load example program from file

2024-05-16 00:47:37 +02:00 · 2024-05-16 00:47:37 +02:00 · f8a967abbf
commit f8a967abbf
parent 9ad58620d6
3 changed files with 208 additions and 95 deletions
--- a/Cargo.toml
+++ b/Cargo.toml
@ -6,4 +6,5 @@ edition = "2021"
 [dependencies]
 laddertypes = { path = "../lib-laddertypes" }
 tisc = { path = "../lib-tisc" }
 iterate-text = "0.0.1"
--- a/main.lt
+++ b/main.lt
@ -0,0 +1,196 @@
 {
 	/* 
 	 * Integer Operations
 	 */
    let int-sign = λx:ℤ~machine.Int64 ↦ bit-and (bit-shr x 63) 1;
    let int-neg  = λx:ℤ~machine.Int64 ↦ i+ (bit-neg x) 1;
    let int-abs  = λx:ℤ~machine.Int64 ↦ if( int-sign x ) { int-neg x; } else { x; };
    let int-lt  = λ{ a:ℤ~machine.Int64; b:ℤ~machine.Int64; } ↦ int-sign (i- a b);
    let int-gt  = λ{ a:ℤ~machine.Int64; b:ℤ~machine.Int64; } ↦ int-sign (i- b a);
    let int-eq  = λ{ a:ℤ~machine.Int64; b:ℤ~machine.Int64; } ↦ if (i- a b) { 0; } else { 1; };
    let int-lte = λ{ a:ℤ~machine.Int64; b:ℤ~machine.Int64; } ↦ bit-or (int-lt a b) (int-eq a b);
    let int-gte = λ{ a:ℤ~machine.Int64; b:ℤ~machine.Int64; } ↦ bit-or (int-gt a b) (int-eq a b);
    let int-min = λ{ a:ℤ~machine.Int64; b:ℤ~machine.Int64; } ↦ if( int-lt a b ) { a; } else { b; };
    let int-max = λ{ a:ℤ~machine.Int64; b:ℤ~machine.Int64; } ↦ if( int-gt a b ) { a; } else { b; };
 	/* Euclidean Algorithm to calculate greatest common divisor
 	 */
    let gcd = λ{
        a : ℤ ~ machine.Int64;
        b : ℤ ~ machine.Int64;
    } ↦ {
        while( b ) {
            let tmp = i% a b;
            ! a b;
            ! b tmp;
        }
        a;
    };
 	/* least common multiple
 	 */
    let lcm = λ{
        a : ℤ ~ machine.Int64;
        b : ℤ ~ machine.Int64;
    } ↦ i* (int-abs a) (i/ (int-abs b) (gcd a b));
 	/* Implementation of Rational Numbers
 	 */
    let ratio-scale = λ{
        {p:ℕ; q:ℕ;} : ℚ ~ <Ratio ℕ~machine.UInt64> ;
        n : ℕ ~ machine.UInt64 ;
    } ↦ {
        i* q n;
        i* p n;
    };
    let ratio-normalize = λ{
        p: ℤ~machine.Int64;
        q: ℤ~machine.Int64;
    } : ℚ ~ <Ratio ℤ~machine.Int64>
    ↦ {
        let s = gcd p q;
        i/ q s;
        i/ p s;
    };
    let ratio-add = λ{
        {ap:ℕ; aq:ℕ;}: ℚ ~ <Ratio ℕ ~ ℤ_2^64 ~ machine.UInt64> ;
        {bp:ℕ; bq:ℕ;}: ℚ ~ <Ratio ℕ ~ ℤ_2^64 ~ machine.UInt64> ;
    } ↦ {
        let l = lcm aq bq;
        let as = i/ l aq;
        let bs = i/ l bq;
        i* aq as;
        i+ (i* ap as) (i* bp bs);
    };
    let ratio-mul = λ{
        {ap:ℤ; aq:ℤ;}: ℚ ~ <Ratio ℤ ~ ℤ_2^64 ~ machine.Int64> ;
        {bp:ℤ; bq:ℤ;}: ℚ ~ <Ratio ℤ ~ ℤ_2^64 ~ machine.Int64> ;                    
    } ↦ ratio-normalize (i* ap bp) (i* aq bq);
    let morph-int-to-float =
        λx: ℤ ~ machine.Int64 ~ machine.Word
    ↦ {
        /* todo */
        0;
    };
    let morph-ratio-to-float =
        λ{
            p : ℤ~machine.Int64;
            q : ℤ~machine.Int64;
        } : ℚ~<Ratio ℤ~machine.Int64>
        ↦ f/ (morph-int-to-float p) (morph-int-to-float q);
 	/* string output
 	 */
    let print-nullterm =
        λ{} : < Seq  Char ~Ascii ~ machine.Word >
            ~ < NullTerminatedArray machine.Word >
        ↦ {
            while(dup) { emit; }
            drop;
        };
    print-nullterm 'H' 'a' 'l' 'l' 'o' ' ' 'W' 'e' 'l' 't' '!' '\n' '\0';
 	/* integer formatting
 	 */
    let fmt-uint-radix = λ{
        radix : ℕ ~ ℤ_2^64 ~ machine.UInt64;
        x : ℕ ~ ℤ_2^64 ~ machine.UInt64;
    } ↦ {
        if( x ) {
            while( x ) {
                let digit = (i% x radix);
                if( int-lt digit 10 ) {
                   i+ '0' digit;
                } else {
                   i+ (i- 'a' 10) digit;
                };
                ! x (i/ x radix);
            }
        } else {
            '0';
        };
    };
    let fmt-int-radix = λ{
        radix: ℕ ~ ℤ_2^64 ~ machine.UInt64;
        x : ℤ ~ machine.Int64;
 	} ↦ {
        fmt-uint-radix radix (int-abs x);
        if( int-sign x ) { '-'; };
    };
    let fmt-uint = λx:ℕ ↦ fmt-uint-radix 10 x;
 	let fmt-int  = λx:ℤ ↦ fmt-int-radix 10 x;
 	/* ratio formatting
 	 */
    let fmt-ratio = λ{ p:ℤ; q:ℤ; } : ℚ~<Ratio ℤ~machine.Int64> ↦ {
        fmt-int q;':';fmt-int p;
    };
 	/*  test ratio
 	 */
    print-nullterm
 		(fmt-ratio { 4; int-neg 3; })
 	    ' ''*'' '
        (fmt-ratio { 7; 4; })
 	    ' ''='' '
        (fmt-ratio (ratio-mul { 4; int-neg 3; } { 7; 4; }))
 		'\n''\0';
 	/* Vec3i
 	 */
    let vec3i-add = λ{
        { ax:ℤ_2^64; ay:ℤ_2^64; az:ℤ_2^64; } : <Vec3 ℤ_2^64~machine.Int64>;
        { bx:ℤ_2^64; by:ℤ_2^64; bz:ℤ_2^64; } : <Vec3 ℤ_2^64~machine.Int64>;
    } ↦ {
        i+ az bz;
        i+ ay by;
        i+ ax bx;
    };
    let fmt-vec3i =
        λ{ x:ℤ_2^64; y:ℤ_2^64; z:ℤ_2^64; } : <Vec3 ℤ_2^64~machine.Int64>
        ↦ {
            '}';
            fmt-int z; '='; 'z'; ' '; ';';
            fmt-int y; '='; 'y'; ' '; ';';
            fmt-int x; '='; 'x'; '{';
        };
 	/* Colors
 	 */
    let red-u8rgb
        : <Fn <> Color ~ RGB ~ <Vec3 ℝ_0,1 ~ ℤ_256 ~ machine.UInt64>>
        = λ{} ↦ { 0; 0; 255; };
    let green-u8rgb = λ{} ↦ { 0; 255; 0; };
    let blue-u8rgb = λ{} ↦ { 255; 0; 0; };
    let yellow-u8rgb = λ{} ↦ { 0; 220; 220; };
 	print-nullterm
 		(fmt-vec3i green-u8rgb)
 		' ''+'' '
 		(fmt-vec3i blue-u8rgb) 
 		' ''='' '
        (fmt-vec3i (vec3i-add green-u8rgb blue-u8rgb))
 		'\n''\0';
 }
--- a/src/main.rs
+++ b/src/main.rs
@ -20,13 +20,13 @@ use crate::{
 fn compile(
    scope: &Arc<RwLock<Scope>>,
    name: &str,
-    source: &str,
+    source: impl Iterator<Item = char>,
 ) -> Vec<tisc::assembler::AssemblyWord> {
    ProcedureCompiler::new(scope)
        .compile(
            &parser::parse_expr(
                &scope.read().unwrap().typectx,
-                &mut lexer::LTIRLexer::from(source.chars().peekable())
+                &mut lexer::LTIRLexer::from(source.peekable())
                    .filter(|tok| match tok {
                        (_, Ok(lexer::LTIRToken::Comment(_))) => false,
                        _ => true
@ -40,10 +40,10 @@ fn compile(
 /* TODO:
 *   - write to address resulting from expression
 *   - `::` -> '.' and allow ↦ only
 *   - Parser error reporting
 *   - Compiler error reporting
 *   - write to address resulting from expression
 *   - sized objects
 *   - Typecheck for LTExpr::Application
 *   - typecheck & inference for rest
 */
@ -57,100 +57,16 @@ fn main() {
    let main_scope = Scope::with_parent(&root_scope);
    let typectx = main_scope.read().unwrap().typectx.clone();
    let args: Vec<String> = std::env::args().collect();
    let path = &args[1];
    let iter_chars = iterate_text::file::characters::IterateFileCharacters::new(path);
    /* link assembly-program to symbols
     */
-    linker.add_procedure(
+    linker.add_procedure("main", compile(&main_scope, "main", iter_chars));
        "main",
        compile(
            &main_scope,
            "main",
            "{
                let print-nullterm =
                    λ{} : < Seq  Char ~Ascii ~ machine.Word >
                        ~ < NullTerminatedArray machine.Word >
                    ↦ {
                       while(dup) { emit; }
                       drop;
                    };
                print-nullterm 'H' 'a' 'l' 'l' 'o' ' ' 'W' 'e' 'l' 't' '!' '\n' '\0';
                let fmt-uint =
                    λx : ℕ ~ ℤ_2^64 ~ machine.UInt64
                    ↦ {
                        if( x ) {
                            while( x ) {
                                i+ '0' (i% x 10);
                                ! x (i/ x 10);
                            }
                        } else {
                            '0';
                        };
                    };
                let print-uint = λx:ℕ ↦ print-nullterm (fmt-uint x) '\0';
                let int-neg  = λx : ℤ ~ machine.Int64 ~ machine.Word ↦ i+ (bit-neg x) 1;
                let int-sign = λx : ℤ ~ machine.Int64 ~ machine.Word ↦ bit-and (bit-shr x 63) 1;
                let int-lt = λ{
                    a : ℤ ~ machine.Int64;
                    b : ℤ ~ machine.Int64;
                } ↦ int-sign (i- a b);
                let int-gt = λ{
                    a : ℤ ~ machine.Int64;
                    b : ℤ ~ machine.Int64;
                } ↦ int-sign (i- b a);
                let int-eq = λ{
                    a : ℤ ~ machine.Int64;
                    b : ℤ ~ machine.Int64; 
                } ↦ if (i- a b) { 0; } else { 1; };
                let int-lte = λa:ℤ ↦ λb:ℤ ↦ bit-or (int-lt a b) (int-eq a b);
                let int-gte = λa:ℤ ↦ λb:ℤ ↦ bit-or (int-gt a b) (int-eq a b);
                let int-min = λ{
                    a : ℤ ~ machine.Int64;
                    b : ℤ ~ machine.Int64;
                } ↦ if( int-lt a b ) { a; } else { b; };
                let int-max = λ{
                    a : ℤ ~ machine.Int64;
                    b : ℤ ~ machine.Int64;
                } ↦ if( int-gt a b ) { a; } else { b; };
                let vec3i-add = λ{
                    { ax:ℤ_2^64; ay:ℤ_2^64; az:ℤ_2^64; } : <Vec3 ℤ_2^64~machine.UInt64>;
                    { bx:ℤ_2^64; by:ℤ_2^64; bz:ℤ_2^64; } : <Vec3 ℤ_2^64~machine.UInt64>;
                } ↦ {
                    i+ az bz;
                    i+ ay by;
                    i+ ax bx;
                };
                let fmt-vec3i =
                    λ{ x:ℤ_2^64; y:ℤ_2^64; z:ℤ_2^64; } : <Vec3 ℤ_2^64~machine.UInt64>
                    ↦ {
                        '}';
                        fmt-uint z; '='; 'z'; ' '; ';';
                        fmt-uint y; '='; 'y'; ' '; ';';
                        fmt-uint x; '='; 'x'; '{';
                    };
                let red-u8rgb
                    : <Fn <> Color ~ RGB ~ <Vec3 ℝ_0,1 ~ ℤ_256 ~ machine.UInt64>>
                    = λ{} ↦ { 0; 0; 255; };
                let green-u8rgb = λ{} ↦ { 0; 255; 0; };
                let blue-u8rgb = λ{} ↦ { 255; 0; 0; };
                let yellow-u8rgb = λ{} ↦ { 0; 220; 220; };
                print-nullterm (fmt-vec3i (vec3i-add green-u8rgb blue-u8rgb)) '\n' '\0';
            }"
        ),
    );
    /* load & run compiled bytecode
     */
    let main_addr = linker
        .get_link_addr(&"main".into())
        .expect("'main' not linked");