test/stdlib/NumericParsing.swift.gyb - third_party/swift - Git at Google

 //===--- NumericParsing.swift.gyb -----------------------------*- swift -*-===//
 //
 // This source file is part of the Swift.org open source project
 //
 // Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors
 // Licensed under Apache License v2.0 with Runtime Library Exception
 //
 // See https://swift.org/LICENSE.txt for license information
 // See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
 //
 //===----------------------------------------------------------------------===//
 // -*- swift -*-
 // RUN: %empty-directory(%t)
 // RUN: %gyb -DCMAKE_SIZEOF_VOID_P=%target-ptrsize %s -o %t/NumericParsing.swift
 // RUN: %line-directive %t/NumericParsing.swift -- %target-build-swift %t/NumericParsing.swift -o %t/a.out
 // RUN: %target-codesign %t/a.out
 // RUN: %line-directive %t/NumericParsing.swift -- %target-run %t/a.out
 // REQUIRES: executable_test
 %{
 from SwiftIntTypes import all_integer_types

 word_bits = int(CMAKE_SIZEOF_VOID_P)

 def maskOfWidth(n):
   return (1 << n) - 1

 def inRadix(radix, n, zero='0'):
   """
 Represent the int n in the given radix.
 Note: the third parameter, zero, is not for user consumption.
   """
   if n < 0:
     return '-' + inRadix(radix, -n, '')
   elif n == 0:
     return zero
   else:
     r = n % radix
     digit = chr((ord('0') + r) if r < 10 else (ord('a') + r - 10))
     return inRadix(radix, int(n / radix), '') + digit

 # The maximal legal radix
 max_radix = ord('z') - ord('a') + 1 + 10

 # Test a few important radices
 radices_to_test = [2, 8, 10, 16, max_radix]

 # How many values to test in each radix?  A nice prime number of course.
 number_of_values = 23
 }%

 import StdlibUnittest


 var tests = TestSuite("NumericParsing")

 % for type in all_integer_types(word_bits):
 %   Self = type.stdlib_name
 %   maxValue = maskOfWidth((type.bits - 1) if type.is_signed else type.bits)
 %   minValue = -maxValue - 1 if type.is_signed else 0
 %   required_values = [minValue, 0, maxValue]
 tests.test("${Self}/success") {
   let isSigned = ${str(type.is_signed).lower()}

   //===--- Important cases ------------------------------------------------===//
   expectEqual(0, ${Self}("0"))      // zero
   expectEqual(17, ${Self}("17"))    // non-zero with no radix

   // Leading zeroes, with and without a radix
   expectEqual(10, ${Self}("010"))
   expectEqual(15, ${Self}("00F", radix: 16))

   // Leading '+'
   expectEqual(0, ${Self}("+0"))
   expectEqual(10, ${Self}("+10"))
   expectEqual(10, ${Self}("+010"))
   expectEqual(15, ${Self}("+00F", radix: 16))

   // Negative numbers
   expectEqual(${-128 if type.is_signed else 'nil'}, ${Self}("-0080", radix: 16))
   expectEqual(0, ${Self}("-0"))
   expectEqual(0, ${Self}("-00", radix: 16))

   // Maximum radix
   expectEqual(${max_radix} - 1, ${Self}("z", radix: ${max_radix})!)

   // Out-of-range values
   expectEqual(nil, ${Self}("${maxValue + 1}"))
   expectEqual(nil, ${Self}("${minValue - 1}"))
   expectEqual(nil, ${Self}("\u{1D7FF}"))  // MATHEMATICAL MONOSPACE DIGIT NINE

   // Cases that should fail to parse
   expectEqual(nil, ${Self}("--0")) // Zero w/ repeated plus
   expectEqual(nil, ${Self}("-+5")) // Non-zero with -+

   // Do more exhaustive testing
   % for radix in radices_to_test:
   %   for n in required_values + list(range(
   %     minValue + 1, maxValue - 1,
   %     int((maxValue - minValue - 2) / (number_of_values - len(required_values))))):
   %     prefix = '+' if n > 0 and n % 2 == 0 else '' # leading '+'
   %     text = inRadix(radix, n)
   expectEqual(${n}, ${Self}("${prefix + text}", radix: ${radix}))
   %     if text != text.upper():
   expectEqual(${n}, ${Self}("${prefix + text.upper()}", radix: ${radix}))
   %     end
   %   end
   % end
 }

 tests.test("${Self}/radixTooLow") {
   ${Self}("0", radix: 2)
   expectCrashLater()
   ${Self}("0", radix: 1)
 }

 tests.test("${Self}/radixTooHigh") {
   let maxRadix = ${ord('z') - ord('a') + 1 + 10}
   ${Self}("0", radix: maxRadix)
   expectCrashLater()
   let y = ${Self}("0", radix: maxRadix + 1)
 }

 % end

 tests.test("FixedWidthInteger/maxUInt64") {
   func f<T : FixedWidthInteger>(_ x: T) -> String {
     return String(x, radix: 16)
   }
   let x = f(UInt64.max)
   let y = String(UInt64.max, radix: 16)
   expectEqual(x, y)
 }

 % for Self in 'Float', 'Double', 'Float80':

 % if Self == 'Float80':
 #if !os(Windows) && (arch(i386) || arch(x86_64))
 % end

 tests.test("${Self}/Basics") {
 % if Self != 'Float80': # Inf/NaN are not defined for Float80
   expectEqual(.infinity, ${Self}("inf"))
   expectEqual(.infinity, ${Self}("Inf"))
   expectEqual(-(.infinity), ${Self}("-inf"))
   expectEqual(-(.infinity), ${Self}("-Inf"))
   expectEqual(String(${Self}.nan), String(${Self}("nan")!))
   expectEqual(String(${Self}.nan), String(${Self}("NaN")!))

 // sNaN cannot be fully supported on i386.
 #if !arch(i386)
   expectTrue(${Self}("sNaN")!.isSignalingNaN)
   expectTrue(${Self}("SNAN")!.isSignalingNaN)
   expectTrue(${Self}("+snan")!.isSignalingNaN)
   expectTrue(${Self}("-SnAn")!.isSignalingNaN)
 #endif
 % end

   expectEqual(-0.0, ${Self}("-0"))
   expectEqual(-0.0, ${Self}("-0.0"))
   expectEqual(0.0, ${Self}("0"))
   expectEqual(0.0, ${Self}("0.0"))
   expectEqual(64206, ${Self}("0xFACE")) // Yes, strtoXXX supports hex.

   // Check that we can round-trip the string representation of 2^100,
   // which requires an exponent to express...
   let large =
     repeatElement(1024 as ${Self}, count: 10).reduce(1, *)
   let largeText = String(large)
   expectEqual(largeText, String(${Self}(largeText)!))

   // ...ditto for its inverse.
   let smallText = String(1 / large)
   expectEqual(smallText, String(${Self}(smallText)!))

   // Cases that should fail to parse
   expectNil(${Self}(""))       // EMPTY
   expectNil(${Self}("0FACE"))  // Hex characters without 0x
   expectNil(${Self}("99x"))
   expectNil(${Self}(" 0"))  // Leading whitespace
   expectNil(${Self}("0 "))  // Trailing whitespace
   expectNil(${Self}("\u{1D7FF}"))  // MATHEMATICAL MONOSPACE DIGIT NINE

   // Overflow and underflow.  Interleave with other checks to make
   // sure we're not abusing errno
   expectEqual(0.0, ${Self}("0"))
   expectNil(${Self}("2e99999999999999"))
   expectEqual(0.0, ${Self}("0"))
   expectNil(${Self}("2e-99999999999999"))
   expectEqual(0.0, ${Self}("0"))
   expectNil(${Self}("-2e99999999999999"))
   expectEqual(0.0, ${Self}("0"))
   expectNil(${Self}("-2e-99999999999999"))
   expectEqual(0.0, ${Self}("0"))
 }

 % if Self == 'Float80':
 #endif
 % end

 % end
 runAllTests()
	//===--- NumericParsing.swift.gyb ------------------------------ swift --===//
	//
	// This source file is part of the Swift.org open source project
	//
	// Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors
	// Licensed under Apache License v2.0 with Runtime Library Exception
	//
	// See https://swift.org/LICENSE.txt for license information
	// See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
	//
	//===----------------------------------------------------------------------===//
	// -- swift --
	// RUN: %empty-directory(%t)
	// RUN: %gyb -DCMAKE_SIZEOF_VOID_P=%target-ptrsize %s -o %t/NumericParsing.swift
	// RUN: %line-directive %t/NumericParsing.swift -- %target-build-swift %t/NumericParsing.swift -o %t/a.out
	// RUN: %target-codesign %t/a.out
	// RUN: %line-directive %t/NumericParsing.swift -- %target-run %t/a.out
	// REQUIRES: executable_test
	%{
	from SwiftIntTypes import all_integer_types

	word_bits = int(CMAKE_SIZEOF_VOID_P)

	def maskOfWidth(n):
	return (1 << n) - 1

	def inRadix(radix, n, zero='0'):
	"""
	Represent the int n in the given radix.
	Note: the third parameter, zero, is not for user consumption.
	"""
	if n < 0:
	return '-' + inRadix(radix, -n, '')
	elif n == 0:
	return zero
	else:
	r = n % radix
	digit = chr((ord('0') + r) if r < 10 else (ord('a') + r - 10))
	return inRadix(radix, int(n / radix), '') + digit

	# The maximal legal radix
	max_radix = ord('z') - ord('a') + 1 + 10

	# Test a few important radices
	radices_to_test = [2, 8, 10, 16, max_radix]

	# How many values to test in each radix? A nice prime number of course.
	number_of_values = 23
	}%

	import StdlibUnittest


	var tests = TestSuite("NumericParsing")

	% for type in all_integer_types(word_bits):
	% Self = type.stdlib_name
	% maxValue = maskOfWidth((type.bits - 1) if type.is_signed else type.bits)
	% minValue = -maxValue - 1 if type.is_signed else 0
	% required_values = [minValue, 0, maxValue]
	tests.test("${Self}/success") {
	let isSigned = ${str(type.is_signed).lower()}

	//===--- Important cases ------------------------------------------------===//
	expectEqual(0, ${Self}("0")) // zero
	expectEqual(17, ${Self}("17")) // non-zero with no radix

	// Leading zeroes, with and without a radix
	expectEqual(10, ${Self}("010"))
	expectEqual(15, ${Self}("00F", radix: 16))

	// Leading '+'
	expectEqual(0, ${Self}("+0"))
	expectEqual(10, ${Self}("+10"))
	expectEqual(10, ${Self}("+010"))
	expectEqual(15, ${Self}("+00F", radix: 16))

	// Negative numbers
	expectEqual(${-128 if type.is_signed else 'nil'}, ${Self}("-0080", radix: 16))
	expectEqual(0, ${Self}("-0"))
	expectEqual(0, ${Self}("-00", radix: 16))

	// Maximum radix
	expectEqual(${max_radix} - 1, ${Self}("z", radix: ${max_radix})!)

	// Out-of-range values
	expectEqual(nil, ${Self}("${maxValue + 1}"))
	expectEqual(nil, ${Self}("${minValue - 1}"))
	expectEqual(nil, ${Self}("\u{1D7FF}")) // MATHEMATICAL MONOSPACE DIGIT NINE

	// Cases that should fail to parse
	expectEqual(nil, ${Self}("--0")) // Zero w/ repeated plus
	expectEqual(nil, ${Self}("-+5")) // Non-zero with -+

	// Do more exhaustive testing
	% for radix in radices_to_test:
	% for n in required_values + list(range(
	% minValue + 1, maxValue - 1,
	% int((maxValue - minValue - 2) / (number_of_values - len(required_values))))):
	% prefix = '+' if n > 0 and n % 2 == 0 else '' # leading '+'
	% text = inRadix(radix, n)
	expectEqual(${n}, ${Self}("${prefix + text}", radix: ${radix}))
	% if text != text.upper():
	expectEqual(${n}, ${Self}("${prefix + text.upper()}", radix: ${radix}))
	% end
	% end
	% end
	}

	tests.test("${Self}/radixTooLow") {
	${Self}("0", radix: 2)
	expectCrashLater()
	${Self}("0", radix: 1)
	}

	tests.test("${Self}/radixTooHigh") {
	let maxRadix = ${ord('z') - ord('a') + 1 + 10}
	${Self}("0", radix: maxRadix)
	expectCrashLater()
	let y = ${Self}("0", radix: maxRadix + 1)
	}

	% end

	tests.test("FixedWidthInteger/maxUInt64") {
	func f<T : FixedWidthInteger>(_ x: T) -> String {
	return String(x, radix: 16)
	}
	let x = f(UInt64.max)
	let y = String(UInt64.max, radix: 16)
	expectEqual(x, y)
	}

	% for Self in 'Float', 'Double', 'Float80':

	% if Self == 'Float80':
	#if !os(Windows) && (arch(i386) \|\| arch(x86_64))
	% end

	tests.test("${Self}/Basics") {
	% if Self != 'Float80': # Inf/NaN are not defined for Float80
	expectEqual(.infinity, ${Self}("inf"))
	expectEqual(.infinity, ${Self}("Inf"))
	expectEqual(-(.infinity), ${Self}("-inf"))
	expectEqual(-(.infinity), ${Self}("-Inf"))
	expectEqual(String(${Self}.nan), String(${Self}("nan")!))
	expectEqual(String(${Self}.nan), String(${Self}("NaN")!))

	// sNaN cannot be fully supported on i386.
	#if !arch(i386)
	expectTrue(${Self}("sNaN")!.isSignalingNaN)
	expectTrue(${Self}("SNAN")!.isSignalingNaN)
	expectTrue(${Self}("+snan")!.isSignalingNaN)
	expectTrue(${Self}("-SnAn")!.isSignalingNaN)
	#endif
	% end

	expectEqual(-0.0, ${Self}("-0"))
	expectEqual(-0.0, ${Self}("-0.0"))
	expectEqual(0.0, ${Self}("0"))
	expectEqual(0.0, ${Self}("0.0"))
	expectEqual(64206, ${Self}("0xFACE")) // Yes, strtoXXX supports hex.

	// Check that we can round-trip the string representation of 2^100,
	// which requires an exponent to express...
	let large =
	repeatElement(1024 as ${Self}, count: 10).reduce(1, *)
	let largeText = String(large)
	expectEqual(largeText, String(${Self}(largeText)!))

	// ...ditto for its inverse.
	let smallText = String(1 / large)
	expectEqual(smallText, String(${Self}(smallText)!))

	// Cases that should fail to parse
	expectNil(${Self}("")) // EMPTY
	expectNil(${Self}("0FACE")) // Hex characters without 0x
	expectNil(${Self}("99x"))
	expectNil(${Self}(" 0")) // Leading whitespace
	expectNil(${Self}("0 ")) // Trailing whitespace
	expectNil(${Self}("\u{1D7FF}")) // MATHEMATICAL MONOSPACE DIGIT NINE

	// Overflow and underflow. Interleave with other checks to make
	// sure we're not abusing errno
	expectEqual(0.0, ${Self}("0"))
	expectNil(${Self}("2e99999999999999"))
	expectEqual(0.0, ${Self}("0"))
	expectNil(${Self}("2e-99999999999999"))
	expectEqual(0.0, ${Self}("0"))
	expectNil(${Self}("-2e99999999999999"))
	expectEqual(0.0, ${Self}("0"))
	expectNil(${Self}("-2e-99999999999999"))
	expectEqual(0.0, ${Self}("0"))
	}

	% if Self == 'Float80':
	#endif
	% end

	% end
	runAllTests()