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ton/tolk-tester/tests/null-keyword.tolk

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[Tolk] Completely rework stdlib: multiple files and renaming - split stdlib.tolk into multiple files (tolk-stdlib/ folder) (the "core" common.tolk is auto-imported, the rest are needed to be explicitly imported like "@stdlib/tvm-dicts.tolk") - all functions were renamed to long and clear names - new naming is camelCase
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import "@stdlib/lisp-lists"
[Tolk] v0.6 syntax: `fun`, `import`, `var`, types on the right, etc. Lots of changes, actually. Most noticeable are: - traditional //comments - #include -> import - a rule "import what you use" - ~ found -> !found (for -1/0) - null() -> null - is_null?(v) -> v == null - throw is a keyword - catch with swapped arguments - throw_if, throw_unless -> assert - do until -> do while - elseif -> else if - drop ifnot, elseifnot - drop rarely used operators A testing framework also appears here. All tests existed earlier, but due to significant syntax changes, their history is useless.
2024-10-31 07:11:41 +00:00
@method_id(101)
fun test1() {
[Tolk] Completely rework stdlib: multiple files and renaming - split stdlib.tolk into multiple files (tolk-stdlib/ folder) (the "core" common.tolk is auto-imported, the rest are needed to be explicitly imported like "@stdlib/tvm-dicts.tolk") - all functions were renamed to long and clear names - new naming is camelCase
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var numbers: tuple = createEmptyList();
numbers = listPrepend(1, numbers);
numbers = listPrepend(2, numbers);
numbers = listPrepend(3, numbers);
numbers = listPrepend(4, numbers);
[Tolk] Rewrite the type system from Hindley-Milner to static typing FunC's (and Tolk's before this PR) type system is based on Hindley-Milner. This is a common approach for functional languages, where types are inferred from usage through unification. As a result, type declarations are not necessary: () f(a,b) { return a+b; } // a and b now int, since `+` (int, int) While this approach works for now, problems arise with the introduction of new types like bool, where `!x` must handle both int and bool. It will also become incompatible with int32 and other strict integers. This will clash with structure methods, struggle with proper generics, and become entirely impractical for union types. This PR completely rewrites the type system targeting the future. 1) type of any expression is inferred and never changed 2) this is available because dependent expressions already inferred 3) forall completely removed, generic functions introduced (they work like template functions actually, instantiated while inferring) 4) instantiation `<...>` syntax, example: `t.tupleAt<int>(0)` 5) `as` keyword, for example `t.tupleAt(0) as int` 6) methods binding is done along with type inferring, not before ("before", as worked previously, was always a wrong approach)
2024-12-30 15:31:27 +00:00
var (h: int, numbers redef) = listSplit(numbers);
[Tolk] Completely rework stdlib: multiple files and renaming - split stdlib.tolk into multiple files (tolk-stdlib/ folder) (the "core" common.tolk is auto-imported, the rest are needed to be explicitly imported like "@stdlib/tvm-dicts.tolk") - all functions were renamed to long and clear names - new naming is camelCase
2024-10-31 07:16:19 +00:00
h += listGetHead(numbers);
[Tolk] v0.6 syntax: `fun`, `import`, `var`, types on the right, etc. Lots of changes, actually. Most noticeable are: - traditional //comments - #include -> import - a rule "import what you use" - ~ found -> !found (for -1/0) - null() -> null - is_null?(v) -> v == null - throw is a keyword - catch with swapped arguments - throw_if, throw_unless -> assert - do until -> do while - elseif -> else if - drop ifnot, elseifnot - drop rarely used operators A testing framework also appears here. All tests existed earlier, but due to significant syntax changes, their history is useless.
2024-10-31 07:11:41 +00:00
[Tolk] Rewrite the type system from Hindley-Milner to static typing FunC's (and Tolk's before this PR) type system is based on Hindley-Milner. This is a common approach for functional languages, where types are inferred from usage through unification. As a result, type declarations are not necessary: () f(a,b) { return a+b; } // a and b now int, since `+` (int, int) While this approach works for now, problems arise with the introduction of new types like bool, where `!x` must handle both int and bool. It will also become incompatible with int32 and other strict integers. This will clash with structure methods, struggle with proper generics, and become entirely impractical for union types. This PR completely rewrites the type system targeting the future. 1) type of any expression is inferred and never changed 2) this is available because dependent expressions already inferred 3) forall completely removed, generic functions introduced (they work like template functions actually, instantiated while inferring) 4) instantiation `<...>` syntax, example: `t.tupleAt<int>(0)` 5) `as` keyword, for example `t.tupleAt(0) as int` 6) methods binding is done along with type inferring, not before ("before", as worked previously, was always a wrong approach)
2024-12-30 15:31:27 +00:00
_ = null;
(_, _) = (null, null);
[Tolk] Completely rework stdlib: multiple files and renaming - split stdlib.tolk into multiple files (tolk-stdlib/ folder) (the "core" common.tolk is auto-imported, the rest are needed to be explicitly imported like "@stdlib/tvm-dicts.tolk") - all functions were renamed to long and clear names - new naming is camelCase
2024-10-31 07:16:19 +00:00
var t = createEmptyTuple();
[Tolk] v0.6 syntax: `fun`, `import`, `var`, types on the right, etc. Lots of changes, actually. Most noticeable are: - traditional //comments - #include -> import - a rule "import what you use" - ~ found -> !found (for -1/0) - null() -> null - is_null?(v) -> v == null - throw is a keyword - catch with swapped arguments - throw_if, throw_unless -> assert - do until -> do while - elseif -> else if - drop ifnot, elseifnot - drop rarely used operators A testing framework also appears here. All tests existed earlier, but due to significant syntax changes, their history is useless.
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do {
[Tolk] Rewrite the type system from Hindley-Milner to static typing FunC's (and Tolk's before this PR) type system is based on Hindley-Milner. This is a common approach for functional languages, where types are inferred from usage through unification. As a result, type declarations are not necessary: () f(a,b) { return a+b; } // a and b now int, since `+` (int, int) While this approach works for now, problems arise with the introduction of new types like bool, where `!x` must handle both int and bool. It will also become incompatible with int32 and other strict integers. This will clash with structure methods, struggle with proper generics, and become entirely impractical for union types. This PR completely rewrites the type system targeting the future. 1) type of any expression is inferred and never changed 2) this is available because dependent expressions already inferred 3) forall completely removed, generic functions introduced (they work like template functions actually, instantiated while inferring) 4) instantiation `<...>` syntax, example: `t.tupleAt<int>(0)` 5) `as` keyword, for example `t.tupleAt(0) as int` 6) methods binding is done along with type inferring, not before ("before", as worked previously, was always a wrong approach)
2024-12-30 15:31:27 +00:00
var num: int = numbers.listNext();
[Tolk] Get rid of ~tilda with `mutate` and `self` methods This is a very big change. If FunC has `.methods()` and `~methods()`, Tolk has only dot, one and only way to call a `.method()`. A method may mutate an object, or may not. It's a behavioral and semantic difference from FunC. - `cs.loadInt(32)` modifies a slice and returns an integer - `b.storeInt(x, 32)` modifies a builder - `b = b.storeInt()` also works, since it not only modifies, but returns - chained methods also work, they return `self` - everything works exactly as expected, similar to JS - no runtime overhead, exactly same Fift instructions - custom methods are created with ease - tilda `~` does not exist in Tolk at all
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t.tuplePush(num);
[Tolk] v0.6 syntax: `fun`, `import`, `var`, types on the right, etc. Lots of changes, actually. Most noticeable are: - traditional //comments - #include -> import - a rule "import what you use" - ~ found -> !found (for -1/0) - null() -> null - is_null?(v) -> v == null - throw is a keyword - catch with swapped arguments - throw_if, throw_unless -> assert - do until -> do while - elseif -> else if - drop ifnot, elseifnot - drop rarely used operators A testing framework also appears here. All tests existed earlier, but due to significant syntax changes, their history is useless.
2024-10-31 07:11:41 +00:00
} while (numbers != null);
return (h, numbers == null, t);
}
@method_id(102)
fun test2(x: int) {
if (null != x) {
var y: int = null;
if (y != null) { return 10; }
return y;
}
try {
return x + 10; // will throw, since not a number
} catch {
return -1;
}
return 100;
}
fun myIsNull(x: int): int {
return x == null ? -1 : x;
}
@method_id(103)
fun test3(x: int) {
return myIsNull(x > 10 ? null : x);
}
fun getUntypedNull() {
[Tolk] Rewrite the type system from Hindley-Milner to static typing FunC's (and Tolk's before this PR) type system is based on Hindley-Milner. This is a common approach for functional languages, where types are inferred from usage through unification. As a result, type declarations are not necessary: () f(a,b) { return a+b; } // a and b now int, since `+` (int, int) While this approach works for now, problems arise with the introduction of new types like bool, where `!x` must handle both int and bool. It will also become incompatible with int32 and other strict integers. This will clash with structure methods, struggle with proper generics, and become entirely impractical for union types. This PR completely rewrites the type system targeting the future. 1) type of any expression is inferred and never changed 2) this is available because dependent expressions already inferred 3) forall completely removed, generic functions introduced (they work like template functions actually, instantiated while inferring) 4) instantiation `<...>` syntax, example: `t.tupleAt<int>(0)` 5) `as` keyword, for example `t.tupleAt(0) as int` 6) methods binding is done along with type inferring, not before ("before", as worked previously, was always a wrong approach)
2024-12-30 15:31:27 +00:00
var untyped: null = null;
[Tolk] v0.6 syntax: `fun`, `import`, `var`, types on the right, etc. Lots of changes, actually. Most noticeable are: - traditional //comments - #include -> import - a rule "import what you use" - ~ found -> !found (for -1/0) - null() -> null - is_null?(v) -> v == null - throw is a keyword - catch with swapped arguments - throw_if, throw_unless -> assert - do until -> do while - elseif -> else if - drop ifnot, elseifnot - drop rarely used operators A testing framework also appears here. All tests existed earlier, but due to significant syntax changes, their history is useless.
2024-10-31 07:11:41 +00:00
if (true) {
return untyped;
}
return untyped;
}
@method_id(104)
[Tolk] Rewrite the type system from Hindley-Milner to static typing FunC's (and Tolk's before this PR) type system is based on Hindley-Milner. This is a common approach for functional languages, where types are inferred from usage through unification. As a result, type declarations are not necessary: () f(a,b) { return a+b; } // a and b now int, since `+` (int, int) While this approach works for now, problems arise with the introduction of new types like bool, where `!x` must handle both int and bool. It will also become incompatible with int32 and other strict integers. This will clash with structure methods, struggle with proper generics, and become entirely impractical for union types. This PR completely rewrites the type system targeting the future. 1) type of any expression is inferred and never changed 2) this is available because dependent expressions already inferred 3) forall completely removed, generic functions introduced (they work like template functions actually, instantiated while inferring) 4) instantiation `<...>` syntax, example: `t.tupleAt<int>(0)` 5) `as` keyword, for example `t.tupleAt(0) as int` 6) methods binding is done along with type inferring, not before ("before", as worked previously, was always a wrong approach)
2024-12-30 15:31:27 +00:00
fun test4(): null {
var (_, (_, untyped: null)) = (3, (createEmptyTuple, null));
[Tolk] v0.6 syntax: `fun`, `import`, `var`, types on the right, etc. Lots of changes, actually. Most noticeable are: - traditional //comments - #include -> import - a rule "import what you use" - ~ found -> !found (for -1/0) - null() -> null - is_null?(v) -> v == null - throw is a keyword - catch with swapped arguments - throw_if, throw_unless -> assert - do until -> do while - elseif -> else if - drop ifnot, elseifnot - drop rarely used operators A testing framework also appears here. All tests existed earlier, but due to significant syntax changes, their history is useless.
2024-10-31 07:11:41 +00:00
if (true) {
return untyped;
}
return untyped;
}
@method_id(105)
fun test5() {
[Tolk] Rewrite the type system from Hindley-Milner to static typing FunC's (and Tolk's before this PR) type system is based on Hindley-Milner. This is a common approach for functional languages, where types are inferred from usage through unification. As a result, type declarations are not necessary: () f(a,b) { return a+b; } // a and b now int, since `+` (int, int) While this approach works for now, problems arise with the introduction of new types like bool, where `!x` must handle both int and bool. It will also become incompatible with int32 and other strict integers. This will clash with structure methods, struggle with proper generics, and become entirely impractical for union types. This PR completely rewrites the type system targeting the future. 1) type of any expression is inferred and never changed 2) this is available because dependent expressions already inferred 3) forall completely removed, generic functions introduced (they work like template functions actually, instantiated while inferring) 4) instantiation `<...>` syntax, example: `t.tupleAt<int>(0)` 5) `as` keyword, for example `t.tupleAt(0) as int` 6) methods binding is done along with type inferring, not before ("before", as worked previously, was always a wrong approach)
2024-12-30 15:31:27 +00:00
var n: slice = getUntypedNull();
[Tolk] Get rid of ~tilda with `mutate` and `self` methods This is a very big change. If FunC has `.methods()` and `~methods()`, Tolk has only dot, one and only way to call a `.method()`. A method may mutate an object, or may not. It's a behavioral and semantic difference from FunC. - `cs.loadInt(32)` modifies a slice and returns an integer - `b.storeInt(x, 32)` modifies a builder - `b = b.storeInt()` also works, since it not only modifies, but returns - chained methods also work, they return `self` - everything works exactly as expected, similar to JS - no runtime overhead, exactly same Fift instructions - custom methods are created with ease - tilda `~` does not exist in Tolk at all
2024-10-31 07:18:54 +00:00
return !(null == n) ? n.loadInt(32) : 100;
[Tolk] v0.6 syntax: `fun`, `import`, `var`, types on the right, etc. Lots of changes, actually. Most noticeable are: - traditional //comments - #include -> import - a rule "import what you use" - ~ found -> !found (for -1/0) - null() -> null - is_null?(v) -> v == null - throw is a keyword - catch with swapped arguments - throw_if, throw_unless -> assert - do until -> do while - elseif -> else if - drop ifnot, elseifnot - drop rarely used operators A testing framework also appears here. All tests existed earlier, but due to significant syntax changes, their history is useless.
2024-10-31 07:11:41 +00:00
}
@method_id(107)
fun test7() {
[Tolk] Completely rework stdlib: multiple files and renaming - split stdlib.tolk into multiple files (tolk-stdlib/ folder) (the "core" common.tolk is auto-imported, the rest are needed to be explicitly imported like "@stdlib/tvm-dicts.tolk") - all functions were renamed to long and clear names - new naming is camelCase
2024-10-31 07:16:19 +00:00
var b = beginCell().storeMaybeRef(null);
var s = b.endCell().beginParse();
[Tolk] Get rid of ~tilda with `mutate` and `self` methods This is a very big change. If FunC has `.methods()` and `~methods()`, Tolk has only dot, one and only way to call a `.method()`. A method may mutate an object, or may not. It's a behavioral and semantic difference from FunC. - `cs.loadInt(32)` modifies a slice and returns an integer - `b.storeInt(x, 32)` modifies a builder - `b = b.storeInt()` also works, since it not only modifies, but returns - chained methods also work, they return `self` - everything works exactly as expected, similar to JS - no runtime overhead, exactly same Fift instructions - custom methods are created with ease - tilda `~` does not exist in Tolk at all
2024-10-31 07:18:54 +00:00
var c = s.loadMaybeRef();
[Tolk] `bool` type (-1/0 int under the hood) Comparison operators `== / >= /...` return `bool`. Logical operators `&& ||` return bool. Constants `true` and `false` have the `bool` type. Lots of stdlib functions return `bool`, not `int`. Operator `!x` supports both `int` and `bool`. Condition of `if` accepts both `int` and `bool`. Arithmetic operators are restricted to integers. Logical `&&` and `||` accept both `bool` and `int`. No arithmetic operations with bools allowed (only bitwise and logical).
2025-01-13 08:21:24 +00:00
return (null == c) as int * 10 + (b != null) as int;
[Tolk] v0.6 syntax: `fun`, `import`, `var`, types on the right, etc. Lots of changes, actually. Most noticeable are: - traditional //comments - #include -> import - a rule "import what you use" - ~ found -> !found (for -1/0) - null() -> null - is_null?(v) -> v == null - throw is a keyword - catch with swapped arguments - throw_if, throw_unless -> assert - do until -> do while - elseif -> else if - drop ifnot, elseifnot - drop rarely used operators A testing framework also appears here. All tests existed earlier, but due to significant syntax changes, their history is useless.
2024-10-31 07:11:41 +00:00
}
fun main() {
// now, the compiler doesn't optimize this at compile-time, fif codegen contains ifs
var i: int = null;
if (i == null) {
return 1;
}
return 10;
}
/**
@testcase | 101 | | 7 -1 [ 3 2 1 ]
@testcase | 102 | 5 | (null)
@testcase | 102 | null | -1
@testcase | 103 | 5 | 5
@testcase | 103 | 15 | -1
@testcase | 104 | | (null)
@testcase | 105 | | 100
@testcase | 107 | | -11
@fif_codegen
"""
test1 PROC:<{
//
PUSHNULL // numbers
[Tolk] Support syntax `tensorVar.0` and `tupleVar.0` It works both for reading and writing: > var t = (1, 2); > t.0; // 1 > t.0 = 5; > t; // (5, 2) It also works for typed/untyped tuples, producing INDEX and SETINDEX. Global tensors and tuples works. Nesting `t.0.1.2` works. `mutate` works. Even mixing tuples inside tensors inside a global for writing works.
2025-01-27 07:29:17 +00:00
1 PUSHINT // numbers '2=1
SWAP // '2=1 numbers
[Tolk] v0.6 syntax: `fun`, `import`, `var`, types on the right, etc. Lots of changes, actually. Most noticeable are: - traditional //comments - #include -> import - a rule "import what you use" - ~ found -> !found (for -1/0) - null() -> null - is_null?(v) -> v == null - throw is a keyword - catch with swapped arguments - throw_if, throw_unless -> assert - do until -> do while - elseif -> else if - drop ifnot, elseifnot - drop rarely used operators A testing framework also appears here. All tests existed earlier, but due to significant syntax changes, their history is useless.
2024-10-31 07:11:41 +00:00
CONS // numbers
[Tolk] Support syntax `tensorVar.0` and `tupleVar.0` It works both for reading and writing: > var t = (1, 2); > t.0; // 1 > t.0 = 5; > t; // (5, 2) It also works for typed/untyped tuples, producing INDEX and SETINDEX. Global tensors and tuples works. Nesting `t.0.1.2` works. `mutate` works. Even mixing tuples inside tensors inside a global for writing works.
2025-01-27 07:29:17 +00:00
2 PUSHINT // numbers '4=2
SWAP // '4=2 numbers
[Tolk] v0.6 syntax: `fun`, `import`, `var`, types on the right, etc. Lots of changes, actually. Most noticeable are: - traditional //comments - #include -> import - a rule "import what you use" - ~ found -> !found (for -1/0) - null() -> null - is_null?(v) -> v == null - throw is a keyword - catch with swapped arguments - throw_if, throw_unless -> assert - do until -> do while - elseif -> else if - drop ifnot, elseifnot - drop rarely used operators A testing framework also appears here. All tests existed earlier, but due to significant syntax changes, their history is useless.
2024-10-31 07:11:41 +00:00
CONS // numbers
[Tolk] Support syntax `tensorVar.0` and `tupleVar.0` It works both for reading and writing: > var t = (1, 2); > t.0; // 1 > t.0 = 5; > t; // (5, 2) It also works for typed/untyped tuples, producing INDEX and SETINDEX. Global tensors and tuples works. Nesting `t.0.1.2` works. `mutate` works. Even mixing tuples inside tensors inside a global for writing works.
2025-01-27 07:29:17 +00:00
3 PUSHINT // numbers '6=3
SWAP // '6=3 numbers
[Tolk] v0.6 syntax: `fun`, `import`, `var`, types on the right, etc. Lots of changes, actually. Most noticeable are: - traditional //comments - #include -> import - a rule "import what you use" - ~ found -> !found (for -1/0) - null() -> null - is_null?(v) -> v == null - throw is a keyword - catch with swapped arguments - throw_if, throw_unless -> assert - do until -> do while - elseif -> else if - drop ifnot, elseifnot - drop rarely used operators A testing framework also appears here. All tests existed earlier, but due to significant syntax changes, their history is useless.
2024-10-31 07:11:41 +00:00
CONS // numbers
[Tolk] Support syntax `tensorVar.0` and `tupleVar.0` It works both for reading and writing: > var t = (1, 2); > t.0; // 1 > t.0 = 5; > t; // (5, 2) It also works for typed/untyped tuples, producing INDEX and SETINDEX. Global tensors and tuples works. Nesting `t.0.1.2` works. `mutate` works. Even mixing tuples inside tensors inside a global for writing works.
2025-01-27 07:29:17 +00:00
4 PUSHINT // numbers '8=4
SWAP // '8=4 numbers
[Tolk] v0.6 syntax: `fun`, `import`, `var`, types on the right, etc. Lots of changes, actually. Most noticeable are: - traditional //comments - #include -> import - a rule "import what you use" - ~ found -> !found (for -1/0) - null() -> null - is_null?(v) -> v == null - throw is a keyword - catch with swapped arguments - throw_if, throw_unless -> assert - do until -> do while - elseif -> else if - drop ifnot, elseifnot - drop rarely used operators A testing framework also appears here. All tests existed earlier, but due to significant syntax changes, their history is useless.
2024-10-31 07:11:41 +00:00
CONS // numbers
UNCONS // h numbers
DUP // h numbers numbers
[Tolk] Support syntax `tensorVar.0` and `tupleVar.0` It works both for reading and writing: > var t = (1, 2); > t.0; // 1 > t.0 = 5; > t; // (5, 2) It also works for typed/untyped tuples, producing INDEX and SETINDEX. Global tensors and tuples works. Nesting `t.0.1.2` works. `mutate` works. Even mixing tuples inside tensors inside a global for writing works.
2025-01-27 07:29:17 +00:00
CAR // h numbers '13
[Tolk] v0.6 syntax: `fun`, `import`, `var`, types on the right, etc. Lots of changes, actually. Most noticeable are: - traditional //comments - #include -> import - a rule "import what you use" - ~ found -> !found (for -1/0) - null() -> null - is_null?(v) -> v == null - throw is a keyword - catch with swapped arguments - throw_if, throw_unless -> assert - do until -> do while - elseif -> else if - drop ifnot, elseifnot - drop rarely used operators A testing framework also appears here. All tests existed earlier, but due to significant syntax changes, their history is useless.
2024-10-31 07:11:41 +00:00
"""
@fif_codegen
"""
main PROC:<{
//
PUSHNULL // i
[Tolk] Support syntax `tensorVar.0` and `tupleVar.0` It works both for reading and writing: > var t = (1, 2); > t.0; // 1 > t.0 = 5; > t; // (5, 2) It also works for typed/untyped tuples, producing INDEX and SETINDEX. Global tensors and tuples works. Nesting `t.0.1.2` works. `mutate` works. Even mixing tuples inside tensors inside a global for writing works.
2025-01-27 07:29:17 +00:00
ISNULL // '2
[Tolk] v0.6 syntax: `fun`, `import`, `var`, types on the right, etc. Lots of changes, actually. Most noticeable are: - traditional //comments - #include -> import - a rule "import what you use" - ~ found -> !found (for -1/0) - null() -> null - is_null?(v) -> v == null - throw is a keyword - catch with swapped arguments - throw_if, throw_unless -> assert - do until -> do while - elseif -> else if - drop ifnot, elseifnot - drop rarely used operators A testing framework also appears here. All tests existed earlier, but due to significant syntax changes, their history is useless.
2024-10-31 07:11:41 +00:00
IFJMP:<{ //
[Tolk] Support syntax `tensorVar.0` and `tupleVar.0` It works both for reading and writing: > var t = (1, 2); > t.0; // 1 > t.0 = 5; > t; // (5, 2) It also works for typed/untyped tuples, producing INDEX and SETINDEX. Global tensors and tuples works. Nesting `t.0.1.2` works. `mutate` works. Even mixing tuples inside tensors inside a global for writing works.
2025-01-27 07:29:17 +00:00
1 PUSHINT // '3=1
[Tolk] v0.6 syntax: `fun`, `import`, `var`, types on the right, etc. Lots of changes, actually. Most noticeable are: - traditional //comments - #include -> import - a rule "import what you use" - ~ found -> !found (for -1/0) - null() -> null - is_null?(v) -> v == null - throw is a keyword - catch with swapped arguments - throw_if, throw_unless -> assert - do until -> do while - elseif -> else if - drop ifnot, elseifnot - drop rarely used operators A testing framework also appears here. All tests existed earlier, but due to significant syntax changes, their history is useless.
2024-10-31 07:11:41 +00:00
}> //
[Tolk] Support syntax `tensorVar.0` and `tupleVar.0` It works both for reading and writing: > var t = (1, 2); > t.0; // 1 > t.0 = 5; > t; // (5, 2) It also works for typed/untyped tuples, producing INDEX and SETINDEX. Global tensors and tuples works. Nesting `t.0.1.2` works. `mutate` works. Even mixing tuples inside tensors inside a global for writing works.
2025-01-27 07:29:17 +00:00
10 PUSHINT // '4=10
[Tolk] v0.6 syntax: `fun`, `import`, `var`, types on the right, etc. Lots of changes, actually. Most noticeable are: - traditional //comments - #include -> import - a rule "import what you use" - ~ found -> !found (for -1/0) - null() -> null - is_null?(v) -> v == null - throw is a keyword - catch with swapped arguments - throw_if, throw_unless -> assert - do until -> do while - elseif -> else if - drop ifnot, elseifnot - drop rarely used operators A testing framework also appears here. All tests existed earlier, but due to significant syntax changes, their history is useless.
2024-10-31 07:11:41 +00:00
}>
"""
@fif_codegen
"""
test7 PROC:<{
...
change order of assignment lhs=rhs evaluation
2025-02-10 08:57:25 +00:00
LDOPTREF // b '9 '8
[Tolk] v0.6 syntax: `fun`, `import`, `var`, types on the right, etc. Lots of changes, actually. Most noticeable are: - traditional //comments - #include -> import - a rule "import what you use" - ~ found -> !found (for -1/0) - null() -> null - is_null?(v) -> v == null - throw is a keyword - catch with swapped arguments - throw_if, throw_unless -> assert - do until -> do while - elseif -> else if - drop ifnot, elseifnot - drop rarely used operators A testing framework also appears here. All tests existed earlier, but due to significant syntax changes, their history is useless.
2024-10-31 07:11:41 +00:00
DROP // b c
[Tolk] Support syntax `tensorVar.0` and `tupleVar.0` It works both for reading and writing: > var t = (1, 2); > t.0; // 1 > t.0 = 5; > t; // (5, 2) It also works for typed/untyped tuples, producing INDEX and SETINDEX. Global tensors and tuples works. Nesting `t.0.1.2` works. `mutate` works. Even mixing tuples inside tensors inside a global for writing works.
2025-01-27 07:29:17 +00:00
ISNULL // b '11
10 MULCONST // b '13
SWAP // '13 b
ISNULL // '13 '14
NOT // '13 '15
ADD // '16
[Tolk] v0.6 syntax: `fun`, `import`, `var`, types on the right, etc. Lots of changes, actually. Most noticeable are: - traditional //comments - #include -> import - a rule "import what you use" - ~ found -> !found (for -1/0) - null() -> null - is_null?(v) -> v == null - throw is a keyword - catch with swapped arguments - throw_if, throw_unless -> assert - do until -> do while - elseif -> else if - drop ifnot, elseifnot - drop rarely used operators A testing framework also appears here. All tests existed earlier, but due to significant syntax changes, their history is useless.
2024-10-31 07:11:41 +00:00
}>
"""
*/
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