зеркало из https://github.com/mozilla/gecko-dev.git
Backout c0077ffef801 (bug 723806) for failures in xpcshell and m-oth tests
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Родитель
ffe0ce0a2a
Коммит
9461ad58a3
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@ -2200,14 +2200,9 @@ BuildTypeName(JSContext* cx, JSObject* typeObj)
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else if (abi == ABI_WINAPI)
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PrependString(result, "WINAPI ");
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// Function application binds more tightly than dereferencing, so
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// wrap pointer types in parens. Functions can't return functions
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// (only pointers to them), and arrays can't hold functions
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// (similarly), so we don't need to address those cases.
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if (prevGrouping == TYPE_pointer) {
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PrependString(result, "(");
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AppendString(result, ")");
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}
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// Wrap the entire expression so far with parens.
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PrependString(result, "(");
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AppendString(result, ")");
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// Argument list goes on the right.
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AppendString(result, "(");
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@ -190,9 +190,6 @@ function run_test()
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run_FunctionType_tests();
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run_ArrayType_tests();
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// Check that types print properly.
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run_type_toString_tests();
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// Test the 'name' and 'toSource' of a long typename.
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let ptrTo_ptrTo_arrayOf4_ptrTo_int32s =
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new ctypes.PointerType(
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@ -1849,7 +1846,7 @@ function run_FunctionType_tests() {
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let g = g_t(1, 2);
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let f_t = ctypes.FunctionType(ctypes.default_abi, g_t);
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let name = "g_t()";
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let name = "g_t()()";
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do_check_eq(f_t.name, name);
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do_check_eq(f_t.size, undefined);
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do_check_true(f_t.abi === ctypes.default_abi);
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@ -1938,7 +1935,7 @@ function run_FunctionType_tests() {
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s.do_check_true = do_check_true;
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Components.utils.evalInSandbox("var f5_t = ctypes.FunctionType(ctypes.default_abi, ctypes.int, [ctypes.int]);", s);
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Components.utils.evalInSandbox("do_check_eq(f5_t.toSource(), 'ctypes.FunctionType(ctypes.default_abi, ctypes.int, [ctypes.int])');", s);
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Components.utils.evalInSandbox("do_check_eq(f5_t.name, 'int(int)');", s);
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Components.utils.evalInSandbox("do_check_eq(f5_t.name, 'int()(int)');", s);
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Components.utils.evalInSandbox("function f5(aArg) { return 5; };", s);
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Components.utils.evalInSandbox("var f = f5_t.ptr(f5);", s);
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Components.utils.evalInSandbox("do_check_true(f(6) == 5);", s);
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@ -2064,97 +2061,6 @@ function run_ArrayType_tests() {
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do_check_throws(function() { c.value = []; }, Error);
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}
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function run_type_toString_tests() {
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var c = ctypes;
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// Figure out whether we can create functions with ctypes.stdcall_abi and ctypes.winapi_abi.
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var haveStdCallABI;
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try {
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c.FunctionType(c.stdcall_abi, c.int);
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haveStdCallABI = true;
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} catch (x) {
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haveStdCallABI = false;
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}
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var haveWinAPIABI;
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try {
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c.FunctionType(c.winapi_abi, c.int);
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haveWinAPIABI = true;
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} catch (x) {
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haveWinAPIABI = false;
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}
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do_check_eq(c.char.toString(), "type char");
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do_check_eq(c.short.toString(), "type short");
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do_check_eq(c.int.toString(), "type int");
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do_check_eq(c.long.toString(), "type long");
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do_check_eq(c.long_long.toString(), "type long_long");
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do_check_eq(c.ssize_t.toString(), "type ssize_t");
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do_check_eq(c.int8_t.toString(), "type int8_t");
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do_check_eq(c.int16_t.toString(), "type int16_t");
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do_check_eq(c.int32_t.toString(), "type int32_t");
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do_check_eq(c.int64_t.toString(), "type int64_t");
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do_check_eq(c.intptr_t.toString(), "type intptr_t");
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do_check_eq(c.unsigned_char.toString(), "type unsigned_char");
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do_check_eq(c.unsigned_short.toString(), "type unsigned_short");
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do_check_eq(c.unsigned_int.toString(), "type unsigned_int");
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do_check_eq(c.unsigned_long.toString(), "type unsigned_long");
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do_check_eq(c.unsigned_long_long.toString(), "type unsigned_long_long");
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do_check_eq(c.size_t.toString(), "type size_t");
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do_check_eq(c.uint8_t.toString(), "type uint8_t");
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do_check_eq(c.uint16_t.toString(), "type uint16_t");
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do_check_eq(c.uint32_t.toString(), "type uint32_t");
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do_check_eq(c.uint64_t.toString(), "type uint64_t");
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do_check_eq(c.uintptr_t.toString(), "type uintptr_t");
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do_check_eq(c.float.toString(), "type float");
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do_check_eq(c.double.toString(), "type double");
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do_check_eq(c.bool.toString(), "type bool");
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do_check_eq(c.void_t.toString(), "type void");
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do_check_eq(c.voidptr_t.toString(), "type void*");
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do_check_eq(c.jschar.toString(), "type jschar");
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var simplestruct = c.StructType("simplestruct", [{"smitty":c.voidptr_t}]);
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do_check_eq(simplestruct.toString(), "type simplestruct");
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// One type modifier, int base type.
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do_check_eq(c.int.ptr.toString(), "type int*");
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do_check_eq(c.ArrayType(c.int).toString(), "type int[]");
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do_check_eq(c.ArrayType(c.int, 4).toString(), "type int[4]");
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do_check_eq(c.FunctionType(c.default_abi, c.int).toString(), "type int()");
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do_check_eq(c.FunctionType(c.default_abi, c.int, [c.bool]).toString(), "type int(bool)");
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do_check_eq(c.FunctionType(c.default_abi, c.int, [c.bool, c.short]).toString(),
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"type int(bool, short)");
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if (haveStdCallABI)
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do_check_eq(c.FunctionType(c.stdcall_abi, c.int).toString(), "type int __stdcall ()");
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if (haveWinAPIABI)
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do_check_eq(c.FunctionType(c.winapi_abi, c.int).toString(), "type int WINAPI ()");
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// One type modifier, struct base type.
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do_check_eq(simplestruct.ptr.toString(), "type simplestruct*");
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do_check_eq(c.ArrayType(simplestruct).toString(), "type simplestruct[]");
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do_check_eq(c.ArrayType(simplestruct, 4).toString(), "type simplestruct[4]");
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do_check_eq(c.FunctionType(c.default_abi, simplestruct).toString(), "type simplestruct()");
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// Two levels of type modifiers, int base type.
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do_check_eq(c.int.ptr.ptr.toString(), "type int**");
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do_check_eq(c.ArrayType(c.int.ptr).toString(), "type int*[]");
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do_check_eq(c.FunctionType(c.default_abi, c.int.ptr).toString(), "type int*()");
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do_check_eq(c.ArrayType(c.int).ptr.toString(), "type int(*)[]");
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do_check_eq(c.ArrayType(c.ArrayType(c.int, 4)).toString(), "type int[][4]");
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// Functions can't return arrays.
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do_check_eq(c.FunctionType(c.default_abi, c.int).ptr.toString(), "type int(*)()");
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// You can't have an array of functions.
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// Functions can't return functions.
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// We don't try all the permissible three-deep combinations, but this is fun.
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do_check_eq(c.FunctionType(c.default_abi, c.FunctionType(c.default_abi, c.int).ptr).toString(),
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"type int(*())()");
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}
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function run_cast_tests() {
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// Test casting between basic types.
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let i = ctypes.int32_t();
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