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use crate::*;
pub fn format_inhx32(words: &[Word]) -> String {
let mut records = Vec::new();
records.push(extended_linear_address(0x0000));
for (i, chunk) in words.chunks(8).enumerate() {
records.push(data_record(chunk, (i * 8) as u16));
}
records.push(terminating_record());
let mut output = String::new();
for record in records {
output.push_str(&record.to_string());
}
return output;
}
struct Record {
bytes: Vec<u8>,
}
impl Record {
pub fn new() -> Self {
Self { bytes: Vec::new() }
}
pub fn byte(&mut self, byte: u8) {
self.bytes.push(byte);
}
pub fn be_double(&mut self, double: u16) {
let [high, low] = double.to_be_bytes();
self.byte(high);
self.byte(low);
}
pub fn le_double(&mut self, double: u16) {
let [high, low] = double.to_be_bytes();
self.byte(low);
self.byte(high);
}
pub fn to_string(self) -> String {
let mut sum: u8 = 0;
for byte in &self.bytes {
sum = sum.wrapping_add(*byte);
}
let checksum = sum.wrapping_neg();
let mut output = String::new();
for byte in &self.bytes {
output.push_str(&format!("{byte:0>2X}"));
}
format!(":{output}{checksum:0>2X}\n")
}
}
fn data_record(words: &[Word], address: u16) -> Record {
let mut record = Record::new();
record.byte((words.len() * 2) as u8);
record.be_double(address * 2);
record.byte(0x00);
for word in words {
match word.bits <= 16 {
true => record.le_double(word.value as u16),
false => panic!("Word '{word}' has more than 16 bits."),
};
}
return record;
}
fn extended_linear_address(address: u16) -> Record {
let mut record = Record::new();
record.byte(0x02);
record.be_double(0x0000);
record.byte(0x04);
record.be_double(address);
return record;
}
fn terminating_record() -> Record {
let mut record = Record::new();
record.byte(0x00);
record.be_double(0x0000);
record.byte(0x01);
return record;
}
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