shard-ameba/spec/ameba/ast/util_spec.cr
2021-11-16 22:30:33 +01:00

433 lines
12 KiB
Crystal

require "../../spec_helper"
require "semantic_version"
module Ameba::AST
struct Test
include Util
end
subject = Test.new
describe Util do
describe "#literal?" do
[
Crystal::ArrayLiteral.new,
Crystal::BoolLiteral.new(false),
Crystal::CharLiteral.new('a'),
Crystal::HashLiteral.new,
Crystal::NamedTupleLiteral.new,
Crystal::NilLiteral.new,
Crystal::NumberLiteral.new(42),
Crystal::RegexLiteral.new(Crystal::StringLiteral.new("")),
Crystal::StringLiteral.new(""),
Crystal::SymbolLiteral.new(""),
Crystal::TupleLiteral.new([] of Crystal::ASTNode),
Crystal::RangeLiteral.new(
Crystal::NilLiteral.new,
Crystal::NilLiteral.new,
true),
].each do |literal|
it "returns true if node is #{literal}" do
subject.literal?(literal).should be_true
end
end
it "returns false if node is not a literal" do
subject.literal?(Crystal::Nop).should be_false
end
end
describe "#node_source" do
it "returns original source of the node" do
s = <<-CRYSTAL
a = 1
CRYSTAL
node = Crystal::Parser.new(s).parse
source = subject.node_source node, s.split("\n")
source.should eq "a = 1"
end
it "returns original source of multiline node" do
s = <<-CRYSTAL
if ()
:ok
end
CRYSTAL
node = Crystal::Parser.new(s).parse
source = subject.node_source node, s.split("\n")
source.should eq <<-CRYSTAL
if ()
:ok
end
CRYSTAL
end
it "does not report source of node which has incorrect location" do
s = <<-'CRYSTAL'
module MyModule
macro conditional_error_for_inline_callbacks
\{%
raise ""
%}
end
macro before_save(x = nil)
end
end
CRYSTAL
node = as_nodes(s).nil_literal_nodes.first
source = subject.node_source node, s.split("\n")
if SemanticVersion.parse(Crystal::VERSION) <= SemanticVersion.parse("0.35.1")
source.should be_nil
else
source.should eq "nil"
end
end
end
describe "#flow_command?" do
it "returns true if this is return" do
node = as_node("return 22")
subject.flow_command?(node, false).should eq true
end
it "returns true if this is a break in a loop" do
node = as_node("break")
subject.flow_command?(node, true).should eq true
end
it "returns false if this is a break out of loop" do
node = as_node("break")
subject.flow_command?(node, false).should eq false
end
it "returns true if this is a next in a loop" do
node = as_node("next")
subject.flow_command?(node, true).should eq true
end
it "returns false if this is a next out of loop" do
node = as_node("next")
subject.flow_command?(node, false).should eq false
end
it "returns true if this is raise" do
node = as_node("raise e")
subject.flow_command?(node, false).should eq true
end
it "returns true if this is exit" do
node = as_node("exit")
subject.flow_command?(node, false).should eq true
end
it "returns true if this is abort" do
node = as_node("abort")
subject.flow_command?(node, false).should eq true
end
it "returns false otherwise" do
node = as_node("foobar")
subject.flow_command?(node, false).should eq false
end
end
describe "#flow_expression?" do
it "returns true if this is a flow command" do
node = as_node("return")
subject.flow_expression?(node, true).should eq true
end
it "returns true if this is if-else consumed by flow expressions" do
node = as_node <<-CRYSTAL
if foo
return :foo
else
return :bar
end
CRYSTAL
subject.flow_expression?(node, false).should eq true
end
it "returns true if this is unless-else consumed by flow expressions" do
node = as_node <<-CRYSTAL
unless foo
return :foo
else
return :bar
end
CRYSTAL
subject.flow_expression?(node).should eq true
end
it "returns true if this is case consumed by flow expressions" do
node = as_node <<-CRYSTAL
case
when 1
return 1
when 2
return 2
else
return 3
end
CRYSTAL
subject.flow_expression?(node).should eq true
end
it "returns true if this is exception handler consumed by flow expressions" do
node = as_node <<-CRYSTAL
begin
raise "exp"
rescue e
return e
end
CRYSTAL
subject.flow_expression?(node).should eq true
end
it "returns true if this while consumed by flow expressions" do
node = as_node <<-CRYSTAL
while true
return
end
CRYSTAL
subject.flow_expression?(node).should eq true
end
it "returns false if this while with break" do
node = as_node <<-CRYSTAL
while true
break
end
CRYSTAL
subject.flow_expression?(node).should eq false
end
it "returns true if this until consumed by flow expressions" do
node = as_node <<-CRYSTAL
until false
return
end
CRYSTAL
subject.flow_expression?(node).should eq true
end
it "returns false if this until with break" do
node = as_node <<-CRYSTAL
until false
break
end
CRYSTAL
subject.flow_expression?(node).should eq false
end
it "returns true if this expressions consumed by flow expressions" do
node = as_node <<-CRYSTAL
exp1
exp2
return
CRYSTAL
subject.flow_expression?(node).should eq true
end
it "returns false otherwise" do
node = as_node <<-CRYSTAL
exp1
exp2
CRYSTAL
subject.flow_expression?(node).should eq false
end
end
describe "#raise?" do
it "returns true if this is a raise method call" do
node = as_node "raise e"
subject.raise?(node).should eq true
end
it "returns false if it has a receiver" do
node = as_node "obj.raise e"
subject.raise?(node).should eq false
end
it "returns false if size of the arguments doesn't match" do
node = as_node "raise"
subject.raise?(node).should eq false
end
end
describe "#exit?" do
it "returns true if this is a exit method call" do
node = as_node "exit"
subject.exit?(node).should eq true
end
it "returns true if this is a exit method call with one argument" do
node = as_node "exit 1"
subject.exit?(node).should eq true
end
it "returns false if it has a receiver" do
node = as_node "obj.exit"
subject.exit?(node).should eq false
end
it "returns false if size of the arguments doesn't match" do
node = as_node "exit 1, 1"
subject.exit?(node).should eq false
end
end
describe "#abort?" do
it "returns true if this is an abort method call" do
node = as_node "abort"
subject.abort?(node).should eq true
end
it "returns true if this is an abort method call with one argument" do
node = as_node "abort \"message\""
subject.abort?(node).should eq true
end
it "returns true if this is an abort method call with two arguments" do
node = as_node "abort \"message\", 1"
subject.abort?(node).should eq true
end
it "returns false if it has a receiver" do
node = as_node "obj.abort"
subject.abort?(node).should eq false
end
it "returns false if size of the arguments doesn't match" do
node = as_node "abort 1, 1, 1"
subject.abort?(node).should eq false
end
end
describe "#loop?" do
it "returns true if this is a loop method call" do
node = as_node "loop"
subject.loop?(node).should eq true
end
it "returns false if it has a receiver" do
node = as_node "obj.loop"
subject.loop?(node).should eq false
end
it "returns false if size of the arguments doesn't match" do
node = as_node "loop 1"
subject.loop?(node).should eq false
end
end
describe "#control_exp_code" do
it "returns the exp code of a control expression" do
s = "return 1"
node = as_node(s).as Crystal::ControlExpression
exp_code = subject.control_exp_code node, [s]
exp_code.should eq "1"
end
it "wraps implicit tuple literal with curly brackets" do
s = "return 1, 2"
node = as_node(s).as Crystal::ControlExpression
exp_code = subject.control_exp_code node, [s]
exp_code.should eq "{1, 2}"
end
it "accepts explicit tuple literal" do
s = "return {1, 2}"
node = as_node(s).as Crystal::ControlExpression
exp_code = subject.control_exp_code node, [s]
exp_code.should eq "{1, 2}"
end
end
describe "#name_end_location" do
it "works on method call" do
node = as_node("name(foo)").as Crystal::Call
subject.name_end_location(node).to_s.should eq ":1:4"
end
it "works on method definition" do
node = as_node("def name; end").as Crystal::Def
subject.name_end_location(node).to_s.should eq ":1:8"
end
it "works on macro definition" do
node = as_node("macro name; end").as Crystal::Macro
subject.name_end_location(node).to_s.should eq ":1:10"
end
it "works on class definition" do
node = as_node("class Name; end").as Crystal::ClassDef
subject.name_end_location(node).to_s.should eq ":1:10"
end
it "works on module definition" do
node = as_node("module Name; end").as Crystal::ModuleDef
subject.name_end_location(node).to_s.should eq ":1:11"
end
it "works on annotation definition" do
node = as_node("annotation Name; end").as Crystal::AnnotationDef
subject.name_end_location(node).to_s.should eq ":1:15"
end
it "works on enum definition" do
node = as_node("enum Name; end").as Crystal::EnumDef
subject.name_end_location(node).to_s.should eq ":1:9"
end
it "works on alias definition" do
node = as_node("alias Name = Foo").as Crystal::Alias
subject.name_end_location(node).to_s.should eq ":1:10"
end
it "works on generic" do
node = as_node("Name(Foo)").as Crystal::Generic
subject.name_end_location(node).to_s.should eq ":1:4"
end
it "works on include" do
node = as_node("include Name").as Crystal::Include
subject.name_end_location(node).to_s.should eq ":1:12"
end
it "works on extend" do
node = as_node("extend Name").as Crystal::Extend
subject.name_end_location(node).to_s.should eq ":1:11"
end
it "works on variable type declaration" do
node = as_node("name : Foo").as Crystal::TypeDeclaration
subject.name_end_location(node).to_s.should eq ":1:4"
end
it "works on uninitialized variable" do
node = as_node("name = uninitialized Foo").as Crystal::UninitializedVar
subject.name_end_location(node).to_s.should eq ":1:4"
end
it "works on lib definition" do
node = as_node("lib Name; end").as Crystal::LibDef
subject.name_end_location(node).to_s.should eq ":1:8"
end
it "works on lib type definition" do
node = as_node("lib Foo; type Name = Bar; end").as(Crystal::LibDef).body
node.class.should eq Crystal::TypeDef
subject.name_end_location(node).to_s.should eq ":1:18"
end
it "works on metaclass" do
node = as_node("foo : Name.class").as(Crystal::TypeDeclaration).declared_type
node.class.should eq Crystal::Metaclass
subject.name_end_location(node).to_s.should eq ":1:10"
end
end
end
end