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fixes, more trig, demo with floats

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floats
Ondřej Hruška 4 years ago
parent 68c9b33637
commit 9723ac72be
Signed by untrusted user: MightyPork
GPG Key ID: 2C5FD5035250423D
9 changed files with 421 additions and 50 deletions
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  1. 1
      Cargo.lock
  2. 19
      crsn/src/asm/data/rd.rs
  3. 9
      crsn/src/runtime/frame/status.rs
  4. 1
      crsn_arith/Cargo.toml
  5. 19
      crsn_arith/src/defs.rs
  6. 295
      crsn_arith/src/exec.rs
  7. 20
      crsn_arith/src/lib.rs
  8. 73
      crsn_arith/src/parse.rs
  9. 34
      examples/screen_trig.csn

1
Cargo.lock generated
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@ -188,6 +188,7 @@ name = "crsn_arith"
version = "0.1.0"
dependencies = [
"crsn",
"log",
"num-traits",
"rand 0.7.3",
]

19
crsn/src/asm/data/rd.rs
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@ -24,15 +24,18 @@ impl Rd {
Rd(RdData::Immediate(val.to_bits()))
}
/// Convert immediate read to float
/// Convert immediate integer to float
pub fn imm_to_float(self) -> Rd {
match self {
Rd(RdData::Immediate(v)) => {
let signed : i64 = unsafe { std::mem::transmute(v) };
Rd::new_float(signed as f64)
}
other => other
}
self
// FIXME
// match self {
// Rd(RdData::Immediate(v)) => {
// let signed : i64 = unsafe { std::mem::transmute(v) };
// Rd::new_float(signed as f64)
// }
// other => other
// }
}
pub fn is_imm_equal(self, other: Value) -> bool {

9
crsn/src/runtime/frame/status.rs
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@ -4,6 +4,7 @@ use std::fmt;
use crate::asm::data::literal::{is_negative, is_positive, Value};
use crate::asm::instr::Cond;
use crate::asm::instr::cond::Flag;
use num_traits::Zero;
#[derive(Default, Clone, Debug)]
pub struct StatusFlags {
@ -80,9 +81,11 @@ impl StatusFlags {
#[inline(always)]
pub fn update_float(&mut self, val: f64) {
self.zero = val == 0.0;
self.positive = val > 0.0;
self.negative = val < 0.0;
self.invalid = val.is_nan();
self.overflow = val.is_infinite();
self.zero = val.is_zero();
self.positive = val.is_sign_positive();
self.negative = val.is_sign_negative();
}
#[inline(always)]

1
crsn_arith/Cargo.toml
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@ -10,3 +10,4 @@ edition = "2018"
crsn = { path = "../crsn" }
num-traits = "0.2.12"
rand = "0.7.3"
log = "0.4.11"

19
crsn_arith/src/defs.rs
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@ -28,6 +28,7 @@ pub enum ArithOp {
Add { dst: Wr, a: Rd, b: Rd },
Abs { dst: Wr, a: Rd },
Sgn { dst: Wr, a: Rd },
Sub { dst: Wr, a: Rd, b: Rd },
Mul { dst: Wr, a: Rd, b: Rd },
Pow { dst: Wr, a: Rd, pow: Rd },
@ -63,16 +64,26 @@ pub enum ArithOp {
FloatDiv { dst: Wr, rem: Wr, a: Rd, div: Rd },
FloatMod { dst: Wr, a: Rd, div: Rd },
FloatAbs { dst: Wr, a: Rd },
FloatSgn { dst: Wr, a: Rd },
FloatSin { dst: Wr, f: Rd },
FloatSin { dst: Wr, a: Rd },
FloatAsin { dst: Wr, a: Rd },
FloatCos { dst: Wr, f: Rd },
FloatCos { dst: Wr, a: Rd },
FloatAcos { dst: Wr, a: Rd },
FloatTan { dst: Wr, f: Rd },
FloatTan { dst: Wr, a: Rd },
FloatAtan { dst: Wr, a: Rd },
FloatAtan2 { dst: Wr, y: Rd, x: Rd },
FloatCot { dst: Wr, f: Rd },
FloatCot { dst: Wr, a: Rd },
FloatAcot { dst: Wr, a: Rd },
FloatHypSin { dst: Wr, a: Rd },
FloatHypAsin { dst: Wr, a: Rd },
FloatHypCos { dst: Wr, a: Rd },
FloatHypAcos { dst: Wr, a: Rd },
FloatHypTan { dst: Wr, a: Rd },
FloatHypAtan { dst: Wr, a: Rd },
FloatHypCot { dst: Wr, a: Rd },
FloatHypAcot { dst: Wr, a: Rd },
}
#[derive(Debug, Clone, Copy, Eq, PartialEq)]

295
crsn_arith/src/exec.rs
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@ -1,6 +1,6 @@
use std::ops::Rem;
use num_traits::PrimInt;
use num_traits::{PrimInt};
use crsn::asm::data::{Rd, Wr};
use crsn::module::{EvalRes, OpTrait};
@ -13,24 +13,25 @@ use crsn::utils::A;
use crate::defs::{ArithOp, FloatToIntMode};
use crsn::asm::instr::cond::Flag;
use rand::Rng;
use std::f64::consts::{PI, FRAC_PI_2};
#[inline]
fn f2u(f: f64) -> u64 {
pub(crate) fn f2u(f: f64) -> u64 {
unsafe { std::mem::transmute(f) }
}
#[inline]
fn u2f(f: u64) -> f64 {
pub(crate) fn u2f(f: u64) -> f64 {
unsafe { std::mem::transmute(f) }
}
#[inline]
fn i2u(f: i64) -> u64 {
pub(crate) fn i2u(f: i64) -> u64 {
unsafe { std::mem::transmute(f) }
}
#[inline]
fn u2i(f: u64) -> i64 {
pub(crate) fn u2i(f: u64) -> i64 {
unsafe { std::mem::transmute(f) }
}
@ -174,14 +175,17 @@ impl OpTrait for ArithOp {
FloatToIntMode::Ceil => val.ceil(),
FloatToIntMode::Round => val.round(),
} as i64);
trace!("fti {} -> {}", val, res);
state.update_status(res);
state.write(dst, res)?;
}
ArithOp::IntToFloat { dst, a } => {
state.clear_status();
let val : f64 = u2i(state.read(a)?) as f64;
state.update_status_float(val);
state.write(dst, f2u(val))?;
let i = u2i(state.read(a)?);
let res: f64 = i as f64;
trace!("itf {} -> {}", i, res);
state.update_status_float(res);
state.write(dst, f2u(res))?;
}
ArithOp::FloatTest { a } => {
state.clear_status();
@ -419,8 +423,227 @@ impl OpTrait for ArithOp {
state.update_status(res);
state.write(dst, res)?;
}
ArithOp::Abs { dst, a } => {
state.clear_status();
let x = u2i(state.read(a)?);
let res = i2u(x.abs());
state.update_status(res);
state.write(dst, res)?;
}
ArithOp::Sgn { dst, a } => {
state.clear_status();
let x = u2i(state.read(a)?);
let res = i2u(if x >= 0 { 0 } else { -1 });
state.update_status(res);
state.write(dst, res)?;
}
ArithOp::Pow { dst, a, pow } => {
state.clear_status();
let x = state.read(a)?;
let p = state.read(pow)?;
if p > u32::MAX as u64 {
state.set_flag(Flag::Invalid, true);
} else {
let res = x.pow(p as u32);
state.update_status(res);
state.write(dst, res)?;
}
}
ArithOp::FloatPow { dst, a, pow } => {
state.clear_status();
let x = u2f(state.read(a)?);
let p = u2f(state.read(pow)?);
let res = x.powf(p);
state.update_status_float(res);
state.write(dst, f2u(res))?;
}
ArithOp::FloatRoot { dst, a, root } => {
state.clear_status();
let x = u2f(state.read(a)?);
let p = u2f(state.read(root)?);
if p == 0f64 {
state.set_flag(Flag::Invalid, true);
} else {
let res = x.powf(1f64 / p);
state.update_status_float(res);
state.write(dst, f2u(res))?;
}
}
ArithOp::FloatHyp { dst, a, b } => {
state.clear_status();
let a = u2f(state.read(a)?);
let b = u2f(state.read(b)?);
let res = a.hypot(b);
state.update_status_float(res);
state.write(dst, f2u(res))?;
}
ArithOp::FloatAbs { dst, a } => {
state.clear_status();
let a = u2f(state.read(a)?);
let res = a.abs();
state.update_status_float(res);
state.write(dst, f2u(res))?;
}
ArithOp::FloatSgn { dst, a } => {
state.clear_status();
let a = u2f(state.read(a)?);
let res = a.signum();
state.update_status_float(res);
state.write(dst, f2u(res))?;
}
/* Simple trig */
ArithOp::FloatSin { dst, a } => {
state.clear_status();
let a = u2f(state.read(a)?);
let res = a.sin();
state.update_status_float(res);
state.write(dst, f2u(res))?;
}
ArithOp::FloatAsin { dst, a } => {
state.clear_status();
let a = u2f(state.read(a)?);
let res = a.asin();
state.update_status_float(res);
state.write(dst, f2u(res))?;
}
ArithOp::FloatCos { dst, a } => {
state.clear_status();
let a = u2f(state.read(a)?);
let res = a.cos();
state.update_status_float(res);
state.write(dst, f2u(res))?;
}
ArithOp::FloatAcos { dst, a } => {
state.clear_status();
let a = u2f(state.read(a)?);
let res = a.acos();
state.update_status_float(res);
state.write(dst, f2u(res))?;
}
ArithOp::FloatTan { dst, a } => {
state.clear_status();
let a = u2f(state.read(a)?);
let res = a.tan();
state.update_status_float(res);
state.write(dst, f2u(res))?;
}
ArithOp::FloatAtan { dst, a } => {
state.clear_status();
let a = u2f(state.read(a)?);
let res = a.atan();
state.update_status_float(res);
state.write(dst, f2u(res))?;
}
ArithOp::FloatAtan2 { dst, y, x } => {
state.clear_status();
let a = u2f(state.read(y)?);
let b = u2f(state.read(x)?);
let res = a.atan2(b);
state.update_status_float(res);
state.write(dst, f2u(res))?;
}
ArithOp::FloatCot { dst, a } => {
state.clear_status();
let a = u2f(state.read(a)?);
let tan = a.tan();
if tan == 0.0 {
state.set_flag(Flag::Invalid, true);
} else {
let res = 1f64 / tan;
state.update_status_float(res);
state.write(dst, f2u(res))?;
}
}
ArithOp::FloatAcot { dst, a } => {
state.clear_status();
let x = u2f(state.read(a)?);
// TODO verify
let res = if x > 1.0 {
(1.0/x).atan()
} else if x < -1.0 {
PI + (1.0/x).atan()
} else {
FRAC_PI_2 - x.atan()
};
_ => unimplemented!() // TODO implement float trig etc
state.update_status_float(res);
state.write(dst, f2u(res))?;
}
/* Hyperbolic trig */
ArithOp::FloatHypSin { dst, a } => {
state.clear_status();
let a = u2f(state.read(a)?);
let res = a.sinh();
state.update_status_float(res);
state.write(dst, f2u(res))?;
}
ArithOp::FloatHypAsin { dst, a } => {
state.clear_status();
let a = u2f(state.read(a)?);
let res = a.asinh();
state.update_status_float(res);
state.write(dst, f2u(res))?;
}
ArithOp::FloatHypCos { dst, a } => {
state.clear_status();
let a = u2f(state.read(a)?);
let res = a.cosh();
state.update_status_float(res);
state.write(dst, f2u(res))?;
}
ArithOp::FloatHypAcos { dst, a } => {
state.clear_status();
let a = u2f(state.read(a)?);
if a > 1.0 {
let res = a.acos();
state.update_status_float(res);
state.write(dst, f2u(res))?;
}
}
ArithOp::FloatHypTan { dst, a } => {
state.clear_status();
let a = u2f(state.read(a)?);
let res = a.tanh();
state.update_status_float(res);
state.write(dst, f2u(res))?;
}
ArithOp::FloatHypAtan { dst, a } => {
state.clear_status();
let a = u2f(state.read(a)?);
if a > -1.0 && a < 1.0 {
let res = a.atanh();
state.update_status_float(res);
state.write(dst, f2u(res))?;
} else {
state.set_flag(Flag::Invalid, true);
}
}
ArithOp::FloatHypCot { dst, a } => {
state.clear_status();
let a = u2f(state.read(a)?);
let tan = a.tanh();
if tan == 0.0 {
state.set_flag(Flag::Invalid, true);
} else {
let res = 1f64 / tan;
state.update_status_float(res);
state.write(dst, f2u(res))?;
}
}
ArithOp::FloatHypAcot { dst, a } => {
state.clear_status();
let x = u2f(state.read(a)?);
// TODO verify
if x > 1.0 || x < -1.0 {
let res = (1.0/x).atanh();
state.update_status_float(res);
state.write(dst, f2u(res))?;
} else {
state.set_flag(Flag::Invalid, true);
};
}
}
Ok(eres)
@ -457,33 +680,33 @@ impl OpTrait for ArithOp {
ArithOp::Mod { dst, a, div } => to_sexp_2_or_3("mod", dst, a, div),
// TODO render as float
ArithOp::FloatTest { a } => sexp::list(&[A("tstf"), A(a)]),
ArithOp::FloatCompare { a, b } => sexp::list(&[A("cmpf"), A(a), A(b)]),
ArithOp::FloatRangeTest { val, a: start, b: end } => sexp::list(&[A("rcmpf"), A(val), A(start), A(end)]),
ArithOp::FloatTest { a } => sexp::list(&[A("ftst"), A(a)]),
ArithOp::FloatCompare { a, b } => sexp::list(&[A("fcmp"), A(a), A(b)]),
ArithOp::FloatRangeTest { val, a: start, b: end } => sexp::list(&[A("frcmp"), A(val), A(start), A(end)]),
ArithOp::FloatRng { dst, min, max } => {
if min.is_imm_equal(0f64.to_bits()) && max.is_imm_equal(f64::MAX.to_bits()) {
sexp::list(&[A("rngf"), A(dst)])
if min.is_imm_equal((0f64).to_bits()) && max.is_imm_equal(f64::MAX.to_bits()) {
sexp::list(&[A("frng"), A(dst)])
} else if min.is_imm_equal(0) {
sexp::list(&[A("rngf"), A(dst), A(max)])
sexp::list(&[A("frng"), A(dst), A(max)])
} else {
sexp::list(&[A("rngf"), A(dst), A(min), A(max)])
sexp::list(&[A("frng"), A(dst), A(min), A(max)])
}
}
ArithOp::FloatAdd { dst, a, b } => to_sexp_2_or_3("addf", dst, a, b),
ArithOp::FloatSub { dst, a, b } => to_sexp_2_or_3("subf", dst, a, b),
ArithOp::FloatMul { dst, a, b } => to_sexp_2_or_3("mulf", dst, a, b),
ArithOp::FloatAdd { dst, a, b } => to_sexp_2_or_3("fadd", dst, a, b),
ArithOp::FloatSub { dst, a, b } => to_sexp_2_or_3("fsub", dst, a, b),
ArithOp::FloatMul { dst, a, b } => to_sexp_2_or_3("fmul", dst, a, b),
ArithOp::FloatDiv { dst, rem, a, div } => {
if rem.is_discard() {
to_sexp_2_or_3("divf", dst, a, div)
to_sexp_2_or_3("fdiv", dst, a, div)
} else {
if &dst.as_rd() == a {
sexp::list(&[A("divrf"), A(dst), A(rem), A(div)])
sexp::list(&[A("fdivr"), A(dst), A(rem), A(div)])
} else {
sexp::list(&[A("divrf"), A(dst), A(rem), A(a), A(div)])
sexp::list(&[A("fdivr"), A(dst), A(rem), A(a), A(div)])
}
}
}
ArithOp::FloatMod { dst, a, div } => to_sexp_2_or_3("modf", dst, a, div),
ArithOp::FloatMod { dst, a, div } => to_sexp_2_or_3("fmod", dst, a, div),
ArithOp::IntToFloat { dst, a } => to_sexp_1_or_2("itf", dst, a),
ArithOp::FloatToInt { dst, a, mode: FloatToIntMode::Floor } => to_sexp_1_or_2("ftif", dst, a),
ArithOp::FloatToInt { dst, a, mode: FloatToIntMode::Round } => to_sexp_1_or_2("ftir", dst, a),
@ -507,7 +730,31 @@ impl OpTrait for ArithOp {
ArithOp::Clo { dst, src, mask: slice } => to_sexp_1_or_2(&format!("clo{}", slice), dst, src),
ArithOp::SignExtend { dst, src, mask: slice } => to_sexp_1_or_2(&format!("se{}", slice), dst, src),
_ => unimplemented!() // FIXME
ArithOp::Abs { dst, a } => to_sexp_1_or_2("abs", dst, a),
ArithOp::Sgn { dst, a } => to_sexp_1_or_2("sgn", dst, a),
ArithOp::Pow { dst, a, pow } => to_sexp_2_or_3("pow", dst, a, pow),
ArithOp::FloatPow { dst, a, pow } => to_sexp_2_or_3("fpow", dst, a, pow),
ArithOp::FloatRoot { dst, a, root } => to_sexp_2_or_3("froot", dst, a, root),
ArithOp::FloatHyp { dst, a, b } => to_sexp_2_or_3("fhyp", dst, a, b),
ArithOp::FloatAbs { dst, a } => to_sexp_1_or_2("fabs", dst, a),
ArithOp::FloatSgn { dst, a } => to_sexp_1_or_2("fsgn", dst, a),
ArithOp::FloatSin { dst, a } => to_sexp_1_or_2("fsin", dst, a),
ArithOp::FloatAsin { dst, a } => to_sexp_1_or_2("fasin", dst, a),
ArithOp::FloatCos { dst, a } => to_sexp_1_or_2("fcos", dst, a),
ArithOp::FloatAcos { dst, a } => to_sexp_1_or_2("facos", dst, a),
ArithOp::FloatTan { dst, a } => to_sexp_1_or_2("ftan", dst, a),
ArithOp::FloatAtan { dst, a } => to_sexp_1_or_2("fatan", dst, a),
ArithOp::FloatAtan2 { dst, x, y } => to_sexp_2_or_3("fatan2", dst, x, y),
ArithOp::FloatCot { dst, a } => to_sexp_1_or_2("fcot", dst, a),
ArithOp::FloatAcot { dst, a } => to_sexp_1_or_2("facot", dst, a),
ArithOp::FloatHypSin { dst, a } => to_sexp_1_or_2("fsinh", dst, a),
ArithOp::FloatHypAsin { dst, a } => to_sexp_1_or_2("fasinh", dst, a),
ArithOp::FloatHypCos { dst, a } => to_sexp_1_or_2("fcosh", dst, a),
ArithOp::FloatHypAcos { dst, a } => to_sexp_1_or_2("facosh", dst, a),
ArithOp::FloatHypTan { dst, a } => to_sexp_1_or_2("ftanh", dst, a),
ArithOp::FloatHypAtan { dst, a } => to_sexp_1_or_2("fatanh", dst, a),
ArithOp::FloatHypCot { dst, a } => to_sexp_1_or_2("fcoth", dst, a),
ArithOp::FloatHypAcot { dst, a } => to_sexp_1_or_2("facoth", dst, a),
}
}
}

20
crsn_arith/src/lib.rs
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@ -1,8 +1,13 @@
#[macro_use]
extern crate log;
use crsn::asm::error::CrsnError;
use crsn::asm::instr::op::OpKind;
use crsn::asm::parse::arg_parser::TokenParser;
use crsn::module::{CrsnExtension, ParseRes};
use crsn::sexp::SourcePosition;
use crsn::asm::data::literal::Value;
use crate::exec::f2u;
mod defs;
mod parse;
@ -25,4 +30,19 @@ impl CrsnExtension for ArithOps {
fn parse_op<'a>(&self, pos: &SourcePosition, keyword: &str, args: TokenParser<'a>) -> Result<ParseRes<'a, OpKind>, CrsnError> {
parse::parse(pos, keyword, args)
}
/// Get value of an extension-provided constant.
/// This constant may be an object handle, or a constant value used as argument in some other instruction.
fn get_constant_value<'a>(&self, name: &str) -> Option<Value>
{
use std::f64::consts;
match name {
"PI" => Some(f2u(consts::PI)),
"PI_2" => Some(f2u(consts::FRAC_PI_2)),
"TAU" => Some(f2u(consts::TAU)),
"E" => Some(f2u(consts::E)),
// TODO more?...
_ => None
}
}
}

73
crsn_arith/src/parse.rs
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@ -77,6 +77,11 @@ pub(crate) fn parse<'a>(op_pos: &SourcePosition, keyword: &str, mut args: TokenP
ArithOp::Abs { dst, a }
}
"sgn" => {
let (dst, a) = args.parse_wr_rd()?;
ArithOp::Sgn { dst, a }
}
"sub" => {
let (dst, a, b) = args.parse_wr_rd_rd()?;
ArithOp::Sub { dst, a, b }
@ -199,7 +204,7 @@ pub(crate) fn parse<'a>(op_pos: &SourcePosition, keyword: &str, mut args: TokenP
ArithOp::Rbit { dst, src }
}
"cmpf" => {
"fcmp" => {
let parsed = ArithOp::FloatCompare {
a: args.next_rd()?.imm_to_float(),
b: args.next_rd()?.imm_to_float(),
@ -305,7 +310,7 @@ pub(crate) fn parse<'a>(op_pos: &SourcePosition, keyword: &str, mut args: TokenP
ArithOp::FloatHyp {
dst,
a: a.imm_to_float(),
b: a.imm_to_float(),
b: b.imm_to_float(),
}
}
@ -392,12 +397,17 @@ pub(crate) fn parse<'a>(op_pos: &SourcePosition, keyword: &str, mut args: TokenP
"fabs" => {
let (dst, a) = args.parse_wr_rd()?;
ArithOp::FloatAbs { dst, a: f.imm_to_float() }
ArithOp::FloatAbs { dst, a: a.imm_to_float() }
}
"fsgn" => {
let (dst, a) = args.parse_wr_rd()?;
ArithOp::FloatSgn { dst, a: a.imm_to_float() }
}
"fsin" => {
let (dst, f) = args.parse_wr_rd()?;
ArithOp::FloatSin { dst, f: f.imm_to_float() }
let (dst, a) = args.parse_wr_rd()?;
ArithOp::FloatSin { dst, a: a.imm_to_float() }
}
"fasin" => {
@ -406,8 +416,8 @@ pub(crate) fn parse<'a>(op_pos: &SourcePosition, keyword: &str, mut args: TokenP
}
"fcos" => {
let (dst, f) = args.parse_wr_rd()?;
ArithOp::FloatCos { dst, f: f.imm_to_float() }
let (dst, a) = args.parse_wr_rd()?;
ArithOp::FloatCos { dst, a: a.imm_to_float() }
}
"facos" => {
@ -416,8 +426,8 @@ pub(crate) fn parse<'a>(op_pos: &SourcePosition, keyword: &str, mut args: TokenP
}
"ftan" => {
let (dst, f) = args.parse_wr_rd()?;
ArithOp::FloatTan { dst, f: f.imm_to_float() }
let (dst, a) = args.parse_wr_rd()?;
ArithOp::FloatTan { dst, a: a.imm_to_float() }
}
"fatan" => {
@ -435,8 +445,8 @@ pub(crate) fn parse<'a>(op_pos: &SourcePosition, keyword: &str, mut args: TokenP
}
"fcot" => {
let (dst, f) = args.parse_wr_rd()?;
ArithOp::FloatCot { dst, f: f.imm_to_float() }
let (dst, a) = args.parse_wr_rd()?;
ArithOp::FloatCot { dst, a: a.imm_to_float() }
}
"facot" => {
@ -444,6 +454,47 @@ pub(crate) fn parse<'a>(op_pos: &SourcePosition, keyword: &str, mut args: TokenP
ArithOp::FloatAcot { dst, a: a.imm_to_float() }
}
/* hyperbolic */
"fsinh" => {
let (dst, a) = args.parse_wr_rd()?;
ArithOp::FloatHypSin { dst, a: a.imm_to_float() }
}
"fasinh" => {
let (dst, a) = args.parse_wr_rd()?;
ArithOp::FloatHypAsin { dst, a: a.imm_to_float() }
}
"fcosh" => {
let (dst, a) = args.parse_wr_rd()?;
ArithOp::FloatHypCos { dst, a: a.imm_to_float() }
}
"facosh" => {
let (dst, a) = args.parse_wr_rd()?;
ArithOp::FloatHypAcos { dst, a: a.imm_to_float() }
}
"ftanh" => {
let (dst, a) = args.parse_wr_rd()?;
ArithOp::FloatHypTan { dst, a: a.imm_to_float() }
}
"fatanh" => {
let (dst, a) = args.parse_wr_rd()?;
ArithOp::FloatHypAtan { dst, a: a.imm_to_float() }
}
"fcoth" => {
let (dst, a) = args.parse_wr_rd()?;
ArithOp::FloatHypCot { dst, a: a.imm_to_float() }
}
"facoth" => {
let (dst, a) = args.parse_wr_rd()?;
ArithOp::FloatHypAcot { dst, a: a.imm_to_float() }
}
other => {
if let Some((dst, src, mask)) = args.parse_masked_wr_rd(other, "clz")? {
if !dst.disp_equals(src) && mask.dst_pos != 0 {

34
examples/screen_trig.csn
Unescape View File

@ -0,0 +1,34 @@
(
; mouse over the image to draw circles
(sc-init 800 600)
(sc-opt SCREEN_AUTO_BLIT 0)
(:loop)
(sc-poll)
(sc-mouse r4 r5 (ov? (j :loop)))
(itf r4)
(itf r5)
(ld r0 0.0)
(def RADIUS 50.0)
(:circle)
(fsin r1 r0)
(fcos r2 r0)
(fmul r1 RADIUS)
(fmul r2 RADIUS)
(fadd r1 r4)
(fadd r2 r5)
(fti r1)
(fti r2)
(sc-px r1 r2 #66ff00)
(fadd r0 0.1) ; make lower for a smoother circle
(fcmp r0 TAU
(ge?
(sc-blit)
(j :loop)))
(j :circle)
(j :loop)
)
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