W
ZyanU8 W;
ZyanU8 W;
ZyanU8 W;
ZyanU8 W;
ZyanU8 W;
ZyanU8 W;
uint16 W[4];
#ifdef W
ZYAN_ASSERT(!evex_b || ((!context->vector_unified.W && (context->evex.element_size == 16 ||
( context->vector_unified.W && context->evex.element_size == 64)));
ZYAN_ASSERT(!context->vector_unified.W);
switch (context->vector_unified.W)
ZYAN_ASSERT(context->vector_unified.W == 0);
switch (context->vector_unified.W)
switch (context->vector_unified.W)
ZYAN_ASSERT(!context->vector_unified.W);
ZYAN_ASSERT(!context->vector_unified.W);
index += (context->vector_unified.W & 0x01) << 1;
instruction->raw.rex.W = (data >> 3) & 0x01;
context->vector_unified.W = instruction->raw.rex.W;
(state->context->vector_unified.W))
*index = context->vector_unified.W;
instruction->raw.xop.W = (data[2] >> 7) & 0x01;
context->vector_unified.W = instruction->raw.xop.W;
instruction->raw.vex.W = (data[2] >> 7) & 0x01;
instruction->raw.vex.W = 0;
context->vector_unified.W = instruction->raw.vex.W;
instruction->raw.evex.W = (data[2] >> 7) & 0x01;
context->vector_unified.W = instruction->raw.evex.W;
instruction->raw.mvex.W = (data[2] >> 7) & 0x01;
context->vector_unified.W = instruction->raw.mvex.W;
{ 0, 100 * W },
{ 0, 50 * W, 100 * W },
{ 0, 35 * W, 65 * W, 100 * W },
{ 0, 25 * W, 50 * W, 75 * W, 100 * W },
{ 0, 20 * W, 40 * W, 60 * W, 80 * W, 100 * W },
{ 0, 19 * W, 34 * W, 50 * W, 66 * W, 82 * W, 100 * W }
#define F W
#define G W
#define H W
long double w=0, W=0, Wa=0, Wb=0, ya=0, yb=0, u=0;