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d8fdd380f3
See added testcase 19.c from a bug report. The problem is reading outside the arguments buffers, even though we aren't allowed to. The single can_read_stream variable is not enough, sometimes we need to be able to pop into outer contexts but not into arbitrarily outside contexts. The trick is to terminate argument tokens with a EOF (and not just with 0 that makes us pop contexts), and deal with that in the few places we have to, This enables some cleanups of the can_read_stream variable use.
102 lines
5.0 KiB
C
102 lines
5.0 KiB
C
#define M_C2I(a, ...) a ## __VA_ARGS__
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#define M_C(a, ...) M_C2I(a, __VA_ARGS__)
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#define M_C3I(a, b, ...) a ## b ## __VA_ARGS__
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#define M_C3(a, b, ...) M_C3I(a ,b, __VA_ARGS__)
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#define M_RETI_ARG2(a, b, ...) b
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#define M_RET_ARG2(...) M_RETI_ARG2(__VA_ARGS__)
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#define M_RETI_ARG27(a,b,c,d,e,f,g,h,i,j,k,l,m,n,o,p,q,r,s,t,u,v,w,x,y,z,aa, ...) aa
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#define M_RET_ARG27(...) M_RETI_ARG27(__VA_ARGS__)
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#define M_TOBOOLI_0 1, 0,
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#define M_BOOL(x) M_RET_ARG2(M_C(M_TOBOOLI_, x), 1, useless)
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#define M_IFI_0(true_macro, ...) __VA_ARGS__
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#define M_IFI_1(true_macro, ...) true_macro
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#define M_IF(c) M_C(M_IFI_, M_BOOL(c))
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#define M_FLAT(...) __VA_ARGS__
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#define M_INVI_0 1
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#define M_INVI_1 0
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#define M_INV(x) M_C(M_INVI_, x)
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#define M_ANDI_00 0
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#define M_ANDI_01 0
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#define M_ANDI_10 0
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#define M_ANDI_11 1
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#define M_AND(x,y) M_C3(M_ANDI_, x, y)
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#define M_ORI_00 0
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#define M_ORI_01 1
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#define M_ORI_10 1
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#define M_ORI_11 1
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#define M_OR(x,y) M_C3(M_ORI_, x, y)
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#define M_COMMA_P(...) M_RET_ARG27(__VA_ARGS__, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, useless)
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#define M_EMPTYI_DETECT(...) 0, 1,
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#define M_EMPTYI_P_C1(...) M_COMMA_P(M_EMPTYI_DETECT __VA_ARGS__ ())
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#define M_EMPTYI_P_C2(...) M_COMMA_P(M_EMPTYI_DETECT __VA_ARGS__)
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#define M_EMPTYI_P_C3(...) M_COMMA_P(__VA_ARGS__ () )
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#define M_EMPTY_P(...) M_AND(M_EMPTYI_P_C1(__VA_ARGS__), M_INV(M_OR(M_OR(M_EMPTYI_P_C2(__VA_ARGS__), M_COMMA_P(__VA_ARGS__)),M_EMPTYI_P_C3(__VA_ARGS__))))
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#define M_APPLY_FUNC2B(func, arg1, arg2) \
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M_IF(M_EMPTY_P(arg2))(,func(arg1, arg2))
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#define M_MAP2B_0(func, data, a, b, c, d, e, f, g, h, i, j, k, l, m, n, o, p, q, r, s, t, u, v, w, x, y, z,...) \
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M_APPLY_FUNC2B(func, data, a) M_APPLY_FUNC2B(func, data, b) M_APPLY_FUNC2B(func, data, c) \
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M_APPLY_FUNC2B(func, data, d) M_APPLY_FUNC2B(func, data, e) M_APPLY_FUNC2B(func, data, f) \
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M_APPLY_FUNC2B(func, data, g) M_APPLY_FUNC2B(func, data, h) M_APPLY_FUNC2B(func, data, i) \
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M_APPLY_FUNC2B(func, data, j) M_APPLY_FUNC2B(func, data, k) M_APPLY_FUNC2B(func, data, l) \
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M_APPLY_FUNC2B(func, data, m) M_APPLY_FUNC2B(func, data, n) M_APPLY_FUNC2B(func, data, o) \
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M_APPLY_FUNC2B(func, data, p) M_APPLY_FUNC2B(func, data, q) M_APPLY_FUNC2B(func, data, r) \
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M_APPLY_FUNC2B(func, data, s) M_APPLY_FUNC2B(func, data, t) M_APPLY_FUNC2B(func, data, u) \
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M_APPLY_FUNC2B(func, data, v) M_APPLY_FUNC2B(func, data, w) M_APPLY_FUNC2B(func, data, x) \
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M_APPLY_FUNC2B(func, data, y) M_APPLY_FUNC2B(func, data, z)
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#define M_MAP2B(f, ...) M_MAP2B_0(f, __VA_ARGS__, , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , )
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#define M_INIT_INIT(a) ,a,
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#define M_GET_METHOD(method, method_default, ...) \
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M_RET_ARG2 (M_MAP2B(M_C, M_C3(M_, method, _), __VA_ARGS__), method_default,)
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#define M_TEST_METHOD_P(method, oplist) \
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M_BOOL(M_GET_METHOD (method, 0, M_FLAT oplist))
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#define TRUE 1
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#define TEST1(n) \
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M_IF(n)(ok,nok)
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#define TEST2(op) \
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M_TEST_METHOD_P(INIT, op)
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#define TEST3(op) \
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M_IF(M_TEST_METHOD_P(INIT, op))(ok, nok)
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#define TEST4(op) \
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TEST1(TEST2(op))
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#define KO(a) ((void)1)
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/* This checks that the various expansions that ultimately lead to
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something like 'KO(arg,arg)', where 'KO' comes from a macro
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expansion reducing from a large macro chain do not are regarded
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as funclike macro invocation of KO. E.g. X93 and X94 expand to 'KO',
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but X95 must not consume the (a,b) arguments outside the M_IF()
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invocation to reduce the 'KO' macro to an invocation. Instead
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X95 should reduce via M_IF(KO)(a,b) to 'a'.
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The other lines here are variations on this scheme, with X1 to
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X6 coming from the bug report at
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http://lists.nongnu.org/archive/html/tinycc-devel/2017-07/msg00017.html */
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X92 M_IF(KO)
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X93 M_GET_METHOD(INIT, 0, INIT(KO))
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X94 M_GET_METHOD(INIT, 0, M_FLAT (INIT(KO)))
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X95 M_IF(M_GET_METHOD(INIT, 0, INIT(KO)))(a,b)
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X96 M_IF(M_GET_METHOD(INIT, 0, M_FLAT (INIT(KO))))
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X97 M_IF(M_GET_METHOD(INIT, 0, M_FLAT (INIT(KO))))(ok,nok)
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X98 (M_TEST_METHOD_P(INIT, (INIT(KO))))(ok, nok)
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X99 M_IF(M_TEST_METHOD_P(INIT, (INIT(KO))))(ok, nok)
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// test begins
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X1 TEST1(TRUE) // ==> expect ok, get ok
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// First test with a token which is not a macro
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X2 TEST2((INIT(ok))) // ==> expect 1, get 1
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X3 TEST3((INIT(ok))) // ==> expect ok, get ok
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// Then test with a token which is a macro, but should not be expanded.
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X4 TEST2((INIT(KO))) // ==> expect 1, get 1
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X5 TEST4(INIT(KO))
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X6 TEST3((INIT(KO))) // ==> expect ok, get "error: macro 'KO' used with too many args"
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