mirror of
https://gitlab.cs.washington.edu/fidelp/frustration.git
synced 2024-11-16 07:48:10 +01:00
535 lines
14 KiB
Rust
535 lines
14 KiB
Rust
use std::io;
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use std::convert::TryInto;
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#[derive(Debug, Eq, PartialEq)]
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enum State {
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Compiling,
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Interpreting
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}
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#[derive(Debug)]
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enum Post {
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Nothing,
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EatWord,
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WarmReset,
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}
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const ADDRESS_SPACE: usize = 65535;
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const STACK_WORDS: usize = 16;
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const RAM_BYTES: usize = ADDRESS_SPACE - 2*2*STACK_WORDS;
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#[derive(Debug)]
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struct Core {
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ram: [u8; RAM_BYTES],
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ip: u16,
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dp: u16, // newest link field, or 0
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here: u16, // first unused byte
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state: State,
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next_token: Option<String>,
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post: Post,
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dstack: [u16; STACK_WORDS],
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tds: usize, // post-incremented; exceeds top by one
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rstack: [u16; STACK_WORDS],
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trs: usize, // post-incremented; exceeds top by one
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}
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type Primitive = fn(&mut Core);
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struct ShortName {
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bytes: [u8; 3],
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length: u8
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}
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fn truncate_name(name: &str) -> ShortName {
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let name_bytes = name.as_bytes();
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let mut out = ShortName {
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bytes: *b" ",
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length: name_bytes.len() as u8 };
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let n = std::cmp::min(3, out.length) as usize;
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out.bytes[0..n].copy_from_slice(&name_bytes[0..n]);
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return out;
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}
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struct TableEntry {
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f: Primitive,
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name: Option<ShortName>,
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immediate: bool
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}
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const PRIMITIVES: [TableEntry; 31] = [
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TableEntry {f: ret , name: None, immediate: false},
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TableEntry {f: lit , name: None, immediate: false},
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TableEntry {f: add , name: Some(ShortName {bytes: *b"+ ", length: 1}), immediate: false},
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TableEntry {f: call , name: Some(ShortName {bytes: *b"cal", length: 4}), immediate: false},
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TableEntry {f: comma_d , name: Some(ShortName {bytes: *b", ", length: 1}), immediate: false},
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TableEntry {f: create_d, name: Some(ShortName {bytes: *b"cre", length: 6}), immediate: false},
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TableEntry {f: div , name: Some(ShortName {bytes: *b"/ ", length: 1}), immediate: false},
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TableEntry {f: dot , name: Some(ShortName {bytes: *b". ", length: 1}), immediate: false},
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TableEntry {f: dots , name: Some(ShortName {bytes: *b".s ", length: 2}), immediate: false},
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TableEntry {f: drop , name: Some(ShortName {bytes: *b"dro", length: 4}), immediate: false},
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TableEntry {f: dup , name: Some(ShortName {bytes: *b"dup", length: 3}), immediate: false},
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TableEntry {f: dump , name: Some(ShortName {bytes: *b"dum", length: 4}), immediate: false},
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TableEntry {f: forget , name: Some(ShortName {bytes: *b"for", length: 6}), immediate: false},
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TableEntry {f: from_r_d, name: Some(ShortName {bytes: *b"r> ", length: 2}), immediate: false},
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TableEntry {f: here , name: Some(ShortName {bytes: *b"her", length: 4}), immediate: false},
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TableEntry {f: if_skip ,name: Some(ShortName {bytes: *b"? ", length: 1}), immediate: false},
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TableEntry {f: immediate,name: Some(ShortName {bytes: *b"imm", length: 9}), immediate: false},
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TableEntry {f: latest , name: Some(ShortName {bytes: *b"lat", length: 6}), immediate: false},
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TableEntry {f: lbracket, name: Some(ShortName {bytes: *b"[ ", length: 1}), immediate: true},
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TableEntry {f: load , name: Some(ShortName {bytes: *b"@ ", length: 1}), immediate: false},
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TableEntry {f: mul , name: Some(ShortName {bytes: *b"* ", length: 1}), immediate: false},
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TableEntry {f: ret_d , name: Some(ShortName {bytes: *b"ret", length: 3}), immediate: false},
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TableEntry {f: rbracket, name: Some(ShortName {bytes: *b"] ", length: 1}), immediate: false},
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TableEntry {f: smudge , name: Some(ShortName {bytes: *b"smu", length: 6}), immediate: false},
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TableEntry {f: store , name: Some(ShortName {bytes: *b"! ", length: 1}), immediate: false},
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TableEntry {f: sub , name: Some(ShortName {bytes: *b"- ", length: 1}), immediate: false},
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TableEntry {f: swap , name: Some(ShortName {bytes: *b"swa", length: 4}), immediate: false},
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TableEntry {f: tick , name: Some(ShortName {bytes: *b"' ", length: 1}), immediate: false},
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TableEntry {f: to_r_d , name: Some(ShortName {bytes: *b">r ", length: 2}), immediate: false},
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TableEntry {f: unsmudge, name: Some(ShortName {bytes: *b"uns", length: 8}), immediate: false},
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TableEntry {f: word , name: Some(ShortName {bytes: *b"wor", length: 4}), immediate: false}
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];
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fn new_core() -> Core {
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let mut c = Core {
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ram: [0; RAM_BYTES], ip: 0, dp: 0, here: 2, state: State::Interpreting,
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next_token: None,
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post: Post::Nothing,
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dstack: [0; STACK_WORDS], tds: 0,
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rstack: [0; STACK_WORDS], trs: 0 };
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init_dictionary(&mut c);
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let autoexec = [
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"create : ] create smudge ] [ 65535 ,",
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"create ; ] unsmudge 65535 , [ ' [ , 65535 , immediate",
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": recursive unsmudge ; immediate",
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": literal 65534 , , ; immediate",
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": constant create [ ' literal , ] [ ' ret ] literal , ;",
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": variable create here 6 + [ ' literal , ] [ ' ret ] literal , 0 , ;"
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];
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for s in autoexec {
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outer(&mut c, s);
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}
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return c;
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}
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// --- Dictionary management ---
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fn init_dictionary(c: &mut Core) {
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let mut opcode = 65535;
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for p in PRIMITIVES {
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match p.name {
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Some(name) => {
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create(c, name);
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if p.immediate {
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immediate(c);
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}
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comma(c, opcode);
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comma(c, 65535); // ret
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}
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None => {}
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}
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opcode -= 1;
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}
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}
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fn create(c: &mut Core, name: ShortName) {
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let addr: usize = c.here as usize;
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c.ram[addr+0..=addr+1].copy_from_slice(&c.dp.to_le_bytes());
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c.dp = addr as u16;
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c.ram[addr+2] = name.length & 0x7f;
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c.ram[addr+3..=addr+5].copy_from_slice(&name.bytes);
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c.here = (addr+6) as u16;
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}
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fn create_d(c: &mut Core) {
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match &c.next_token {
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Some(t) => {
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let short_name = truncate_name(t);
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create(c, short_name);
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c.post = Post::EatWord;
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}
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_ => {
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println!(" create needs an argument");
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c.post = Post::WarmReset;
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}
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}
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}
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fn find(c: &mut Core, name: ShortName) -> Option<u16> {
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let mut addr = c.dp as usize;
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while addr != 0 {
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if (c.ram[addr+2] & 0x7f) == name.length {
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if c.ram[addr+3..=addr+5] == name.bytes {
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return Some((addr+6) as u16);
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}
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}
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addr = u16::from_le_bytes(c.ram[addr..=addr+1].try_into().unwrap()) as usize;
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}
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return None;
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}
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fn smudge(c: &mut Core) {
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c.ram[(c.dp as usize) + 2] |= 0x40;
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}
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fn unsmudge(c: &mut Core) {
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c.ram[(c.dp as usize) + 2] &= 0xbf;
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}
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fn immediate(c: &mut Core) {
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c.ram[(c.dp as usize) + 2] ^= 0x80;
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}
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fn is_immediate(c: &mut Core, addr: u16) -> bool {
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return (c.ram[(addr as usize) - 4] & 0x80) != 0;
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}
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fn tick(c: &mut Core) {
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match &c.next_token {
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Some(t) => {
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let name = t.to_string();
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let addr = find(c, truncate_name(&name));
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match addr {
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Some(xt) => {
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push(c, xt);
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c.post = Post::EatWord;
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}
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None => {
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println!(" ' cannot find {}", name);
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c.post = Post::WarmReset;
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}
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}
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}
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_ => {
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println!(" ' needs an argument");
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c.post = Post::WarmReset;
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}
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}
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}
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fn comma(c: &mut Core, val: u16) {
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let addr = c.here as usize;
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c.ram[addr..=addr+1].copy_from_slice(&val.to_le_bytes());
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c.here += 2;
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}
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fn comma_d(c: &mut Core) {
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let val = pop(c);
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comma(c, val);
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}
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// --- Memory management ---
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fn store(c: &mut Core) {
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let addr = pop(c) as usize;
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let val = pop(c);
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c.ram[addr..=addr+1].copy_from_slice(&val.to_le_bytes());
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}
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fn load(c: &mut Core) {
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let addr = pop(c) as usize;
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push(c, u16::from_le_bytes(c.ram[addr..=addr+1].try_into().unwrap()));
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}
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fn forget(c: &mut Core) {
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let xt = pop(c);
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c.here = xt - 6;
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let i = c.here as usize;
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c.dp = u16::from_le_bytes(c.ram[i..=i+1].try_into().unwrap());
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}
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// --- Stack management ---
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fn push(c: &mut Core, val: u16) {
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c.dstack[c.tds] = val;
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c.tds += 1;
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}
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fn pop(c: &mut Core) -> u16 {
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if c.tds == 0 {
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println!(" stack underflow");
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c.post = Post::WarmReset; // note: could get overwritten later :(
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return 0; // half-assed, should really return straight to interpreter
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} else {
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c.tds -= 1;
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return c.dstack[c.tds];
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}
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}
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fn dup(c: &mut Core) {
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let val = pop(c);
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push(c, val);
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push(c, val);
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}
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fn swap(c: &mut Core) {
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let val1 = pop(c);
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let val2 = pop(c);
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push(c, val1);
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push(c, val2);
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}
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fn drop(c: &mut Core) {
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let _ = pop(c);
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}
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fn to_r(c: &mut Core, val: u16) {
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c.rstack[c.trs] = val;
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c.trs += 1;
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}
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fn to_r_d(c: &mut Core) {
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let r1 = from_r(c);
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let r2 = pop(c);
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to_r(c, r2);
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to_r(c, r1);
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}
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fn from_r(c: &mut Core) -> u16 {
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c.trs -= 1;
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return c.rstack[c.trs];
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}
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fn from_r_d(c: &mut Core) {
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let r1 = from_r(c);
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let r2 = from_r(c);
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to_r(c, r1);
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push(c, r2);
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}
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fn call(c: &mut Core) {
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to_r(c, c.ip);
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c.ip = pop(c);
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}
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// note: this is an inline primitive, not a dict entry
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fn ret(c: &mut Core) {
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if c.trs == 0 {
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std::process::exit(0);
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}
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c.ip = from_r(c);
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}
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fn ret_d(c: &mut Core) {
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_ = from_r(c);
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ret(c);
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}
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// --- Control flow ---
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fn if_skip(c: &mut Core) {
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let truthy = pop(c);
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let retaddr = from_r(c);
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to_r(c, retaddr + if truthy == 0 { 2 } else { 0 });
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}
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// --- I/O ---
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fn dot(c: &mut Core) {
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print!("{} ", pop(c));
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}
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fn dots(c: &mut Core) {
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for i in &c.dstack[0..c.tds] {
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print!("{} ", i);
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}
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}
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fn dump(c: &mut Core) {
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println!("{:?}", c);
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}
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fn word(c: &mut Core) {
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match &c.next_token {
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Some(t) => {
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println!("{}", t);
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c.post = Post::EatWord;
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}
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_ => {}
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}
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}
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// --- Math and logic ---
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// note: this is an inline primitive, not a dict entry
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fn lit(c: &mut Core) {
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let ip = c.ip as usize;
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push(c, u16::from_le_bytes(c.ram[ip..=ip+1].try_into().unwrap()));
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c.ip += 2;
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}
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fn add(c: &mut Core) {
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let v1 = pop(c);
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let v2 = pop(c);
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push(c, v1.wrapping_add(v2));
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}
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fn sub(c: &mut Core) {
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let v1 = pop(c);
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let v2 = pop(c);
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push(c, v2.wrapping_sub(v1));
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}
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fn mul(c: &mut Core) {
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let v1 = pop(c);
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let v2 = pop(c);
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push(c, v1.saturating_mul(v2));
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}
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fn div(c: &mut Core) {
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let v1 = pop(c);
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let v2 = pop(c);
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push(c, v2.saturating_div(v1));
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}
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// --- Inner interpreter ---
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fn fetch(c: &mut Core) -> u16 {
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let ip = c.ip as usize;
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let opcode = u16::from_le_bytes(c.ram[ip..=ip+1].try_into().unwrap());
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c.ip += 2;
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return opcode;
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}
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fn execute(c: &mut Core, opcode: u16) {
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let primitive_index = (65535 - opcode) as usize;
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if primitive_index < PRIMITIVES.len() {
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(PRIMITIVES[primitive_index].f)(c);
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} else {
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// call
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to_r(c, c.ip);
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c.ip = opcode;
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}
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}
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fn step(c: &mut Core) {
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let opcode = fetch(c);
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execute(c, opcode);
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}
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fn inner(c: &mut Core) {
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loop {
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step(c);
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//println!("ip={} trs={}", c.ip, c.trs);
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if c.trs == 0 {
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break;
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}
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}
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}
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// --- Outer interpreter ---
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fn lbracket(c: &mut Core) {
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c.state = State::Interpreting;
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}
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fn rbracket(c: &mut Core) {
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c.state = State::Compiling;
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}
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fn latest(c: &mut Core) {
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push(c, c.dp);
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}
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fn here(c: &mut Core) {
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push(c, c.here);
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}
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fn outer(c: &mut Core, s: &str) {
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let ss = s.trim();
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let mut tokens = ss.split(" ").peekable();
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loop {
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c.post = Post::Nothing;
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match tokens.next() {
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Some(t) => {
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c.next_token = match tokens.peek() {
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Some(t) => { Some(t.to_string()) }
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None => { None }
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};
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match find(c, truncate_name(t)) {
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Some(addr) => {
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if c.state == State::Interpreting || is_immediate(c, addr) {
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to_r(c, c.ip);
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c.ip = addr;
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inner(c);
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} else {
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comma(c, addr);
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}
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}
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None => {
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let val = t.parse::<u16>();
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match val {
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Ok(n) => {
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match c.state {
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State::Interpreting => { push(c, n) }
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State::Compiling => {
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comma(c, 65534); // lit
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comma(c, n);
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}
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}
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}
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Err(_) => {
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if t != "" {
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println!("{}?", t);
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c.post = Post::WarmReset;
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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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None => { break ; }
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}
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match c.post {
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Post::EatWord => { _ = tokens.next(); }
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Post::WarmReset => {
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c.tds = 0;
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c.trs = 0;
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c.state = State::Interpreting;
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break; // discard rest of input line
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}
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Post::Nothing => { }
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};
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}
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}
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fn main() {
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let mut c = new_core();
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loop {
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let mut buf = String::new();
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match io::stdin().read_line(&mut buf) {
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Ok(_) => {
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outer(&mut c, &buf);
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match c.state {
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State::Interpreting => {println!(" ok")}
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State::Compiling => {}
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};
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}
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Err(_) => { break; }
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}
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}
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}
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/*
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: dog recursive r> drop dup . 1 - dup ? dog ;
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: dog dog ;
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|
100 dog
|
|
*/
|
|
|
|
/* TODO LIST
|
|
* 0=
|
|
* allot, cell, cells
|
|
* base
|
|
* c@ and c!
|
|
* comments ( )
|
|
* comments \
|
|
* emit
|
|
* forth-style line parsing, instead of pre-baked str::split(" ").
|
|
* key
|
|
* recursive with more creature comforts
|
|
* see
|
|
* startup message "XXXXX bytes free"
|
|
* strings ." this", s" that", etc.
|
|
* words
|
|
*/
|