Enable tuning

.gitignore

@@ -1,3 +1,4 @@
 __pycache__/
 *.mus
 .idea/*
+venv/

Pipfile

@@ -0,0 +1,15 @@
+[[source]]
+name = "pypi"
+url = "https://pypi.org/simple"
+verify_ssl = true
+
+[dev-packages]
+
+[packages]
+sounddevice = "*"
+soundfile = "*"
+numpy = "*"
+matplotlib = "*"
+
+[requires]
+python_version = "3.7"

Pipfile.lock

@@ -0,0 +1,180 @@
+{
+    "_meta": {
+        "hash": {
+            "sha256": "92b0c636f6ac9be9b32aa25b1cdc96dcbe85602d5c68a2084dc39d25392540b6"
+        },
+        "pipfile-spec": 6,
+        "requires": {
+            "python_version": "3.7"
+        },
+        "sources": [
+            {
+                "name": "pypi",
+                "url": "https://pypi.org/simple",
+                "verify_ssl": true
+            }
+        ]
+    },
+    "default": {
+        "cffi": {
+            "hashes": [
+                "sha256:041c81822e9f84b1d9c401182e174996f0bae9991f33725d059b771744290774",
+                "sha256:046ef9a22f5d3eed06334d01b1e836977eeef500d9b78e9ef693f9380ad0b83d",
+                "sha256:066bc4c7895c91812eff46f4b1c285220947d4aa46fa0a2651ff85f2afae9c90",
+                "sha256:066c7ff148ae33040c01058662d6752fd73fbc8e64787229ea8498c7d7f4041b",
+                "sha256:2444d0c61f03dcd26dbf7600cf64354376ee579acad77aef459e34efcb438c63",
+                "sha256:300832850b8f7967e278870c5d51e3819b9aad8f0a2c8dbe39ab11f119237f45",
+                "sha256:34c77afe85b6b9e967bd8154e3855e847b70ca42043db6ad17f26899a3df1b25",
+                "sha256:46de5fa00f7ac09f020729148ff632819649b3e05a007d286242c4882f7b1dc3",
+                "sha256:4aa8ee7ba27c472d429b980c51e714a24f47ca296d53f4d7868075b175866f4b",
+                "sha256:4d0004eb4351e35ed950c14c11e734182591465a33e960a4ab5e8d4f04d72647",
+                "sha256:4e3d3f31a1e202b0f5a35ba3bc4eb41e2fc2b11c1eff38b362de710bcffb5016",
+                "sha256:50bec6d35e6b1aaeb17f7c4e2b9374ebf95a8975d57863546fa83e8d31bdb8c4",
+                "sha256:55cad9a6df1e2a1d62063f79d0881a414a906a6962bc160ac968cc03ed3efcfb",
+                "sha256:5662ad4e4e84f1eaa8efce5da695c5d2e229c563f9d5ce5b0113f71321bcf753",
+                "sha256:59b4dc008f98fc6ee2bb4fd7fc786a8d70000d058c2bbe2698275bc53a8d3fa7",
+                "sha256:73e1ffefe05e4ccd7bcea61af76f36077b914f92b76f95ccf00b0c1b9186f3f9",
+                "sha256:a1f0fd46eba2d71ce1589f7e50a9e2ffaeb739fb2c11e8192aa2b45d5f6cc41f",
+                "sha256:a2e85dc204556657661051ff4bab75a84e968669765c8a2cd425918699c3d0e8",
+                "sha256:a5457d47dfff24882a21492e5815f891c0ca35fefae8aa742c6c263dac16ef1f",
+                "sha256:a8dccd61d52a8dae4a825cdbb7735da530179fea472903eb871a5513b5abbfdc",
+                "sha256:ae61af521ed676cf16ae94f30fe202781a38d7178b6b4ab622e4eec8cefaff42",
+                "sha256:b012a5edb48288f77a63dba0840c92d0504aa215612da4541b7b42d849bc83a3",
+                "sha256:d2c5cfa536227f57f97c92ac30c8109688ace8fa4ac086d19d0af47d134e2909",
+                "sha256:d42b5796e20aacc9d15e66befb7a345454eef794fdb0737d1af593447c6c8f45",
+                "sha256:dee54f5d30d775f525894d67b1495625dd9322945e7fee00731952e0368ff42d",
+                "sha256:e070535507bd6aa07124258171be2ee8dfc19119c28ca94c9dfb7efd23564512",
+                "sha256:e1ff2748c84d97b065cc95429814cdba39bcbd77c9c85c89344b317dc0d9cbff",
+                "sha256:ed851c75d1e0e043cbf5ca9a8e1b13c4c90f3fbd863dacb01c0808e2b5204201"
+            ],
+            "version": "==1.12.3"
+        },
+        "cycler": {
+            "hashes": [
+                "sha256:1d8a5ae1ff6c5cf9b93e8811e581232ad8920aeec647c37316ceac982b08cb2d",
+                "sha256:cd7b2d1018258d7247a71425e9f26463dfb444d411c39569972f4ce586b0c9d8"
+            ],
+            "version": "==0.10.0"
+        },
+        "kiwisolver": {
+            "hashes": [
+                "sha256:05b5b061e09f60f56244adc885c4a7867da25ca387376b02c1efc29cc16bcd0f",
+                "sha256:26f4fbd6f5e1dabff70a9ba0d2c4bd30761086454aa30dddc5b52764ee4852b7",
+                "sha256:3b2378ad387f49cbb328205bda569b9f87288d6bc1bf4cd683c34523a2341efe",
+                "sha256:400599c0fe58d21522cae0e8b22318e09d9729451b17ee61ba8e1e7c0346565c",
+                "sha256:47b8cb81a7d18dbaf4fed6a61c3cecdb5adec7b4ac292bddb0d016d57e8507d5",
+                "sha256:53eaed412477c836e1b9522c19858a8557d6e595077830146182225613b11a75",
+                "sha256:58e626e1f7dfbb620d08d457325a4cdac65d1809680009f46bf41eaf74ad0187",
+                "sha256:5a52e1b006bfa5be04fe4debbcdd2688432a9af4b207a3f429c74ad625022641",
+                "sha256:5c7ca4e449ac9f99b3b9d4693debb1d6d237d1542dd6a56b3305fe8a9620f883",
+                "sha256:682e54f0ce8f45981878756d7203fd01e188cc6c8b2c5e2cf03675390b4534d5",
+                "sha256:79bfb2f0bd7cbf9ea256612c9523367e5ec51d7cd616ae20ca2c90f575d839a2",
+                "sha256:7f4dd50874177d2bb060d74769210f3bce1af87a8c7cf5b37d032ebf94f0aca3",
+                "sha256:8944a16020c07b682df861207b7e0efcd2f46c7488619cb55f65882279119389",
+                "sha256:8aa7009437640beb2768bfd06da049bad0df85f47ff18426261acecd1cf00897",
+                "sha256:939f36f21a8c571686eb491acfffa9c7f1ac345087281b412d63ea39ca14ec4a",
+                "sha256:9733b7f64bd9f807832d673355f79703f81f0b3e52bfce420fc00d8cb28c6a6c",
+                "sha256:a02f6c3e229d0b7220bd74600e9351e18bc0c361b05f29adae0d10599ae0e326",
+                "sha256:a0c0a9f06872330d0dd31b45607197caab3c22777600e88031bfe66799e70bb0",
+                "sha256:acc4df99308111585121db217681f1ce0eecb48d3a828a2f9bbf9773f4937e9e",
+                "sha256:b64916959e4ae0ac78af7c3e8cef4becee0c0e9694ad477b4c6b3a536de6a544",
+                "sha256:d3fcf0819dc3fea58be1fd1ca390851bdb719a549850e708ed858503ff25d995",
+                "sha256:d52e3b1868a4e8fd18b5cb15055c76820df514e26aa84cc02f593d99fef6707f",
+                "sha256:db1a5d3cc4ae943d674718d6c47d2d82488ddd94b93b9e12d24aabdbfe48caee",
+                "sha256:e3a21a720791712ed721c7b95d433e036134de6f18c77dbe96119eaf7aa08004",
+                "sha256:e8bf074363ce2babeb4764d94f8e65efd22e6a7c74860a4f05a6947afc020ff2",
+                "sha256:f16814a4a96dc04bf1da7d53ee8d5b1d6decfc1a92a63349bb15d37b6a263dd9",
+                "sha256:f2b22153870ca5cf2ab9c940d7bc38e8e9089fa0f7e5856ea195e1cf4ff43d5a",
+                "sha256:f790f8b3dff3d53453de6a7b7ddd173d2e020fb160baff578d578065b108a05f"
+            ],
+            "version": "==1.1.0"
+        },
+        "matplotlib": {
+            "hashes": [
+                "sha256:1febd22afe1489b13c6749ea059d392c03261b2950d1d45c17e3aed812080c93",
+                "sha256:31a30d03f39528c79f3a592857be62a08595dec4ac034978ecd0f814fa0eec2d",
+                "sha256:4442ce720907f67a79d45de9ada47be81ce17e6c2f448b3c64765af93f6829c9",
+                "sha256:796edbd1182cbffa7e1e7a97f1e141f875a8501ba8dd834269ae3cd45a8c976f",
+                "sha256:934e6243df7165aad097572abf5b6003c77c9b6c480c3c4de6f2ef1b5fdd4ec0",
+                "sha256:bab9d848dbf1517bc58d1f486772e99919b19efef5dd8596d4b26f9f5ee08b6b",
+                "sha256:c1fe1e6cdaa53f11f088b7470c2056c0df7d80ee4858dadf6cbe433fcba4323b",
+                "sha256:e5b8aeca9276a3a988caebe9f08366ed519fff98f77c6df5b64d7603d0e42e36",
+                "sha256:ec6bd0a6a58df3628ff269978f4a4b924a0d371ad8ce1f8e2b635b99e482877a"
+            ],
+            "index": "pypi",
+            "version": "==3.1.1"
+        },
+        "numpy": {
+            "hashes": [
+                "sha256:03f2ebcbffcce2dec8860633b89a93e80c6a239d21a77ae8b241450dc21e8c35",
+                "sha256:078c8025da5ab9e8657edc9c2a1e9642e06e953bc7baa2e65c1aa9d9dfb7e98b",
+                "sha256:0fbfa98c5d5c3c6489cc1e852ec94395d51f35d9ebe70c6850e47f465038cdf4",
+                "sha256:1c841033f4fe6801648180c3033c45b3235a8bbd09bc7249010f99ea27bb6790",
+                "sha256:2c0984a01ddd0aeec89f0ce46ef21d64761048cd76c0074d0658c91f9131f154",
+                "sha256:4c166dcb0fff7cb3c0bbc682dfb5061852a2547efb6222e043a7932828c08fb5",
+                "sha256:8c2d98d0623bd63fb883b65256c00454d5f53127a5a7bcdaa8bdc582814e8cb4",
+                "sha256:8cb4b6ae45aad6d26712a1ce0a3f2556c5e1484867f9649e03496e45d6a5eba4",
+                "sha256:93050e73c446c82065b7410221b07682e475ac51887cd9368227a5d944afae80",
+                "sha256:a3f6b3024f8826d8b1490e6e2a9b99e841cd2c375791b1df62991bd8f4c00b89",
+                "sha256:bede70fd8699695363f39e86c1e869b2c8b74fb5ef135a67b9e1eeebff50322a",
+                "sha256:c304b2221f33489cd15a915237a84cdfe9420d7e4d4828c78a0820f9d990395c",
+                "sha256:f11331530f0eff69a758d62c2461cd98cdc2eae0147279d8fc86e0464eb7e8ca",
+                "sha256:fa5f2a8ef1e07ba258dc07d4dd246de23ef4ab920ae0f3fa2a1cc5e90f0f1888",
+                "sha256:fb6178b0488b0ce6a54bc4accbdf5225e937383586555604155d64773f6beb2b",
+                "sha256:fd5e830d4dc31658d61a6452cd3e842213594d8c15578cdae6829e36ad9c0930"
+            ],
+            "index": "pypi",
+            "version": "==1.17.1"
+        },
+        "pycparser": {
+            "hashes": [
+                "sha256:a988718abfad80b6b157acce7bf130a30876d27603738ac39f140993246b25b3"
+            ],
+            "version": "==2.19"
+        },
+        "pyparsing": {
+            "hashes": [
+                "sha256:6f98a7b9397e206d78cc01df10131398f1c8b8510a2f4d97d9abd82e1aacdd80",
+                "sha256:d9338df12903bbf5d65a0e4e87c2161968b10d2e489652bb47001d82a9b028b4"
+            ],
+            "version": "==2.4.2"
+        },
+        "python-dateutil": {
+            "hashes": [
+                "sha256:7e6584c74aeed623791615e26efd690f29817a27c73085b78e4bad02493df2fb",
+                "sha256:c89805f6f4d64db21ed966fda138f8a5ed7a4fdbc1a8ee329ce1b74e3c74da9e"
+            ],
+            "version": "==2.8.0"
+        },
+        "six": {
+            "hashes": [
+                "sha256:3350809f0555b11f552448330d0b52d5f24c91a322ea4a15ef22629740f3761c",
+                "sha256:d16a0141ec1a18405cd4ce8b4613101da75da0e9a7aec5bdd4fa804d0e0eba73"
+            ],
+            "version": "==1.12.0"
+        },
+        "sounddevice": {
+            "hashes": [
+                "sha256:8d0571349f9a438a97f2c69da760f195cf5ddf2351072199cc1dfede4785a207",
+                "sha256:a0dda9dea9a5038ec0dafee4cdebd6d9a09086405d4833a7e3f6b18c109f89f3",
+                "sha256:a71cd3daabc8cb13e0ec9a29e7d4ba9b707386f3c81b3501b20f64209bcaece7",
+                "sha256:b038315e3497e01b1cb22630bc9b5025fcfad40e5ef7c125a9d565befa7220e0",
+                "sha256:c340d0a68945439571a13b287bd11b2d2884b61cd47cc5de8356d88221edf580"
+            ],
+            "index": "pypi",
+            "version": "==0.3.13"
+        },
+        "soundfile": {
+            "hashes": [
+                "sha256:181393f8daac38bda997c4284b760bcd726dc0e847f620020d7bf2d3d538a985",
+                "sha256:3f90971bb1884575ada9a0731e878c91cc1ffde14a778f0857deaa2fd04849ac",
+                "sha256:637f6218c867b8cae80f6989634a0813b416b3e6132480d056e6e5a89a921571",
+                "sha256:7fe04272cbfb94ab648acb0db31ace0800f5a4cf46e9d45b4d71ddb15abce1a0",
+                "sha256:80a3d2ed37199ffa7066c097d7b82b8413922e22870b62b54dc264bf0169f4c2"
+            ],
+            "index": "pypi",
+            "version": "==0.10.2"
+        }
+    },
+    "develop": {}
+}

os_requirements.txt

@@ -0,0 +1,2 @@
+You have to have installed `PortAudio` in order to use app.
+

smnp/ast/node/atom.py

@@ -27,6 +27,10 @@ class IntegerLiteral(Atom):
     pass
 
 
+class FloatLiteral(Atom):
+    pass
+
+
 class StringLiteral(Atom):
     pass
 
@@ -47,6 +51,10 @@ def IntegerParser(input):
     return Parser.terminal(TokenType.INTEGER, createNode=IntegerLiteral.withValue)(input)
 
 
+def FloatParser(input):
+    return Parser.terminal(TokenType.FLOAT, createNode=FloatLiteral.withValue)(input)
+
+
 def StringParser(input):
     return Parser.terminal(TokenType.STRING, createNode=StringLiteral.withValue)(input)
 
@@ -66,6 +74,7 @@ def TypeLiteralParser(input):
 def LiteralParser(input):
     return Parser.oneOf(
         IntegerParser,
+        FloatParser,
         StringParser,
         NoteParser,
         BoolParser,
@@ -78,8 +87,18 @@ def AtomParser(input):
     from smnp.ast.node.identifier import IdentifierParser
     from smnp.ast.node.list import ListParser
     from smnp.ast.node.map import MapParser
+    from smnp.ast.node.expression import ExpressionParser
+
+    parentheses = Parser.allOf(
+        Parser.terminal(TokenType.OPEN_PAREN),
+        Parser.doAssert(ExpressionParser, "expression"),
+        Parser.terminal(TokenType.CLOSE_PAREN),
+        createNode=lambda open, expr, close: expr,
+        name="grouping parentheses"
+    )
 
     return Parser.oneOf(
+        parentheses,
         LiteralParser,
         IdentifierParser,
         ListParser,

smnp/ast/node/expression.py

@@ -1,4 +1,6 @@
-from smnp.ast.node.operator import BinaryOperator
+from smnp.ast.node.model import Node
+from smnp.ast.node.none import NoneNode
+from smnp.ast.node.operator import BinaryOperator, Operator
 from smnp.ast.node.term import TermParser
 from smnp.ast.parser import Parser
 from smnp.token.type import TokenType
@@ -20,7 +22,43 @@ class Or(BinaryOperator):
     pass
 
 
-def ExpressionParser(input):
+class Loop(BinaryOperator):
+    def __init__(self, pos):
+        super().__init__(pos)
+        self.children.extend([NoneNode(), NoneNode()])
+
+    @property
+    def parameters(self):
+        return self[3]
+
+    @parameters.setter
+    def parameters(self, value):
+        self[3] = value
+
+    @property
+    def filter(self):
+        return self[4]
+
+    @filter.setter
+    def filter(self, value):
+        self[4] = value
+
+    @classmethod
+    def loop(cls, left, parameters, operator, right, filter):
+        node = cls(left.pos)
+        node.left = left
+        node.parameters = parameters
+        node.operator = operator
+        node.right = right
+        node.filter = filter
+        return node
+
+
+class LoopParameters(Node):
+    pass
+
+
+def ExpressionWithoutLoopParser(input):
     expr1 = Parser.leftAssociativeOperatorParser(
         TermParser,
         [TokenType.PLUS, TokenType.MINUS],
@@ -49,3 +87,42 @@ def ExpressionParser(input):
         lambda left, op, right: Or.withValues(left, op, right)
     )(input)
 
+
+def LoopParser(input):
+    from smnp.ast.node.identifier import IdentifierLiteralParser
+    from smnp.ast.node.iterable import abstractIterableParser
+    from smnp.ast.node.statement import StatementParser
+
+    loopParameters = Parser.allOf(
+        Parser.terminal(TokenType.AS),
+        Parser.oneOf(
+            Parser.wrap(IdentifierLiteralParser, lambda id: LoopParameters.withChildren([id], id.pos)),
+            abstractIterableParser(LoopParameters, TokenType.OPEN_PAREN, TokenType.CLOSE_PAREN, IdentifierLiteralParser)
+        ),
+        createNode=lambda asKeyword, parameters: parameters,
+        name="loop parameters"
+    )
+
+    loopFilter = Parser.allOf(
+        Parser.terminal(TokenType.PERCENT),
+        Parser.doAssert(ExpressionWithoutLoopParser, "filter as bool expression"),
+        createNode=lambda percent, expr: expr,
+        name="loop filter"
+    )
+
+    return Parser.allOf(
+        ExpressionWithoutLoopParser,
+        Parser.optional(loopParameters),
+        Parser.terminal(TokenType.DASH, createNode=Operator.withValue),
+        StatementParser,
+        Parser.optional(loopFilter),
+        createNode=Loop.loop,
+        name="dash-loop"
+    )(input)
+
+
+def ExpressionParser(input):
+    return Parser.oneOf(
+        LoopParser,
+        ExpressionWithoutLoopParser
+    )(input)

smnp/ast/node/factor.py

@@ -1,6 +1,3 @@
-from smnp.ast.node.iterable import abstractIterableParser
-from smnp.ast.node.model import Node
-from smnp.ast.node.none import NoneNode
 from smnp.ast.node.operator import BinaryOperator, Operator, UnaryOperator
 from smnp.ast.node.unit import UnitParser
 from smnp.ast.parser import Parser
@@ -13,57 +10,12 @@ class NotOperator(UnaryOperator):
 class Power(BinaryOperator):
     pass
 
-
-class Loop(BinaryOperator):
-    def __init__(self, pos):
-        super().__init__(pos)
-        self.children.append(NoneNode())
-
-    @property
-    def parameters(self):
-        return self[3]
-
-    @parameters.setter
-    def parameters(self, value):
-        self[3] = value
-
-    @classmethod
-    def loop(cls, left, parameters, operator, right):
-        node = cls(left.pos)
-        node.left = left
-        node.parameters = parameters
-        node.operator = operator
-        node.right = right
-        return node
-
-
-class LoopParameters(Node):
-    pass
-
-
 def FactorParser(input):
-    from smnp.ast.node.expression import ExpressionParser
-    from smnp.ast.node.statement import StatementParser
-    from smnp.ast.node.identifier import IdentifierLiteralParser
-
-    parentheses = Parser.allOf(
-        Parser.terminal(TokenType.OPEN_PAREN),
-        Parser.doAssert(ExpressionParser, "expression"),
-        Parser.terminal(TokenType.CLOSE_PAREN),
-        createNode=lambda open, expr, close: expr,
-        name="grouping parentheses"
-    )
-
-    factorOperands = Parser.oneOf(
-        parentheses,
-        UnitParser,
-        name="factor operands"
-    )
 
     powerFactor = Parser.leftAssociativeOperatorParser(
-        factorOperands,
+        UnitParser,
         [TokenType.DOUBLE_ASTERISK],
-        factorOperands,
+        UnitParser,
         lambda left, op, right: Power.withValues(left, op, right),
         name="power operator"
     )
@@ -75,27 +27,7 @@ def FactorParser(input):
         name="not"
     )
 
-    loopParameters = Parser.allOf(
-        Parser.terminal(TokenType.AS),
-        Parser.oneOf(
-            Parser.wrap(IdentifierLiteralParser, lambda id: LoopParameters.withChildren([id], id.pos)),
-            abstractIterableParser(LoopParameters, TokenType.OPEN_PAREN, TokenType.CLOSE_PAREN, IdentifierLiteralParser)
-        ),
-        createNode=lambda asKeyword, parameters: parameters,
-        name="loop parameters"
-    )
-
-    loopFactor = Parser.allOf(
-        powerFactor,
-        Parser.optional(loopParameters),
-        Parser.terminal(TokenType.DASH, createNode=Operator.withValue),
-        StatementParser,
-        createNode=Loop.loop,
-        name="dash-loop"
-    )
-
     return Parser.oneOf(
-        loopFactor,
         notOperator,
         powerFactor,
         name="factor"

smnp/ast/node/function.py

@@ -1,4 +1,5 @@
 from smnp.ast.node.block import BlockParser
+from smnp.ast.node.expression import ExpressionParser
 from smnp.ast.node.identifier import IdentifierLiteralParser
 from smnp.ast.node.iterable import abstractIterableParser
 from smnp.ast.node.model import Node
@@ -16,7 +17,7 @@ class Argument(Node):
 
     def __init__(self, pos):
         super().__init__(pos)
-        self.children = [NoneNode(), NoneNode(), False]
+        self.children = [NoneNode(), NoneNode(), False, NoneNode()]
 
     @property
     def type(self):
@@ -48,6 +49,14 @@ class Argument(Node):
         self[2] = value
 
 
+    @property
+    def optionalValue(self):
+        return self[3]
+
+    @optionalValue.setter
+    def optionalValue(self, value):
+        self[3] = value
+
 class VarargNode(Node):
     pass
 
@@ -90,7 +99,7 @@ class FunctionDefinition(Node):
         return node
 
 
-def ArgumentParser(input):
+def RegularArgumentParser(input):
     def createNode(type, variable, vararg):
         pos = type.pos if isinstance(type, Type) else variable.pos
         node = Argument(pos)
@@ -104,6 +113,33 @@ def ArgumentParser(input):
         Parser.doAssert(IdentifierLiteralParser, "argument name"),
         Parser.optional(Parser.terminal(TokenType.DOTS, lambda val, pos: True)),
         createNode=createNode,
+        name="regular function argument"
+    )(input)
+
+
+def OptionalArgumentParser(input):
+    def createNode(type, variable, _, optional):
+        pos = type.pos if isinstance(type, Type) else variable.pos
+        node = Argument(pos)
+        node.type = type
+        node.variable = variable
+        node.optionalValue = optional
+        return node
+
+    return Parser.allOf(
+        Parser.optional(TypeParser),
+        Parser.doAssert(IdentifierLiteralParser, "argument name"),
+        Parser.terminal(TokenType.ASSIGN),
+        Parser.doAssert(ExpressionParser, "expression"),
+        createNode=createNode,
+        name="optional function argument"
+    )(input)
+
+
+def ArgumentParser(input):
+    return Parser.oneOf(
+        OptionalArgumentParser,
+        RegularArgumentParser,
         name="function argument"
     )(input)
 

smnp/ast/node/map.py

@@ -1,4 +1,5 @@
 from smnp.ast.node.atom import LiteralParser
+from smnp.ast.node.identifier import IdentifierLiteralParser
 from smnp.ast.node.iterable import abstractIterableParser
 from smnp.ast.node.model import Node
 from smnp.ast.node.operator import BinaryOperator, Operator
@@ -31,12 +32,15 @@ class Map(Node):
 
 def MapParser(input):
     from smnp.ast.node.expression import ExpressionParser
-    keyParser = LiteralParser
+    keyParser = Parser.oneOf(
+        LiteralParser,
+        IdentifierLiteralParser
+    )
     valueParser = ExpressionParser
 
     mapEntryParser = Parser.allOf(
         keyParser,
-        Parser.terminal(TokenType.ARROW, createNode=Operator.withValue, doAssert=True),
+        Parser.terminal(TokenType.ARROW, createNode=Operator.withValue),
         Parser.doAssert(valueParser, "expression"),
         createNode=MapEntry.withValues
     )

smnp/ast/node/statement.py

@@ -1,5 +1,6 @@
 from smnp.ast.node.model import Node
 from smnp.ast.parser import Parser
+from smnp.token.type import TokenType
 
 
 class Statement(Node):
@@ -10,12 +11,27 @@ def StatementParser(input):
     from smnp.ast.node.block import BlockParser
     from smnp.ast.node.condition import IfElseStatementParser
     from smnp.ast.node.expression import ExpressionParser
-
     from smnp.ast.node.ret import ReturnParser
-    return Parser.oneOf(
+    from smnp.ast.node.throw import ThrowParser
+
+    return withSemicolon(
+        Parser.oneOf(
             IfElseStatementParser,
-        ExpressionParser,
+            ExpressionParser,  # Must be above BlockParser because of Map's syntax with curly braces
             BlockParser,
             ReturnParser,
+            ThrowParser,
             name="statement"
-    )(input)
+        ), optional=True)(input)
+
+
+def withSemicolon(parser, optional=False, doAssert=False):
+    semicolonParser = Parser.optional(Parser.terminal(TokenType.SEMICOLON)) if optional else Parser.terminal(
+        TokenType.SEMICOLON, doAssert=doAssert)
+
+    return Parser.allOf(
+        parser,
+        semicolonParser,
+        createNode=lambda stmt, semicolon: stmt,
+        name="semicolon" + "?" if optional else ""
+    )

smnp/ast/node/throw.py

@@ -0,0 +1,17 @@
+from smnp.ast.node.expression import ExpressionParser
+from smnp.ast.node.valuable import Valuable
+from smnp.ast.parser import Parser
+from smnp.token.type import TokenType
+
+
+class Throw(Valuable):
+    pass
+
+
+def ThrowParser(input):
+    return Parser.allOf(
+        Parser.terminal(TokenType.THROW),
+        Parser.doAssert(ExpressionParser, "error message as string"),
+        createNode=lambda throw, message: Throw.withValue(message, throw.pos),
+        name="throw"
+    )(input)

smnp/cli/parser.py

@@ -0,0 +1,23 @@
+import argparse
+
+VERSION = "0.1"
+DESCRIPTION = """
+    Simple Music Notation Processor is a command line tool enabling you to do some music stuff using custom domain-specific language.
+"""
+
+class CliParser(object):
+    def __init__(self):
+        self.parser = argparse.ArgumentParser(description=DESCRIPTION)
+        self.parser.add_argument('file', nargs='*', help='a file containing SMNP code')
+        self.parser.add_argument('-c', '--code', action='append', default=[], type=str, help='a string with SMNP code')
+        self.parser.add_argument('-m', '--mic',  action='store_true', help='test microphone level')
+        self.parser.add_argument('-C', '--config', type=argparse.FileType('-r'), help='a file containing settings (not implemented yet)')
+        self.parser.add_argument('-p', '--params', action='append', help='pass arguments to program (not implemented yet)')
+        self.parser.add_argument('-v', '--version', action='version')
+        self.parser.add_argument('--tokens', action='store_true', help='print tokens of parsed code')
+        self.parser.add_argument('--ast', action='store_true', help='print abstract syntax tree of parsed code')
+        self.parser.add_argument('--dry-run', action='store_true', help='don\'t execute passed code')
+        self.parser.version = VERSION
+
+    def parse(self):
+        return self.parser.parse_args()

smnp/environment/environment.py

@@ -1,17 +1,19 @@
 from smnp.error.function import FunctionNotFoundException, MethodNotFoundException, IllegalFunctionInvocationException
 from smnp.error.runtime import RuntimeException
 from smnp.function.tools import argsTypesToString
-from smnp.runtime.evaluators.function import BodyEvaluator
+from smnp.runtime.evaluators.function import BodyEvaluator, Return
+from smnp.type.model import Type
 
 
 class Environment():
-    def __init__(self, scopes, functions, methods):
+    def __init__(self, scopes, functions, methods, source):
         self.scopes = scopes
         self.functions = functions
         self.methods = methods
         self.customFunctions = []
         self.customMethods = []
         self.callStack = []
+        self.source = source
 
     def invokeMethod(self, object, name, args):
         builtinMethodResult = self._invokeBuiltinMethod(object, name, args)
@@ -38,10 +40,15 @@ class Environment():
             if method.typeSignature.check([object])[0] and method.name == name: #Todo sprawdzic sygnature typu
                 signatureCheckresult = method.signature.check(args)
                 if signatureCheckresult[0]:
-                    self.scopes.append({argName: argValue for argName, argValue in zip(method.arguments, list(signatureCheckresult[1:]))})
+                    self.scopes.append(method.defaultArgs)
+                    self.scopes[-1].update({argName: argValue for argName, argValue in zip(method.arguments, list(signatureCheckresult[1:]))})
                     self.scopes[-1][method.alias] = object
                     self.callStack.append(CallStackItem(name))
-                    result = BodyEvaluator.evaluate(method.body, self).value  # TODO check if it isn't necessary to verify 'result' attr of EvaluatioNResult
+                    result = Type.void()
+                    try:
+                        BodyEvaluator.evaluate(method.body, self).value  # TODO check if it isn't necessary to verify 'result' attr of EvaluatioNResult
+                    except Return as r:
+                        result = r.value
                     self.callStack.pop(-1)
                     self.scopes.pop(-1)
                     return (True, result)
@@ -74,20 +81,27 @@ class Environment():
             if function.name == name:
                 signatureCheckresult = function.signature.check(args)
                 if signatureCheckresult[0]:
-                    self.scopes.append({ argName: argValue for argName, argValue in zip(function.arguments, list(signatureCheckresult[1:])) })
+                    self.appendScope(function.defaultArgs)
+                    appendedScopeIndex = len(self.scopes)-1
+                    self.scopes[-1].update({ argName: argValue for argName, argValue in zip(function.arguments, list(signatureCheckresult[1:])) })
                     self.callStack.append(CallStackItem(name))
-                    result = BodyEvaluator.evaluate(function.body, self).value #TODO check if it isn't necessary to verify 'result' attr of EvaluatioNResult
+                    result = Type.void()
+                    try:
+                        BodyEvaluator.evaluate(function.body, self).value #TODO check if it isn't necessary to verify 'result' attr of EvaluatioNResult
+                    except Return as r:
+                        result = r.value
                     self.callStack.pop(-1)
-                    self.scopes.pop(-1)
+                    self.popScope(mergeVariables=False)
+                    self.removeScopesAfter(appendedScopeIndex)
                     return (True, result)
                 raise IllegalFunctionInvocationException(f"{function.name}{function.signature.string}", f"{name}{argsTypesToString(args)}")
         return (False, None)
 
-    def addCustomFunction(self, name, signature, arguments, body):
+    def addCustomFunction(self, name, signature, arguments, body, defaultArguments):
         if len([fun for fun in self.functions + self.customFunctions if fun.name == name]) > 0:
             raise RuntimeException(f"Cannot redeclare function '{name}'", None)
 
-        self.customFunctions.append(CustomFunction(name, signature, arguments, body))
+        self.customFunctions.append(CustomFunction(name, signature, arguments, body, defaultArguments))
 
     # TODO:
     # There is still problem with checking existing of generic types, like lists:
@@ -98,14 +112,14 @@ class Environment():
     #   function foo() { return 2 }
     # }
     # Then calling [1, 2, 3, 4].foo() will produce 1, when the second method is more suitable
-    def addCustomMethod(self, typeSignature, alias, name, signature, arguments, body):
+    def addCustomMethod(self, typeSignature, alias, name, signature, arguments, body, defaultArguments):
         if len([m for m in self.methods if m.name == name and m.signature.matchers[0] == typeSignature.matchers[0]]) > 0:
             raise RuntimeException(f"Cannot redeclare method '{name}' for type '{typeSignature.matchers[0]}'", None)
 
         if len([m for m in self.customMethods if m.name == name and m.typeSignature.matchers[0] == typeSignature.matchers[0]]) > 0:
             raise RuntimeException(f"Cannot redeclare method '{name}' for type '{typeSignature.matchers[0]}'", None)
 
-        self.customMethods.append(CustomMethod(typeSignature, alias, name, signature, arguments, body))
+        self.customMethods.append(CustomMethod(typeSignature, alias, name, signature, arguments, body, defaultArguments))
 
     def findVariable(self, name, type=None, pos=None):
         for scope in reversed(self.scopes):
@@ -128,6 +142,20 @@ class Environment():
                 else:
                     return scope
 
+    def appendScope(self, variables=None):
+        if variables is None:
+            variables = {}
+
+        self.scopes.append(variables)
+
+    def popScope(self, mergeVariables=True):
+        lastScope = self.scopes.pop(-1)
+        if mergeVariables:
+            self.scopes[-1].update(lastScope)
+
+    def removeScopesAfter(self, index):
+        del self.scopes[index:]
+
     def scopesToString(self):
         return "Scopes:\n" + ("\n".join([ f"  [{i}]: {scope}" for i, scope in enumerate(self.scopes) ]))
 
@@ -162,22 +190,23 @@ class Environment():
 class CallStackItem:
     def __init__(self, function):
         self.function = function
-        self.value = None
 
 
 class CustomFunction:
-    def __init__(self, name, signature, arguments, body):
+    def __init__(self, name, signature, arguments, body, defaultArgs):
         self.name = name
         self.signature = signature
         self.arguments = arguments
         self.body = body
+        self.defaultArgs = defaultArgs
 
 
 class CustomMethod:
-    def __init__(self, typeSignature, alias, name, signature, arguments, body):
+    def __init__(self, typeSignature, alias, name, signature, arguments, body, defaultArgs):
         self.typeSignature = typeSignature
         self.alias = alias
         self.name = name
         self.signature = signature
         self.arguments = arguments
         self.body = body
+        self.defaultArgs = defaultArgs

smnp/environment/factory.py

@@ -1,7 +1,3 @@
-from smnp.environment.environment import Environment
-from smnp.module import functions, methods
-
-
 def createEnvironment():
-    return Environment([{}], functions, methods)
+    return
  

smnp/error/base.py

@@ -2,6 +2,7 @@ class SmnpException(Exception):
     def __init__(self, msg, pos):
         self.msg = msg
         self.pos = pos
+        self.file = None
 
     def _title(self):
         pass
@@ -10,7 +11,10 @@ class SmnpException(Exception):
         return ""
 
     def _position(self):
-        return "" if self.pos is None else f" [line {self.pos[0]+1}, col {self.pos[1]+1}]"
+        return "" if self.pos is None else f"[line {self.pos[0]+1}, col {self.pos[1]+1}]"
+
+    def _file(self):
+        return "" if self.file is None else f"File: {self.file}"
 
     def message(self):
-        return f"{self._title()}{self._position()}:\n{self.msg}\n{self._postMessage()}"
+        return f"{self._title()}\n{self._file()} {self._position()}\n\n{self.msg}\n{self._postMessage()}"

smnp/error/custom.py

@@ -0,0 +1,12 @@
+from smnp.error.runtime import RuntimeException
+
+
+class CustomException(RuntimeException):
+    def __init__(self, message, pos):
+        super().__init__(message, pos)
+
+    def _title(self):
+        return "Execution Error"
+
+    def _postMessage(self):
+        return "\n" + self.environment.callStackToString() if len(self.environment.callStack) > 0 else ""

smnp/function/signature.py

@@ -12,6 +12,9 @@ class Signature:
 
 def varargSignature(varargMatcher, *basicSignature, wrapVarargInValue=False):
     def check(args):
+        if any([ matcher.optional for matcher in [ varargMatcher, *basicSignature ]]):
+            raise RuntimeError("Vararg signature can't have optional arguments")
+
         if len(basicSignature) > len(args):
             return doesNotMatchVararg(basicSignature)
 
@@ -38,7 +41,7 @@ def doesNotMatchVararg(basicSignature):
 
 def signature(*signature):
     def check(args):
-        if len(signature) != len(args):
+        if len(args) > len(signature) or len(args) < len([ matcher for matcher in signature if not matcher.optional ]):
             return doesNotMatch(signature)
 
         for s, a in zip(signature, args):
@@ -52,6 +55,12 @@ def signature(*signature):
     return Signature(check, string, signature)
 
 
+def optional(matcher):
+    matcher.optional = True
+    matcher.string += "?"
+    return matcher
+
+
 def doesNotMatch(sign):
     return (False, *[None for n in sign])
 

smnp/library/loader.py

@@ -5,5 +5,5 @@ from smnp.program.interpreter import Interpreter
 
 def loadStandardLibrary():
     mainSource = resource_string('smnp.library.code', 'main.mus').decode("utf-8")
-    env = Interpreter.interpretString(mainSource)
+    env = Interpreter.interpretString(mainSource, "<stdlib>")
     return env

smnp/main.py

@@ -1,20 +1,38 @@
-import sys
-
+from smnp.cli.parser import CliParser
 from smnp.error.base import SmnpException
 from smnp.library.loader import loadStandardLibrary
+from smnp.module.mic.lib.detector.noise import NoiseDetector
 from smnp.program.interpreter import Interpreter
 
 
+def interpretFile(args, file):
+    stdLibraryEnv = loadStandardLibrary() if not args.dry_run else None
+    Interpreter.interpretFile(file, printTokens=args.tokens, printAst=args.ast, execute=not args.dry_run, baseEnvironment=stdLibraryEnv)
+
+
+def interpretString(args, string):
+    stdLibraryEnv = loadStandardLibrary() if not args.dry_run else None
+    Interpreter.interpretString(string, printTokens=args.tokens, printAst=args.ast, execute=not args.dry_run, baseEnvironment=stdLibraryEnv, source='<cli>')
+
+
 def main():
     try:
-        stdLibraryEnv = loadStandardLibrary()
-        Interpreter.interpretFile(sys.argv[1], printTokens=False, printAst=False, execute=True, baseEnvironment=stdLibraryEnv)
-        #draft()
-        #tokens = tokenize(['function a(b...) { x+y}'])
-        #FunctionDefinitionParser(tokens).node.print()
+        parser = CliParser()
+        args = parser.parse()
+
+        if args.mic:
+            nd = NoiseDetector()
+            nd.test()
+
+        for code in args.code:
+            interpretString(args, code)
+
+        for file in args.file:
+            interpretFile(args, file)
 
     except SmnpException as e:
         print(e.message())
 
     except KeyboardInterrupt:
         print("Program interrupted")
+

smnp/module/__init__.py

@@ -1,4 +1,4 @@
-from smnp.module import system, mic, note, iterable, sound, synth, string, util
+from smnp.module import system, mic, note, iterable, sound, synth, string, util, integer, float
 
-functions = [ *system.functions, *mic.functions, *note.functions, *iterable.functions, *sound.functions, *synth.functions, *string.functions, *util.functions ]
-methods = [ *system.methods, *mic.methods, *note.methods, *iterable.methods, *sound.methods, *synth.methods, *string.functions, *util.methods ]
+functions = [ *system.functions, *mic.functions, *note.functions, *iterable.functions, *sound.functions, *synth.functions, *string.functions, *util.functions, *integer.functions, *float.functions ]
+methods = [ *system.methods, *mic.methods, *note.methods, *iterable.methods, *sound.methods, *synth.methods, *string.methods, *util.methods, *integer.methods, *float.methods ]

smnp/module/float/__init__.py

@@ -0,0 +1,4 @@
+from smnp.module.float.function import float
+
+functions = [ float.function ]
+methods = []

smnp/module/float/function/float.py

@@ -0,0 +1,26 @@
+from smnp.function.model import CombinedFunction, Function
+from smnp.function.signature import signature
+from smnp.type.model import Type
+from smnp.type.signature.matcher.type import ofType
+
+_signature1 = signature(ofType(Type.INTEGER))
+def _function1(env, value):
+    return Type.float(float(value.value))
+
+
+_signature2 = signature(ofType(Type.STRING))
+def _function2(env, value):
+    return Type.float(float(value.value))
+
+
+_signature3 = signature(ofType(Type.FLOAT))
+def _function3(env, value):
+    return value
+
+
+function = CombinedFunction(
+    'Float',
+    Function(_signature1, _function1),
+    Function(_signature2, _function2),
+    Function(_signature3, _function3),
+)

smnp/module/integer/__init__.py

@@ -0,0 +1,4 @@
+from smnp.module.integer.function import integer
+
+functions = [ integer.function ]
+methods = []

smnp/module/integer/function/integer.py

@@ -0,0 +1,25 @@
+from smnp.function.model import CombinedFunction, Function
+from smnp.function.signature import signature
+from smnp.type.model import Type
+from smnp.type.signature.matcher.type import ofType
+
+_signature1 = signature(ofType(Type.FLOAT))
+def _function1(env, value):
+    return Type.integer(int(value.value))
+
+
+_signature2 = signature(ofType(Type.STRING))
+def _function2(env, value):
+    return Type.integer(int(value.value))
+
+
+_signature3 = signature(ofType(Type.INTEGER))
+def _function3(env, value):
+    return value
+
+function = CombinedFunction(
+    'Integer',
+    Function(_signature1, _function1),
+    Function(_signature2, _function2),
+    Function(_signature3, _function3),
+)

smnp/module/iterable/__init__.py

@@ -1,4 +1,4 @@
-from smnp.module.iterable.function import combine, map, range, get
+from smnp.module.iterable.function import map, get
 
-functions = [ combine.function, map.function, range.function ]
+functions = [ map.function ]
 methods = [ get.function ]

smnp/module/iterable/function/combine.py

@@ -1,18 +0,0 @@
-from functools import reduce
-
-from smnp.function.model import Function
-from smnp.function.signature import varargSignature
-from smnp.type.model import Type
-from smnp.type.signature.matcher.type import ofTypes
-
-_signature = varargSignature(ofTypes(Type.LIST))
-def _function(env, vararg):
-    if len(vararg) == 1:
-        return vararg[0]
-
-    combined = reduce(lambda x, y: x.value + y.value, vararg)
-    return Type.list(combined)
-
-
-function = Function(_signature, _function, 'combine')
-

smnp/module/iterable/function/range.py

@@ -1,36 +0,0 @@
-from smnp.function.model import CombinedFunction, Function
-from smnp.function.signature import signature
-from smnp.note.model import Note
-from smnp.type.model import Type
-from smnp.type.signature.matcher.type import ofType
-
-_signature1 = signature(ofType(Type.INTEGER))
-def _function1(env, upper):
-    return Type.list([ Type.integer(i) for i in range(upper.value + 1)])
-
-
-_signature2 = signature(ofType(Type.INTEGER), ofType(Type.INTEGER))
-def _function2(env, lower, upper):
-    return Type.list([ Type.integer(i) for i in range(lower.value, upper.value + 1)])
-
-
-_signature3 = signature(ofType(Type.INTEGER), ofType(Type.INTEGER), ofType(Type.INTEGER))
-def _function3(env, lower, upper, step):
-    return Type.list([ Type.integer(i) for i in range(lower.value, upper.value + 1, step.value)])
-
-
-_signature4 = signature(ofType(Type.NOTE), ofType(Type.NOTE))
-def _function4(env, lower, upper):
-    return Type.list([Type.note(n) for n in Note.range(lower.value, upper.value)])
-
-
-# TODO
-# signature5 = range(note lower, note upper, integer step) OR step = "diatonic" | "chromatic" | "augmented" | "diminish"
-
-function = CombinedFunction(
-    'range',
-    Function(_signature1, _function1),
-    Function(_signature2, _function2),
-    Function(_signature3, _function3),
-    Function(_signature4, _function4),
-)

smnp/module/note/__init__.py

@@ -1,4 +1,4 @@
-from smnp.module.note.function import tuplet, transpose, semitones, octave, duration, interval
+from smnp.module.note.function import note
 
-functions = [ semitones.function, interval.function, transpose.function, tuplet.function ]
-methods = [ duration.function, octave.function ]
+functions = [ note.function ]
+methods = []

smnp/module/note/function/duration.py

@@ -1,11 +0,0 @@
-from smnp.function.model import Function
-from smnp.function.signature import signature
-from smnp.type.model import Type
-from smnp.type.signature.matcher.type import ofType
-
-_signature = signature(ofType(Type.NOTE), ofType(Type.INTEGER))
-def _function(env, note, duration):
-    return Type.note(note.value.withDuration(duration.value))
-
-
-function = Function(_signature, _function, 'withDuration')

smnp/module/note/function/interval.py

@@ -1,27 +0,0 @@
-from smnp.function.model import Function, CombinedFunction
-from smnp.function.signature import varargSignature
-from smnp.note.interval import intervalToString
-from smnp.note.model import Note
-from smnp.type.model import Type
-from smnp.type.signature.matcher.list import listOf
-from smnp.type.signature.matcher.type import ofTypes
-
-_signature1 = varargSignature(ofTypes(Type.NOTE, Type.INTEGER))
-def _function1(env, vararg):
-    withoutPauses = [note.value for note in vararg if note.type == Type.NOTE]
-    if len(withoutPauses) < 2:
-        return Type.list([])
-    semitones = [Note.checkInterval(withoutPauses[i-1], withoutPauses[i]) for i in range(1, len(withoutPauses))]
-    return Type.list([Type.string(intervalToString(s)) for s in semitones]).decompose()
-
-
-_signature2 = varargSignature(listOf(Type.NOTE, Type.INTEGER))
-def _function2(env, vararg):
-    return Type.list([_function1(env, arg.value) for arg in vararg]).decompose()
-
-
-function = CombinedFunction(
-    'interval',
-    Function(_signature1, _function1),
-    Function(_signature2, _function2)
-)

smnp/module/note/function/note.py

@@ -0,0 +1,11 @@
+from smnp.function.model import Function
+from smnp.function.signature import signature
+from smnp.note.model import Note
+from smnp.type.model import Type
+from smnp.type.signature.matcher.type import ofType
+
+_signature = signature(ofType(Type.STRING), ofType(Type.INTEGER), ofType(Type.INTEGER), ofType(Type.BOOL))
+def _function(env, note, octave, duration, dot):
+    return Type.note(Note(note.value, octave.value, duration.value, dot.value))
+
+function = Function(_signature, _function, 'Note')

smnp/module/note/function/octave.py

@@ -1,11 +0,0 @@
-from smnp.function.model import Function
-from smnp.function.signature import signature
-from smnp.type.model import Type
-from smnp.type.signature.matcher.type import ofType
-
-_signature = signature(ofType(Type.NOTE), ofType(Type.INTEGER))
-def _function(env, note, octave):
-    return Type.note(note.value.withOctave(octave.value))
-
-
-function = Function(_signature, _function, 'withOctave')

smnp/module/note/function/semitones.py

@@ -1,25 +0,0 @@
-from smnp.function.model import Function, CombinedFunction
-from smnp.function.signature import varargSignature
-from smnp.note.model import Note
-from smnp.type.model import Type
-from smnp.type.signature.matcher.list import listOf
-from smnp.type.signature.matcher.type import ofTypes
-
-_signature1 = varargSignature(ofTypes(Type.NOTE, Type.INTEGER))
-def _function1(env, vararg):
-    withoutPauses = [note.value for note in vararg if note.type == Type.NOTE]
-    if len(withoutPauses) < 2:
-        return Type.list([])
-    return Type.list([Type.integer(Note.checkInterval(withoutPauses[i-1], withoutPauses[i])) for i in range(1, len(withoutPauses))]).decompose()
-
-
-_signature2 = varargSignature(listOf(Type.NOTE, Type.INTEGER))
-def _function2(env, vararg):
-    return Type.list([_function1(env, arg.value) for arg in vararg]).decompose()
-
-
-function = CombinedFunction(
-    "semitones",
-    Function(_signature1, _function1),
-    Function(_signature2, _function2),
-)

smnp/module/note/function/transpose.py

@@ -1,22 +0,0 @@
-from smnp.function.model import CombinedFunction, Function
-from smnp.function.signature import varargSignature
-from smnp.type.model import Type
-from smnp.type.signature.matcher.list import listOf
-from smnp.type.signature.matcher.type import ofTypes
-
-_signature1 = varargSignature(ofTypes(Type.INTEGER, Type.NOTE), ofTypes(Type.INTEGER))
-def _function1(env, value, vararg):
-    transposed = [Type.note(arg.value.transpose(value.value)) if arg.type == Type.NOTE else arg for arg in vararg]
-    return Type.list(transposed).decompose()
-
-
-_signature2 = varargSignature(listOf(Type.INTEGER, Type.NOTE), ofTypes(Type.INTEGER))
-def _function2(env, value, vararg):
-    return Type.list([_function1(env, value, arg.value) for arg in vararg]).decompose()
-
-
-function = CombinedFunction(
-    'transpose',
-    Function(_signature1, _function1),
-    Function(_signature2, _function2)
-)

smnp/module/note/function/tuplet.py

@@ -1,23 +0,0 @@
-from smnp.function.model import CombinedFunction, Function
-from smnp.function.signature import signature, varargSignature
-from smnp.type.model import Type
-from smnp.type.signature.matcher.list import listOf
-from smnp.type.signature.matcher.type import ofTypes
-
-_signature1 = varargSignature(ofTypes(Type.NOTE), ofTypes(Type.INTEGER), ofTypes(Type.INTEGER))
-def _function1(env, n, m, vararg):
-    t = [Type.note(arg.value.withDuration(int(arg.value.duration * n.value / m.value))) for arg in vararg]
-    return Type.list(t).decompose()
-
-
-
-_signature2 = signature(ofTypes(Type.INTEGER), ofTypes(Type.INTEGER), listOf(Type.NOTE))
-def _function2(env, n, m, notes):
-    return _function1(env, n, m, notes.value)
-
-
-function = CombinedFunction(
-    'tuplet',
-    Function(_signature1, _function1),
-    Function(_signature2, _function2)
-)

smnp/module/string/__init__.py

@@ -1,4 +1,4 @@
-from smnp.module.string.function import concat
+from smnp.module.string.function import stringify
 
-functions = [ concat.function ]
-methods = []
+functions = []
+methods = [ stringify.function ]

smnp/module/string/function/concat.py

@@ -1,11 +0,0 @@
-from smnp.function.model import Function
-from smnp.function.signature import varargSignature
-from smnp.type.model import Type
-from smnp.type.signature.matcher.type import ofType
-
-_signature = varargSignature(ofType(Type.STRING))
-def _function(env, vararg):
-    return Type.string("".join([ arg.value for arg in vararg ]))
-
-
-function = Function(_signature, _function, 'concat')

smnp/module/string/function/stringify.py

@@ -0,0 +1,10 @@
+from smnp.function.model import Function
+from smnp.function.signature import signature
+from smnp.type.model import Type
+from smnp.type.signature.matcher.type import allTypes
+
+_signature = signature(allTypes())
+def _function(env, object):
+    return Type.string(object.stringify())
+
+function = Function(_signature, _function, 'toString')

smnp/module/synth/__init__.py

@@ -1,4 +1,4 @@
-from smnp.module.synth.function import synth, pause
+from smnp.module.synth.function import synth, pause, plot, compile
 
-functions = [ synth.function, pause.function ]
+functions = [ synth.function, pause.function, plot.function, compile.function ]
 methods = []

smnp/module/synth/function/compile.py

@@ -0,0 +1,157 @@
+from smnp.error.runtime import RuntimeException
+from smnp.function.model import Function, CombinedFunction
+from smnp.function.signature import varargSignature
+from smnp.module.synth.lib.wave import compilePolyphony
+
+from smnp.type.model import Type
+from smnp.type.signature.matcher.list import listOf
+from smnp.type.signature.matcher.type import ofTypes, ofType
+
+
+DEFAULT_BPM = 120
+DEFAULT_OVERTONES = [0.4, 0.3, 0.1, 0.1, 0.1]
+DEFAULT_DECAY = 4
+DEFAULT_ATTACK = 100
+DEFAULT_TUNING = 440
+
+
+def getBpm(config):
+    key = Type.string("bpm")
+    if key in config.value:
+        bpm = config.value[key]
+        if bpm.type != Type.INTEGER or bpm.value <= 0:
+            raise RuntimeException("The 'bpm' property must be positive integer", None)
+
+        return bpm.value
+
+    return DEFAULT_BPM
+
+
+def getOvertones(config):
+    key = Type.string("overtones")
+    if key in config.value:
+        overtones = config.value[key]
+        rawOvertones = [overtone.value for overtone in overtones.value]
+        if overtones.type != Type.LIST or not all(overtone.type in [Type.FLOAT, Type.INTEGER] for overtone in overtones.value):
+            raise RuntimeException("The 'overtones' property must be list of floats", None)
+
+        if len(rawOvertones) < 1:
+            raise RuntimeException("The 'overtones' property must contain one overtone at least", None)
+
+        if any(overtone < 0 for overtone in rawOvertones):
+            raise RuntimeException("The 'overtones' property mustn't contain negative values", None)
+
+        if sum(rawOvertones) > 1.0:
+            raise RuntimeException("The 'overtones' property must contain overtones which sum is not greater than 1.0", None)
+
+        return rawOvertones
+
+    return DEFAULT_OVERTONES
+
+
+def getDecay(config):
+    key = Type.string("decay")
+    if key in config.value:
+        decay = config.value[key]
+        if not decay.type in [Type.INTEGER, Type.FLOAT] or decay.value < 0:
+            raise RuntimeException("The 'decay' property must be non-negative integer or float", None)
+
+        return decay.value
+
+    return DEFAULT_DECAY
+
+
+def getAttack(config):
+    key = Type.string("attack")
+    if key in config.value:
+        attack = config.value[key]
+        if not attack.type in [Type.INTEGER, Type.FLOAT] or attack.value < 0:
+            raise RuntimeException("The 'attack' property must be non-negative integer or float", None)
+
+        return attack.value
+
+    return DEFAULT_ATTACK
+
+
+def getTuning(config):
+    key = Type.string("tuning")
+    if key in config.value:
+        tuning = config.value[key]
+        if not tuning.type in [Type.INTEGER, Type.FLOAT] or tuning.value < 0:
+            raise RuntimeException("The 'tuning' property must be non-negative integer or float", None)
+
+        return tuning.value
+
+    return DEFAULT_TUNING
+
+
+class Config:
+    def __init__(self, bpm, overtones, decay, attack, tuning):
+        self.bpm = bpm
+        self.overtones = overtones
+        self.decay = decay
+        self.attack = attack
+        self.tuning = tuning
+
+    @staticmethod
+    def default():
+        return Config(DEFAULT_BPM, DEFAULT_OVERTONES, DEFAULT_DECAY, DEFAULT_ATTACK, DEFAULT_TUNING)
+
+
+_signature1 = varargSignature(listOf(Type.NOTE, Type.INTEGER))
+def _function1(env, notes):
+    return Type.list([Type.float(float(m)) for m in __function1(notes)])
+
+
+def __function1(notes):
+    return compilePolyphony([note.value for note in notes], Config.default())
+
+
+_signature2 = varargSignature(ofTypes(Type.NOTE, Type.INTEGER))
+def _function2(env, notes):
+    return Type.list([Type.float(float(m)) for m in __function2(notes)])
+
+
+def __function2(notes):
+    return compilePolyphony([ notes ], Config.default())
+
+
+_signature3 = varargSignature(listOf(Type.NOTE, Type.INTEGER), ofType(Type.MAP))
+def _function3(env, config, notes):
+    return Type.list([ Type.float(float(m)) for m in __function3(config, notes) ])
+
+
+def __function3(config, notes):
+    rawNotes = [note.value for note in notes]
+
+    bpm = getBpm(config)
+    overtones = getOvertones(config)
+    decay = getDecay(config)
+    attack = getAttack(config)
+    tuning = getTuning(config)
+
+    return compilePolyphony(rawNotes, Config(bpm, overtones, decay, attack, tuning))
+
+
+_signature4 = varargSignature(ofTypes(Type.NOTE, Type.INTEGER), ofType(Type.MAP))
+def _function4(env, config, notes):
+    return Type.list([ Type.float(float(m)) for m in __function4(config, notes) ])
+
+
+def __function4(config, notes):
+    bpm = getBpm(config)
+    overtones = getOvertones(config)
+    decay = getDecay(config)
+    attack = getAttack(config)
+    tuning = getTuning(config)
+
+    return compilePolyphony([ notes ], Config(bpm, overtones, decay, attack, tuning))
+
+
+function = CombinedFunction(
+    'wave',
+    Function(_signature1, _function1),
+    Function(_signature2, _function2),
+    Function(_signature3, _function3),
+    Function(_signature4, _function4),
+)

smnp/module/synth/function/pause.py

@@ -1,13 +1,13 @@
 from smnp.function.model import Function
 from smnp.function.signature import signature
-from smnp.module.synth.lib import player
+from smnp.module.synth.lib.wave import pause
 from smnp.type.model import Type
 from smnp.type.signature.matcher.type import ofTypes
 
 _signature = signature(ofTypes(Type.INTEGER))
 def _function(env, value):
     bpm = env.findVariable('bpm')
-    player.pause(value.value, bpm.value)
+    pause(value.value, bpm.value)
 
 
 function = Function(_signature, _function, 'pause')

smnp/module/synth/function/plot.py

@@ -0,0 +1,13 @@
+from smnp.function.model import Function
+from smnp.function.signature import signature
+from smnp.module.synth.lib.wave import plot
+from smnp.type.model import Type
+from smnp.type.signature.matcher.list import listOf
+
+_signature = signature(listOf(Type.FLOAT))
+def _function(env, wave):
+    rawWave = [ m.value for m in wave.value ]
+    plot(rawWave)
+
+
+function = Function(_signature, _function, 'plotWave')

smnp/module/synth/function/synth.py

@@ -1,25 +1,47 @@
-from smnp.function.model import CombinedFunction, Function
+from smnp.function.model import Function, CombinedFunction
 from smnp.function.signature import varargSignature
-from smnp.module.synth.lib.player import playNotes
+from smnp.module.synth.function import compile
+from smnp.module.synth.lib.wave import play
 from smnp.type.model import Type
 from smnp.type.signature.matcher.list import listOf
-from smnp.type.signature.matcher.type import ofTypes
+from smnp.type.signature.matcher.type import ofTypes, ofType
 
-_signature1 = varargSignature(ofTypes(Type.NOTE, Type.INTEGER))
-def _function1(env, vararg):
-    notes = [arg.value for arg in vararg]
-    bpm = env.findVariable('bpm')
-    playNotes(notes, bpm.value)
+_signature1 = varargSignature(listOf(Type.NOTE, Type.INTEGER))
+def _function1(env, notes):
+    wave = compile.__function1(notes)
+    play(wave)
 
 
-_signature2 = varargSignature(listOf(Type.NOTE, Type.INTEGER))
-def _function2(env, vararg):
-    for arg in vararg:
-        _function1(env, arg.value)
+_signature2 = varargSignature(ofTypes(Type.NOTE, Type.INTEGER))
+def _function2(env, notes):
+    wave = compile.__function2(notes)
+    play(wave)
+
+
+_signature3 = varargSignature(listOf(Type.NOTE, Type.INTEGER), ofType(Type.MAP))
+def _function3(env, config, notes):
+    wave = compile.__function3(config, notes)
+    play(wave)
+
+
+_signature4 = varargSignature(ofTypes(Type.NOTE, Type.INTEGER), ofType(Type.MAP))
+def _function4(env, config, notes):
+    wave = compile.__function4(config, notes)
+    play(wave)
+
+
+_signature5 = varargSignature(listOf(Type.FLOAT))
+def _function5(env, waves):
+    for wave in waves:
+        rawWave = [m.value for m in wave.value]
+        play(rawWave)
 
 
 function = CombinedFunction(
     'synth',
     Function(_signature1, _function1),
-    Function(_signature2, _function2)
+    Function(_signature2, _function2),
+    Function(_signature3, _function3),
+    Function(_signature4, _function4),
+    Function(_signature5, _function5)
 )

smnp/module/synth/lib/player.py

@@ -1,24 +0,0 @@
-import time
-
-from smnp.module.synth.lib.wave import sine
-from smnp.note.model import Note
-
-
-def playNotes(notes, bpm):
-    for note in notes:
-        {
-            Note: play,
-            int: pause
-        }[type(note)](note, bpm)
-
-
-def play(note, bpm):
-    frequency = note.toFrequency()
-    duration = 60 * 4 / note.duration / bpm
-    duration *= 1.5 if note.dot else 1
-    sine(frequency, duration)
-
-
-def pause(value, bpm):
-    time.sleep(60 * 4 / value / bpm)
-

smnp/module/synth/lib/wave.py

@@ -1,12 +1,80 @@
 import time
 
+import matplotlib.pyplot as plt
 import numpy as np
 import sounddevice as sd
 
+from smnp.note.pitch import Tuning
+from smnp.type.model import Type
+
 FS = 44100
 
 
+def pause(value, bpm):
+    time.sleep(60 * 4 / value / bpm)
+
+
+def plot(wave):
+    X = np.arange(len(wave))
+    plt.plot(X, wave)
+    plt.show()
+
+
+def play(wave):
+    sd.play(wave)
+    time.sleep(len(wave) / FS)
+
+
+def compilePolyphony(notes, config):
+    tuning = Tuning(config.tuning)
+    compiledLines = [1 / len(notes) * compileNotes(line, config, tuning) for line in notes]
+    return sum(adjustSize(compiledLines))
+
+
+def adjustSize(compiledLines):
+    maxSize = max(len(line) for line in compiledLines)
+
+    return [np.concatenate([line, np.zeros(maxSize - len(line))]) for line in compiledLines]
+
+
+def compileNotes(notes, config, tuning):
+    dispatcher = {
+        Type.NOTE: lambda note, overtones: sineForNote(note.value, config, tuning),
+        Type.INTEGER: lambda note, overtones: silenceForPause(note.value, config)
+    }
+
+    return np.concatenate([dispatcher[note.type](note, config) for note in notes])
+
+
+def sineForNote(note, config, tuning):
+    frequency = note.toFrequency(tuning)
+    duration = 60 * 4 / note.duration / config.bpm
+    duration *= 1.5 if note.dot else 1
+    return sound(frequency, duration, config)
+
+
+def sound(frequency, duration, config):
+    return attack(decay(sum(overtone * sine((i+1) * frequency, duration) for i, overtone in enumerate(config.overtones) if overtone > 0), config), config)
+
+
+def decay(wave, config):
+    magnitude = np.exp(-config.decay/len(wave) * np.arange(len(wave)))
+
+    return magnitude * wave
+
+
+def attack(wave, config):
+    magnitude = -np.exp(-config.attack / len(wave) * np.arange(len(wave)))+1 \
+    if config.attack > 0 \
+    else np.ones(len(wave))
+
+    return magnitude * wave
+
+
 def sine(frequency, duration):
-    samples = (np.sin(2*np.pi*np.arange(FS*duration)*frequency/FS)).astype(np.float32)
-    sd.play(samples, FS)
-    time.sleep(duration)
+    return (np.sin(2 * np.pi * np.arange(FS * duration) * frequency / FS)).astype(np.float32)
+
+
+def silenceForPause(value, config):
+    duration = 60 * 4 / value / config.bpm
+    return np.zeros(int(FS * duration))

smnp/module/system/__init__.py

@@ -1,4 +1,4 @@
-from smnp.module.system.function import sleep, display, debug, exit, type
+from smnp.module.system.function import sleep, display, displayln, debug, exit, type, read
 
-functions = [ debug.function, display.function, exit.function, sleep.function, type.function ]
+functions = [ debug.function, display.function, displayln.function, exit.function, sleep.function, type.function, read.function ]
 methods = []

smnp/module/system/function/display.py

@@ -4,7 +4,7 @@ from smnp.type.signature.matcher.type import allTypes
 
 _signature = varargSignature(allTypes())
 def _function(env, vararg):
-    print("".join([arg.stringify() for arg in vararg]))
+    print("".join([arg.stringify() for arg in vararg]), end="")
 
 
 function = Function(_signature, _function, 'print')

smnp/module/system/function/displayln.py

@@ -0,0 +1,10 @@
+from smnp.function.model import Function
+from smnp.function.signature import varargSignature
+from smnp.type.signature.matcher.type import allTypes
+
+_signature = varargSignature(allTypes())
+def _function(env, vararg):
+    print("".join([arg.stringify() for arg in vararg]))
+
+
+function = Function(_signature, _function, 'println')

smnp/module/system/function/read.py

@@ -1,3 +1,72 @@
+from smnp.error.runtime import RuntimeException
+from smnp.function.model import CombinedFunction, Function
+from smnp.function.signature import signature
+from smnp.token.tokenizers.bool import boolTokenizer
+from smnp.token.tokenizers.note import noteTokenizer
+from smnp.type.model import Type
+from smnp.type.signature.matcher.type import ofType
+
+_signature1 = signature()
+def _function1(env):
+    value = input()
+    return Type.string(value)
+
+
+_signature2 = signature(ofType(Type.STRING))
+def _function2(env, prompt):
+    print(prompt.value, end="")
+    value = input()
+    return Type.string(value)
+
+
+_signature3 = signature(ofType(Type.TYPE))
+def _function3(env, type):
+    value = input()
+    return getValueAccordingToType(value, type)
+
+
+def getValueAccordingToType(value, type):
+    try:
+        if type.value == Type.STRING:
+            return Type.string(value)
+
+        if type.value == Type.INTEGER:
+            return Type.integer(int(value))
+
+        if type.value == Type.BOOL:
+            consumedChars, token = boolTokenizer(value, 0, 0)
+            if consumedChars > 0:
+                return Type.bool(token.value)
+
+            return ValueError()
+
+        if type.value == Type.NOTE:
+            consumedChars, token = noteTokenizer(value, 0, 0)
+            if consumedChars > 0:
+                return Type.note(token.value)
+
+            raise ValueError()
+
+        raise RuntimeException(f"Type {type.value.name.lower()} is not suuported", None)
+
+    except ValueError:
+        raise RuntimeException(f"Invalid value '{value}' for type {type.value.name.lower()}", None)
+
+
+_signature4 = signature(ofType(Type.STRING), ofType(Type.TYPE))
+def _function4(env, prompt, type):
+    print(prompt.value, end="")
+    value = input()
+    return getValueAccordingToType(value, type)
+
+
+function = CombinedFunction(
+    'read',
+    Function(_signature1, _function1),
+    Function(_signature2, _function2),
+    Function(_signature3, _function3),
+    Function(_signature4, _function4)
+)
 
 # TODO read function
 # def read(args, env):

smnp/module/util/function/rand.py

@@ -1,29 +1,12 @@
-import random as r
+import random
 
-from smnp.error.function import IllegalArgumentException
-from smnp.function.model import Function, CombinedFunction
-from smnp.function.signature import varargSignature
+from smnp.function.model import Function
+from smnp.function.signature import signature
 from smnp.type.model import Type
-from smnp.type.signature.matcher.list import listMatches
-from smnp.type.signature.matcher.type import ofTypes
+from smnp.type.signature.matcher.type import ofType
 
+_signature = signature(ofType(Type.INTEGER), ofType(Type.INTEGER))
+def _function(env, min, max):
+    return Type.integer(random.randint(min.value, max.value))
 
-def forType(t):
-    _signature = varargSignature(listMatches(ofTypes(Type.PERCENT), ofTypes(t)))
-    def _function(env, vararg):
-        choice = r.random()
-        acc = 0
-        if sum(arg.value[0].value for arg in vararg) != 1.0:
-            raise IllegalArgumentException("Sum of all percentage values must be equal 100%")
-        for arg in vararg:
-            percent, item = arg.value
-            acc += percent.value
-            if choice <= acc:
-                return item
-
-    return Function(_signature, _function)
-
-
-function = CombinedFunction('random', *[ forType(t) for t in Type if t != Type.VOID ])
-
-#TODO: sample
+function = Function(_signature, _function, 'rand')

smnp/note/model.py

@@ -16,8 +16,8 @@ class Note:
         self.duration = duration    
         self.dot = dot        
     
-    def toFrequency(self):
-        return self.note.toFrequency() * 2 ** self.octave
+    def toFrequency(self, tuning):
+        return tuning[self.note] * 2 ** self.octave
     
     def transpose(self, interval):
         origIntRepr = self._intRepr()

smnp/note/pitch.py

@@ -2,6 +2,7 @@ from enum import Enum
 
 from smnp.error.note import NoteException
 
+_semitone = 2**(1/12)
 
 class NotePitch(Enum):
     C = 0
@@ -17,21 +18,21 @@ class NotePitch(Enum):
     AIS = 10
     H = 11
 
-    def toFrequency(self):
-        return {
-            NotePitch.C: 16.35,
-            NotePitch.CIS: 17.32,
-            NotePitch.D: 18.35,
-            NotePitch.DIS: 19.45,
-            NotePitch.E: 20.60,
-            NotePitch.F: 21.83,
-            NotePitch.FIS: 23.12,
-            NotePitch.G: 24.50,
-            NotePitch.GIS: 25.96,
-            NotePitch.A: 27.50,
-            NotePitch.AIS: 29.17,
-            NotePitch.H: 30.87
-        }[self]
+    # def toFrequency(self):
+    #     return {
+    #         NotePitch.C: 16.35,
+    #         NotePitch.CIS: 17.32,
+    #         NotePitch.D: 18.35,
+    #         NotePitch.DIS: 19.45,
+    #         NotePitch.E: 20.60,
+    #         NotePitch.F: 21.83,
+    #         NotePitch.FIS: 23.12,
+    #         NotePitch.G: 24.50,
+    #         NotePitch.GIS: 25.96,
+    #         NotePitch.A: 27.50,
+    #         NotePitch.AIS: 29.17,
+    #         NotePitch.H: 30.87
+    #     }[self]
 
     def __str__(self):
         return self.name
@@ -41,11 +42,23 @@ class NotePitch(Enum):
 
     @staticmethod
     def toPitch(string):
-        try:            
+        if string.lower() in stringToPitch:
             return stringToPitch[string.lower()]
-        except KeyError as e:
+
+        if string.upper() in NotePitch.__members__:
+            return NotePitch[string.upper()]
+
         raise NoteException(f"Note '{string}' does not exist")
 
+
+class Tuning(object):
+    def __init__(self, a4=440):
+        self.tuning = { value: a4/_semitone**(57-i) for i, value in enumerate(NotePitch.__members__) }
+
+    def __getitem__(self, item):
+        return self.tuning[str(item)]
+
+
 stringToPitch = {
     'cb': NotePitch.H,
     'c': NotePitch.C,

smnp/program/interpreter.py

@@ -1,6 +1,7 @@
 from smnp.ast.parser import parse
-from smnp.environment.factory import createEnvironment
+from smnp.environment.environment import Environment
 from smnp.error.runtime import RuntimeException
+from smnp.module import functions, methods
 from smnp.program.FileReader import readLines
 from smnp.runtime.evaluator import evaluate
 from smnp.token.tokenizer import tokenize
@@ -9,16 +10,31 @@ from smnp.token.tokenizer import tokenize
 class Interpreter:
 
     @staticmethod
-    def interpretString(string, printTokens=False, printAst=False, execute=True, baseEnvironment=None):
-        return Interpreter._interpret(string.splitlines(), printTokens, printAst, execute, baseEnvironment)
+    def interpretString(string, source, printTokens=False, printAst=False, execute=True, baseEnvironment=None):
+        return Interpreter._interpret(
+            string.splitlines(),
+            source,
+            printTokens,
+            printAst,
+            execute,
+            baseEnvironment,
+        )
 
     @staticmethod
-    def interpretFile(file, printTokens=False, printAst=False, execute=True, baseEnvironment=None):
-        return Interpreter._interpret(readLines(file), printTokens, printAst, execute, baseEnvironment)
+    def interpretFile(file, printTokens=False, printAst=False, execute=True, baseEnvironment=None, source=None):
+        return Interpreter._interpret(
+            readLines(file),
+            source if source is not None else file,
+            printTokens,
+            printAst,
+            execute,
+            baseEnvironment,
+        )
 
     @staticmethod
-    def _interpret(lines, printTokens=False, printAst=False, execute=True, baseEnvironment=None):
-        environment = createEnvironment()
+    def _interpret(lines, source, printTokens=False, printAst=False, execute=True, baseEnvironment=None):
+        environment = Environment([{}], functions, methods, source=source)
+
         if baseEnvironment is not None:
             environment.extend(baseEnvironment)
 
@@ -37,4 +53,5 @@ class Interpreter:
             return environment
         except RuntimeException as e:
             e.environment = environment
+            e.file = environment.source
             raise e

smnp/runtime/evaluator.py

@@ -5,6 +5,7 @@ from smnp.ast.node.function import FunctionDefinition
 from smnp.ast.node.imports import Import
 from smnp.ast.node.program import Program
 from smnp.ast.node.ret import Return
+from smnp.ast.node.throw import Throw
 from smnp.error.runtime import RuntimeException
 from smnp.type.model import Type
 
@@ -69,7 +70,6 @@ class EvaluationResult():
 
 def evaluate(node, environment):
     from smnp.runtime.evaluators.program import ProgramEvaluator
-
     from smnp.runtime.evaluators.expression import expressionEvaluator
     from smnp.runtime.evaluators.condition import IfElseStatementEvaluator
     from smnp.runtime.evaluators.block import BlockEvaluator
@@ -77,6 +77,8 @@ def evaluate(node, environment):
     from smnp.runtime.evaluators.function import FunctionDefinitionEvaluator
     from smnp.runtime.evaluators.function import ReturnEvaluator
     from smnp.runtime.evaluators.extend import ExtendEvaluator
+    from smnp.runtime.evaluators.throw import ThrowEvaluator
+
     result = Evaluator.oneOf(
         Evaluator.forNodes(ProgramEvaluator.evaluate, Program),
         Evaluator.forNodes(IfElseStatementEvaluator.evaluate, IfElse),
@@ -85,6 +87,7 @@ def evaluate(node, environment):
         Evaluator.forNodes(FunctionDefinitionEvaluator.evaluate, FunctionDefinition),
         Evaluator.forNodes(ReturnEvaluator.evaluate, Return),
         Evaluator.forNodes(ExtendEvaluator.evaluate, Extend),
+        Evaluator.forNodes(ThrowEvaluator.evaluate, Throw),
         #Evaluator.forNodes(ImportEvaluator.evaluate, ImportNode),
         #Evaluator.forNodes(FunctionDefinitionEvaluator.evaluate, FunctionDefinitionNode),
         #Evaluator.forNodes(ExtendEvaluator.evaluate, ExtendNode),

smnp/runtime/evaluators/assignment.py

@@ -8,11 +8,7 @@ class AssignmentEvaluator(Evaluator):
     def evaluator(cls, node, environment):
         target = node.left.value
         value = expressionEvaluator(doAssert=True)(node.right, environment).value #TODO check if it isn't necessary to verify 'result' attr of EvaluatioNResult
-        scopeOfExistingVariable = environment.findVariableScope(target)
-        if scopeOfExistingVariable is None:
         environment.scopes[-1][target] = value
-        else:
-            scopeOfExistingVariable[target] = value
 
         return value
 

smnp/runtime/evaluators/asterisk.py

@@ -1,104 +0,0 @@
-from smnp.ast.node.identifier import Identifier
-from smnp.runtime.evaluator import evaluate, Evaluator, EvaluationResult
-from smnp.runtime.evaluators.expression import expressionEvaluator
-from smnp.type.model import Type
-
-
-class AsteriskEvaluator(Evaluator):
-
-    @classmethod
-    def evaluator(cls, node, environment):
-        iterator = expressionEvaluator(doAssert=True)(node.iterator, environment).value #TODO check if it isn't necessary to verify 'result' attr of EvaluatioNResult
-        return Evaluator.oneOf(
-            cls._numberIteratorAsteriskEvaluator(iterator),
-            cls._listIteratorAsteriskEvaluator(iterator),
-            cls._mapIteratorAsteriskEvaluator(iterator)
-        )(node, environment).value #TODO check if it isn't necessary to verify 'result' attr of EvaluatioNResult
-
-    @classmethod
-    def _numberIteratorAsteriskEvaluator(cls, evaluatedIterator):
-        def evaluator(node, environment):
-            if evaluatedIterator.type == Type.INTEGER:
-                results = []
-                automaticVariable = cls._automaticNamedVariable(node.iterator, environment, "_")
-                for i in range(evaluatedIterator.value):
-                    environment.scopes[-1][automaticVariable] = Type.integer(i + 1)
-                    result = evaluate(node.statement, environment).value #TODO check if it isn't necessary to verify 'result' attr of EvaluatioNResult
-                    if result is None or result.type == Type.VOID:
-                        results = None
-
-                    if results is not None:
-                        results.append(result)
-
-                del environment.scopes[-1][automaticVariable]
-
-                return EvaluationResult.OK(Type.list(results).decompose() if results is not None else Type.void())
-
-            return EvaluationResult.FAIL()
-
-        return evaluator
-
-    @classmethod
-    def _automaticNamedVariable(cls, iteratorNode, environment, prefix=''):
-        if type(iteratorNode) == Identifier:
-            return cls._automaticVariableName(environment, prefix, iteratorNode.value, False)
-        else:
-            return cls._automaticVariableName(environment, prefix, '', True)
-
-    @classmethod
-    def _automaticVariableName(cls, environment, prefix='', suffix='', startWithNumber=False):
-        number = 1 if startWithNumber else ''
-        variableName = lambda x: f"{prefix}{x}{suffix}"
-        while environment.findVariableScope(variableName(number)) is not None:
-            if number == '':
-                number = 1
-            else:
-                number += 1
-
-        return variableName(number)
-
-    @classmethod
-    def _listIteratorAsteriskEvaluator(cls, evaluatedIterator):
-        def evaluator(node, environment):
-            if evaluatedIterator.type == Type.LIST:
-                results = []
-                automaticVariableKey = cls._automaticNamedVariable(node.iterator, environment, "_")
-                automaticVariableValue = cls._automaticNamedVariable(node.iterator, environment, "__")
-                for i, v in enumerate(evaluatedIterator.value):
-                    environment.scopes[-1][automaticVariableKey] = Type.integer(i + 1)
-                    environment.scopes[-1][automaticVariableValue] = v
-                    result = evaluate(node.statement, environment).value  # TODO check if it isn't necessary to verify 'result' attr of EvaluatioNResult
-                    if result is not None and result.type != Type.VOID:
-                        results.append(result)
-
-                del environment.scopes[-1][automaticVariableKey]
-                del environment.scopes[-1][automaticVariableValue]
-
-                return EvaluationResult.OK(Type.list(results).decompose())
-
-            return EvaluationResult.FAIL()
-
-        return evaluator
-
-    @classmethod
-    def _mapIteratorAsteriskEvaluator(cls, evaluatedIterator):
-        def evaluator(node, environment):
-            if evaluatedIterator.type == Type.MAP:
-                results = []
-                automaticVariableKey = cls._automaticNamedVariable(node.iterator, environment, "_")
-                automaticVariableValue = cls._automaticNamedVariable(node.iterator, environment, "__")
-                for k, v in evaluatedIterator.value.items():
-                    environment.scopes[-1][automaticVariableKey] = k
-                    environment.scopes[-1][automaticVariableValue] = v
-                    result = evaluate(node.statement, environment).value  # TODO check if it isn't necessary to verify 'result' attr of EvaluatioNResult
-                    if result is not None and result.type != Type.VOID:
-                        results.append(result)
-
-                del environment.scopes[-1][automaticVariableKey]
-                del environment.scopes[-1][automaticVariableValue]
-
-                return EvaluationResult.OK(Type.list(results).decompose())
-
-            return EvaluationResult.FAIL()
-
-        return evaluator

smnp/runtime/evaluators/atom.py

@@ -1,10 +1,11 @@
-from smnp.ast.node.atom import StringLiteral, IntegerLiteral, NoteLiteral, BoolLiteral, TypeLiteral
+from smnp.ast.node.atom import StringLiteral, IntegerLiteral, NoteLiteral, BoolLiteral, TypeLiteral, FloatLiteral
 from smnp.ast.node.identifier import Identifier
 from smnp.ast.node.list import List
 from smnp.ast.node.map import Map
 from smnp.error.runtime import RuntimeException
-from smnp.runtime.evaluator import Evaluator
+from smnp.runtime.evaluator import Evaluator, EvaluationResult
 from smnp.runtime.evaluators.expression import expressionEvaluator
+from smnp.runtime.evaluators.float import FloatEvaluator
 from smnp.runtime.evaluators.iterable import abstractIterableEvaluator
 from smnp.runtime.tools.error import updatePos
 from smnp.type.model import Type
@@ -58,12 +59,15 @@ class MapEvaluator(Evaluator):
     @classmethod
     def evaluator(cls, node, environment):
         map = {}
-        exprEvaluator = expressionEvaluator(doAssert=True)
+        keyEvaluator = Evaluator.oneOf(
+            Evaluator.forNodes(lambda node, environment: EvaluationResult.OK(Type.string(node.value)), Identifier),
+            expressionEvaluator(doAssert=True)
+        )
         for entry in node.children:
-            key = exprEvaluator(entry.key, environment).value
+            key = keyEvaluator(entry.key, environment).value
             if key in map:
                 raise RuntimeException(f"Duplicated key '{key.stringify()}' found in map", entry.pos)
-            map[key] = exprEvaluator(entry.value, environment).value
+            map[key] = expressionEvaluator(doAssert=True)(entry.value, environment).value
 
         return Type.map(map)
 
@@ -85,6 +89,7 @@ class AtomEvaluator(Evaluator):
         return Evaluator.oneOf(
             Evaluator.forNodes(StringEvaluator.evaluate, StringLiteral),
             Evaluator.forNodes(IntegerEvaluator.evaluate, IntegerLiteral),
+            Evaluator.forNodes(FloatEvaluator.evaluate, FloatLiteral),
             Evaluator.forNodes(NoteEvaluator.evaluate, NoteLiteral),
             Evaluator.forNodes(BoolEvaluator.evaluate, BoolLiteral),
             Evaluator.forNodes(TypeEvaluator.evaluate, TypeLiteral),

smnp/runtime/evaluators/block.py

@@ -5,12 +5,12 @@ class BlockEvaluator(Evaluator):
 
     @classmethod
     def evaluator(cls, node, environment):
-        environment.scopes.append({})
+        environment.appendScope()
 
         for child in node.children:
             evaluate(child, environment)
 
-        environment.scopes.pop(-1)
+        environment.popScope()
 
 #
 # def evaluateBlock(block, environment):

smnp/runtime/evaluators/expression.py

@@ -1,6 +1,6 @@
 from smnp.ast.node.condition import IfElse
-from smnp.ast.node.expression import Sum, Relation
-from smnp.ast.node.factor import NotOperator, Power, Loop
+from smnp.ast.node.expression import Sum, Relation, And, Or, Loop
+from smnp.ast.node.factor import NotOperator, Power
 from smnp.ast.node.identifier import FunctionCall, Assignment
 from smnp.ast.node.term import Product
 from smnp.ast.node.unit import MinusOperator, Access
@@ -24,6 +24,8 @@ def expressionEvaluator(doAssert=False):
         from smnp.runtime.evaluators.sum import SumEvaluator
         from smnp.runtime.evaluators.relation import RelationEvaluator
         from smnp.runtime.evaluators.condition import IfElseEvaluator
+        from smnp.runtime.evaluators.logic import AndEvaluator
+        from smnp.runtime.evaluators.logic import OrEvaluator
         result = Evaluator.oneOf(
             Evaluator.forNodes(FunctionCallEvaluator.evaluate, FunctionCall),
             Evaluator.forNodes(MinusEvaluator.evaluate, MinusOperator),
@@ -36,6 +38,8 @@ def expressionEvaluator(doAssert=False):
             Evaluator.forNodes(SumEvaluator.evaluate, Sum),
             Evaluator.forNodes(RelationEvaluator.evaluate, Relation),
             Evaluator.forNodes(IfElseEvaluator.evaluate, IfElse),
+            Evaluator.forNodes(AndEvaluator.evaluate, And),
+            Evaluator.forNodes(OrEvaluator.evaluate, Or),
             AtomEvaluator.evaluate
         )(node, environment)
 
@@ -46,3 +50,15 @@ def expressionEvaluator(doAssert=False):
 
 
     return evaluateExpression
+
+
+def expressionEvaluatorWithMatcher(matcher, exceptionProvider, doAssert=True):
+    def evaluate(node, environment):
+        value = expressionEvaluator(doAssert=doAssert)(node, environment).value
+
+        if not matcher.match(value):
+            raise exceptionProvider(value)
+
+        return value
+
+    return evaluate

smnp/runtime/evaluators/extend.py

@@ -32,8 +32,8 @@ class ExtendEvaluator(Evaluator):
     @classmethod
     def _evaluateMethodDefinition(cls, node, environment, type, variable):
         name = node.name.value
-        signature = argumentsNodeToMethodSignature(node.arguments)
+        defaultArguments, signature = argumentsNodeToMethodSignature(node.arguments, environment)
         arguments = [arg.variable.value for arg in node.arguments]
         body = node.body
-        environment.addCustomMethod(type, variable, name, signature, arguments, body)
+        environment.addCustomMethod(type, variable, name, signature, arguments, body, defaultArguments)
 

smnp/runtime/evaluators/float.py

@@ -0,0 +1,9 @@
+from smnp.runtime.evaluator import Evaluator
+from smnp.type.model import Type
+
+
+class FloatEvaluator(Evaluator):
+
+    @classmethod
+    def evaluator(cls, node, environment):
+        return Type.float(node.value)

smnp/runtime/evaluators/function.py

@@ -4,6 +4,7 @@ from smnp.runtime.evaluators.expression import expressionEvaluator
 from smnp.runtime.evaluators.iterable import abstractIterableEvaluator
 from smnp.runtime.tools.error import updatePos
 from smnp.runtime.tools.signature import argumentsNodeToMethodSignature
+from smnp.type.model import Type
 
 
 class FunctionCallEvaluator(Evaluator):
@@ -24,10 +25,10 @@ class FunctionDefinitionEvaluator(Evaluator):
     def evaluator(cls, node, environment):
         try:
             name = node.name.value
-            signature = argumentsNodeToMethodSignature(node.arguments)
+            defaultArguments, signature = argumentsNodeToMethodSignature(node.arguments, environment)
             arguments = [ arg.variable.value for arg in node.arguments ]
             body = node.body
-            environment.addCustomFunction(name, signature, arguments, body)
+            environment.addCustomFunction(name, signature, arguments, body, defaultArguments)
         except RuntimeException as e:
             raise updatePos(e, node)
 
@@ -38,8 +39,6 @@ class BodyEvaluator(Evaluator):
     def evaluator(cls, node, environment):
         for child in node.children:
             evaluate(child, environment)
-            if environment.callStack[-1].value is not None:
-                return environment.callStack[-1].value
 
 
 class ReturnEvaluator(Evaluator):
@@ -47,7 +46,21 @@ class ReturnEvaluator(Evaluator):
     @classmethod
     def evaluator(cls, node, environment):
         if len(environment.callStack) > 0:
-            returnValue = expressionEvaluator(doAssert=True)(node.value, environment)
-            environment.callStack[-1].value = returnValue.value
+            returnValue = expressionEvaluator()(node.value, environment).value
+            raise Return(returnValue)
+            # Disclaimer
+            # Exception system usage to control program execution flow is really bad idea.
+            # However because of lack of 'goto' instruction equivalent in Python
+            # there is to need to use some mechanism to break function execution on 'return' statement
+            # and immediately go to Environment's method 'invokeFunction()' or 'invokeMethod()',
+            # which can handle value that came with exception and return it to code being executed.
         else:
             raise RuntimeException("Cannot use 'return' statement outside a function or method", node.pos, environment)
+
+
+class Return(Exception):
+    def __init__(self, value):
+        if value is None:
+            value = Type.void()
+
+        self.value = value

smnp/runtime/evaluators/logic.py

@@ -0,0 +1,21 @@
+from smnp.runtime.evaluator import Evaluator
+from smnp.runtime.evaluators.expression import expressionEvaluator
+from smnp.type.model import Type
+
+
+class AndEvaluator(Evaluator):
+
+    @classmethod
+    def evaluator(cls, node, environment):
+        left = expressionEvaluator(doAssert=True)(node.left, environment).value
+        right = expressionEvaluator(doAssert=True)(node.right, environment).value
+        return Type.bool(left.value and right.value)
+
+
+class OrEvaluator(Evaluator):
+
+    @classmethod
+    def evaluator(cls, node, environment):
+        left = expressionEvaluator(doAssert=True)(node.left, environment).value
+        right = expressionEvaluator(doAssert=True)(node.right, environment).value
+        return Type.bool(left.value or right.value)

smnp/runtime/evaluators/loop.py

@@ -13,23 +13,23 @@ class LoopEvaluator(Evaluator):
         parameters = [ identifier.value for identifier in node.parameters ] if type(node.parameters) != NoneNode() else []
 
         try:
-            environment.scopes.append({})
+            environment.appendScope()
 
             output = {
                 Type.INTEGER: cls.numberEvaluator,
                 Type.BOOL: cls.boolEvaluator,
                 Type.LIST: cls.listEvaluator,
                 Type.MAP: cls.mapEvaluator
-            }[iterator.type](node, environment, iterator, parameters)
+            }[iterator.type](node, environment, iterator, parameters, node.filter)
 
-            environment.scopes.pop(-1)
+            environment.popScope()
         except KeyError:
             raise RuntimeException(f"The {iterator.type.name.lower()} type cannot stand as an iterator for loop statement", node.left.pos)
 
         return Type.list(output)
 
     @classmethod
-    def numberEvaluator(cls, node, environment, evaluatedIterator, parameters):
+    def numberEvaluator(cls, node, environment, evaluatedIterator, parameters, filter):
         output = []
 
 
@@ -40,6 +40,7 @@ class LoopEvaluator(Evaluator):
             if len(parameters) > 0:
                 environment.scopes[-1][parameters[0]] = Type.integer(i)
 
+            if cls.doFilter(filter, environment):
                 output.append(evaluate(node.right, environment).value)
 
 
@@ -47,7 +48,20 @@ class LoopEvaluator(Evaluator):
         return output
 
     @classmethod
-    def boolEvaluator(cls, node, environment, evaluatedIterator, parameters):
+    def doFilter(cls, filter, environment):
+        if type(filter) is not NoneNode:
+            evaluation = expressionEvaluator(doAssert=True)(filter, environment).value
+            if evaluation.type != Type.BOOL:
+                raise RuntimeException(f"Expected {Type.BOOL.name.lower()} as filter expression, found {evaluation.type.name.lower()}", filter.pos)
+
+            return evaluation.value
+
+        return True
+
+
+
+    @classmethod
+    def boolEvaluator(cls, node, environment, evaluatedIterator, parameters, filter):
         output = []
 
         if len(parameters) > 0:
@@ -55,13 +69,14 @@ class LoopEvaluator(Evaluator):
 
         condition = evaluatedIterator
         while condition.value:
+            if cls.doFilter(filter, environment):
                 output.append(evaluate(node.right, environment).value)
             condition = expressionEvaluator(doAssert=True)(node.left, environment).value
 
         return output
 
     @classmethod
-    def listEvaluator(cls, node, environment, evaluatedIterator, parameters):
+    def listEvaluator(cls, node, environment, evaluatedIterator, parameters, filter):
         output = []
 
         if len(parameters) > 2:
@@ -74,13 +89,14 @@ class LoopEvaluator(Evaluator):
                 environment.scopes[-1][parameters[0]] = Type.integer(i)
                 environment.scopes[-1][parameters[1]] = value
 
+            if cls.doFilter(filter, environment):
                 output.append(evaluate(node.right, environment).value)
 
         return output
 
 
     @classmethod
-    def mapEvaluator(cls, node, environment, evaluatedIterator, parameters):
+    def mapEvaluator(cls, node, environment, evaluatedIterator, parameters, filter):
         output = []
 
         if len(parameters) > 3:
@@ -99,6 +115,7 @@ class LoopEvaluator(Evaluator):
                 environment.scopes[-1][parameters[2]] = value
                 i += 1
 
+            if cls.doFilter(filter, environment):
                 output.append(evaluate(node.right, environment).value)
 
         return output

smnp/runtime/evaluators/map.py

@@ -1,19 +0,0 @@
-from smnp.error.runtime import RuntimeException
-from smnp.runtime.evaluator import Evaluator
-from smnp.runtime.evaluators.expression import expressionEvaluator
-from smnp.type.model import Type
-
-
-class MapEvaluator(Evaluator):
-
-    @classmethod
-    def evaluator(cls, node, environment):
-        map = {}
-        exprEvaluator = expressionEvaluator(doAssert=True)
-        for entry in node.children:
-            key = exprEvaluator(entry.key, environment).value
-            if key in map:
-                raise RuntimeException(f"Duplicated key '{key.stringify()}' found in map", entry.pos)
-            map[key] = exprEvaluator(entry.value, environment).value
-
-        return Type.map(map)

smnp/runtime/evaluators/minus.py

@@ -11,6 +11,7 @@ class MinusEvaluator(Evaluator):
         try:
             return {
                 Type.INTEGER: cls.evaluateForInteger,
+                Type.FLOAT: cls.evaluateForFloat,
                 Type.STRING: cls.evaluateForString,
                 Type.LIST: cls.evaluateForList
             }[value.type](value.value)
@@ -19,9 +20,12 @@ class MinusEvaluator(Evaluator):
 
     @classmethod
     def evaluateForInteger(cls, value):
-
         return Type.integer(-value)
 
+    @classmethod
+    def evaluateForFloat(cls, value):
+        return Type.float(-value)
+
     @classmethod
     def evaluateForString(cls, value):
         return Type.string(value[::-1])

smnp/runtime/evaluators/power.py

@@ -10,11 +10,12 @@ class PowerEvaluator(Evaluator):
     def evaluator(cls, node, environment):
         left = expressionEvaluator(doAssert=True)(node.left, environment).value
         right = expressionEvaluator(doAssert=True)(node.right, environment).value
+        supportedTypes = [Type.INTEGER, Type.FLOAT]
 
-        if left.type != Type.INTEGER:
-            raise RuntimeException( f"Operator '{node.operator.value}' is supported only by {Type.INTEGER.name.lower()} type", node.left.pos)
+        if not left.type in supportedTypes:
+            raise RuntimeException(f"Operator '{node.operator.value}' is supported only by {Type.INTEGER.name.lower()} type", node.left.pos)
 
-        if right.type != Type.INTEGER:
-            raise RuntimeException( f"Operator '{node.operator.value}' is supported only by {Type.INTEGER.name.lower()} type", node.right.pos)
+        if not right.type in supportedTypes:
+            raise RuntimeException(f"Operator '{node.operator.value}' is supported only by {[t.name.lower() for t in supportedTypes]} type", node.right.pos)
 
         return Type.integer(int(left.value ** right.value))

smnp/runtime/evaluators/product.py

@@ -10,22 +10,36 @@ class ProductEvaluator(Evaluator):
     def evaluator(cls, node, environment):
         left = expressionEvaluator(doAssert=True)(node.left, environment).value
         right = expressionEvaluator(doAssert=True)(node.right, environment).value
+        supportedTypes = [Type.INTEGER, Type.FLOAT]
 
-        if left.type != Type.INTEGER:
+        if not left.type in supportedTypes:
             raise RuntimeException(
-                f"Operator '{node.operator.value}' is supported only by {Type.INTEGER.name.lower()} type", node.left.pos)
+                f"Operator '{node.operator.value}' is supported only by {[t.name.lower() for t in supportedTypes]} type", node.left.pos)
 
-        if right.type != Type.INTEGER:
+        if not right.type in supportedTypes:
             raise RuntimeException(
-                f"Operator '{node.operator.value}' is supported only by {Type.INTEGER.name.lower()} type", node.right.pos)
+                f"Operator '{node.operator.value}' is supported only by {[t.name.lower() for t in supportedTypes]} type", node.right.pos)
 
         if node.operator.value == "*":
-            return Type.integer(int(left.value * right.value))
+            return getProperTypeProvider(left.value * right.value)
 
         if node.operator.value == "/":
             if right.value == 0:
                 raise RuntimeException("Attempt to divide by 0", node.right.pos)
-            return Type.integer(int(left.value / right.value))
+
+            value = left.value / right.value
+
+            if left.type == right.type == Type.INTEGER and int(value) == value:
+                return Type.integer(int(value))
+
+            return getProperTypeProvider(value)
 
         raise RuntimeError("This line should never be reached")
 
+
+def getProperTypeProvider(value):
+    return {
+        int: lambda v: Type.integer(v),
+        float: lambda v: Type.float(v)
+    }[type(value)](value)
+

smnp/runtime/evaluators/relation.py

@@ -21,15 +21,21 @@ class RelationEvaluator(Evaluator):
 
     @classmethod
     def equalOperatorEvaluator(cls, left, operator, right):
+        if left.type in [Type.INTEGER, Type.FLOAT] and right.type in [Type.INTEGER, Type.FLOAT]:
             return Type.bool(left.value == right.value)
 
+        return Type.bool(left.type == right.type and left.value == right.value)
+
     @classmethod
     def notEqualOperatorEvaluator(cls, left, operator, right):
+        if left.type in [Type.INTEGER, Type.FLOAT] and right.type in [Type.INTEGER, Type.FLOAT]:
             return Type.bool(left.value != right.value)
 
+        return Type.bool(left.type != right.type or left.value != right.value)
+
     @classmethod
     def otherRelationOperatorsEvaluator(cls, left, operator, right):
-        if left.type == right.type == Type.INTEGER:
+        if left.type in [Type.INTEGER, Type.FLOAT] and right.type in [Type.INTEGER, Type.FLOAT]:
             if operator.value == ">":
                 return Type.bool(left.value > right.value)
 
@@ -40,7 +46,7 @@ class RelationEvaluator(Evaluator):
                 return Type.bool(left.value < right.value)
 
             if operator.value == "<=":
-                return Type.bool(left.value < right.value)
+                return Type.bool(left.value <= right.value)
 
         raise RuntimeException(f"Operator {operator.value} is not supported by {left.type.name.lower()} and {right.type.name.lower()} types", operator.pos)
 

smnp/runtime/evaluators/sum.py

@@ -11,8 +11,8 @@ class SumEvaluator(Evaluator):
         left = expressionEvaluator(doAssert=True)(node.left, environment).value
         right = expressionEvaluator(doAssert=True)(node.right, environment).value
 
-        if left.type == right.type == Type.INTEGER:
-            return cls.integerEvaluator(left, node.operator, right)
+        if left.type in [Type.INTEGER, Type.FLOAT] and right.type in [Type.INTEGER, Type.FLOAT]:
+            return cls.numberEvaluator(left, node.operator, right)
 
         if left.type == right.type == Type.STRING:
             return cls.stringEvaluator(left, node.operator, right)
@@ -23,15 +23,17 @@ class SumEvaluator(Evaluator):
         if left.type == right.type == Type.MAP:
             return cls.mapEvaluator(left, node.operator, right)
 
-        raise RuntimeException(f"Operator {node.operator.value} is not supported by {left.type.name.lower()} and {right.type.name.lower()} types", node.operator.pos)
+        raise RuntimeException(
+            f"Operator {node.operator.value} is not supported by {left.type.name.lower()} and {right.type.name.lower()} types",
+            node.operator.pos)
 
     @classmethod
-    def integerEvaluator(cls, left, operator, right):
+    def numberEvaluator(cls, left, operator, right):
         if operator.value == "+":
-            return Type.integer(left.value + right.value)
+            return getProperTypeProvider(left.value + right.value)
 
         if operator.value == "-":
-            return Type.integer(left.value - right.value)
+            return getProperTypeProvider(left.value - right.value)
 
         raise RuntimeError("This line should never be reached")
 
@@ -64,3 +66,10 @@ class SumEvaluator(Evaluator):
             raise RuntimeException(f"Operator {operator.value} is not supported by map types", operator.pos)
 
         raise RuntimeError("This line should never be reached")
+
+
+def getProperTypeProvider(value):
+    return {
+        int: lambda v: Type.integer(v),
+        float: lambda v: Type.float(v)
+    }[type(value)](value)

smnp/runtime/evaluators/throw.py

@@ -0,0 +1,17 @@
+from smnp.error.custom import CustomException
+from smnp.error.runtime import RuntimeException
+from smnp.runtime.evaluator import Evaluator
+from smnp.runtime.evaluators.expression import expressionEvaluator
+from smnp.type.model import Type
+
+
+class ThrowEvaluator(Evaluator):
+
+    @classmethod
+    def evaluator(cls, node, environment):
+        string = expressionEvaluator(doAssert=True)(node.value, environment).value
+
+        if string.type != Type.STRING:
+            raise RuntimeException(f"Only {Type.STRING.name.lower()} types can be thrown", node.value.pos)
+
+        raise CustomException(string.value, node.pos)

smnp/runtime/tools/signature.py

@@ -2,7 +2,8 @@ from smnp.ast.node import type as ast
 from smnp.ast.node.none import NoneNode
 from smnp.ast.node.type import TypesList
 from smnp.error.runtime import RuntimeException
-from smnp.function.signature import varargSignature, signature
+from smnp.function.signature import varargSignature, signature, optional
+from smnp.runtime.evaluators.expression import expressionEvaluator, expressionEvaluatorWithMatcher
 from smnp.runtime.tools.error import updatePos
 from smnp.type.model import Type
 from smnp.type.signature.matcher.list import listOfMatchers
@@ -10,11 +11,19 @@ from smnp.type.signature.matcher.map import mapOfMatchers
 from smnp.type.signature.matcher.type import allTypes, oneOf, ofType
 
 
-def argumentsNodeToMethodSignature(node):
+def evaluateDefaultArguments(node, environment):
+    defaultValues = { arg.variable.value: expressionEvaluator(doAssert=True)(arg.optionalValue, environment).value for arg in node.children if type(arg.optionalValue) != NoneNode }
+
+    return defaultValues
+
+
+def argumentsNodeToMethodSignature(node, environment):
     try:
         sign = []
         vararg = None
         argumentsCount = len(node.children)
+        checkPositionOfOptionalArguments(node)
+        defaultArgs = {}
         for i, child in enumerate(node.children):
             matchers = {
                 ast.Type: (lambda c: c.type, typeMatcher),
@@ -22,19 +31,34 @@ def argumentsNodeToMethodSignature(node):
                 TypesList: (lambda c: c, multipleTypeMatcher)
             }
             evaluatedMatcher = matchers[type(child.type)][1](matchers[type(child.type)][0](child))
+
             if child.vararg:
                 if i != argumentsCount - 1:
                     raise RuntimeException("Vararg must be the last argument in signature", child.pos)
                 vararg = evaluatedMatcher
             else:
+                if type(child.optionalValue) != NoneNode:
+                    defaultArgs[child.variable.value] = expressionEvaluatorWithMatcher(
+                        evaluatedMatcher,
+                        exceptionProvider=lambda value: RuntimeException(
+                            f"Value '{value.stringify()}' doesn't match declared type: {evaluatedMatcher.string}", child.optionalValue.pos)
+                    )(child.optionalValue, environment)
+                    evaluatedMatcher = optional(evaluatedMatcher)
                 sign.append(evaluatedMatcher)
 
-
-        return varargSignature(vararg, *sign, wrapVarargInValue=True) if vararg is not None else signature(*sign)
+        return defaultArgs, (varargSignature(vararg, *sign, wrapVarargInValue=True) if vararg is not None else signature(*sign))
     except RuntimeException as e:
         raise updatePos(e, node)
 
 
+def checkPositionOfOptionalArguments(node):
+    firstOptional = next((i for i, v in enumerate(node.children) if type(v.optionalValue) != NoneNode), None) #next(filter(lambda arg: type(arg.optionalValue) != NoneNode, node.children), None)
+    if firstOptional is not None:
+        regularAfterOptional = next((i for i, v in enumerate(node.children[firstOptional:]) if type(v.optionalValue) == NoneNode), None)
+        if regularAfterOptional is not None:
+            raise RuntimeException(f"Optional arguments should be declared at the end of the arguments list", node.children[regularAfterOptional].pos)
+
+
 def multipleTypeMatcher(typeNode):
     subSignature = []
 

smnp/token/tokenizer.py

@@ -2,6 +2,7 @@ from smnp.error.syntax import SyntaxException
 from smnp.token.model import TokenList
 from smnp.token.tokenizers.bool import boolTokenizer
 from smnp.token.tokenizers.comment import commentTokenizer
+from smnp.token.tokenizers.float import floatTokenizer
 from smnp.token.tokenizers.identifier import identifierTokenizer
 from smnp.token.tokenizers.keyword import typeTokenizer
 from smnp.token.tokenizers.note import noteTokenizer
@@ -27,7 +28,9 @@ tokenizers = (
     defaultTokenizer(TokenType.CLOSE_SQUARE),
     defaultTokenizer(TokenType.OPEN_ANGLE),
     defaultTokenizer(TokenType.CLOSE_ANGLE),
+    defaultTokenizer(TokenType.SEMICOLON),
     defaultTokenizer(TokenType.ASTERISK),
+    defaultTokenizer(TokenType.PERCENT),
     defaultTokenizer(TokenType.ASSIGN),
     defaultTokenizer(TokenType.COMMA),
     defaultTokenizer(TokenType.SLASH),
@@ -39,6 +42,7 @@ tokenizers = (
     defaultTokenizer(TokenType.DOT),
 
     # Types
+    separated(floatTokenizer),
     mapValue(separated(regexPatternTokenizer(TokenType.INTEGER, r'\d')), int),
     stringTokenizer,
     noteTokenizer,
@@ -50,6 +54,7 @@ tokenizers = (
     separated(defaultTokenizer(TokenType.RETURN)),
     separated(defaultTokenizer(TokenType.EXTEND)),
     separated(defaultTokenizer(TokenType.IMPORT)),
+    separated(defaultTokenizer(TokenType.THROW)),
     separated(defaultTokenizer(TokenType.FROM)),
     separated(defaultTokenizer(TokenType.WITH)),
     separated(defaultTokenizer(TokenType.ELSE)),

smnp/token/tokenizers/float.py

@@ -0,0 +1,17 @@
+from smnp.token.model import Token
+from smnp.token.tools import regexPatternTokenizer, keywordTokenizer, allOf
+from smnp.token.type import TokenType
+
+
+def createToken(pos, beforeDot, dot, afterDot):
+    rawValue = f"{beforeDot.value}.{afterDot.value}"
+    value = float(rawValue)
+    return Token(TokenType.FLOAT, value, pos, rawValue)
+
+
+floatTokenizer = allOf(
+    regexPatternTokenizer(TokenType.INTEGER, r'\d'),
+    keywordTokenizer(None, "."),
+    regexPatternTokenizer(TokenType.INTEGER, r'\d'),
+    createToken=createToken
+)

smnp/token/tools.py

@@ -61,3 +61,19 @@ def mapValue(tokenizer, mapper):
         return (0, None)
 
     return tokenize
+
+def allOf(*tokenizers, createToken):
+    def combinedTokenizer(input, current, line):
+        consumedChars = 0
+        tokens = []
+        for tokenizer in tokenizers:
+            consumed, token = tokenizer(input, current+consumedChars, line)
+            if consumed > 0:
+                consumedChars += consumed
+                tokens.append(token)
+            else:
+                return (0, None)
+
+        return (consumedChars, createToken((current, line), *tokens))
+
+    return combinedTokenizer

smnp/token/type.py

@@ -12,7 +12,9 @@ class TokenType(Enum):
     CLOSE_SQUARE = ']'
     OPEN_ANGLE = '<'
     CLOSE_ANGLE = '>'
+    SEMICOLON = ';'
     ASTERISK = '*'
+    PERCENT = '%'
     ASSIGN = '='
     ARROW = '->'
     COMMA = ','
@@ -28,6 +30,7 @@ class TokenType(Enum):
     NOT = 'not'
     INTEGER = 'integer'
     STRING = 'string'
+    FLOAT = 'float'
     NOTE = 'note'
     BOOL = 'bool'
     TYPE = 'type'
@@ -35,6 +38,7 @@ class TokenType(Enum):
     RETURN = 'return'
     EXTEND = 'extend'
     IMPORT = 'import'
+    THROW = 'throw'
     FROM = 'from'
     WITH = 'with'
     ELSE = 'else'
@@ -42,7 +46,6 @@ class TokenType(Enum):
     AS = 'as'
     IDENTIFIER = 'identifier'
     COMMENT = 'comment'
-    PERCENT = 'percent'
 
     @property
     def key(self):

smnp/type/model.py

@@ -8,10 +8,10 @@ from smnp.type.value import Value
 
 class Type(Enum):
     INTEGER = (int, lambda x: str(x))
+    FLOAT = (float, lambda x: str(x))
     STRING = (str, lambda x: x)
     LIST = (list, lambda x: f"[{', '.join([e.stringify() for e in x])}]")
     MAP = (dict, lambda x: '{' + ', '.join(f"'{k.stringify()}' -> '{v.stringify()}'" for k, v in x.items()) + '}')
-    PERCENT = (float, lambda x: f"{int(x * 100)}%")
     NOTE = (Note, lambda x: x.note.name)
     BOOL = (bool, lambda x: str(x).lower())
     SOUND = (Sound, lambda x: x.file)
@@ -25,6 +25,10 @@ class Type(Enum):
     def integer(value):
         return Value(Type.INTEGER, value, {})
 
+    @staticmethod
+    def float(value):
+        return Value(Type.FLOAT, value, {})
+
     @staticmethod
     def string(value):
         return Value(Type.STRING, value, {
@@ -51,7 +55,7 @@ class Type(Enum):
             "pitch": Type.string(str(value.note)),
             "octave": Type.integer(value.octave),
             "duration": Type.integer(value.duration),
-            "dot": Type.string('.' if value.dot else '')
+            "dot": Type.bool(value.dot)
         })
 
     @staticmethod

smnp/type/signature/matcher/model.py

@@ -3,6 +3,7 @@ class Matcher:
         self.type = objectType
         self.matcher = matcher
         self.string = string
+        self.optional = False
 
     def match(self, value):
         if self.type is not None and self.type != value.type: