import math import pytest from il65.plylex import lexer, tokens, find_tok_column, literals, reserved, SourceRef from il65.plyparse import * from il65.datatypes import DataType, VarType from il65.constantfold import ConstantFold def lexer_error(sourceref: SourceRef, fmtstring: str, *args: str) -> None: print("ERROR: {}: {}".format(sourceref, fmtstring.format(*args))) def parse_source(src: str) -> AstNode: lexer.lineno = 1 lexer.source_filename = "sourcefile" tfilt = TokenFilter(lexer) result = parser.parse(input=src, tokenfunc=tfilt.token) connect_parents(result, None) return result lexer.error_function = lexer_error def test_lexer_definitions(): assert "ENDL" in tokens assert "GOTO" in tokens assert '+' in literals assert ';' not in literals assert "return" in reserved assert "sub" in reserved assert "A" in reserved assert "if_cc" in reserved test_source_1 = """ %output prg, sys ; c1 ; c2 ~ block $c000 { %import a,b ; comment var foo = 42+true var .matrix(20,30) m = 9.234556 ;comment2 sub calculate () -> () { return } ;z } """ def test_lexer(): lexer.input(test_source_1) lexer.lineno = 1 tokens = list(iter(lexer)) token_types = list(t.type for t in tokens) assert token_types == ['DIRECTIVE', 'NAME', ',', 'NAME', 'ENDL', 'ENDL', 'ENDL', 'BITINVERT', 'NAME', 'INTEGER', '{', 'ENDL', 'DIRECTIVE', 'NAME', ',', 'NAME', 'ENDL', 'ENDL', 'VARTYPE', 'NAME', 'IS', 'INTEGER', '+', 'BOOLEAN', 'ENDL', 'VARTYPE', 'DATATYPE', '(', 'INTEGER', ',', 'INTEGER', ')', 'NAME', 'IS', 'FLOATINGPOINT', 'ENDL', 'ENDL', 'SUB', 'NAME', '(', ')', 'RARROW', '(', ')', '{', 'ENDL', 'RETURN', 'ENDL', '}', 'ENDL', 'ENDL', 'ENDL', 'ENDL', '}', 'ENDL'] directive_token = tokens[12] assert directive_token.type == "DIRECTIVE" assert directive_token.value == "import" assert directive_token.lineno == 9 assert directive_token.lexpos == lexer.lexdata.index("%import") assert find_tok_column(directive_token) == 10 bool_token = tokens[23] assert bool_token.type == "BOOLEAN" assert type(bool_token.value) is bool assert bool_token.value == True def test_lexer_strings(): lexer.input(r"'hello\tbye\n\n' '\n'") lexer.lineno = 1 tokens = list(iter(lexer)) assert len(tokens) == 2 st = tokens[0] assert st.type == "STRING" assert st.value == "hello\tbye\n\n" lexer.input(r"'hello\tbye\n\n'") st = tokens[1] assert st.type == "CHARACTER" assert st.value == '\n' def test_tokenfilter(): lexer.input(test_source_1) lexer.lineno = 1 filter = TokenFilter(lexer) tokens = [] while True: token = filter.token() if not token: break tokens.append(token) token_types = list(t.type for t in tokens) assert token_types == ['DIRECTIVE', 'NAME', ',', 'NAME', 'ENDL', 'BITINVERT', 'NAME', 'INTEGER', '{', 'ENDL', 'DIRECTIVE', 'NAME', ',', 'NAME', 'ENDL', 'VARTYPE', 'NAME', 'IS', 'INTEGER', '+', 'BOOLEAN', 'ENDL', 'VARTYPE', 'DATATYPE', '(', 'INTEGER', ',', 'INTEGER', ')', 'NAME', 'IS', 'FLOATINGPOINT', 'ENDL', 'SUB', 'NAME', '(', ')', 'RARROW', '(', ')', '{', 'ENDL', 'RETURN', 'ENDL', '}', 'ENDL', '}', 'ENDL'] def test_parser(): result = parse_source(test_source_1) assert isinstance(result, Module) assert result.name == "sourcefile" assert result.scope.name == "" assert result.subroutine_usage == {} assert result.scope.parent_scope is None sub = result.scope.lookup("block.calculate") assert isinstance(sub, Subroutine) assert sub.name == "calculate" block = result.scope.lookup("block") assert isinstance(block, Block) assert block.name == "block" bool_vdef = block.scope.nodes[1] assert isinstance(bool_vdef, VarDef) assert isinstance(bool_vdef.value, ExpressionWithOperator) assert isinstance(bool_vdef.value.right, LiteralValue) assert isinstance(bool_vdef.value.right.value, int) assert bool_vdef.value.right.value == 1 assert block.address == 49152 sub2 = block.scope.lookup("calculate") assert sub2 is sub assert sub2.lineref == "src l. 19" all_nodes = list(result.all_nodes()) assert len(all_nodes) == 14 all_nodes = list(result.all_nodes(Subroutine)) assert len(all_nodes) == 1 assert isinstance(all_nodes[0], Subroutine) assert isinstance(all_nodes[0].parent, Scope) assert all_nodes[0] in all_nodes[0].parent.nodes assert all_nodes[0].lineref == "src l. 19" assert all_nodes[0].parent.lineref == "src l. 8" def test_block_nodes(): sref = SourceRef("file", 1, 1) sub1 = Subroutine(name="subaddr", param_spec=[], result_spec=[], address=0xc000, sourceref=sref) sub2 = Subroutine(name="subblock", param_spec=[], result_spec=[], sourceref=sref) sub2.scope = Scope(nodes=[Label(name="start", sourceref=sref)], level="block", sourceref=sref) assert sub1.scope is None assert sub1.nodes == [] assert sub2.scope is not None assert len(sub2.scope.nodes) > 0 def test_parser_2(): src = """~ test { 999(1,2) [zz]() } """ result = parse_source(src) block = result.scope.nodes[0] call = block.scope.nodes[0] assert isinstance(call, SubCall) assert len(call.arguments.nodes) == 2 assert isinstance(call.target, LiteralValue) assert call.target.value == 999 call = block.scope.nodes[1] assert isinstance(call, SubCall) assert len(call.arguments.nodes) == 0 assert isinstance(call.target, Dereference) assert call.target.operand.name == "zz" def test_typespec(): src = """~ test { [$c000.word] = 5 [$c000 .byte] = 5 [AX .word] = 5 [AX .float] = 5 } """ result = parse_source(src) block = result.scope.nodes[0] assignment1, assignment2, assignment3, assignment4 = block.scope.nodes assert assignment1.right.value == 5 assert assignment2.right.value == 5 assert assignment3.right.value == 5 assert assignment4.right.value == 5 assert len(assignment1.left.nodes) == 1 assert len(assignment2.left.nodes) == 1 assert len(assignment3.left.nodes) == 1 assert len(assignment4.left.nodes) == 1 t1 = assignment1.left t2 = assignment2.left t3 = assignment3.left t4 = assignment4.left assert isinstance(t1, Dereference) assert isinstance(t2, Dereference) assert isinstance(t3, Dereference) assert isinstance(t4, Dereference) assert isinstance(t1.operand, LiteralValue) assert isinstance(t2.operand, LiteralValue) assert isinstance(t3.operand, Register) assert isinstance(t4.operand, Register) assert t1.operand.value == 0xc000 assert t2.operand.value == 0xc000 assert t3.operand.name == "AX" assert t4.operand.name == "AX" assert t1.datatype == DataType.WORD assert t2.datatype == DataType.BYTE assert t3.datatype == DataType.WORD assert t4.datatype == DataType.FLOAT assert t1.size is None assert t2.size is None assert t3.size is None assert t4.size is None def test_char_string(): src = """~ test { var x1 = '@' var x2 = 'π' var x3 = 'abc' A = '@' A = 'π' A = 'abc' } """ result = parse_source(src) block = result.scope.nodes[0] var1, var2, var3, assgn1, assgn2, assgn3, = block.scope.nodes assert var1.value.value == '@' assert var2.value.value == 'π' assert var3.value.value == "abc" assert assgn1.right.value == '@' assert assgn2.right.value == 'π' assert assgn3.right.value == "abc" # note: the actual one-charactor-to-bytevalue conversion is done at the very latest, when issuing an assignment statement def test_boolean_int(): src = """~ test { var x1 = true var x2 = false A = true A = false } """ result = parse_source(src) block = result.scope.nodes[0] var1, var2, assgn1, assgn2, = block.scope.nodes assert type(var1.value.value) is int and var1.value.value == 1 assert type(var2.value.value) is int and var2.value.value == 0 assert type(assgn1.right.value) is int and assgn1.right.value == 1 assert type(assgn2.right.value) is int and assgn2.right.value == 0 def test_incrdecr_operators(): sref = SourceRef("test", 1, 1) with pytest.raises(ValueError): IncrDecr(operator="??", sourceref=sref) i = IncrDecr(operator="++", sourceref=sref) assert i.howmuch == 1 def test_symbol_lookup(): sref = SourceRef("test", 1, 1) var1 = VarDef(name="var1", vartype="const", datatype=DataType.WORD, sourceref=sref) var1.value = LiteralValue(value=42, sourceref=sref) var1.value.parent = var1 var2 = VarDef(name="var2", vartype="const", datatype=DataType.FLOAT, sourceref=sref) var2.value = LiteralValue(value=123.456, sourceref=sref) var2.value.parent = var2 label1 = Label(name="outerlabel", sourceref=sref) label2 = Label(name="innerlabel", sourceref=sref) scope_inner = Scope(nodes=[ label2, var2 ], level="block", sourceref=sref) scope_inner.name = "inner" var2.parent = label2.parent = scope_inner scope_outer = Scope(nodes=[ label1, var1, scope_inner ], level="block", sourceref=sref) scope_outer.name = "outer" var1.parent = label1.parent = scope_inner.parent = scope_outer scope_topmost = Scope(nodes=[scope_outer], level="module", sourceref=sref) scope_topmost.name = "topmost" scope_outer.parent = scope_topmost scope_topmost.define_builtin_functions() assert scope_inner.parent_scope is scope_outer assert scope_outer.parent_scope is scope_topmost assert scope_topmost.parent_scope is None assert label1.my_scope() is scope_outer assert var1.my_scope() is scope_outer assert scope_inner.my_scope() is scope_outer assert label2.my_scope() is scope_inner assert var2.my_scope() is scope_inner assert scope_outer.my_scope() is scope_topmost with pytest.raises(LookupError): scope_topmost.my_scope() with pytest.raises(UndefinedSymbolError): scope_inner.lookup("unexisting") with pytest.raises(UndefinedSymbolError): scope_outer.lookup("unexisting") assert scope_inner.lookup("innerlabel") is label2 assert scope_inner.lookup("var2") is var2 assert scope_inner.lookup("outerlabel") is label1 assert scope_inner.lookup("var1") is var1 with pytest.raises(UndefinedSymbolError): scope_outer.lookup("innerlabel") with pytest.raises(UndefinedSymbolError): scope_outer.lookup("var2") assert scope_outer.lookup("var1") is var1 assert scope_outer.lookup("outerlabel") is label1 math_func = scope_inner.lookup("sin") assert isinstance(math_func, BuiltinFunction) assert math_func.name == "sin" and math_func.func is math.sin builtin_func = scope_inner.lookup("abs") assert isinstance(builtin_func, BuiltinFunction) assert builtin_func.name == "abs" and builtin_func.func is abs # test dotted names: with pytest.raises(UndefinedSymbolError): scope_inner.lookup("noscope.nosymbol.nothing") assert scope_inner.lookup("outer.inner.var2") is var2 with pytest.raises(UndefinedSymbolError): scope_inner.lookup("outer.inner.var1") with pytest.raises(UndefinedSymbolError): scope_inner.lookup("outer.var2") assert scope_inner.lookup("outer.var1") is var1 def test_const_numeric_expressions(): src = """~ test { A = 1+2+3+4+5 X = 1+2*5+2 Y = (1+2)*(5+2) A = (((10+20)/2)+5)**3 X = -10-11-12 Y = 1.234 mod (0.9 / 1.2) A = sin(1.234) X = round(4.567)-2 Y = 1+abs(-100) A = ~1 X = -1 A = 4 << (9-3) X = 5000 >> 2 Y = 999//88 } """ result = parse_source(src) if isinstance(result, Module): result.scope.define_builtin_functions() assignments = list(result.all_nodes(Assignment)) e = [a.nodes[1] for a in assignments] assert all(x.is_compiletime_const() for x in e) assert e[0].const_value() == 15 # 1+2+3+4+5 assert e[1].const_value() == 13 # 1+2*5+2 assert e[2].const_value() == 21 # (1+2)*(5+2) assert e[3].const_value() == 8000 # (((10+20)/2)+5)**3 assert e[4].const_value() == -33 # -10-11-12 assert e[5].const_value() == 0.484 # 1.234 mod (0.9 / 1.2) assert math.isclose(e[6].const_value(), 0.9438182093746337) # sin(1.234) assert e[7].const_value() == 3 # round(4.567)-2 assert e[8].const_value() == 101 # 1+abs(-100) assert e[9].const_value() == -2 # ~1 assert e[10].const_value() == -1 # -1 assert e[11].const_value() == 256 # 4 << (9-3) assert e[12].const_value() == 1250 # 5000 >> 2 assert e[13].const_value() == 11 # 999//88 def test_const_logic_expressions(): src = """~ test { A = true or false X = true and false Y = true xor false A = false and false or true X = (false and (false or true)) Y = not (false or true) A = 1 < 2 X = 1 >= 2 Y = 1 == (2+3) } """ result = parse_source(src) assignments = list(result.all_nodes(Assignment)) e = [a.nodes[1] for a in assignments] assert all(x.is_compiletime_const() for x in e) assert e[0].const_value() == True assert e[1].const_value() == False assert e[2].const_value() == True assert e[3].const_value() == True assert e[4].const_value() == False assert e[5].const_value() == False assert e[6].const_value() == True assert e[7].const_value() == False assert e[8].const_value() == False def test_const_other_expressions(): src = """~ test { memory memvar = $c123 A = &memvar ; constant X = &sin ; non-constant Y = [memvar] ; non-constant } """ result = parse_source(src) if isinstance(result, Module): result.scope.define_builtin_functions() assignments = list(result.all_nodes(Assignment)) e = [a.nodes[1] for a in assignments] assert e[0].is_compiletime_const() assert e[0].const_value() == 0xc123 assert not e[1].is_compiletime_const() with pytest.raises(TypeError): e[1].const_value() assert not e[2].is_compiletime_const() with pytest.raises(TypeError): e[2].const_value() def test_vdef_const_folds(): src = """~ test { const cb1 = 123 const cb2 = cb1 const cb3 = cb1*3 } """ result = parse_source(src) if isinstance(result, Module): result.scope.define_builtin_functions() vd = list(result.all_nodes(VarDef)) assert vd[0].name == "cb1" assert vd[0].vartype == VarType.CONST assert vd[0].datatype == DataType.BYTE assert isinstance(vd[0].value, LiteralValue) assert vd[0].value.value == 123 assert vd[1].name == "cb2" assert vd[1].vartype == VarType.CONST assert vd[1].datatype == DataType.BYTE assert isinstance(vd[1].value, SymbolName) assert vd[1].value.name == "cb1" assert vd[2].name == "cb3" assert vd[2].vartype == VarType.CONST assert vd[2].datatype == DataType.BYTE assert isinstance(vd[2].value, ExpressionWithOperator) cf = ConstantFold(result) cf.fold_constants() vd = list(result.all_nodes(VarDef)) assert vd[0].name == "cb1" assert vd[0].vartype == VarType.CONST assert vd[0].datatype == DataType.BYTE assert isinstance(vd[0].value, LiteralValue) assert vd[0].value.value == 123 assert vd[1].name == "cb2" assert vd[1].vartype == VarType.CONST assert vd[1].datatype == DataType.BYTE assert isinstance(vd[1].value, LiteralValue) assert vd[1].value.value == 123 assert vd[2].name == "cb3" assert vd[2].vartype == VarType.CONST assert vd[2].datatype == DataType.BYTE assert isinstance(vd[2].value, LiteralValue) assert vd[2].value.value == 369 def test_vdef_const_expressions(): src = """~ test { var bvar = 99 var .float fvar = sin(1.2-0.3) var .float flt2 = -9.87e-6 bvar ++ fvar ++ flt2 ++ bvar += 2+2 fvar += 2+3 flt2 += 2+4 bvar = 2+5 fvar = 2+6 flt2 = 2+7 } """ result = parse_source(src) if isinstance(result, Module): result.scope.define_builtin_functions() cf = ConstantFold(result) cf.fold_constants() vd = list(result.all_nodes(VarDef)) assert len(vd)==3 assert vd[0].name == "bvar" assert isinstance(vd[0].value, LiteralValue) assert vd[0].value.value == 99 assert vd[1].name == "fvar" assert isinstance(vd[1].value, LiteralValue) assert type(vd[1].value.value) is float assert math.isclose(vd[1].value.value, math.sin(0.9)) assert vd[2].name == "flt2" assert isinstance(vd[2].value, LiteralValue) assert math.isclose(-9.87e-6, vd[2].value.value) # test incrdecr assignment target nodes = list(result.all_nodes(IncrDecr)) assert len(nodes) == 3 assert isinstance(nodes[0].target, SymbolName) assert nodes[0].target.name == "bvar" assert isinstance(nodes[1].target, SymbolName) assert nodes[1].target.name == "fvar" assert isinstance(nodes[2].target, SymbolName) assert nodes[2].target.name == "flt2" # test augassign assignment target nodes = list(result.all_nodes(AugAssignment)) assert len(nodes) == 3 assert isinstance(nodes[0].left, SymbolName) assert nodes[0].left.name == "bvar" assert isinstance(nodes[1].left, SymbolName) assert nodes[1].left.name == "fvar" assert isinstance(nodes[2].left, SymbolName) assert nodes[2].left.name == "flt2" # test assign assignment target nodes = list(result.all_nodes(Assignment)) assert len(nodes) == 3 assert isinstance(nodes[0].left, SymbolName) assert nodes[0].left.name == "bvar" assert isinstance(nodes[1].left, SymbolName) assert nodes[1].left.name == "fvar" assert isinstance(nodes[2].left, SymbolName) assert nodes[2].left.name == "flt2"