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@ -10,14 +10,35 @@ use crsn::sexp; |
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use crsn::sexp::Sexp; |
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use crsn::sexp::Sexp; |
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use crsn::utils::A; |
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use crsn::utils::A; |
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use crate::defs::ArithOp; |
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use crate::defs::{ArithOp, FloatToIntMode}; |
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use crsn::asm::instr::cond::Flag; |
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use crsn::asm::instr::cond::Flag; |
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use rand::Rng; |
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use rand::Rng; |
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#[inline] |
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fn f2u(f: f64) -> u64 { |
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unsafe { std::mem::transmute(f) } |
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} |
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#[inline] |
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fn u2f(f: u64) -> f64 { |
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unsafe { std::mem::transmute(f) } |
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} |
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#[inline] |
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fn i2u(f: i64) -> u64 { |
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unsafe { std::mem::transmute(f) } |
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} |
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#[inline] |
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fn u2i(f: u64) -> i64 { |
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unsafe { std::mem::transmute(f) } |
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} |
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impl OpTrait for ArithOp { |
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impl OpTrait for ArithOp { |
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fn execute(&self, _ti: &ThreadInfo, state: &mut RunState) -> Result<EvalRes, Fault> { |
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fn execute(&self, _ti: &ThreadInfo, state: &mut RunState) -> Result<EvalRes, Fault> { |
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let eres = EvalRes::default(); |
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let eres = EvalRes::default(); |
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match self { |
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match self { |
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// Integers
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ArithOp::Test { a } => { |
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ArithOp::Test { a } => { |
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state.clear_status(); |
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state.clear_status(); |
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let res = state.read(a)?; |
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let res = state.read(a)?; |
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@ -142,6 +163,122 @@ impl OpTrait for ArithOp { |
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state.write(dst, remainder)?; |
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state.write(dst, remainder)?; |
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} |
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} |
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} |
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} |
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// Floating point
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ArithOp::FloatToInt { dst, a, mode } => { |
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state.clear_status(); |
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let val : f64 = u2f(state.read(a)?); |
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let res = i2u(match mode { |
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FloatToIntMode::Floor => val.floor(), |
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FloatToIntMode::Ceil => val.ceil(), |
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FloatToIntMode::Round => val.round(), |
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} as i64); |
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state.update_status(res); |
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state.write(dst, res)?; |
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} |
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ArithOp::IntToFloat { dst, a } => { |
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state.clear_status(); |
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let val : f64 = u2i(state.read(a)?) as f64; |
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state.update_status_float(val); |
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state.write(dst, f2u(val))?; |
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} |
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ArithOp::FloatTest { a } => { |
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state.clear_status(); |
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let res = u2f(state.read(a)?); |
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state.update_status_float(res); |
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} |
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ArithOp::FloatCompare { a, b } => { |
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state.clear_status(); |
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let x = u2f(state.read(a)?); |
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let y = u2f(state.read(b)?); |
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state.set_flag(Flag::Equal, x == y); |
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state.set_flag(Flag::Lower, x < y); |
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state.set_flag(Flag::Greater, x > y); |
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// Test flags are set when both arguments have the property
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if x == y { |
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state.update_status_float(x); |
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} |
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} |
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ArithOp::FloatRangeTest { val, a, b } => { |
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state.clear_status(); |
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let val = u2f(state.read(val)?); |
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let a = u2f(state.read(a)?); |
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let b = u2f(state.read(b)?); |
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state.set_flag(Flag::Equal, val >= a && val <= b); |
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state.set_flag(Flag::Lower, val < a); |
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state.set_flag(Flag::Greater, val > b); |
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state.update_status_float(val); |
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} |
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ArithOp::FloatRng { dst, min, max } => { |
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state.clear_status(); |
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let min = u2f(state.read(min)?); |
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let max = u2f(state.read(max)?); |
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let val = if min == max { |
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min |
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} else if min > max { |
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state.set_flag(Flag::Invalid, true); |
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min |
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} else { |
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rand::thread_rng() |
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.gen_range(min, max) |
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}; |
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state.write(dst, f2u(val))?; |
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state.update_status_float(val); |
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} |
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ArithOp::FloatAdd { dst, a, b } => { |
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state.clear_status(); |
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let x = u2f(state.read(a)?); |
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let y = u2f(state.read(b)?); |
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let res = x + y; |
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state.update_status_float(res); |
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state.write(dst, f2u(res))?; |
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} |
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ArithOp::FloatSub { dst, a, b } => { |
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state.clear_status(); |
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let x = u2f(state.read(a)?); |
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let y = u2f(state.read(b)?); |
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let res = x - y; |
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state.update_status_float(res); |
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state.write(dst, f2u(res))?; |
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} |
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ArithOp::FloatMul { dst, a, b } => { |
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state.clear_status(); |
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let x = u2f(state.read(a)?); |
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let y = u2f(state.read(b)?); |
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let res = x * y; |
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state.update_status_float(res); |
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state.write(dst, f2u(res))?; |
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} |
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ArithOp::FloatDiv { dst, rem, a, div } => { |
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state.clear_status(); |
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let x = u2f(state.read(a)?); |
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let d = u2f(state.read(div)?); |
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if d == 0.0 { |
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state.set_flag(Flag::Invalid, true); |
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} else { |
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let res = x / d; |
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let remainder = x % d; |
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state.update_status_float(res); |
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state.write(dst, f2u(res))?; |
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state.write(rem, f2u(remainder))?; |
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} |
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} |
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ArithOp::FloatMod { dst, a, div } => { |
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state.clear_status(); |
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let x = u2f(state.read(a)?); |
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let d = u2f(state.read(div)?); |
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if d == 0.0 { |
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state.set_flag(Flag::Invalid, true); |
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} else { |
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let rem = x % d; |
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state.update_status_float(rem); |
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state.write(dst, f2u(rem))?; |
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} |
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} |
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// Bitwise
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ArithOp::And { dst, a, b } => { |
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ArithOp::And { dst, a, b } => { |
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state.clear_status(); |
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state.clear_status(); |
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let x = state.read(a)?; |
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let x = state.read(a)?; |
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@ -282,6 +419,8 @@ impl OpTrait for ArithOp { |
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state.update_status(res); |
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state.update_status(res); |
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state.write(dst, res)?; |
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state.write(dst, res)?; |
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} |
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} |
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_ => unimplemented!() // TODO implement float trig etc
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} |
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} |
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Ok(eres) |
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Ok(eres) |
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@ -289,19 +428,19 @@ impl OpTrait for ArithOp { |
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fn to_sexp(&self) -> Sexp { |
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fn to_sexp(&self) -> Sexp { |
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match self { |
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match self { |
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ArithOp::Add { dst, a, b } => to_sexp_2_or_3("add", dst, a, b), |
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ArithOp::Test { a } => sexp::list(&[A("tst"), A(a)]), |
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ArithOp::Test { a } => sexp::list(&[A("test"), A(a)]), |
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ArithOp::Compare { a, b } => sexp::list(&[A("cmp"), A(a), A(b)]), |
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ArithOp::Compare { a, b } => sexp::list(&[A("cmp"), A(a), A(b)]), |
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ArithOp::RangeTest { val, a: start, b: end } => sexp::list(&[A("rcmp"), A(val), A(start), A(end)]), |
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ArithOp::RangeTest { val, a: start, b: end } => sexp::list(&[A("rcmp"), A(val), A(start), A(end)]), |
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ArithOp::Rng { dst, min, max } => { |
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ArithOp::Rng { dst, min, max } => { |
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if min.is_immediate_equal(0) && max.is_immediate_equal(u64::MAX) { |
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if min.is_imm_equal(0) && max.is_imm_equal(u64::MAX) { |
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sexp::list(&[A("rng"), A(dst)]) |
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sexp::list(&[A("rng"), A(dst)]) |
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} else if min.is_immediate_equal(0) { |
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} else if min.is_imm_equal(0) { |
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sexp::list(&[A("rng"), A(dst), A(max)]) |
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sexp::list(&[A("rng"), A(dst), A(max)]) |
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} else { |
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} else { |
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sexp::list(&[A("rng"), A(dst), A(min), A(max)]) |
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sexp::list(&[A("rng"), A(dst), A(min), A(max)]) |
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} |
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} |
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} |
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} |
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ArithOp::Add { dst, a, b } => to_sexp_2_or_3("add", dst, a, b), |
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ArithOp::Sub { dst, a, b } => to_sexp_2_or_3("sub", dst, a, b), |
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ArithOp::Sub { dst, a, b } => to_sexp_2_or_3("sub", dst, a, b), |
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ArithOp::Mul { dst, a, b } => to_sexp_2_or_3("mul", dst, a, b), |
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ArithOp::Mul { dst, a, b } => to_sexp_2_or_3("mul", dst, a, b), |
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ArithOp::Div { dst, rem, a, div } => { |
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ArithOp::Div { dst, rem, a, div } => { |
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@ -316,6 +455,40 @@ impl OpTrait for ArithOp { |
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} |
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} |
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} |
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} |
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ArithOp::Mod { dst, a, div } => to_sexp_2_or_3("mod", dst, a, div), |
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ArithOp::Mod { dst, a, div } => to_sexp_2_or_3("mod", dst, a, div), |
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// TODO render as float
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ArithOp::FloatTest { a } => sexp::list(&[A("tstf"), A(a)]), |
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ArithOp::FloatCompare { a, b } => sexp::list(&[A("cmpf"), A(a), A(b)]), |
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ArithOp::FloatRangeTest { val, a: start, b: end } => sexp::list(&[A("rcmpf"), A(val), A(start), A(end)]), |
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ArithOp::FloatRng { dst, min, max } => { |
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if min.is_imm_equal(0f64.to_bits()) && max.is_imm_equal(f64::MAX.to_bits()) { |
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sexp::list(&[A("rngf"), A(dst)]) |
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} else if min.is_imm_equal(0) { |
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sexp::list(&[A("rngf"), A(dst), A(max)]) |
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} else { |
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sexp::list(&[A("rngf"), A(dst), A(min), A(max)]) |
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} |
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} |
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ArithOp::FloatAdd { dst, a, b } => to_sexp_2_or_3("addf", dst, a, b), |
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ArithOp::FloatSub { dst, a, b } => to_sexp_2_or_3("subf", dst, a, b), |
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ArithOp::FloatMul { dst, a, b } => to_sexp_2_or_3("mulf", dst, a, b), |
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ArithOp::FloatDiv { dst, rem, a, div } => { |
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if rem.is_discard() { |
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to_sexp_2_or_3("divf", dst, a, div) |
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} else { |
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if &dst.as_rd() == a { |
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sexp::list(&[A("divrf"), A(dst), A(rem), A(div)]) |
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} else { |
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sexp::list(&[A("divrf"), A(dst), A(rem), A(a), A(div)]) |
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} |
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} |
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} |
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ArithOp::FloatMod { dst, a, div } => to_sexp_2_or_3("modf", dst, a, div), |
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ArithOp::IntToFloat { dst, a } => to_sexp_1_or_2("itf", dst, a), |
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ArithOp::FloatToInt { dst, a, mode: FloatToIntMode::Floor } => to_sexp_1_or_2("ftif", dst, a), |
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ArithOp::FloatToInt { dst, a, mode: FloatToIntMode::Round } => to_sexp_1_or_2("ftir", dst, a), |
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ArithOp::FloatToInt { dst, a, mode: FloatToIntMode::Ceil } => to_sexp_1_or_2("ftic", dst, a), |
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ArithOp::And { dst, a, b } => to_sexp_2_or_3("and", dst, a, b), |
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ArithOp::And { dst, a, b } => to_sexp_2_or_3("and", dst, a, b), |
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ArithOp::Or { dst, a, b } => to_sexp_2_or_3("or", dst, a, b), |
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ArithOp::Or { dst, a, b } => to_sexp_2_or_3("or", dst, a, b), |
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ArithOp::Xor { dst, a, b } => to_sexp_2_or_3("xor", dst, a, b), |
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ArithOp::Xor { dst, a, b } => to_sexp_2_or_3("xor", dst, a, b), |
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@ -333,6 +506,8 @@ impl OpTrait for ArithOp { |
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ArithOp::Clz { dst, src, mask: slice } => to_sexp_1_or_2(&format!("clz{}", slice), dst, src), |
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ArithOp::Clz { dst, src, mask: slice } => to_sexp_1_or_2(&format!("clz{}", slice), dst, src), |
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ArithOp::Clo { dst, src, mask: slice } => to_sexp_1_or_2(&format!("clo{}", slice), dst, src), |
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ArithOp::Clo { dst, src, mask: slice } => to_sexp_1_or_2(&format!("clo{}", slice), dst, src), |
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ArithOp::SignExtend { dst, src, mask: slice } => to_sexp_1_or_2(&format!("se{}", slice), dst, src), |
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ArithOp::SignExtend { dst, src, mask: slice } => to_sexp_1_or_2(&format!("se{}", slice), dst, src), |
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_ => unimplemented!() // FIXME
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} |
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} |
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} |
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} |
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} |
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} |
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