tristate case

This commit is contained in:
saji 2024-05-05 00:28:39 -05:00
parent f296c19383
commit cad9ce9af4

View file

@ -10,7 +10,7 @@ use log::{debug, info, warn};
use std::collections::HashMap; use std::collections::HashMap;
use thiserror::Error; use thiserror::Error;
use galette::gal::{Pin, Term}; use galette::gal::{false_term, true_term, Pin, Term};
#[derive(Debug, Error)] #[derive(Debug, Error)]
pub enum MappingError { pub enum MappingError {
@ -32,9 +32,9 @@ pub enum MappingError {
// attempt to map graph into blueprint // attempt to map graph into blueprint
/// Acquire the SOP associated with the OLMC. If it's /// Acquire the SOP associated with the OLMC port.
fn get_sop_for_olmc(graph: &Graph, olmc_idx: &NodeIdx) -> Result<GalSop, MappingError> { fn get_sop_for_olmc(graph: &Graph, olmc_idx: &NodeIdx, port: &str) -> Result<GalSop, MappingError> {
let input = graph.get_node_port_conns(olmc_idx, "A"); let input = graph.get_node_port_conns(olmc_idx, port);
debug!("Found connections into OLMC Input: {:?}", input); debug!("Found connections into OLMC Input: {:?}", input);
debug!("OLMC {:?}", graph.get_node(olmc_idx)); debug!("OLMC {:?}", graph.get_node(olmc_idx));
let sops_on_net: Vec<_> = input let sops_on_net: Vec<_> = input
@ -66,7 +66,7 @@ fn map_remaining_olmc(
// (index, size) // (index, size)
let mut chosen_row: Option<(usize, usize)> = None; let mut chosen_row: Option<(usize, usize)> = None;
// FIXME: implement. // FIXME: implement.
let sop = get_sop_for_olmc(graph, &olmc)?; let sop = get_sop_for_olmc(graph, &olmc, "A")?;
let sopsize: usize = sop.parameters.depth as usize; let sopsize: usize = sop.parameters.depth as usize;
for (olmc_idx, size) in unused { for (olmc_idx, size) in unused {
@ -97,14 +97,12 @@ fn map_remaining_olmc(
} }
} }
fn chip_to_olmc_offset(chip: &Chip) -> usize { fn chip_to_olmc_offset(chip: &Chip) -> usize {
match chip { match chip {
Chip::GAL16V8 => 12, Chip::GAL16V8 => 12,
Chip::GAL22V10 => 14, Chip::GAL22V10 => 14,
_ => panic!("Invalid chip!"), _ => panic!("Invalid chip!"),
} }
} }
fn find_hwpin_for_net( fn find_hwpin_for_net(
@ -202,8 +200,8 @@ fn make_term_from_sop(
.filter_map(|(idx, product)| { .filter_map(|(idx, product)| {
let net_for_pin = input_nets.get(idx).unwrap(); let net_for_pin = input_nets.get(idx).unwrap();
// now use the helper to find the true hardware pin // now use the helper to find the true hardware pin
let hwpin: usize = let hwpin: usize = find_hwpin_for_net(graph, pcf, olmcmap, &chip, net_for_pin)
find_hwpin_for_net(graph, pcf, olmcmap, &chip, net_for_pin).unwrap() as usize; .unwrap() as usize;
// we now have our hardware pin number! // we now have our hardware pin number!
match *product { match *product {
"01" => Some(Pin { "01" => Some(Pin {
@ -347,12 +345,42 @@ pub fn graph_convert(graph: &Graph, pcf: PcfFile, chip: Chip) -> anyhow::Result<
match olmc { match olmc {
Some(node) => { Some(node) => {
debug!("Mapping node {node} at row {idx}"); debug!("Mapping node {node} at row {idx}");
let sop = get_sop_for_olmc(graph, node)?; let sop = get_sop_for_olmc(graph, node, "A")?;
debug!("Got SOP {:?} attached to node", sop); debug!("Got SOP {:?} attached to node", sop);
let term = make_term_from_sop(graph, &pcf, &olmcmap, &chip, sop); let term = make_term_from_sop(graph, &pcf, &olmcmap, &chip, sop);
debug!("Got term {:?}", term); debug!("Got term {:?}", term);
let gal_olmc_node = graph.get_node(node).unwrap(); let gal_olmc_node = graph.get_node(node).unwrap();
if let Node::Olmc(o) = gal_olmc_node { if let Node::Olmc(o) = gal_olmc_node {
// get the tristate net.
let tristate_nets = o.connections.get("E").unwrap();
assert_eq!(
tristate_nets.len(),
1,
"Should be exactly one tristate net lol"
);
let tri_term = match &tristate_nets[0] {
Net::N(_) => {
debug!("Tristate net discovered, mapping SOP");
let tri_sop = get_sop_for_olmc(graph, node, "E")?;
debug!("Sop found, {:?}", tri_sop);
assert_eq!(tri_sop.parameters.depth, 1);
let tri_term = make_term_from_sop(graph, &pcf, &olmcmap, &chip, tri_sop);
debug!("Term for tristate SOP made = {:?}", tri_term);
tri_term
}
Net::LiteralOne => {
true_term(0)
}
Net::LiteralZero => {
warn!("Making a false term for output enable, this shouldn't happen!");
false_term(0)
}
_ => {
panic!("E net should not be undriven!");
}
};
let outpin = Pin { let outpin = Pin {
pin: 0, // PIN VALUE IS DISCARDED FOR THIS CALL pin: 0, // PIN VALUE IS DISCARDED FOR THIS CALL
neg: o.parameters.inverted, neg: o.parameters.inverted,
@ -368,7 +396,12 @@ pub fn graph_convert(graph: &Graph, pcf: PcfFile, chip: Chip) -> anyhow::Result<
"Setting base for olmc outpin: {:?}, pinmode: {:?}", "Setting base for olmc outpin: {:?}, pinmode: {:?}",
outpin, pinmode outpin, pinmode
); );
bp.olmcs[idx].set_base(&outpin, term, pinmode); bp.olmcs[idx].set_base(&outpin, term, pinmode).ok_or(MappingError::Unknown)?;
let dummy_pin = Pin {
pin: 0, neg: false
};
bp.olmcs[idx].set_enable(&dummy_pin, tri_term)?;
} else { } else {
panic!("screaming"); panic!("screaming");
} }