use crate::*;
use std::cell::RefCell;
use std::rc::Rc;
use std::fmt::*;
use num_traits::*;
#[cfg(feature = "parallel")]
use rayon::prelude::*;
use std::thread;
lazy_static! {
pub static ref COMPARE_GREATER__THAN: u64 = hash_str("compare/greater-than");
pub static ref COMPARE_LESS__THAN: u64 = hash_str("compare/less-than");
pub static ref COMPARE_GREATER__THAN__EQUAL: u64 = hash_str("compare/greater-than-equal");
pub static ref COMPARE_LESS__THAN__EQUAL: u64 = hash_str("compare/less-than-equal");
pub static ref COMPARE_EQUAL: u64 = hash_str("compare/equal");
pub static ref COMPARE_NOT__EQUAL: u64 = hash_str("compare/not-equal");
}
compare_infix_vv!(GreaterVV,>);
compare_infix_vv!(LessVV,<);
compare_infix_vv!(LessEqualVV,<=);
compare_infix_vv!(GreaterEqualVV,>=);
compare_infix_vv!(EqualVV,==);
compare_infix_vv!(NotEqualVV,!=);
#[cfg(feature = "parallel")]
par_compare_infix_vv!(ParGreaterVV,>);
par_compare_infix_vv!(ParLessVV,<);
#[cfg(feature = "parallel")]
par_compare_infix_vv!(ParLessEqualVV,<=);
#[cfg(feature = "parallel")]
par_compare_infix_vv!(ParGreaterEqualVV,>=);
#[cfg(feature = "parallel")]
par_compare_infix_vv!(ParEqualVV,==);
#[cfg(feature = "parallel")]
par_compare_infix_vv!(ParNotEqualVV,!=);
compare_infix_vs!(GreaterVS,>);
compare_infix_vs!(LessVS,<);
compare_infix_vs!(LessEqualVS,<=);
compare_infix_vs!(GreaterEqualVS,>=);
compare_infix_vs!(EqualVS,==);
compare_infix_vs!(NotEqualVS,!=);
#[cfg(feature = "parallel")]
par_compare_infix_vs!(ParGreaterVS,>);
#[cfg(feature = "parallel")]
par_compare_infix_vs!(ParLessVS,<);
#[cfg(feature = "parallel")]
par_compare_infix_vs!(ParLessEqualVS,<=);
#[cfg(feature = "parallel")]
par_compare_infix_vs!(ParGreaterEqualVS,>=);
#[cfg(feature = "parallel")]
par_compare_infix_vs!(ParEqualVS,==);
#[cfg(feature = "parallel")]
par_compare_infix_vs!(ParNotEqualVS,!=);
compare_infix_sv!(GreaterSV,>);
compare_infix_sv!(LessSV,<);
compare_infix_sv!(LessEqualSV,<=);
compare_infix_sv!(GreaterEqualSV,>=);
compare_infix_sv!(EqualSV,==);
compare_infix_sv!(NotEqualSV,!=);
#[cfg(feature = "parallel")]
par_compare_infix_sv!(ParGreaterSV,>);
#[cfg(feature = "parallel")]
par_compare_infix_sv!(ParLessSV,<);
#[cfg(feature = "parallel")]
par_compare_infix_sv!(ParLessEqualSV,<=);
#[cfg(feature = "parallel")]
par_compare_infix_sv!(ParGreaterEqualSV,>=);
#[cfg(feature = "parallel")]
par_compare_infix_sv!(ParEqualSV,==);
#[cfg(feature = "parallel")]
par_compare_infix_sv!(ParNotEqualSV,!=);
compare_infix_dd!(GreaterDD,>);
compare_infix_dd!(LessDD,<);
compare_infix_dd!(LessEqualDD,<=);
compare_infix_dd!(GreaterEqualDD,>=);
compare_infix_dd!(EqualDD,==);
compare_infix_dd!(NotEqualDD,!=);
compare_infix_ds!(GreaterDS,>);
compare_infix_ds!(LessDS,<);
compare_infix_ds!(LessEqualDS,<=);
compare_infix_ds!(GreaterEqualDS,>=);
compare_infix_ds!(EqualDS,==);
compare_infix_ds!(NotEqualDS,!=);
compare_eq_compiler!(CompareEqual,EqualVS,EqualSV,EqualVV,EqualDD,EqualDS);
compare_eq_compiler!(CompareNotEqual,NotEqualVS,NotEqualSV,NotEqualVV,NotEqualDD,NotEqualDS);
compare_compiler!(CompareGreater,GreaterVS,GreaterSV,GreaterVV,GreaterDD,GreaterDS);
compare_compiler!(CompareLess,LessVS,LessSV,LessVV,LessDD,LessDS);
compare_compiler!(CompareGreaterEqual,GreaterEqualVS,GreaterEqualSV,GreaterEqualVV,GreaterEqualDD,GreaterEqualDS);
compare_compiler!(CompareLessEqual,LessEqualVS,LessEqualSV,LessEqualVV,LessEqualDD,LessEqualDS);
#[macro_export]
macro_rules! compare_infix_vv {
($func_name:ident, $op:tt) => (
#[derive(Debug)]
pub struct $func_name<T,U>
{
pub lhs: (ColumnV<T>, usize, usize),
pub rhs: (ColumnV<U>, usize, usize),
pub out: ColumnV<bool>
}
impl<T,U> MechFunction for $func_name<T,U>
where T: Clone + Debug + PartialEq + PartialOrd + Into<U>,
U: Clone + Debug + PartialEq + PartialOrd + Into<T>,
{
fn solve(&self) {
let (lhs,lsix,leix) = &self.lhs;
let (rhs,rsix,reix) = &self.rhs;
self.out.borrow_mut()
.iter_mut()
.zip(lhs.borrow()[*lsix..=*leix].iter())
.zip(rhs.borrow()[*rsix..=*reix].iter())
.for_each(|((out, lhs), rhs)| *out = *lhs $op U::into(rhs.clone()));
}
fn to_string(&self) -> String { format!("{:#?}", self)}
}
)
}
#[macro_export]
macro_rules! par_compare_infix_vv {
($func_name:ident, $op:tt) => (
#[cfg(feature = "parallel")]
#[derive(Debug)]
pub struct $func_name<T,U>
{
pub lhs: (ColumnV<T>, usize, usize),
pub rhs: (ColumnV<U>, usize, usize),
pub out: ColumnV<bool>
}
#[cfg(feature = "parallel")]
impl<T,U> MechFunction for $func_name<T,U>
where T: Clone + Debug + PartialEq + PartialOrd + Into<U> + Send + Sync,
U: Clone + Debug + PartialEq + PartialOrd + Into<T> + Send + Sync,
{
fn solve(&self) {
let (lhs,lsix,leix) = &self.lhs;
let (rhs,rsix,reix) = &self.rhs;
self.out.borrow_mut()
.par_iter_mut()
.zip(lhs.borrow()[*lsix..=*leix].par_iter())
.zip(rhs.borrow()[*rsix..=*reix].par_iter())
.for_each(|((out, lhs), rhs)| *out = *lhs $op U::into(rhs.clone()));
}
fn to_string(&self) -> String { format!("{:#?}", self)}
}
)
}
#[macro_export]
macro_rules! compare_infix_vs {
($func_name:ident, $op:tt) => (
#[derive(Debug)]
pub struct $func_name<T,U>
{
pub lhs: (ColumnV<T>, usize, usize),
pub rhs: (ColumnV<U>, usize, usize),
pub out: ColumnV<bool>
}
impl<T,U> MechFunction for $func_name<T,U>
where T: Clone + Debug + PartialEq + PartialOrd + Into<U>,
U: Clone + Debug + PartialEq + PartialOrd + Into<T>,
{
fn solve(&self) {
let (lhs,lsix,leix) = &self.lhs;
let (rhs,rsix,reix) = &self.rhs;
let rhs = &rhs.borrow()[*rsix];
self.out.borrow_mut()
.iter_mut()
.zip(lhs.borrow()[*lsix..=*leix].iter())
.for_each(|(out, lhs)| *out = *lhs $op U::into(rhs.clone()));
}
fn to_string(&self) -> String { format!("{:#?}", self)}
}
)
}
#[macro_export]
macro_rules! par_compare_infix_vs {
($func_name:ident, $op:tt) => (
#[cfg(feature = "parallel")]
#[derive(Debug)]
pub struct $func_name<T,U>
{
pub lhs: (ColumnV<T>, usize, usize),
pub rhs: (ColumnV<U>, usize, usize),
pub out: ColumnV<bool>
}
impl<T,U> MechFunction for $func_name<T,U>
where T: Clone + Debug + PartialEq + PartialOrd + Into<U> + Send + Sync,
U: Clone + Debug + PartialEq + PartialOrd + Into<T> + Send + Sync,
{
fn solve(&self) {
let (lhs,lsix,leix) = &self.lhs;
let (rhs,rsix,reix) = &self.rhs;
let rhs = &rhs.borrow()[*rsix];
self.out.borrow_mut()
.par_iter_mut()
.zip(lhs.borrow()[*lsix..=*leix].par_iter())
.for_each(|(out, lhs)| *out = *lhs $op U::into(rhs.clone()));
}
fn to_string(&self) -> String { format!("{:#?}", self)}
}
)
}
#[macro_export]
macro_rules! compare_infix_sv {
($func_name:ident, $op:tt) => (
#[derive(Debug)]
pub struct $func_name<T,U>
{
pub lhs: (ColumnV<T>, usize, usize),
pub rhs: (ColumnV<U>, usize, usize),
pub out: ColumnV<bool>
}
impl<T,U> MechFunction for $func_name<T,U>
where T: Clone + Debug + PartialEq + PartialOrd + Into<U>,
U: Clone + Debug + PartialEq + PartialOrd + Into<T>,
{
fn solve(&self) {
let (lhs,lsix,leix) = &self.lhs;
let (rhs,rsix,reix) = &self.rhs;
let lhs = &lhs.borrow()[*lsix];
self.out.borrow_mut()
.iter_mut()
.zip(rhs.borrow()[*rsix..=*reix].iter())
.for_each(|(out, rhs)| *out = T::into(lhs.clone()) $op *rhs );
}
fn to_string(&self) -> String { format!("{:#?}", self)}
}
)
}
#[cfg(feature = "parallel")]
#[macro_export]
macro_rules! par_compare_infix_sv {
($func_name:ident, $op:tt) => (
#[derive(Debug)]
pub struct $func_name<T,U>
{
pub lhs: (ColumnV<T>, usize, usize),
pub rhs: (ColumnV<U>, usize, usize),
pub out: ColumnV<bool>
}
impl<T,U> MechFunction for $func_name<T,U>
where T: Clone + Debug + PartialEq + PartialOrd + Into<U> + Send + Sync,
U: Clone + Debug + PartialEq + PartialOrd + Into<T> + Send + Sync,
{
fn solve(&self) {
let (lhs,lsix,leix) = &self.lhs;
let (rhs,rsix,reix) = &self.rhs;
let lhs = &lhs.borrow()[*lsix];
self.out.borrow_mut()
.par_iter_mut()
.zip(rhs.borrow()[*rsix..=*reix].par_iter())
.for_each(|(out, rhs)| *out = T::into(lhs.clone()) $op *rhs );
}
fn to_string(&self) -> String { format!("{:#?}", self)}
}
)
}
#[macro_export]
macro_rules! compare_infix_dd {
($func_name:ident, $op:tt) => (
#[derive(Debug)]
pub struct $func_name<T,U>
{
pub lhs: ColumnV<T>,
pub rhs: ColumnV<U>,
pub out: OutTable
}
impl<T,U> MechFunction for $func_name<T,U>
where T: Clone + Debug + PartialEq + PartialOrd + Into<U>,
U: Clone + Debug + PartialEq + PartialOrd + Into<T>,
{
fn solve(&self) {
let lhs = &self.lhs.borrow();
let rhs = &self.rhs.borrow();
let mut out_table_brrw = self.out.borrow_mut();
out_table_brrw.resize(lhs.len(),1);
let out_col = out_table_brrw.get_column_unchecked(0);
match out_col {
Column::Bool(out) => {
out.borrow_mut()
.iter_mut()
.zip(lhs.iter())
.zip(rhs.iter())
.for_each(|((out, lhs), rhs)| *out = *lhs $op U::into(rhs.clone()));
}
_ => (),
}
}
fn to_string(&self) -> String { format!("{:#?}", self)}
}
)
}
#[macro_export]
macro_rules! compare_infix_ds {
($func_name:ident, $op:tt) => (
#[derive(Debug)]
pub struct $func_name<T,U>
{
pub lhs: ColumnV<T>,
pub rhs: ColumnV<U>,
pub out: OutTable
}
impl<T,U> MechFunction for $func_name<T,U>
where T: Clone + Debug + PartialEq + PartialOrd + Into<U>,
U: Clone + Debug + PartialEq + PartialOrd + Into<T>,
{
fn solve(&self) {
let lhs = &self.lhs.borrow();
let rhs = U::into(self.rhs.borrow()[0].clone());
let mut out_table_brrw = self.out.borrow_mut();
out_table_brrw.resize(lhs.len(),1);
let out_col = out_table_brrw.get_column_unchecked(0);
match out_col {
Column::Bool(out) => {
out.borrow_mut()
.iter_mut()
.zip(lhs.iter())
.for_each(|(out, lhs)| *out = *lhs $op rhs);
}
_ => (),
}
}
fn to_string(&self) -> String { format!("{:#?}", self)}
}
)
}
#[macro_export]
macro_rules! compare_compiler {
($func_name:ident,$op2:tt,$op3:tt,$op4:tt,$op5:tt,$op6:tt) => (
pub struct $func_name {}
impl MechFunctionCompiler for $func_name {
fn compile(&self, block: &mut Block, arguments: &Vec<Argument>, out: &(TableId, TableIndex, TableIndex)) -> std::result::Result<(),MechError> {
let arg_dims = block.get_arg_dims(&arguments)?;
match (&arg_dims[0],&arg_dims[1]) {
(TableShape::Scalar, TableShape::Scalar) => {
resize_one(block,out);
let mut argument_columns = block.get_arg_columns(arguments)?;
let out_column = block.get_out_column(out, 1, ValueKind::Bool)?;
match (&argument_columns[0], &argument_columns[1], &out_column) {
((_,Column::U8(lhs),ColumnIndex::All), (_,Column::U8(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::U8(lhs),ColumnIndex::Index(lix)), (_,Column::U8(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::U16(lhs),ColumnIndex::All), (_,Column::U16(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::U16(lhs),ColumnIndex::Index(lix)), (_,Column::U16(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::U32(lhs),ColumnIndex::All), (_,Column::U32(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::U32(lhs),ColumnIndex::Index(lix)), (_,Column::U32(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::U64(lhs),ColumnIndex::All), (_,Column::U64(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::U64(lhs),ColumnIndex::Index(lix)), (_,Column::U64(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::U128(lhs),ColumnIndex::All), (_,Column::U128(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::U128(lhs),ColumnIndex::Index(lix)), (_,Column::U128(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::I8(lhs),ColumnIndex::All), (_,Column::I8(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::I8(lhs),ColumnIndex::Index(lix)), (_,Column::I8(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::I16(lhs),ColumnIndex::All), (_,Column::I16(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::I16(lhs),ColumnIndex::Index(lix)), (_,Column::I16(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::I32(lhs),ColumnIndex::All), (_,Column::I32(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::I32(lhs),ColumnIndex::Index(lix)), (_,Column::I32(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::I64(lhs),ColumnIndex::All), (_,Column::I64(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::I64(lhs),ColumnIndex::Index(lix)), (_,Column::I64(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::I128(lhs),ColumnIndex::All), (_,Column::I128(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::I128(lhs),ColumnIndex::Index(lix)), (_,Column::I128(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::F32(lhs),ColumnIndex::All), (_,Column::F32(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::F32(lhs),ColumnIndex::Index(lix)), (_,Column::F32(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::F64(lhs),ColumnIndex::All), (_,Column::F64(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::F64(lhs),ColumnIndex::Index(lix)), (_,Column::F64(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
x => {return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7100, kind: MechErrorKind::GenericError(format!("{:?}", x))});},
}
}
(TableShape::Column(rows), TableShape::Scalar) => {
let mut argument_columns = block.get_arg_columns(arguments)?;
let out_column = block.get_out_column(out, *rows, ValueKind::Bool)?;
match (&argument_columns[0], &argument_columns[1], &out_column) {
((_,Column::U8(lhs),_), (_,Column::U8(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::U16(lhs),_), (_,Column::U16(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::U32(lhs),_), (_,Column::U32(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::U64(lhs),_), (_,Column::U64(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::U128(lhs),_), (_,Column::U128(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::I8(lhs),_), (_,Column::I8(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::I16(lhs),_), (_,Column::I16(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::I32(lhs),_), (_,Column::I32(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::I64(lhs),_), (_,Column::I64(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::I128(lhs),_), (_,Column::I128(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::F32(lhs),_), (_,Column::F32(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::F64(lhs),_), (_,Column::F64(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
x => {return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7101, kind: MechErrorKind::GenericError(format!("{:?}", x))});},
}
}
(TableShape::Matrix(_,cols), TableShape::Scalar) |
(TableShape::Row(cols), TableShape::Scalar) => {
let lhs_columns = block.get_whole_table_arg_cols(&arguments[0])?;
let rhs_column = block.get_arg_column(&arguments[1])?;
let rows: usize = match &arg_dims[0] {
TableShape::Matrix(rows,_) => *rows,
_ => 1,
};
let (out_table_id, _, _) = out;
let out_table = block.get_table(out_table_id)?;
let mut out_brrw = out_table.borrow_mut();
out_brrw.resize(rows,*cols);
for (col_ix,(_,lhs_column,_)) in lhs_columns.iter().enumerate() {
out_brrw.set_col_kind(col_ix, ValueKind::Bool)?;
let out_col = out_brrw.get_column(&TableIndex::Index(col_ix+1))?;
match (lhs_column,&rhs_column, out_col) {
(Column::U8(lhs), (_,Column::U8(rhs),_), Column::Bool(out)) => block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}),
(Column::U16(lhs), (_,Column::U16(rhs),_), Column::Bool(out)) => block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}),
(Column::U32(lhs), (_,Column::U32(rhs),_), Column::Bool(out)) => block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}),
(Column::U64(lhs), (_,Column::U64(rhs),_), Column::Bool(out)) => block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}),
(Column::U128(lhs), (_,Column::U128(rhs),_), Column::Bool(out)) => block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}),
(Column::I8(lhs), (_,Column::I8(rhs),_), Column::Bool(out)) => block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}),
(Column::I16(lhs), (_,Column::I16(rhs),_), Column::Bool(out)) => block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}),
(Column::I32(lhs), (_,Column::I32(rhs),_), Column::Bool(out)) => block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}),
(Column::I64(lhs), (_,Column::I64(rhs),_), Column::Bool(out)) => block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}),
(Column::I128(lhs), (_,Column::I128(rhs),_), Column::Bool(out)) => block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}),
(Column::F32(lhs), (_,Column::F32(rhs),_), Column::Bool(out)) => block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}),
(Column::F64(lhs), (_,Column::F64(rhs),_), Column::Bool(out)) => block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}),
(Column::Speed(lhs), (_,Column::F64(rhs),_), Column::Bool(out)) => block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}),
(Column::Time(lhs), (_,Column::F64(rhs),_), Column::Bool(out)) => block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}),
(Column::Length(lhs), (_,Column::F64(rhs),_), Column::Bool(out)) => block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}),
x => {return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7201, kind: MechErrorKind::GenericError(format!("{:?}", x))});},
}
}
}
(TableShape::Scalar, TableShape::Matrix(_,cols)) |
(TableShape::Scalar, TableShape::Row(cols)) => {
let lhs_column = block.get_arg_column(&arguments[0])?;
let rhs_columns = block.get_whole_table_arg_cols(&arguments[1])?;
let rows: usize = match &arg_dims[1] {
TableShape::Matrix(rows,_) => *rows,
_ => 1,
};
let (out_table_id, _, _) = out;
let out_table = block.get_table(out_table_id)?;
let mut out_brrw = out_table.borrow_mut();
out_brrw.resize(rows,*cols);
for (col_ix,(_,rhs_column,_)) in rhs_columns.iter().enumerate() {
out_brrw.set_col_kind(col_ix, ValueKind::Bool)?;
let out_col = out_brrw.get_column(&TableIndex::Index(col_ix+1))?;
match (&lhs_column,rhs_column, out_col) {
((_,Column::U8(lhs),_), Column::U8(rhs), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()}) }
((_,Column::U16(lhs),_), Column::U16(rhs), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()}) }
((_,Column::U32(lhs),_), Column::U32(rhs), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()}) }
((_,Column::U64(lhs),_), Column::U64(rhs), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()}) }
((_,Column::U128(lhs),_), Column::U128(rhs), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()}) }
((_,Column::I8(lhs),_), Column::I8(rhs), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()}) }
((_,Column::I16(lhs),_), Column::I16(rhs), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()}) }
((_,Column::I32(lhs),_), Column::I32(rhs), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()}) }
((_,Column::I64(lhs),_), Column::I64(rhs), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()}) }
((_,Column::I128(lhs),_), Column::I128(rhs), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()}) }
((_,Column::F32(lhs),_), Column::F32(rhs), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()}) }
((_,Column::F64(lhs),_), Column::F64(rhs), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()}) }
((_,Column::Time(lhs),_), Column::Time(rhs), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()}) }
((_,Column::Length(lhs),_), Column::Length(rhs), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()}) }
((_,Column::Speed(lhs),_), Column::Speed(rhs), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()}) }
x => {return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7202, kind: MechErrorKind::GenericError(format!("{:?}", x))});},
}
}
}
(TableShape::Scalar,TableShape::Column(rows)) => {
let mut argument_columns = block.get_arg_columns(arguments)?;
let out_column = block.get_out_column(out, *rows, ValueKind::Bool)?;
match (&argument_columns[0], &argument_columns[1], &out_column) {
((_,Column::U8(lhs),_), (_,Column::U8(rhs),_), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}) }
((_,Column::U16(lhs),_), (_,Column::U16(rhs),_), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}) }
((_,Column::U32(lhs),_), (_,Column::U32(rhs),_), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}) }
((_,Column::U64(lhs),_), (_,Column::U64(rhs),_), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}) }
((_,Column::U128(lhs),_), (_,Column::U128(rhs),_), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}) }
((_,Column::I8(lhs),_), (_,Column::I8(rhs),_), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}) }
((_,Column::I16(lhs),_), (_,Column::I16(rhs),_), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}) }
((_,Column::I32(lhs),_), (_,Column::I32(rhs),_), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}) }
((_,Column::I64(lhs),_), (_,Column::I64(rhs),_), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}) }
((_,Column::I128(lhs),_), (_,Column::I128(rhs),_), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}) }
((_,Column::F32(lhs),_), (_,Column::F32(rhs),_), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}) }
((_,Column::F64(lhs),_), (_,Column::F64(rhs),_), Column::Bool(out)) => { block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}) }
x => {return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7102, kind: MechErrorKind::GenericError(format!("{:?}", x))});},
}
}
(TableShape::Column(lhs_rows), TableShape::Column(rhs_rows)) => {
if lhs_rows != rhs_rows {
return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7103, kind: MechErrorKind::DimensionMismatch(vec![(*lhs_rows,0),(*rhs_rows,0)])});
}
let mut argument_columns = block.get_arg_columns(arguments)?;
let out_column = block.get_out_column(out, *lhs_rows, ValueKind::Bool)?;
match (&argument_columns[0], &argument_columns[1], &out_column) {
((_,Column::U8(lhs),_), (_,Column::U8(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::U16(lhs),_), (_,Column::U16(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::U32(lhs),_), (_,Column::U32(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::U64(lhs),_), (_,Column::U64(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::U128(lhs),_), (_,Column::U128(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::I8(lhs),_), (_,Column::I8(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::I16(lhs),_), (_,Column::I16(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::I32(lhs),_), (_,Column::I32(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::I64(lhs),_), (_,Column::I64(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::I128(lhs),_), (_,Column::I128(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::F32(lhs),_), (_,Column::F32(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::F64(lhs),_), (_,Column::F64(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
x => {return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7104, kind: MechErrorKind::GenericError(format!("{:?}", x))});},
}
}
(TableShape::Matrix(lhs_rows,lhs_cols), TableShape::Matrix(rhs_rows,rhs_cols)) => {
if lhs_rows != rhs_rows {
return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7103, kind: MechErrorKind::DimensionMismatch(vec![(*lhs_rows,0),(*rhs_rows,0)])});
}
if lhs_cols != rhs_cols {
return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7103, kind: MechErrorKind::DimensionMismatch(vec![(*lhs_rows,0),(*rhs_rows,0)])});
}
let mut lhs_arg_cols = block.get_whole_table_arg_cols(&arguments[0])?;
let mut rhs_arg_cols = block.get_whole_table_arg_cols(&arguments[1])?;
let (out_table_id,_,_) = out;
let out_table = block.get_table(out_table_id)?;
{
let mut out_table_brrw = out_table.borrow_mut();
out_table_brrw.resize(*lhs_rows,*lhs_cols);
out_table_brrw.set_kind(ValueKind::Bool);
}
for col in 0..*lhs_cols {
let mut out_table_brrw = out_table.borrow_mut();
let out_column = out_table_brrw.get_column_unchecked(col);
match (&lhs_arg_cols[col], &rhs_arg_cols[col], &out_column) {
((_,Column::U8(lhs),_), (_,Column::U8(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::U16(lhs),_), (_,Column::U16(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::U32(lhs),_), (_,Column::U32(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::U64(lhs),_), (_,Column::U64(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::U128(lhs),_), (_,Column::U128(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::I8(lhs),_), (_,Column::I8(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::I16(lhs),_), (_,Column::I16(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::I32(lhs),_), (_,Column::I32(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::I64(lhs),_), (_,Column::I64(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::I128(lhs),_), (_,Column::I128(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::F32(lhs),_), (_,Column::F32(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::F64(lhs),_), (_,Column::F64(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
x => {return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7104, kind: MechErrorKind::GenericError(format!("{:?}", x))});},
}
}
}
(TableShape::Dynamic(lhs_rows,1),TableShape::Dynamic(rhs_rows,1)) => {
if lhs_rows != rhs_rows {
return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7111, kind: MechErrorKind::DimensionMismatch(vec![(*lhs_rows,0),(*rhs_rows,0)])});
}
let mut argument_columns = block.get_arg_columns(arguments)?;
let (out_table_id,_,_) = out;
let out_table = block.get_table(out_table_id)?;
{
let mut out_table_brrw = out_table.borrow_mut();
out_table_brrw.resize(*lhs_rows,1);
out_table_brrw.set_kind(ValueKind::Bool);
}
match (&argument_columns[0], &argument_columns[1]) {
((_,Column::U8(lhs),_), (_,Column::U8(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::U16(lhs),_), (_,Column::U16(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::U32(lhs),_), (_,Column::U32(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::U64(lhs),_), (_,Column::U64(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::U128(lhs),_), (_,Column::U128(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::I8(lhs),_), (_,Column::I8(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::I16(lhs),_), (_,Column::I16(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::I32(lhs),_), (_,Column::I32(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::I64(lhs),_), (_,Column::I64(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::I128(lhs),_), (_,Column::I128(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::F32(lhs),_), (_,Column::F32(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::F64(lhs),_), (_,Column::F64(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
x => {return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7204, kind: MechErrorKind::GenericError(format!("{:?}", x))});},
}
}
(TableShape::Dynamic(lhs_rows,1),TableShape::Scalar) => {
let mut argument_columns = block.get_arg_columns(arguments)?;
let (out_table_id,_,_) = out;
let out_table = block.get_table(out_table_id)?;
{
let mut out_table_brrw = out_table.borrow_mut();
out_table_brrw.dynamic = true;
out_table_brrw.resize(*lhs_rows,1);
out_table_brrw.set_kind(ValueKind::Bool);
}
match (&argument_columns[0], &argument_columns[1]) {
((_,Column::U8(lhs),_), (_,Column::U8(rhs),_)) => {block.plan.push($op6{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::U16(lhs),_), (_,Column::U16(rhs),_)) => {block.plan.push($op6{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::U32(lhs),_), (_,Column::U32(rhs),_)) => {block.plan.push($op6{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::U64(lhs),_), (_,Column::U64(rhs),_)) => {block.plan.push($op6{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::U128(lhs),_), (_,Column::U128(rhs),_)) => {block.plan.push($op6{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::I8(lhs),_), (_,Column::I8(rhs),_)) => {block.plan.push($op6{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::I16(lhs),_), (_,Column::I16(rhs),_)) => {block.plan.push($op6{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::I32(lhs),_), (_,Column::I32(rhs),_)) => {block.plan.push($op6{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::I64(lhs),_), (_,Column::I64(rhs),_)) => {block.plan.push($op6{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::I128(lhs),_), (_,Column::I128(rhs),_)) => {block.plan.push($op6{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::F32(lhs),_), (_,Column::F32(rhs),_)) => {block.plan.push($op6{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::F64(lhs),_), (_,Column::F64(rhs),_)) => {block.plan.push($op6{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
x => {return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7205, kind: MechErrorKind::GenericError(format!("{:?}", x))});},
}
}
x => {return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7106, kind: MechErrorKind::GenericError(format!("{:?}", x))});},
}
Ok(())
}
}
)
}
#[macro_export]
macro_rules! compare_eq_compiler {
($func_name:ident, $op2:tt,$op3:tt,$op4:tt,$op5:tt,$op6:tt) => (
pub struct $func_name {}
impl MechFunctionCompiler for $func_name {
fn compile(&self, block: &mut Block, arguments: &Vec<Argument>, out: &(TableId, TableIndex, TableIndex)) -> std::result::Result<(),MechError> {
let arg_dims = block.get_arg_dims(&arguments)?;
match (&arg_dims[0],&arg_dims[1]) {
(TableShape::Scalar, TableShape::Scalar) => {
resize_one(block,out);
let mut argument_columns = block.get_arg_columns(arguments)?;
let out_column = block.get_out_column(out, 1, ValueKind::Bool)?;
match (&argument_columns[0], &argument_columns[1], &out_column) {
((_,Column::U8(lhs),ColumnIndex::All), (_,Column::U8(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::U8(lhs),ColumnIndex::Index(lix)), (_,Column::U8(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::U16(lhs),ColumnIndex::All), (_,Column::U16(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::U16(lhs),ColumnIndex::Index(lix)), (_,Column::U16(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::U32(lhs),ColumnIndex::All), (_,Column::U32(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::U32(lhs),ColumnIndex::Index(lix)), (_,Column::U32(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::U64(lhs),ColumnIndex::All), (_,Column::U64(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::U64(lhs),ColumnIndex::Index(lix)), (_,Column::U64(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::U128(lhs),ColumnIndex::All), (_,Column::U128(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::U128(lhs),ColumnIndex::Index(lix)), (_,Column::U128(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::I8(lhs),ColumnIndex::All), (_,Column::I8(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::I8(lhs),ColumnIndex::Index(lix)), (_,Column::I8(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::I16(lhs),ColumnIndex::All), (_,Column::I16(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::I16(lhs),ColumnIndex::Index(lix)), (_,Column::I16(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::I32(lhs),ColumnIndex::All), (_,Column::I32(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::I32(lhs),ColumnIndex::Index(lix)), (_,Column::I32(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::I64(lhs),ColumnIndex::All), (_,Column::I64(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::I64(lhs),ColumnIndex::Index(lix)), (_,Column::I64(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::I128(lhs),ColumnIndex::All), (_,Column::I128(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::I128(lhs),ColumnIndex::Index(lix)), (_,Column::I128(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::F32(lhs),ColumnIndex::All), (_,Column::F32(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::F32(lhs),ColumnIndex::Index(lix)), (_,Column::F32(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::F64(lhs),ColumnIndex::All), (_,Column::F64(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::F64(lhs),ColumnIndex::Index(lix)), (_,Column::F64(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::Bool(lhs),ColumnIndex::All), (_,Column::Bool(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::Bool(lhs),ColumnIndex::Index(lix)), (_,Column::Bool(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::String(lhs),ColumnIndex::All), (_,Column::String(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::String(lhs),ColumnIndex::Index(lix)), (_,Column::String(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
((_,Column::Enum(lhs),ColumnIndex::All), (_,Column::Enum(rhs),ColumnIndex::All), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,0), out: out.clone()})}
((_,Column::Any(lhs),ColumnIndex::Index(lix)), (_,Column::Any(rhs),ColumnIndex::Index(rix)), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),*lix,*lix), rhs: (rhs.clone(),*rix,*rix), out: out.clone()})}
x => {return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7106, kind: MechErrorKind::GenericError(format!("{:?}", x))});},
}
}
(TableShape::Column(rows), TableShape::Scalar) => {
let mut argument_columns = block.get_arg_columns(arguments)?;
let out_column = block.get_out_column(out, *rows, ValueKind::Bool)?;
match (&argument_columns[0], &argument_columns[1], &out_column) {
((_,Column::U8(lhs),_), (_,Column::U8(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::U16(lhs),_), (_,Column::U16(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::U32(lhs),_), (_,Column::U32(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::U64(lhs),_), (_,Column::U64(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::U128(lhs),_), (_,Column::U128(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::I8(lhs),_), (_,Column::I8(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::I16(lhs),_), (_,Column::I16(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::I32(lhs),_), (_,Column::I32(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::I64(lhs),_), (_,Column::I64(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::I128(lhs),_), (_,Column::I128(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::F32(lhs),_), (_,Column::F32(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::F64(lhs),_), (_,Column::F64(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::Bool(lhs),_), (_,Column::Bool(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
((_,Column::String(lhs),_), (_,Column::String(rhs),_), Column::Bool(out)) => { block.plan.push($op2{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,0), out: out.clone()}) }
x => {return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7107, kind: MechErrorKind::GenericError(format!("{:?}", x))});},
}
}
(TableShape::Scalar,TableShape::Column(rows)) => {
let mut argument_columns = block.get_arg_columns(arguments)?;
let out_column = block.get_out_column(out, *rows, ValueKind::Bool)?;
match (&argument_columns[0], &argument_columns[1], &out_column) {
((_,Column::U8(lhs),_), (_,Column::U8(rhs),_), Column::Bool(out)) => block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}),
((_,Column::U16(lhs),_), (_,Column::U16(rhs),_), Column::Bool(out)) => block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}),
((_,Column::U32(lhs),_), (_,Column::U32(rhs),_), Column::Bool(out)) => block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}),
((_,Column::U64(lhs),_), (_,Column::U64(rhs),_), Column::Bool(out)) => block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}),
((_,Column::U128(lhs),_), (_,Column::U128(rhs),_), Column::Bool(out)) => block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}),
((_,Column::I8(lhs),_), (_,Column::I8(rhs),_), Column::Bool(out)) => block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}),
((_,Column::I16(lhs),_), (_,Column::I16(rhs),_), Column::Bool(out)) => block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}),
((_,Column::I32(lhs),_), (_,Column::I32(rhs),_), Column::Bool(out)) => block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}),
((_,Column::I64(lhs),_), (_,Column::I64(rhs),_), Column::Bool(out)) => block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}),
((_,Column::I128(lhs),_), (_,Column::I128(rhs),_), Column::Bool(out)) => block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}),
((_,Column::F32(lhs),_), (_,Column::F32(rhs),_), Column::Bool(out)) => block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}),
((_,Column::F64(lhs),_), (_,Column::F64(rhs),_), Column::Bool(out)) => block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}),
((_,Column::Bool(lhs),_), (_,Column::Bool(rhs),_), Column::Bool(out)) => block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}),
((_,Column::String(lhs),_), (_,Column::String(rhs),_), Column::Bool(out)) => block.plan.push($op3{lhs: (lhs.clone(),0,0), rhs: (rhs.clone(),0,lhs.len()-1), out: out.clone()}),
x => {return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7108, kind: MechErrorKind::GenericError(format!("{:?}", x))});},
}
}
(TableShape::Column(lhs_rows), TableShape::Column(rhs_rows)) => {
if lhs_rows != rhs_rows {
return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7109, kind: MechErrorKind::DimensionMismatch(vec![(*lhs_rows,0),(*rhs_rows,0)])});
}
let mut argument_columns = block.get_arg_columns(arguments)?;
let out_column = block.get_out_column(out, *lhs_rows, ValueKind::Bool)?;
match (&argument_columns[0], &argument_columns[1], &out_column) {
((_,Column::Any(lhs),_), (_,Column::Any(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::U8(lhs),_), (_,Column::U8(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::U16(lhs),_), (_,Column::U16(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::U32(lhs),_), (_,Column::U32(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::U64(lhs),_), (_,Column::U64(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::U128(lhs),_), (_,Column::U128(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::I8(lhs),_), (_,Column::I8(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::I16(lhs),_), (_,Column::I16(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::I32(lhs),_), (_,Column::I32(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::I64(lhs),_), (_,Column::I64(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::I128(lhs),_), (_,Column::I128(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::F32(lhs),_), (_,Column::F32(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::F64(lhs),_), (_,Column::F64(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::Bool(lhs),_), (_,Column::Bool(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::String(lhs),_), (_,Column::String(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
x => {return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7110, kind: MechErrorKind::GenericError(format!("{:?}", x))});},
}
}
(TableShape::Matrix(lhs_rows,lhs_cols), TableShape::Matrix(rhs_rows,rhs_cols)) => {
if lhs_rows != rhs_rows {
return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7103, kind: MechErrorKind::DimensionMismatch(vec![(*lhs_rows,0),(*rhs_rows,0)])});
}
if lhs_cols != rhs_cols {
return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7103, kind: MechErrorKind::DimensionMismatch(vec![(*lhs_rows,0),(*rhs_rows,0)])});
}
let mut lhs_arg_cols = block.get_whole_table_arg_cols(&arguments[0])?;
let mut rhs_arg_cols = block.get_whole_table_arg_cols(&arguments[1])?;
let (out_table_id,_,_) = out;
let out_table = block.get_table(out_table_id)?;
{
let mut out_table_brrw = out_table.borrow_mut();
out_table_brrw.resize(*lhs_rows,*lhs_cols);
out_table_brrw.set_kind(ValueKind::Bool);
}
for col in 0..*lhs_cols {
let mut out_table_brrw = out_table.borrow_mut();
let out_column = out_table_brrw.get_column_unchecked(col);
match (&lhs_arg_cols[col], &rhs_arg_cols[col], &out_column) {
((_,Column::U8(lhs),_), (_,Column::U8(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::U16(lhs),_), (_,Column::U16(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::U32(lhs),_), (_,Column::U32(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::U64(lhs),_), (_,Column::U64(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::U128(lhs),_), (_,Column::U128(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::I8(lhs),_), (_,Column::I8(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::I16(lhs),_), (_,Column::I16(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::I32(lhs),_), (_,Column::I32(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::I64(lhs),_), (_,Column::I64(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::I128(lhs),_), (_,Column::I128(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::F32(lhs),_), (_,Column::F32(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
((_,Column::F64(lhs),_), (_,Column::F64(rhs),_), Column::Bool(out)) => {block.plan.push($op4{lhs: (lhs.clone(),0,lhs.len()-1), rhs: (rhs.clone(),0,rhs.len()-1), out: out.clone()})}
x => {return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7104, kind: MechErrorKind::GenericError(format!("{:?}", x))});},
}
}
}
(TableShape::Dynamic(lhs_rows,1),TableShape::Dynamic(rhs_rows,1)) => {
if lhs_rows != rhs_rows {
return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7111, kind: MechErrorKind::DimensionMismatch(vec![(*lhs_rows,0),(*rhs_rows,0)])});
}
let mut argument_columns = block.get_arg_columns(arguments)?;
let (out_table_id,_,_) = out;
let out_table = block.get_table(out_table_id)?;
{
let mut out_table_brrw = out_table.borrow_mut();
out_table_brrw.dynamic = true;
out_table_brrw.resize(*lhs_rows,1);
out_table_brrw.set_kind(ValueKind::Bool);
}
match (&argument_columns[0], &argument_columns[1]) {
((_,Column::Any(lhs),_), (_,Column::Any(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::U8(lhs),_), (_,Column::U8(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::U16(lhs),_), (_,Column::U16(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::U32(lhs),_), (_,Column::U32(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::U64(lhs),_), (_,Column::U64(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::U128(lhs),_), (_,Column::U128(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::I8(lhs),_), (_,Column::I8(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::I16(lhs),_), (_,Column::I16(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::I32(lhs),_), (_,Column::I32(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::I64(lhs),_), (_,Column::I64(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::I128(lhs),_), (_,Column::I128(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::F32(lhs),_), (_,Column::F32(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::F64(lhs),_), (_,Column::F64(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::Bool(lhs),_), (_,Column::Bool(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
((_,Column::String(lhs),_), (_,Column::String(rhs),_)) => {block.plan.push($op5{lhs: lhs.clone(), rhs: rhs.clone(), out: out_table.clone()})}
x => {return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7110, kind: MechErrorKind::GenericError(format!("{:?}", x))});},
}
}
(_, TableShape::Pending(table_id)) |
(TableShape::Pending(table_id), _) => {
return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7112, kind: MechErrorKind::PendingTable(*table_id)});
}
x => {return Err(MechError{tokens: vec![], msg: "".to_string(), id: 7113, kind: MechErrorKind::GenericError(format!("{:?}", x))});},
}
Ok(())
}
}
)
}