
* Item_func_maketime::get_date()
This change simplifies these methods and functions a lot.
- Warnings are now sent at VSec6 initialization time, when the source
data is available in its original data type representation.
If Sec6::to_time() or Sec6::to_datetime() truncate data again during
conversion to MYSQL_TIME, they send warnings, but only if no warnings
were sent during VSec6 initialization. This helps prevents double warnings.
The call for val_str() in Item_func_sec_to_time::get_date() is not
needed any more, so it's removed. This change actually fixes the problem.
As a good effect, FROM_UNIXTIME() and MAKETIME() now also send warnings
in case if the seconds arguments is out of range. Previously these
functions returned NULL silently.
- Splitting the code in the global function make_truncated_value_warning()
into a number of methods THD::raise_warning_xxxx().
This was needed to reuse the logic that chooses between:
* ER_TRUNCATED_WRONG_VALUE
* ER_WRONG_VALUE
* ER_TRUNCATED_WRONG_VALUE_FOR_FIELD
for non-temporal data types (Sec6).
- Removing:
* Item::get_seconds()
* number_to_time_with_warn()
as this code now resides inside methods of Sec6.
- Cleanup (changes that are not directly related to the fix):
* Removing calls for field_name_or_null() and passing NULL instead
in Item_func_hybrid_field_type::get_date_from_{int|real}_op,
because Item_func_hybrid_field_type::field_name_or_null()
always returns NULL
* Replacing a number of calls for make_truncated_value_warning()
to calls for THD::raise_warning_xxx(). In these places
we know that the execution went through a certain
branch of make_truncated_value_warning(),
(e.g. the exact error code is known, or field name is always NULL,
or field name is always not-NULL). So calls for the entire
make_truncated_value_warning() after splitting are not necessary.
Changing data types for:
- seconds from longlong to ulonglong
- microseconds from long to ulong
in:
- parameters of calc_time_diff()
- parameters of calc_time_from_sec()
- Members of Sec6_add
This will help to reuse the code easier:
all other functions use ulonglong+long
for seconds/microsecond, e.g.:
- number_to_time()
- number_to_datetime()
- number_to_datetime_with_warn()
- Field_temporal_with_date::store_decimal()
- my_decimal2seconds()
- Item::get_seconds()
- Implementing the task according to the MDEV description.
- Adding a helper class Sec6_add to share the code in type-specific
branches in Item_func_add_time::get_date().
"mtr func_date_add" failed on 32-bit platforms. Removing a wrong case to "long".
Both values[] and log_10_int[] are arrays of "ulonglong", no cast is needed.
The change N7 in MDEV-15340 (see the commit message) introduced
a regression in how CAST(AS TIME), HOUR(), TIME_TO_SEC() treat datetimes
'0000-00-DD mm:hh:ss' (i.e. with zero YYYYMM part and a non-zero day).
These functions historically do not mix days to hours on datetime-to-time
conversion. Implementations of the underlying methods used get_arg0_time()
to fetch MYSQL_TIME. After MDEV-15340, get_arg0_time() went through the
Time() constructor, which always adds '0000-00-DD' to hours automatically
(as in all other places in the code we do mix days to hours).
Changes:
1. Extending Time() to make it possible to choose a desired way of treating
'0000-00-DD' (ignore or mix to hours) on datetime-to-time conversion.
Adding a helper class Time::Options for this, which now describes two aspects
of Time() creation:
1. Flags for get_date()
2. Days/hours mixing behavior.
2. Removing Item_func::get_arg0_time(). Using Time() directly
in all affected classes. Forcing Time() to ignore (rather than mix)
'0000-00-DD' in these affected classes by passing a suitable Options value.
3. Adding Time::to_seconds(), to reuse the code between
Item_func_time_to_sec::decimal_op() and Item_func_time_to_sec::int_op().
4. Item_func::get_arg0_date() now returns only a datetime value,
with automatic time-to-datetime conversion if needed. An assert was
added to catch attempts to pass TIME_TIME_ONLY to get_arg0_date().
All callers were checked not to pass TIME_TIME_ONLY, this revealed
a bug MDEV-15363.
5. Changing Item_func_last_day::get_date() to remove the TIME_TIME_ONLY flag
before calling get_arg0_date(). This fixes MDEV-15363.
The problem was that Item_func_hybrid_field_type::get_date() did not
convert the result to the correct data type, so MYSQL_TIME::time_type
of the get_date() result could be not in sync with field_type().
Changes:
1. Adding two new classes Datetime and Date to store MYSQL_TIMESTAMP_DATETIME
and MYSQL_TIMESTAMP_DATE values respectively
(in addition to earlier added class Time, for MYSQL_TIMESTAMP_TIME values).
2. Adding Item_func_hybrid_field_type::time_op().
It performs the operation using TIME representation,
and always returns a MYSQL_TIME value with time_type=MYSQL_TIMESTAMP_TIME.
Implementing time_op() for all affected children classes.
3. Fixing all implementations of date_op() to perform the operation
using strictly DATETIME representation. Now they always return a MYSQL_TIME
value with time_type=MYSQL_TIMESTAMP_{DATE|DATETIME},
according to the result data type.
4. Removing assignment of ltime.time_type to mysql_timestamp_type()
from all val_xxx_from_date_op(), because now date_op() makes sure
to return a proper MYSQL_TIME value with a good time_type (and other member)
5. Adding Item_func_hybrid_field_type::val_xxx_from_time_op().
6. Overriding Type_handler_time_common::Item_func_hybrid_field_type_val_xxx()
to call val_xxx_from_time_op() instead of val_xxx_from_date_op().
7. Modified Item_func::get_arg0_date() to return strictly a TIME value
if TIME_TIME_ONLY is passed, or return strictly a DATETIME value otherwise.
If args[0] returned a value of a different temporal type,
(for example a TIME value when TIME_TIME_ONLY was not passed,
or a DATETIME value when TIME_TIME_ONLY was passed), the conversion
is automatically applied.
Earlier, get_arg0_date() did not guarantee a result in
accordance to TIME_TIME_ONLY flag.
Handle string length as size_t, consistently (almost always:))
Change function prototypes to accept size_t, where in the past
ulong or uint were used. change local/member variables to size_t
when appropriate.
This fix excludes rocksdb, spider,spider, sphinx and connect for now.
