This patch adds the power operator for unsigned bit based values
in a continuous assignment. It also refactors the power code for
normal expressions and continuous assignments.
This patch adds bit based power support to normal expressions.
It also pushes the constant unsigned bit based calculation to
the runtime until the bit based method can be copied to the
compiler. Continuous assignments also need to use this type
of calculation.
Allow user defined functions to take real value arguments and return
real value results in net contexts. Use the data type of the nets
attached to the ports to define the data types of the arguments and
return value.
This patch adds a new opcode %load/avp0 that is used to load a
word from an array and add a value to it. %load/vp0 was
changed/fixed to do the summation at the result width not the
vector width. This allows small vectors to index large arrays with
an offset. A few errors in the opcodes.txt file were also fixed.
Where and expression is an immediate value added to a signal value,
it is possible to optimize them to a single instruction that combines
the load with an add at the same time.
The functor counters were left over from the v0.8 release. Rework
the counters to be relevent to the current state of vvp.
Signed-off-by: Stephen Williams <steve@icarus.com>
Wide division/modulus (more bits than unsigned long) gave incorrect
results when both the divisor and dividend where the same. They also
did not produce an error message when dividing by zero.
Modified the code that deals with real variables to accept an integer
value when using vpi_put_value(). Also added some type of diagnostic
message for all switch defaults that have an assert(0) to indicate an
error condition, removed CVS comments and removed a small section of
unreachable code.
In rare cases, the reduction logic nodes may get vector part inputs.
This patch adds support for vector parts entering a reduction node.
Signed-off-by: Stephen Williams <steve@icarus.com>
Be careful to include bitwise differences in double values, because
it is the bit pattern we are passing aroung, not the arithmetic value.
Signed-off-by: Stephen Williams <steve@icarus.com>
Cary R
Larry Doolittle
Stephen Williams
steve