# frozen_string_literal: false
require 'rdoc/test_case'
=begin
TODO: test call-seq parsing
/*
* call-seq:
* ARGF.readlines(sep=$/) -> array
* ARGF.readlines(limit) -> array
* ARGF.readlines(sep, limit) -> array
*
* ARGF.to_a(sep=$/) -> array
* ARGF.to_a(limit) -> array
* ARGF.to_a(sep, limit) -> array
*
* Reads +ARGF+'s current file in its entirety, returning an +Array+ of its
* lines, one line per element. Lines are assumed to be separated by _sep_.
*
* lines = ARGF.readlines
* lines[0] #=> "This is line one\n"
*/
assert call-seq did not stop at first empty line
/*
* call-seq:
*
* flt ** other -> float
*
* Raises float
the other
power.
*
* 2.0**3 #=> 8.0
*/
assert call-seq correct (bug: was empty)
/* call-seq: flt ** other -> float */
assert call-seq correct
=end
class TestRDocParserC < RDoc::TestCase
def setup
super
@tempfile = Tempfile.new self.class.name
filename = @tempfile.path
@top_level = @store.add_file filename
@fn = filename
@options = RDoc::Options.new
@options.verbosity = 2
@stats = RDoc::Stats.new @store, 0
end
def teardown
super
@tempfile.close!
end
def test_class_can_parse
c_parser = RDoc::Parser::C
temp_dir do
FileUtils.touch 'file.C'
assert_equal c_parser, c_parser.can_parse('file.C')
FileUtils.touch 'file.CC'
assert_equal c_parser, c_parser.can_parse('file.CC')
FileUtils.touch 'file.H'
assert_equal c_parser, c_parser.can_parse('file.H')
FileUtils.touch 'file.HH'
assert_equal c_parser, c_parser.can_parse('file.HH')
FileUtils.touch 'file.c'
assert_equal c_parser, c_parser.can_parse('file.c')
FileUtils.touch 'file.cc'
assert_equal c_parser, c_parser.can_parse('file.cc')
FileUtils.touch 'file.cpp'
assert_equal c_parser, c_parser.can_parse('file.cpp')
FileUtils.touch 'file.cxx'
assert_equal c_parser, c_parser.can_parse('file.cxx')
FileUtils.touch 'file.h'
assert_equal c_parser, c_parser.can_parse('file.h')
FileUtils.touch 'file.hh'
assert_equal c_parser, c_parser.can_parse('file.hh')
FileUtils.touch 'file.y'
assert_equal c_parser, c_parser.can_parse('file.y')
end
end
def test_initialize
some_ext = @top_level.add_class RDoc::NormalClass, 'SomeExt'
@top_level.add_class RDoc::SingleClass, 'SomeExtSingle'
@store.cache[:c_class_variables] = {
@fn => { 'cSomeExt' => 'SomeExt' }
}
@store.cache[:c_singleton_class_variables] = {
@fn => { 'cSomeExtSingle' => 'SomeExtSingle' }
}
parser = RDoc::Parser::C.new @top_level, @fn, '', @options, @stats
expected = { 'cSomeExt' => some_ext }
assert_equal expected, parser.classes
expected = { 'cSomeExtSingle' => 'SomeExtSingle' }
assert_equal expected, parser.singleton_classes
expected = {
'cSomeExt' => 'SomeExt',
'cSomeExtSingle' => 'SomeExtSingle',
}
known_classes = parser.known_classes.delete_if do |key, _|
RDoc::KNOWN_CLASSES.keys.include? key
end
assert_equal expected, known_classes
end
def test_do_attr_rb_attr
content = <<-EOF
void Init_Blah(void) {
cBlah = rb_define_class("Blah", rb_cObject);
/*
* This is an accessor
*/
rb_attr(cBlah, rb_intern("accessor"), 1, 1, Qfalse);
/*
* This is a reader
*/
rb_attr(cBlah, rb_intern("reader"), 1, 0, Qfalse);
/*
* This is a writer
*/
rb_attr(cBlah, rb_intern("writer"), 0, 1, Qfalse);
}
EOF
klass = util_get_class content, 'cBlah'
attrs = klass.attributes
assert_equal 3, attrs.length, attrs.inspect
accessor = attrs.shift
assert_equal 'accessor', accessor.name
assert_equal 'RW', accessor.rw
assert_equal 'This is an accessor', accessor.comment.text
assert_equal @top_level, accessor.file
reader = attrs.shift
assert_equal 'reader', reader.name
assert_equal 'R', reader.rw
assert_equal 'This is a reader', reader.comment.text
writer = attrs.shift
assert_equal 'writer', writer.name
assert_equal 'W', writer.rw
assert_equal 'This is a writer', writer.comment.text
end
def test_do_attr_rb_attr_2
content = <<-EOF
void Init_Blah(void) {
cBlah = rb_define_class("Blah", rb_cObject);
/*
* This is an accessor
*/
rb_attr(cBlah, rb_intern_const("accessor"), 1, 1, Qfalse);
/*
* This is a reader
*/
rb_attr(cBlah, rb_intern_const("reader"), 1, 0, Qfalse);
/*
* This is a writer
*/
rb_attr(cBlah, rb_intern_const("writer"), 0, 1, Qfalse);
}
EOF
klass = util_get_class content, 'cBlah'
attrs = klass.attributes
assert_equal 3, attrs.length, attrs.inspect
accessor = attrs.shift
assert_equal 'accessor', accessor.name
assert_equal 'RW', accessor.rw
assert_equal 'This is an accessor', accessor.comment.text
assert_equal @top_level, accessor.file
reader = attrs.shift
assert_equal 'reader', reader.name
assert_equal 'R', reader.rw
assert_equal 'This is a reader', reader.comment.text
writer = attrs.shift
assert_equal 'writer', writer.name
assert_equal 'W', writer.rw
assert_equal 'This is a writer', writer.comment.text
end
def test_do_attr_rb_define_attr
content = <<-EOF
void Init_Blah(void) {
cBlah = rb_define_class("Blah", rb_cObject);
/*
* This is an accessor
*/
rb_define_attr(cBlah, "accessor", 1, 1);
}
EOF
klass = util_get_class content, 'cBlah'
attrs = klass.attributes
assert_equal 1, attrs.length, attrs.inspect
accessor = attrs.shift
assert_equal 'accessor', accessor.name
assert_equal 'RW', accessor.rw
assert_equal 'This is an accessor', accessor.comment.text
assert_equal @top_level, accessor.file
end
def test_do_aliases
content = <<-EOF
/*
* This should show up as an alias with documentation
*/
VALUE blah(VALUE klass, VALUE year) {
}
void Init_Blah(void) {
cDate = rb_define_class("Date", rb_cObject);
rb_define_method(cDate, "blah", blah, 1);
rb_define_alias(cDate, "bleh", "blah");
}
EOF
klass = util_get_class content, 'cDate'
methods = klass.method_list
assert_equal 2, methods.length
assert_equal 'bleh', methods.last.name
assert_equal 'blah', methods.last.is_alias_for.name
assert_equal @top_level, methods.last.is_alias_for.file
assert_equal @top_level, methods.last.file
end
def test_do_aliases_singleton
content = <<-EOF
/*
* This should show up as a method with documentation
*/
VALUE blah(VALUE klass, VALUE year) {
}
void Init_Blah(void) {
cDate = rb_define_class("Date", rb_cObject);
sDate = rb_singleton_class(cDate);
rb_define_method(sDate, "blah", blah, 1);
/*
* This should show up as an alias
*/
rb_define_alias(sDate, "bleh", "blah");
}
EOF
klass = util_get_class content, 'cDate'
methods = klass.method_list
assert_equal 2, methods.length
assert_equal 'bleh', methods.last.name
assert methods.last.singleton
assert_equal 'blah', methods.last.is_alias_for.name
assert_equal 'This should show up as an alias', methods.last.comment.text
end
def test_do_classes_boot_class
content = <<-EOF
/* Document-class: Foo
* this is the Foo boot class
*/
VALUE cFoo = boot_defclass("Foo", rb_cObject);
EOF
klass = util_get_class content, 'cFoo'
assert_equal "this is the Foo boot class", klass.comment.text
assert_equal 'Object', klass.superclass
end
def test_do_classes_boot_class_nil
content = <<-EOF
/* Document-class: Foo
* this is the Foo boot class
*/
VALUE cFoo = boot_defclass("Foo", 0);
EOF
klass = util_get_class content, 'cFoo'
assert_equal "this is the Foo boot class", klass.comment.text
assert_equal nil, klass.superclass
end
def test_do_aliases_missing_class
content = <<-EOF
void Init_Blah(void) {
rb_define_alias(cDate, "b", "a");
}
EOF
_, err = verbose_capture_io do
refute util_get_class(content, 'cDate')
end
assert_equal "Enclosing class or module \"cDate\" for alias b a is not known\n",
err
end
def test_do_classes_class
content = <<-EOF
/* Document-class: Foo
* this is the Foo class
*/
VALUE cFoo = rb_define_class("Foo", rb_cObject);
EOF
klass = util_get_class content, 'cFoo'
assert_equal "this is the Foo class", klass.comment.text
end
def test_do_classes_struct
content = <<-EOF
/* Document-class: Foo
* this is the Foo class
*/
VALUE cFoo = rb_struct_define_without_accessor(
"Foo", rb_cObject, foo_alloc,
"some", "various", "fields", NULL);
EOF
klass = util_get_class content, 'cFoo'
assert_equal "this is the Foo class", klass.comment.text
end
def test_do_classes_class_under
content = <<-EOF
/* Document-class: Kernel::Foo
* this is the Foo class under Kernel
*/
VALUE cFoo = rb_define_class_under(rb_mKernel, "Foo", rb_cObject);
EOF
klass = util_get_class content, 'cFoo'
assert_equal 'Kernel::Foo', klass.full_name
assert_equal "this is the Foo class under Kernel", klass.comment.text
end
def test_do_classes_class_under_rb_path2class
content = <<-EOF
/* Document-class: Kernel::Foo
* this is Kernel::Foo < A::B
*/
VALUE cFoo = rb_define_class_under(rb_mKernel, "Foo", rb_path2class("A::B"));
EOF
klass = util_get_class content, 'cFoo'
assert_equal 'Kernel::Foo', klass.full_name
assert_equal 'A::B', klass.superclass
assert_equal 'this is Kernel::Foo < A::B', klass.comment.text
end
def test_do_classes_singleton
content = <<-EOF
VALUE cFoo = rb_define_class("Foo", rb_cObject);
VALUE cFooS = rb_singleton_class(cFoo);
EOF
util_get_class content, 'cFooS'
assert_equal 'Foo', @parser.singleton_classes['cFooS']
end
def test_do_classes_module
content = <<-EOF
/* Document-module: Foo
* this is the Foo module
*/
VALUE mFoo = rb_define_module("Foo");
EOF
klass = util_get_class content, 'mFoo'
assert_equal "this is the Foo module", klass.comment.text
end
def test_do_classes_module_under
content = <<-EOF
/* Document-module: Kernel::Foo
* this is the Foo module under Kernel
*/
VALUE mFoo = rb_define_module_under(rb_mKernel, "Foo");
EOF
klass = util_get_class content, 'mFoo'
assert_equal "this is the Foo module under Kernel", klass.comment.text
end
def test_do_constants
content = <<-EOF
#include
void Init_foo(){
VALUE cFoo = rb_define_class("Foo", rb_cObject);
/* 300: The highest possible score in bowling */
rb_define_const(cFoo, "PERFECT", INT2FIX(300));
/* Huzzah!: What you cheer when you roll a perfect game */
rb_define_const(cFoo, "CHEER", rb_str_new2("Huzzah!"));
/* TEST\:TEST: Checking to see if escaped colon works */
rb_define_const(cFoo, "TEST", rb_str_new2("TEST:TEST"));
/* \\: The file separator on MS Windows */
rb_define_const(cFoo, "MSEPARATOR", rb_str_new2("\\"));
/* /: The file separator on Unix */
rb_define_const(cFoo, "SEPARATOR", rb_str_new2("/"));
/* C:\\Program Files\\Stuff: A directory on MS Windows */
rb_define_const(cFoo, "STUFF", rb_str_new2("C:\\Program Files\\Stuff"));
/* Default definition */
rb_define_const(cFoo, "NOSEMI", INT2FIX(99));
rb_define_const(cFoo, "NOCOMMENT", rb_str_new2("No comment"));
/*
* Multiline comment goes here because this comment spans multiple lines.
* Multiline comment goes here because this comment spans multiple lines.
*/
rb_define_const(cFoo, "MULTILINE", INT2FIX(1));
/*
* 1: Multiline comment goes here because this comment spans multiple lines.
* Multiline comment goes here because this comment spans multiple lines.
*/
rb_define_const(cFoo, "MULTILINE_VALUE", INT2FIX(1));
/* Multiline comment goes here because this comment spans multiple lines.
* Multiline comment goes here because this comment spans multiple lines.
*/
rb_define_const(cFoo, "MULTILINE_NOT_EMPTY", INT2FIX(1));
/*
* Multiline comment goes here because this comment spans multiple lines.
* 1: However, the value extraction should only happen for the first line
*/
rb_define_const(cFoo, "MULTILINE_COLON_ON_SECOND_LINE", INT2FIX(1));
}
EOF
@parser = util_parser content
@parser.do_classes
@parser.do_constants
klass = @parser.classes['cFoo']
assert klass
constants = klass.constants
assert !klass.constants.empty?
assert_equal @top_level, constants.first.file
constants = constants.map { |c| [c.name, c.value, c.comment.text] }
assert_equal ['PERFECT', '300', 'The highest possible score in bowling '],
constants.shift
assert_equal ['CHEER', 'Huzzah!',
'What you cheer when you roll a perfect game '],
constants.shift
assert_equal ['TEST', 'TEST:TEST',
'Checking to see if escaped colon works '],
constants.shift
assert_equal ['MSEPARATOR', '\\',
'The file separator on MS Windows '],
constants.shift
assert_equal ['SEPARATOR', '/',
'The file separator on Unix '],
constants.shift
assert_equal ['STUFF', 'C:\\Program Files\\Stuff',
'A directory on MS Windows '],
constants.shift
assert_equal ['NOSEMI', 'INT2FIX(99)',
'Default definition '],
constants.shift
assert_equal ['NOCOMMENT', 'rb_str_new2("No comment")', ''],
constants.shift
comment = <<-EOF.chomp
Multiline comment goes here because this comment spans multiple lines.
Multiline comment goes here because this comment spans multiple lines.
EOF
assert_equal ['MULTILINE', 'INT2FIX(1)', comment], constants.shift
assert_equal ['MULTILINE_VALUE', '1', comment], constants.shift
assert_equal ['MULTILINE_NOT_EMPTY', 'INT2FIX(1)', comment], constants.shift
comment = <<-EOF.chomp
Multiline comment goes here because this comment spans multiple lines.
1: However, the value extraction should only happen for the first line
EOF
assert_equal ['MULTILINE_COLON_ON_SECOND_LINE', 'INT2FIX(1)', comment],
constants.shift
assert constants.empty?, constants.inspect
end
def test_do_constants_curses
content = <<-EOF
void Init_curses(){
mCurses = rb_define_module("Curses");
/*
* Document-const: Curses::COLOR_BLACK
*
* Value of the color black
*/
rb_curses_define_const(COLOR_BLACK);
}
EOF
@parser = util_parser content
@parser.do_modules
@parser.do_classes
@parser.do_constants
klass = @parser.classes['mCurses']
constants = klass.constants
refute_empty klass.constants
assert_equal 'COLOR_BLACK', constants.first.name
assert_equal 'UINT2NUM(COLOR_BLACK)', constants.first.value
assert_equal 'Value of the color black', constants.first.comment.text
end
def test_do_constants_file
content = <<-EOF
void Init_File(void) {
/* Document-const: LOCK_SH
*
* Shared lock
*/
rb_file_const("LOCK_SH", INT2FIX(LOCK_SH));
}
EOF
@parser = util_parser content
@parser.do_modules
@parser.do_classes
@parser.do_constants
klass = @parser.classes['rb_mFConst']
constants = klass.constants
refute_empty klass.constants
constant = constants.first
assert_equal 'LOCK_SH', constant.name
assert_equal 'INT2FIX(LOCK_SH)', constant.value
assert_equal 'Shared lock', constant.comment.text
end
def test_do_includes
content = <<-EOF
Init_foo() {
VALUE cFoo = rb_define_class("Foo", rb_cObject);
VALUE mInc = rb_define_module("Inc");
rb_include_module(cFoo, mInc);
}
EOF
klass = util_get_class content, 'cFoo'
incl = klass.includes.first
assert_equal 'Inc', incl.name
assert_equal '', incl.comment.text
assert_equal @top_level, incl.file
end
# HACK parsing warning instead of setting up in file
def test_do_methods_in_c
content = <<-EOF
VALUE blah(VALUE klass, VALUE year) {
}
void Init_Blah(void) {
cDate = rb_define_class("Date", rb_cObject);
rb_define_method(cDate, "blah", blah, 1); /* in blah.c */
}
EOF
klass = nil
_, err = verbose_capture_io do
klass = util_get_class content, 'cDate'
end
assert_match ' blah.c ', err
end
# HACK parsing warning instead of setting up in file
def test_do_methods_in_cpp
content = <<-EOF
VALUE blah(VALUE klass, VALUE year) {
}
void Init_Blah(void) {
cDate = rb_define_class("Date", rb_cObject);
rb_define_method(cDate, "blah", blah, 1); /* in blah.cpp */
}
EOF
klass = nil
_, err = verbose_capture_io do
klass = util_get_class content, 'cDate'
end
assert_match ' blah.cpp ', err
end
# HACK parsing warning instead of setting up in file
def test_do_methods_in_y
content = <<-EOF
VALUE blah(VALUE klass, VALUE year) {
}
void Init_Blah(void) {
cDate = rb_define_class("Date", rb_cObject);
rb_define_method(cDate, "blah", blah, 1); /* in blah.y */
}
EOF
klass = nil
_, err = verbose_capture_io do
klass = util_get_class content, 'cDate'
end
assert_match ' blah.y ', err
end
def test_do_methods_singleton_class
content = <<-EOF
VALUE blah(VALUE klass, VALUE year) {
}
void Init_Blah(void) {
cDate = rb_define_class("Date", rb_cObject);
sDate = rb_singleton_class(cDate);
rb_define_method(sDate, "blah", blah, 1);
}
EOF
klass = util_get_class content, 'cDate'
methods = klass.method_list
assert_equal 1, methods.length
assert_equal 'blah', methods.first.name
assert methods.first.singleton
end
def test_do_missing
parser = util_parser
klass_a = @top_level.add_class RDoc::ClassModule, 'A'
parser.classes['a'] = klass_a
parser.enclosure_dependencies['c'] << 'b'
parser.enclosure_dependencies['b'] << 'a'
parser.enclosure_dependencies['d'] << 'a'
parser.missing_dependencies['d'] = ['d', :class, 'D', 'Object', 'a']
parser.missing_dependencies['c'] = ['c', :class, 'C', 'Object', 'b']
parser.missing_dependencies['b'] = ['b', :class, 'B', 'Object', 'a']
parser.do_missing
assert_equal %w[A A::B A::B::C A::D],
@store.all_classes_and_modules.map { |m| m.full_name }.sort
end
def test_do_missing_cycle
parser = util_parser
klass_a = @top_level.add_class RDoc::ClassModule, 'A'
parser.classes['a'] = klass_a
parser.enclosure_dependencies['c'] << 'b'
parser.enclosure_dependencies['b'] << 'a'
parser.missing_dependencies['c'] = ['c', :class, 'C', 'Object', 'b']
parser.missing_dependencies['b'] = ['b', :class, 'B', 'Object', 'a']
parser.enclosure_dependencies['y'] << 'z'
parser.enclosure_dependencies['z'] << 'y'
parser.missing_dependencies['y'] = ['y', :class, 'Y', 'Object', 'z']
parser.missing_dependencies['z'] = ['z', :class, 'Z', 'Object', 'y']
_, err = verbose_capture_io do
parser.do_missing
end
expected = 'Unable to create class Y (y), class Z (z) ' +
'due to a cyclic class or module creation'
assert_equal expected, err.chomp
assert_equal %w[A A::B A::B::C],
@store.all_classes_and_modules.map { |m| m.full_name }.sort
end
def test_find_alias_comment
parser = util_parser
comment = parser.find_alias_comment 'C', '[]', 'index'
assert_equal '', comment.text
parser = util_parser <<-C
/*
* comment
*/
rb_define_alias(C, "[]", "index");
C
comment = parser.find_alias_comment 'C', '[]', 'index'
assert_equal "/*\n * comment\n */\n\n", comment.text
end
def test_find_attr_comment_document_attr
parser= util_parser <<-C
/*
* Document-attr: y
* comment
*/
C
comment = parser.find_attr_comment nil, 'y'
assert_equal "/*\n * \n * comment\n */", comment.text
end
def test_find_attr_comment_document_attr_oneline
parser= util_parser <<-C
/* Document-attr: y
* comment
*/
C
comment = parser.find_attr_comment nil, 'y'
assert_equal "/* \n * comment\n */", comment.text
end
def test_find_attr_comment_document_attr_overlap
parser= util_parser <<-C
/* Document-attr: x
* comment
*/
/* Document-attr: y
* comment
*/
C
comment = parser.find_attr_comment nil, 'y'
assert_equal "/* \n * comment\n */", comment.text
end
def test_find_class_comment
@options.rdoc_include << File.dirname(__FILE__)
content = <<-EOF
/*
* Comment 1
*/
foo = rb_define_class("MyClassName1", rb_cObject);
/*
* Comment 2
*/
bar = rb_define_class("MyClassName2", rb_cObject);
EOF
util_get_class content
assert_equal "Comment 1", @parser.classes['foo'].comment.text
assert_equal "Comment 2", @parser.classes['bar'].comment.text
end
def test_find_class_comment_init
content = <<-EOF
/*
* a comment for class Foo
*/
void
Init_Foo(void) {
VALUE foo = rb_define_class("Foo", rb_cObject);
}
EOF
klass = util_get_class content, 'foo'
assert_equal "a comment for class Foo", klass.comment.text
end
def test_find_class_comment_define_class
content = <<-EOF
/*
* a comment for class Foo
*/
VALUE foo = rb_define_class("Foo", rb_cObject);
EOF
klass = util_get_class content, 'foo'
assert_equal "a comment for class Foo", klass.comment.text
end
def test_find_class_comment_define_class_Init_Foo
content = <<-EOF
/*
* a comment for class Foo on Init
*/
void
Init_Foo(void) {
/*
* a comment for class Foo on rb_define_class
*/
VALUE foo = rb_define_class("Foo", rb_cObject);
}
EOF
klass = util_get_class content, 'foo'
assert_equal "a comment for class Foo on Init", klass.comment.text
end
def test_find_class_comment_define_class_Init_Foo_no_void
content = <<-EOF
/*
* a comment for class Foo on Init
*/
void
Init_Foo() {
/*
* a comment for class Foo on rb_define_class
*/
VALUE foo = rb_define_class("Foo", rb_cObject);
}
EOF
klass = util_get_class content, 'foo'
assert_equal "a comment for class Foo on Init", klass.comment.text
end
def test_find_class_comment_define_class_bogus_comment
content = <<-EOF
/*
* a comment for other_function
*/
void
other_function() {
}
void
Init_Foo(void) {
VALUE foo = rb_define_class("Foo", rb_cObject);
}
EOF
klass = util_get_class content, 'foo'
assert_equal '', klass.comment.text
end
def test_find_class_comment_define_class_under
content = <<-EOF
/*
* a comment for class Foo
*/
VALUE foo = rb_define_class_under(rb_cObject, "Foo", rb_cObject);
EOF
klass = util_get_class content, 'foo'
assert_equal "a comment for class Foo", klass.comment.text
end
def test_find_class_comment_define_class_under_Init
content = <<-EOF
/*
* a comment for class Foo on Init
*/
void
Init_Foo(void) {
/*
* a comment for class Foo on rb_define_class
*/
VALUE foo = rb_define_class_under(rb_cObject, "Foo", rb_cObject);
}
EOF
klass = util_get_class content, 'foo'
# the inner comment is used since Object::Foo is not necessarily the same
# thing as "Foo" for Init_
assert_equal "a comment for class Foo on rb_define_class",
klass.comment.text
end
def test_find_const_comment_rb_define
content = <<-EOF
/*
* A comment
*/
rb_define_const(cFoo, "CONST", value);
EOF
parser = util_parser content
comment = parser.find_const_comment 'const', 'CONST'
assert_equal "/*\n * A comment\n */\n", comment.text
end
def test_find_const_comment_document_const
content = <<-EOF
/*
* Document-const: CONST
*
* A comment
*/
EOF
parser = util_parser content
comment = parser.find_const_comment nil, 'CONST'
assert_equal "/*\n *\n * A comment\n */", comment.text
end
def test_find_const_comment_document_const_full_name
content = <<-EOF
/*
* Document-const: Foo::CONST
*
* A comment
*/
EOF
parser = util_parser content
comment = parser.find_const_comment nil, 'CONST', 'Foo'
assert_equal "/*\n *\n * A comment\n */", comment.text
end
def test_find_body
content = <<-EOF
/*
* a comment for other_function
*/
VALUE
other_function() {
}
void
Init_Foo(void) {
VALUE foo = rb_define_class("Foo", rb_cObject);
rb_define_method(foo, "my_method", other_function, 0);
}
EOF
klass = util_get_class content, 'foo'
other_function = klass.method_list.first
assert_equal 'my_method', other_function.name
assert_equal "a comment for other_function",
other_function.comment.text
assert_equal '()', other_function.params
code = other_function.token_stream.first[:text]
assert_equal "VALUE\nother_function() {\n}", code
end
def test_find_body_2
content = <<-CONTENT
/* Copyright (C) 2010 Sven Herzberg
*
* This file is free software; the author(s) gives unlimited
* permission to copy and/or distribute it, with or without
* modifications, as long as this notice is preserved.
*/
#include
static VALUE
wrap_initialize (VALUE self)
{
return self;
}
/* */
static VALUE
wrap_shift (VALUE self,
VALUE arg)
{
return self;
}
void
init_gi_repository (void)
{
VALUE mTest = rb_define_module ("Test");
VALUE cTest = rb_define_class_under (mTest, "Test", rb_cObject);
rb_define_method (cTest, "initialize", wrap_initialize, 0);
rb_define_method (cTest, "shift", wrap_shift, 0);
}
CONTENT
klass = util_get_class content, 'cTest'
assert_equal 2, klass.method_list.length
end
def test_find_body_cast
content = <<-EOF
/*
* a comment for other_function
*/
VALUE
other_function() {
}
void
Init_Foo(void) {
VALUE foo = rb_define_class("Foo", rb_cObject);
rb_define_method(foo, "my_method", (METHOD)other_function, 0);
}
EOF
klass = util_get_class content, 'foo'
other_function = klass.method_list.first
assert_equal 'my_method', other_function.name
assert_equal "a comment for other_function",
other_function.comment.text
assert_equal '()', other_function.params
code = other_function.token_stream.first[:text]
assert_equal "VALUE\nother_function() {\n}", code
end
def test_find_body_define
content = <<-EOF
#define something something_else
#define other_function rb_other_function
/*
* a comment for rb_other_function
*/
VALUE
rb_other_function() {
}
void
Init_Foo(void) {
VALUE foo = rb_define_class("Foo", rb_cObject);
rb_define_method(foo, "my_method", other_function, 0);
}
EOF
klass = util_get_class content, 'foo'
other_function = klass.method_list.first
assert_equal 'my_method', other_function.name
assert_equal 'a comment for rb_other_function', other_function.comment.text
assert_equal '()', other_function.params
assert_equal 8, other_function.line
code = other_function.token_stream.first[:text]
assert_equal "VALUE\nrb_other_function() {\n}", code
end
def test_find_body_define_comment
content = <<-EOF
/*
* a comment for other_function
*/
#define other_function rb_other_function
/* */
VALUE
rb_other_function() {
}
void
Init_Foo(void) {
VALUE foo = rb_define_class("Foo", rb_cObject);
rb_define_method(foo, "my_method", other_function, 0);
}
EOF
klass = util_get_class content, 'foo'
other_function = klass.method_list.first
assert_equal 'my_method', other_function.name
assert_equal 'a comment for other_function', other_function.comment.text
assert_equal '()', other_function.params
assert_equal 4, other_function.line
code = other_function.token_stream.first[:text]
assert_equal "#define other_function rb_other_function", code
end
def test_find_body_document_method
content = <<-EOF
/*
* Document-method: bar
* Document-method: baz
*
* a comment for bar
*/
VALUE
bar() {
}
void
Init_Foo(void) {
VALUE foo = rb_define_class("Foo", rb_cObject);
rb_define_method(foo, "bar", bar, 0);
rb_define_method(foo, "baz", bar, 0);
}
EOF
klass = util_get_class content, 'foo'
assert_equal 2, klass.method_list.length
methods = klass.method_list.sort
bar = methods.first
assert_equal 'Foo#bar', bar.full_name
assert_equal "a comment for bar", bar.comment.text
baz = methods.last
assert_equal 'Foo#baz', baz.full_name
assert_equal "a comment for bar", baz.comment.text
end
def test_find_body_document_method_equals
content = <<-EOF
/*
* Document-method: Zlib::GzipFile#mtime=
*
* A comment
*/
static VALUE
rb_gzfile_set_mtime(VALUE obj, VALUE mtime)
{
void
Init_zlib() {
mZlib = rb_define_module("Zlib");
cGzipFile = rb_define_class_under(mZlib, "GzipFile", rb_cObject);
cGzipWriter = rb_define_class_under(mZlib, "GzipWriter", cGzipFile);
rb_define_method(cGzipWriter, "mtime=", rb_gzfile_set_mtime, 1);
}
EOF
klass = util_get_class content, 'cGzipWriter'
assert_equal 1, klass.method_list.length
methods = klass.method_list.sort
bar = methods.first
assert_equal 'Zlib::GzipWriter#mtime=', bar.full_name
assert_equal 'A comment', bar.comment.text
end
def test_find_body_document_method_same
content = <<-EOF
VALUE
s_bar() {
}
VALUE
bar() {
}
/*
* Document-method: Foo::bar
*
* a comment for Foo::bar
*/
/*
* Document-method: Foo#bar
*
* a comment for Foo#bar
*/
void
Init_Foo(void) {
VALUE foo = rb_define_class("Foo", rb_cObject);
rb_define_singleton_method(foo, "bar", s_bar, 0);
rb_define_method(foo, "bar", bar, 0);
}
EOF
klass = util_get_class content, 'foo'
assert_equal 2, klass.method_list.length
methods = klass.method_list.sort
s_bar = methods.first
assert_equal 'Foo::bar', s_bar.full_name
assert_equal "a comment for Foo::bar", s_bar.comment.text
bar = methods.last
assert_equal 'Foo#bar', bar.full_name
assert_equal "a comment for Foo#bar", bar.comment.text
end
def test_find_body_macro
content = <<-EOF
/*
* a comment for other_function
*/
DLL_LOCAL VALUE
other_function() {
}
void
Init_Foo(void) {
VALUE foo = rb_define_class("Foo", rb_cObject);
rb_define_method(foo, "my_method", other_function, 0);
}
EOF
klass = util_get_class content, 'foo'
other_function = klass.method_list.first
assert_equal 'my_method', other_function.name
assert_equal "a comment for other_function",
other_function.comment.text
assert_equal '()', other_function.params
code = other_function.token_stream.first[:text]
assert_equal "DLL_LOCAL VALUE\nother_function() {\n}", code
end
def test_find_modifiers_call_seq
comment = RDoc::Comment.new <<-COMMENT
call-seq:
commercial() -> Date
If no arguments are given:
COMMENT
parser = util_parser
method_obj = RDoc::AnyMethod.new nil, 'blah'
parser.find_modifiers comment, method_obj
expected = <<-CALL_SEQ.chomp
commercial() -> Date
CALL_SEQ
assert_equal expected, method_obj.call_seq
end
def test_find_modifiers_nodoc
comment = RDoc::Comment.new <<-COMMENT
/* :nodoc:
*
* Blah
*/
COMMENT
parser = util_parser
method_obj = RDoc::AnyMethod.new nil, 'blah'
parser.find_modifiers comment, method_obj
assert_equal nil, method_obj.document_self
end
def test_find_modifiers_yields
comment = RDoc::Comment.new <<-COMMENT
/* :yields: a, b
*
* Blah
*/
COMMENT
parser = util_parser
method_obj = RDoc::AnyMethod.new nil, 'blah'
parser.find_modifiers comment, method_obj
assert_equal 'a, b', method_obj.block_params
assert_equal "\n\nBlah", comment.text
end
def test_handle_method_args_minus_1
parser = util_parser "Document-method: Object#m\n blah */"
parser.content = <<-BODY
VALUE
rb_other(VALUE obj) {
rb_funcall(obj, rb_intern("other"), 0);
return rb_str_new2("blah, blah, blah");
}
VALUE
rb_m(int argc, VALUE *argv, VALUE obj) {
VALUE o1, o2;
rb_scan_args(argc, argv, "1", &o1, &o2);
}
BODY
parser.handle_method 'method', 'rb_cObject', 'm', 'rb_m', -1
m = @top_level.find_module_named('Object').method_list.first
assert_equal 'm', m.name
assert_equal @top_level, m.file
assert_equal 7, m.line
assert_equal '(p1)', m.params
end
def test_handle_method_args_0
parser = util_parser "Document-method: BasicObject#==\n blah */"
parser.handle_method 'method', 'rb_cBasicObject', '==', 'rb_obj_equal', 0
bo = @top_level.find_module_named 'BasicObject'
assert_equal 1, bo.method_list.length
equals2 = bo.method_list.first
assert_equal '()', equals2.params
end
def test_handle_method_args_1
parser = util_parser "Document-method: BasicObject#==\n blah */"
parser.handle_method 'method', 'rb_cBasicObject', '==', 'rb_obj_equal', 1
bo = @top_level.find_module_named 'BasicObject'
assert_equal 1, bo.method_list.length
equals2 = bo.method_list.first
assert_equal '(p1)', equals2.params
end
def test_handle_method_args_2
parser = util_parser "Document-method: BasicObject#==\n blah */"
parser.handle_method 'method', 'rb_cBasicObject', '==', 'rb_obj_equal', 2
bo = @top_level.find_module_named 'BasicObject'
assert_equal 1, bo.method_list.length
equals2 = bo.method_list.first
assert_equal '(p1, p2)', equals2.params
end
# test_handle_args_minus_1 handled by test_handle_method
def test_handle_method_args_minus_2
parser = util_parser "Document-method: BasicObject#==\n blah */"
parser.handle_method 'method', 'rb_cBasicObject', '==', 'rb_obj_equal', -2
bo = @top_level.find_module_named 'BasicObject'
assert_equal 1, bo.method_list.length
equals2 = bo.method_list.first
assert_equal '(*args)', equals2.params
end
def test_handle_method_initialize
parser = util_parser "Document-method: BasicObject::new\n blah */"
parser.handle_method('private_method', 'rb_cBasicObject',
'initialize', 'rb_obj_dummy', -1)
bo = @top_level.find_module_named 'BasicObject'
assert_equal 1, bo.method_list.length
new = bo.method_list.first
assert_equal 'new', new.name
assert_equal :public, new.visibility
end
def test_handle_singleton
parser = util_parser <<-SINGLE
void Init_Blah(void) {
cDate = rb_define_class("Date", rb_cObject);
sDate = rb_singleton_class(cDate);
}
SINGLE
parser.scan
assert_equal 'Date', parser.known_classes['sDate']
assert_equal 'Date', parser.singleton_classes['sDate']
end
def test_look_for_directives_in
parser = util_parser
comment = RDoc::Comment.new "# :other: not_handled\n"
parser.look_for_directives_in @top_level, comment
assert_equal "# :other: not_handled\n", comment.text
assert_equal 'not_handled', @top_level.metadata['other']
end
def test_load_variable_map
some_ext = @top_level.add_class RDoc::NormalClass, 'SomeExt'
@top_level.add_class RDoc::NormalClass, 'OtherExt'
@store.cache[:c_class_variables][@fn] = { 'cSomeExt' => 'SomeExt' }
@store.cache[:c_class_variables]['other.c'] = { 'cOtherExt' => 'OtherExt' }
parser = util_parser
map = parser.load_variable_map :c_class_variables
expected = { 'cSomeExt' => some_ext }
assert_equal expected, map
assert_equal 'SomeExt', parser.known_classes['cSomeExt']
assert_nil parser.known_classes['cOtherExt']
end
def test_load_variable_map_empty
parser = util_parser
map = parser.load_variable_map :c_class_variables
assert_empty map
end
def test_load_variable_map_legacy
@store.cache[:c_class_variables] = nil
parser = util_parser
map = parser.load_variable_map :c_class_variables
assert_empty map
end
def test_load_variable_map_singleton
@top_level.add_class RDoc::NormalClass, 'SomeExt'
@top_level.add_class RDoc::NormalClass, 'OtherExt'
@store.cache[:c_singleton_class_variables][@fn] =
{ 'cSomeExt' => 'SomeExt' }
@store.cache[:c_singleton_class_variables]['other.c'] =
{ 'cOtherExt' => 'OtherExt' }
parser = util_parser
map = parser.load_variable_map :c_singleton_class_variables
expected = { 'cSomeExt' => 'SomeExt' }
assert_equal expected, map
assert_equal 'SomeExt', parser.known_classes['cSomeExt']
assert_nil parser.known_classes['cOtherExt']
end
def test_load_variable_map_trim
a = @top_level.add_class RDoc::NormalClass, 'A'
@store.cache[:c_class_variables][@fn] = {
'cA' => 'A',
'cB' => 'B',
}
parser = util_parser
map = parser.load_variable_map :c_class_variables
expected = { 'cA' => a }
assert_equal expected, map
end
def test_define_method
content = <<-EOF
/*Method Comment! */
static VALUE
rb_io_s_read(argc, argv, io)
int argc;
VALUE *argv;
VALUE io;
{
}
void
Init_IO(void) {
/*
* a comment for class Foo on rb_define_class
*/
VALUE rb_cIO = rb_define_class("IO", rb_cObject);
rb_define_singleton_method(rb_cIO, "read", rb_io_s_read, -1);
}
EOF
klass = util_get_class content, 'rb_cIO'
read_method = klass.method_list.first
assert_equal "read", read_method.name
assert_equal "Method Comment! ", read_method.comment.text
assert_equal "rb_io_s_read", read_method.c_function
assert read_method.singleton
end
def test_define_method_with_prototype
content = <<-EOF
static VALUE rb_io_s_read(int, VALUE*, VALUE);
/* Method Comment! */
static VALUE
rb_io_s_read(argc, argv, io)
int argc;
VALUE *argv;
VALUE io;
{
}
void
Init_IO(void) {
/*
* a comment for class Foo on rb_define_class
*/
VALUE rb_cIO = rb_define_class("IO", rb_cObject);
rb_define_singleton_method(rb_cIO, "read", rb_io_s_read, -1);
}
EOF
klass = util_get_class content, 'rb_cIO'
read_method = klass.method_list.first
assert_equal "read", read_method.name
assert_equal "Method Comment! ", read_method.comment.text
assert_equal "rb_io_s_read", read_method.c_function
assert read_method.singleton
end
def test_define_method_private
content = <<-EOF
/*Method Comment! */
static VALUE
rb_io_s_read(argc, argv, io)
int argc;
VALUE *argv;
VALUE io;
{
}
void
Init_IO(void) {
/*
* a comment for class Foo on rb_define_class
*/
VALUE rb_cIO = rb_define_class("IO", rb_cObject);
rb_define_private_method(rb_cIO, "read", rb_io_s_read, -1);
}
EOF
klass = util_get_class content, 'rb_cIO'
read_method = klass.method_list.first
assert_equal 'IO#read', read_method.full_name
assert_equal :private, read_method.visibility
assert_equal "Method Comment! ", read_method.comment.text
end
def test_define_method_private_singleton
content = <<-EOF
/*Method Comment! */
static VALUE
rb_io_s_read(argc, argv, io)
int argc;
VALUE *argv;
VALUE io;
{
}
void
Init_IO(void) {
/*
* a comment for class Foo on rb_define_class
*/
VALUE rb_cIO = rb_define_class("IO", rb_cObject);
VALUE rb_cIO_s = rb_singleton_class(rb_cIO);
rb_define_private_method(rb_cIO_s, "read", rb_io_s_read, -1);
}
EOF
klass = util_get_class content, 'rb_cIO'
read_method = klass.method_list.first
assert_equal "read", read_method.name
assert_equal "Method Comment! ", read_method.comment.text
assert_equal :private, read_method.visibility
assert read_method.singleton
end
def test_define_method_singleton
content = <<-EOF
/*Method Comment! */
static VALUE
rb_io_s_read(argc, argv, io)
int argc;
VALUE *argv;
VALUE io;
{
}
void
Init_IO(void) {
/*
* a comment for class Foo on rb_define_class
*/
VALUE rb_cIO = rb_define_class("IO", rb_cObject);
VALUE rb_cIO_s = rb_singleton_class(rb_cIO);
rb_define_method(rb_cIO_s, "read", rb_io_s_read, -1);
}
EOF
klass = util_get_class content, 'rb_cIO'
read_method = klass.method_list.first
assert_equal "read", read_method.name
assert_equal "Method Comment! ", read_method.comment.text
assert read_method.singleton
end
def test_rb_scan_args
parser = util_parser
assert_equal '(p1)',
parser.rb_scan_args('rb_scan_args(a, b, "1",)')
assert_equal '(p1, p2)',
parser.rb_scan_args('rb_scan_args(a, b, "2",)')
assert_equal '(p1 = v1)',
parser.rb_scan_args('rb_scan_args(a, b, "01",)')
assert_equal '(p1 = v1, p2 = v2)',
parser.rb_scan_args('rb_scan_args(a, b, "02",)')
assert_equal '(p1, p2 = v2)',
parser.rb_scan_args('rb_scan_args(a, b, "11",)')
assert_equal '(p1, *args)',
parser.rb_scan_args('rb_scan_args(a, b, "1*",)')
assert_equal '(p1, p2 = {})',
parser.rb_scan_args('rb_scan_args(a, b, "1:",)')
assert_equal '(p1, &block)',
parser.rb_scan_args('rb_scan_args(a, b, "1&",)')
assert_equal '(p1, p2)',
parser.rb_scan_args('rb_scan_args(a, b, "101",)')
assert_equal '(p1, p2 = v2, p3)',
parser.rb_scan_args('rb_scan_args(a, b, "111",)')
assert_equal '(p1, *args, p3)',
parser.rb_scan_args('rb_scan_args(a, b, "1*1",)')
assert_equal '(p1, p2 = v2, *args)',
parser.rb_scan_args('rb_scan_args(a, b, "11*",)')
assert_equal '(p1, p2 = v2, p3 = {})',
parser.rb_scan_args('rb_scan_args(a, b, "11:",)')
assert_equal '(p1, p2 = v2, &block)',
parser.rb_scan_args('rb_scan_args(a, b, "11&",)')
assert_equal '(p1, p2 = v2, *args, p4, p5 = {}, &block)',
parser.rb_scan_args('rb_scan_args(a, b, "11*1:&",)')
# The following aren't valid according to spec but are according to the
# implementation.
assert_equal '(*args)',
parser.rb_scan_args('rb_scan_args(a, b, "*",)')
assert_equal '(p1 = {})',
parser.rb_scan_args('rb_scan_args(a, b, ":",)')
assert_equal '(&block)',
parser.rb_scan_args('rb_scan_args(a, b, "&",)')
assert_equal '(*args, p2 = {})',
parser.rb_scan_args('rb_scan_args(a, b, "*:",)')
assert_equal '(p1 = {}, &block)',
parser.rb_scan_args('rb_scan_args(a, b, ":&",)')
assert_equal '(*args, p2 = {}, &block)',
parser.rb_scan_args('rb_scan_args(a, b, "*:&",)')
end
def test_scan
parser = util_parser <<-C
void Init(void) {
mM = rb_define_module("M");
cC = rb_define_class("C", rb_cObject);
sC = rb_singleton_class(cC);
}
C
parser.scan
expected = {
@fn => {
'mM' => 'M',
'cC' => 'C', }}
assert_equal expected, @store.c_class_variables
expected = {
@fn => {
'sC' => 'C' } }
assert_equal expected, @store.c_singleton_class_variables
end
def test_scan_method_copy
parser = util_parser <<-C
/*
* call-seq:
* pathname.to_s -> string
* pathname.to_path -> string
*
* Return the path as a String.
*
* to_path is implemented so Pathname objects are usable with File.open, etc.
*/
static VALUE
path_to_s(VALUE self) { }
/*
* call-seq:
* str[index] -> new_str or nil
* str[start, length] -> new_str or nil
* str.slice(index) -> new_str or nil
* str.slice(start, length) -> new_str or nil
*/
static VALUE
path_aref_m(int argc, VALUE *argv, VALUE str) { }
/*
* call-seq:
* string <=> other_string -> -1, 0, +1 or nil
*/
static VALUE
path_cmp_m(VALUE str1, VALUE str2) { }
/*
* call-seq:
* str == obj -> true or false
* str === obj -> true or false
*/
VALUE
rb_str_equal(VALUE str1, VALUE str2) { }
Init_pathname()
{
rb_cPathname = rb_define_class("Pathname", rb_cObject);
rb_define_method(rb_cPathname, "to_s", path_to_s, 0);
rb_define_method(rb_cPathname, "to_path", path_to_s, 0);
rb_define_method(rb_cPathname, "[]", path_aref_m, -1);
rb_define_method(rb_cPathname, "slice", path_aref_m, -1);
rb_define_method(rb_cPathname, "<=>", path_cmp_m, 1);
rb_define_method(rb_cPathname, "==", rb_str_equal), 2);
rb_define_method(rb_cPathname, "===", rb_str_equal), 2);
}
C
parser.scan
pathname = @store.classes_hash['Pathname']
to_path = pathname.method_list.find { |m| m.name == 'to_path' }
assert_equal "pathname.to_path -> string", to_path.call_seq
to_s = pathname.method_list.find { |m| m.name == 'to_s' }
assert_equal "pathname.to_s -> string", to_s.call_seq
index_expected = <<-EXPECTED.chomp
str[index] -> new_str or nil
str[start, length] -> new_str or nil
EXPECTED
index = pathname.method_list.find { |m| m.name == '[]' }
assert_equal index_expected, index.call_seq, '[]'
slice_expected = <<-EXPECTED.chomp
str.slice(index) -> new_str or nil
str.slice(start, length) -> new_str or nil
EXPECTED
slice = pathname.method_list.find { |m| m.name == 'slice' }
assert_equal slice_expected, slice.call_seq
spaceship = pathname.method_list.find { |m| m.name == '<=>' }
assert_equal "string <=> other_string -> -1, 0, +1 or nil",
spaceship.call_seq
equals2 = pathname.method_list.find { |m| m.name == '==' }
assert_match 'str == obj', equals2.call_seq
equals3 = pathname.method_list.find { |m| m.name == '===' }
assert_match 'str === obj', equals3.call_seq
end
def test_scan_order_dependent
parser = util_parser <<-C
void a(void) {
mA = rb_define_module("A");
}
void b(void) {
cB = rb_define_class_under(mA, "B", rb_cObject);
}
void c(void) {
mC = rb_define_module_under(cB, "C");
}
void d(void) {
mD = rb_define_class_under(mC, "D");
}
C
parser.scan
assert_equal %w[A A::B A::B::C],
@store.all_classes_and_modules.map { |m| m.full_name }.sort
end
def util_get_class content, name = nil
@parser = util_parser content
@parser.scan
@parser.classes[name] if name
end
def util_parser content = ''
RDoc::Parser::C.new @top_level, @fn, content, @options, @stats
end
end