rust/src/lib/bitv.rs


export t;
export create;
export union;
export intersect;
export copy;
export clone;
export get;
export equal;
export clear;
export set_all;
export invert;
export difference;
export set;
export is_true;
export is_false;
export to_ivec;
export to_str;
export eq_ivec;


// FIXME: With recursive object types, we could implement binary methods like
//        union, intersection, and difference. At that point, we could write
//        an optimizing version of this module that produces a different obj
//        for the case where nbits <= 32.

type t = @{storage: [mutable uint], nbits: uint};


// FIXME: this should be a constant once they work
fn uint_bits() -> uint { ret 32u + (1u << 32u >> 27u); }

fn create(nbits: uint, init: bool) -> t {
    let elt = if init { !0u } else { 0u };
    let storage = ivec::init_elt_mut[uint](elt, nbits / uint_bits() + 1u);
    ret @{storage: storage, nbits: nbits};
}

fn process(op: &block(uint, uint) -> uint , v0: &t, v1: &t) -> bool {
    let len = ivec::len(v1.storage);
    assert (ivec::len(v0.storage) == len);
    assert (v0.nbits == v1.nbits);
    let changed = false;
    for each i: uint  in uint::range(0u, len) {
        let w0 = v0.storage.(i);
        let w1 = v1.storage.(i);
        let w = op(w0, w1);
        if w0 != w { changed = true; v0.storage.(i) = w; }
    }
    ret changed;
}

fn lor(w0: uint, w1: uint) -> uint { ret w0 | w1; }

fn union(v0: &t, v1: &t) -> bool { let sub = lor; ret process(sub, v0, v1); }

fn land(w0: uint, w1: uint) -> uint { ret w0 & w1; }

fn intersect(v0: &t, v1: &t) -> bool {
    let sub = land;
    ret process(sub, v0, v1);
}

fn right(w0: uint, w1: uint) -> uint { ret w1; }

fn copy(v0: &t, v1: t) -> bool { let sub = right; ret process(sub, v0, v1); }

fn clone(v: t) -> t {
    let storage = ivec::init_elt_mut[uint](0u, v.nbits / uint_bits() + 1u);
    let len = ivec::len(v.storage);
    for each i: uint  in uint::range(0u, len) { storage.(i) = v.storage.(i); }
    ret @{storage: storage, nbits: v.nbits};
}

fn get(v: &t, i: uint) -> bool {
    assert (i < v.nbits);
    let bits = uint_bits();
    let w = i / bits;
    let b = i % bits;
    let x = 1u & v.storage.(w) >> b;
    ret x == 1u;
}

fn equal(v0: &t, v1: &t) -> bool {
    // FIXME: when we can break or return from inside an iterator loop,
    //        we can eliminate this painful while-loop

    let len = ivec::len(v1.storage);
    let i = 0u;
    while i < len {
        if v0.storage.(i) != v1.storage.(i) { ret false; }
        i = i + 1u;
    }
    ret true;
}

fn clear(v: &t) {
    for each i: uint  in uint::range(0u, ivec::len(v.storage)) {
        v.storage.(i) = 0u;
    }
}

fn set_all(v: &t) {
    for each i: uint  in uint::range(0u, v.nbits) { set(v, i, true); }
}

fn invert(v: &t) {
    for each i: uint  in uint::range(0u, ivec::len(v.storage)) {
        v.storage.(i) = !v.storage.(i);
    }
}


/* v0 = v0 - v1 */
fn difference(v0: &t, v1: &t) -> bool {
    invert(v1);
    let b = intersect(v0, v1);
    invert(v1);
    ret b;
}

fn set(v: &t, i: uint, x: bool) {
    assert (i < v.nbits);
    let bits = uint_bits();
    let w = i / bits;
    let b = i % bits;
    let flag = 1u << b;
    v.storage.(w) =
        if x { v.storage.(w) | flag } else { v.storage.(w) & !flag };
}


/* true if all bits are 1 */
fn is_true(v: &t) -> bool {
    for i: uint  in to_ivec(v) { if i != 1u { ret false; } }
    ret true;
}


/* true if all bits are non-1 */
fn is_false(v: &t) -> bool {
    for i: uint  in to_ivec(v) { if i == 1u { ret false; } }
    ret true;
}

fn init_to_vec(v: t, i: uint) -> uint { ret if get(v, i) { 1u } else { 0u }; }

fn to_ivec(v: &t) -> [uint] {
    let sub = bind init_to_vec(v, _);
    ret ivec::init_fn[uint](sub, v.nbits);
}

fn to_str(v: &t) -> str {
    let rs = "";
    for i: uint  in to_ivec(v) {
        if i == 1u { rs += "1"; } else { rs += "0"; }
    }
    ret rs;
}

fn eq_ivec(v0: &t, v1: &[uint]) -> bool {
    assert (v0.nbits == ivec::len[uint](v1));
    let len = v0.nbits;
    let i = 0u;
    while i < len {
        let w0 = get(v0, i);
        let w1 = v1.(i);
        if !w0 && w1 != 0u || w0 && w1 == 0u { ret false; }
        i = i + 1u;
    }
    ret true;
}

//
// Local Variables:
// mode: rust
// fill-column: 78;
// indent-tabs-mode: nil
// c-basic-offset: 4
// buffer-file-coding-system: utf-8-unix
// compile-command: "make -k -C $RBUILD 2>&1 | sed -e 's/\\/x\\//x:\\//g'";
// End:
//
Reformat source tree (minus a couple tests that are still grumpy). 2011-06-15 13:19:50 -05:00
stdlib: Export only what's needed from std::bitv 2011-05-20 21:12:35 -05:00			`export t;`
			`export create;`
			`export union;`
			`export intersect;`
			`export copy;`
			`export clone;`
			`export get;`
			`export equal;`
			`export clear;`
			`export set_all;`
			`export invert;`
			`export difference;`
			`export set;`
			`export is_true;`
			`export is_false;`
Remove vecs from std::bitv 2011-08-12 00:11:59 -05:00			`export to_ivec;`
stdlib: Export only what's needed from std::bitv 2011-05-20 21:12:35 -05:00			`export to_str;`
Remove vecs from std::bitv 2011-08-12 00:11:59 -05:00			`export eq_ivec;`
stdlib: Export only what's needed from std::bitv 2011-05-20 21:12:35 -05:00
Reformat source tree (minus a couple tests that are still grumpy). 2011-06-15 13:19:50 -05:00
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00			`// FIXME: With recursive object types, we could implement binary methods like`
			`// union, intersection, and difference. At that point, we could write`
			`// an optimizing version of this module that produces a different obj`
tests and bugfixes: fns take aliases, fixed binary arithmetic in create, eliminated wasted bit per uint 2010-10-21 09:36:13 -05:00			`// for the case where nbits <= 32.`

Port the stdlib to the ivec type [T] syntax. 2011-08-04 19:24:54 -05:00			`type t = @{storage: [mutable uint], nbits: uint};`
Reformat source tree (minus a couple tests that are still grumpy). 2011-06-15 13:19:50 -05:00
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00
simpler computation of uint_bits(), plus whitespace police 2010-10-21 00:04:19 -05:00			`// FIXME: this should be a constant once they work`
Reformat source tree (minus a couple tests that are still grumpy). 2011-06-15 13:19:50 -05:00			`fn uint_bits() -> uint { ret 32u + (1u << 32u >> 27u); }`
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`fn create(nbits: uint, init: bool) -> t {`
			`let elt = if init { !0u } else { 0u };`
			`let storage = ivec::init_elt_mut[uint](elt, nbits / uint_bits() + 1u);`
			`ret @{storage: storage, nbits: nbits};`
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00			`}`

Change a bunch of places in the stdlib to use blocks. 2011-08-12 13:47:44 -05:00			`fn process(op: &block(uint, uint) -> uint , v0: &t, v1: &t) -> bool {`
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`let len = ivec::len(v1.storage);`
stdlib: Move bit vectors over to interior vectors 2011-07-12 16:07:00 -05:00			`assert (ivec::len(v0.storage) == len);`
Un-revert "Use different syntax for checks that matter to typestate", fixing the problem. This reverts commit d08b443fffb1181d8d45ae5d061412f202dd4118. 2011-05-02 19:47:24 -05:00			`assert (v0.nbits == v1.nbits);`
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`let changed = false;`
			`for each i: uint in uint::range(0u, len) {`
			`let w0 = v0.storage.(i);`
			`let w1 = v1.storage.(i);`
			`let w = op(w0, w1);`
			`if w0 != w { changed = true; v0.storage.(i) = w; }`
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00			`}`
			`ret changed;`
			`}`

Reformat for new syntax 2011-07-27 07:19:39 -05:00			`fn lor(w0: uint, w1: uint) -> uint { ret w0 \| w1; }`
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`fn union(v0: &t, v1: &t) -> bool { let sub = lor; ret process(sub, v0, v1); }`
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`fn land(w0: uint, w1: uint) -> uint { ret w0 & w1; }`
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`fn intersect(v0: &t, v1: &t) -> bool {`
			`let sub = land;`
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00			`ret process(sub, v0, v1);`
			`}`

Reformat for new syntax 2011-07-27 07:19:39 -05:00			`fn right(w0: uint, w1: uint) -> uint { ret w1; }`
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`fn copy(v0: &t, v1: t) -> bool { let sub = right; ret process(sub, v0, v1); }`
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`fn clone(v: t) -> t {`
			`let storage = ivec::init_elt_mut[uint](0u, v.nbits / uint_bits() + 1u);`
			`let len = ivec::len(v.storage);`
			`for each i: uint in uint::range(0u, len) { storage.(i) = v.storage.(i); }`
			`ret @{storage: storage, nbits: v.nbits};`
Further work on typestate. Handles expr_rec and expr_assign now. Also changed the ts_ann field on statements to be an ann instead, which explains most of the changes. As well, got rid of the "warning: no type for expression" error by filling in annotations for local decls in typeck (not sure whether this was my fault or not). Finally, in bitv, added a clone() function to copy a bit vector, and fixed is_true, is_false, and to_str to not be nonsense. 2011-04-12 14:16:21 -05:00			`}`

Reformat for new syntax 2011-07-27 07:19:39 -05:00			`fn get(v: &t, i: uint) -> bool {`
Un-revert "Use different syntax for checks that matter to typestate", fixing the problem. This reverts commit d08b443fffb1181d8d45ae5d061412f202dd4118. 2011-05-02 19:47:24 -05:00			`assert (i < v.nbits);`
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`let bits = uint_bits();`
			`let w = i / bits;`
			`let b = i % bits;`
			`let x = 1u & v.storage.(w) >> b;`
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00			`ret x == 1u;`
			`}`

Reformat for new syntax 2011-07-27 07:19:39 -05:00			`fn equal(v0: &t, v1: &t) -> bool {`
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00			`// FIXME: when we can break or return from inside an iterator loop,`
			`// we can eliminate this painful while-loop`
Reformat source tree (minus a couple tests that are still grumpy). 2011-06-15 13:19:50 -05:00
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`let len = ivec::len(v1.storage);`
			`let i = 0u;`
			`while i < len {`
			`if v0.storage.(i) != v1.storage.(i) { ret false; }`
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00			`i = i + 1u;`
			`}`
			`ret true;`
			`}`

Reformat for new syntax 2011-07-27 07:19:39 -05:00			`fn clear(v: &t) {`
			`for each i: uint in uint::range(0u, ivec::len(v.storage)) {`
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00			`v.storage.(i) = 0u;`
			`}`
			`}`

Reformat for new syntax 2011-07-27 07:19:39 -05:00			`fn set_all(v: &t) {`
			`for each i: uint in uint::range(0u, v.nbits) { set(v, i, true); }`
Add a set_all function in bitv that's the inverse of clear 2011-05-18 17:38:11 -05:00			`}`

Reformat for new syntax 2011-07-27 07:19:39 -05:00			`fn invert(v: &t) {`
			`for each i: uint in uint::range(0u, ivec::len(v.storage)) {`
rustc: Remove the bitwise not operator 2011-06-10 12:46:59 -05:00			`v.storage.(i) = !v.storage.(i);`
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00			`}`
			`}`

Reformat source tree (minus a couple tests that are still grumpy). 2011-06-15 13:19:50 -05:00
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00			`/* v0 = v0 - v1 */`
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`fn difference(v0: &t, v1: &t) -> bool {`
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00			`invert(v1);`
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`let b = intersect(v0, v1);`
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00			`invert(v1);`
			`ret b;`
			`}`

Reformat for new syntax 2011-07-27 07:19:39 -05:00			`fn set(v: &t, i: uint, x: bool) {`
Un-revert "Use different syntax for checks that matter to typestate", fixing the problem. This reverts commit d08b443fffb1181d8d45ae5d061412f202dd4118. 2011-05-02 19:47:24 -05:00			`assert (i < v.nbits);`
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`let bits = uint_bits();`
			`let w = i / bits;`
			`let b = i % bits;`
			`let flag = 1u << b;`
Reformat source tree (minus a couple tests that are still grumpy). 2011-06-15 13:19:50 -05:00			`v.storage.(w) =`
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`if x { v.storage.(w) \| flag } else { v.storage.(w) & !flag };`
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00			`}`

Reformat source tree (minus a couple tests that are still grumpy). 2011-06-15 13:19:50 -05:00
Continued sketching out code for checking states against preconditions. It's still sketchy. I added a typestate annotation field to statements tagged stmt_decl or stmt_expr, because a stmt_decl statement has a typestate that's different from that of its child node. This necessitated trivial changes to a bunch of other files all over to the compiler. I also added a few small standard library functions, some of which I didn't actually end up using but which I thought might be useful anyway. 2011-04-06 19:56:44 -05:00			`/* true if all bits are 1 */`
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`fn is_true(v: &t) -> bool {`
			`for i: uint in to_ivec(v) { if i != 1u { ret false; } }`
Continued sketching out code for checking states against preconditions. It's still sketchy. I added a typestate annotation field to statements tagged stmt_decl or stmt_expr, because a stmt_decl statement has a typestate that's different from that of its child node. This necessitated trivial changes to a bunch of other files all over to the compiler. I also added a few small standard library functions, some of which I didn't actually end up using but which I thought might be useful anyway. 2011-04-06 19:56:44 -05:00			`ret true;`
			`}`

Reformat source tree (minus a couple tests that are still grumpy). 2011-06-15 13:19:50 -05:00
Continued sketching out code for checking states against preconditions. It's still sketchy. I added a typestate annotation field to statements tagged stmt_decl or stmt_expr, because a stmt_decl statement has a typestate that's different from that of its child node. This necessitated trivial changes to a bunch of other files all over to the compiler. I also added a few small standard library functions, some of which I didn't actually end up using but which I thought might be useful anyway. 2011-04-06 19:56:44 -05:00			`/* true if all bits are non-1 */`
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`fn is_false(v: &t) -> bool {`
			`for i: uint in to_ivec(v) { if i == 1u { ret false; } }`
Continued sketching out code for checking states against preconditions. It's still sketchy. I added a typestate annotation field to statements tagged stmt_decl or stmt_expr, because a stmt_decl statement has a typestate that's different from that of its child node. This necessitated trivial changes to a bunch of other files all over to the compiler. I also added a few small standard library functions, some of which I didn't actually end up using but which I thought might be useful anyway. 2011-04-06 19:56:44 -05:00			`ret true;`
			`}`

Reformat for new syntax 2011-07-27 07:19:39 -05:00			`fn init_to_vec(v: t, i: uint) -> uint { ret if get(v, i) { 1u } else { 0u }; }`
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00
Port the stdlib to the ivec type [T] syntax. 2011-08-04 19:24:54 -05:00			`fn to_ivec(v: &t) -> [uint] {`
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`let sub = bind init_to_vec(v, _);`
stdlib: Move bit vectors over to interior vectors 2011-07-12 16:07:00 -05:00			`ret ivec::init_fn[uint](sub, v.nbits);`
			`}`

Reformat for new syntax 2011-07-27 07:19:39 -05:00			`fn to_str(v: &t) -> str {`
			`let rs = "";`
Remove vecs from std::bitv 2011-08-12 00:11:59 -05:00			`for i: uint in to_ivec(v) {`
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`if i == 1u { rs += "1"; } else { rs += "0"; }`
Implemented computing prestates and poststates for a few expression forms. The typestate checker (if it's uncommented) now correctly rejects a trivial example program that has an uninitialized variable. 2011-04-07 20:15:56 -05:00			`}`
Remove res idents from stdlib 2011-06-24 10:55:02 -05:00			`ret rs;`
Implemented computing prestates and poststates for a few expression forms. The typestate checker (if it's uncommented) now correctly rejects a trivial example program that has an uninitialized variable. 2011-04-07 20:15:56 -05:00			`}`

Port the stdlib to the ivec type [T] syntax. 2011-08-04 19:24:54 -05:00			`fn eq_ivec(v0: &t, v1: &[uint]) -> bool {`
stdlib: Move bit vectors over to interior vectors 2011-07-12 16:07:00 -05:00			`assert (v0.nbits == ivec::len[uint](v1));`
Reformat for new syntax 2011-07-27 07:19:39 -05:00			`let len = v0.nbits;`
			`let i = 0u;`
			`while i < len {`
			`let w0 = get(v0, i);`
			`let w1 = v1.(i);`
			`if !w0 && w1 != 0u \|\| w0 && w1 == 0u { ret false; }`
stdlib: Move bit vectors over to interior vectors 2011-07-12 16:07:00 -05:00			`i = i + 1u;`
			`}`
			`ret true;`
			`}`

created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00			`//`
			`// Local Variables:`
			`// mode: rust`
			`// fill-column: 78;`
			`// indent-tabs-mode: nil`
			`// c-basic-offset: 4`
			`// buffer-file-coding-system: utf-8-unix`
Rewrite everything to use [] instead of vec() in value position. 2011-05-16 20:21:22 -05:00			`// compile-command: "make -k -C $RBUILD 2>&1 \| sed -e 's/\\/x\\//x:\\//g'";`
created a first draft of the bit-set library needed for typestate 2010-10-20 19:04:15 -05:00			`// End:`
			`//`