/
f630.go
164 lines (162 loc) · 2.46 KB
/
f630.go
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package internals
import (
"encoding/binary"
"math"
)
func f630(ctx *Context, l0 float64) float64 {
var l1 int32
_ = l1
var l2 int32
_ = l2
var s0i32 int32
_ = s0i32
var s1i32 int32
_ = s1i32
var s2i32 int32
_ = s2i32
var s3i32 int32
_ = s3i32
var s0i64 int64
_ = s0i64
var s1i64 int64
_ = s1i64
var s0f64 float64
_ = s0f64
var s1f64 float64
_ = s1f64
// get_global
s0i32 = ctx.G0
// const
s1i32 = 16
// binary: i32.sub
s0i32 = s0i32 - s1i32
// tee_local
l1 = s0i32
// set_global
ctx.G0 = s0i32
// block
// block
// get_local
s0f64 = l0
// unary: i64.reinterpret/f64
s0i64 = int64(math.Float64bits(s0f64))
// const
s1i64 = 32
// binary: i64.shr_u
s0i64 = int64(uint64(s0i64) >> (uint64(s1i64) & 63))
// unary: i32.wrap/i64
s0i32 = int32(s0i64)
// const
s1i32 = 2147483647
// binary: i32.and
s0i32 = s0i32 & s1i32
// tee_local
l2 = s0i32
// const
s1i32 = 1072243195
// binary: i32.gt_u
if uint32(s0i32) > uint32(s1i32) {
s0i32 = 1
} else {
s0i32 = 0
}
// br_if
if s0i32 != 0 {
goto lbl1
}
// get_local
s0i32 = l2
// const
s1i32 = 1044381696
// binary: i32.lt_u
if uint32(s0i32) < uint32(s1i32) {
s0i32 = 1
} else {
s0i32 = 0
}
// br_if
if s0i32 != 0 {
goto lbl0
}
// get_local
s0f64 = l0
// const
s1f64 = 0
// const
s2i32 = 0
// call
s0f64 = f629(ctx, s0f64, s1f64, s2i32)
// set_local
l0 = s0f64
// br
goto lbl0
// end_block
lbl1:
// block
// get_local
s0i32 = l2
// const
s1i32 = 2146435072
// binary: i32.lt_u
if uint32(s0i32) < uint32(s1i32) {
s0i32 = 1
} else {
s0i32 = 0
}
// br_if
if s0i32 != 0 {
goto lbl2
}
// get_local
s0f64 = l0
// get_local
s1f64 = l0
// binary: f64.sub
s0f64 = s0f64 - s1f64
// set_local
l0 = s0f64
// br
goto lbl0
// end_block
lbl2:
// get_local
s0f64 = l0
// get_local
s1i32 = l1
// call
s0i32 = f608(ctx, s0f64, s1i32)
// set_local
l2 = s0i32
// get_local
s0i32 = l1
// load: f64.load
s0f64 = math.Float64frombits(binary.LittleEndian.Uint64(ctx.Mem[int(s0i32+0):]))
// get_local
s1i32 = l1
// load: f64.load
s1f64 = math.Float64frombits(binary.LittleEndian.Uint64(ctx.Mem[int(s1i32+8):]))
// get_local
s2i32 = l2
// const
s3i32 = 1
// binary: i32.and
s2i32 = s2i32 & s3i32
// call
s0f64 = f629(ctx, s0f64, s1f64, s2i32)
// set_local
l0 = s0f64
// end_block
lbl0:
// get_local
s0i32 = l1
// const
s1i32 = 16
// binary: i32.add
s0i32 = s0i32 + s1i32
// set_global
ctx.G0 = s0i32
// get_local
s0f64 = l0
// return
return s0f64
}