source: tests/array-container/dimexpr-match-cfa.cfa@ 3bf9d10

Last change on this file since 3bf9d10 was 0f4ac10, checked in by Michael Brooks <mlbrooks@…>, 2 years ago

Add tests demonstrating CFA's treatment of C arrays, compared with GCC's.

These tests recognize two levels of CFA functionality: Classic and Preview. This commit shows that CFA Master implements Classic. Preview refers to Mike's forthcoming changes.

Only the CFA part runs in the nightly build. Under CFA Classic, a limitation is that only some rejection cases are exercised in the nightly build. A hand-driven testing script can access all the cases and CFA Preview will exercise all the cases in the nightly build.

test dimexpr-match-c: how CFA's treatment of C arrays compares with GCC's

test dimexpr-match-cfa: how CFA's treamtment of <containers/array.hfa>-arrays aligns with the above
  • Property mode set to 100644
File size: 4.2 KB
RevLine 
[0f4ac10]1// These "-cfa" test cases run the dimexpr-match framework (see the hfa) on the CFA "new array."
2// The test is not runnable in gcc.
3// Essentially parallels dimexpr-match.cfa, but uses array(float, 17), of array.hfa, in place of `float[17]`.
4
5#ifndef __cforall
6#error This test is CFA-only
7#endif
8
9#ifdef INCLUDE_MINIMAL
10#define POUNDINCLUDE #include
11POUNDINCLUDE <containers/array.hfa>
12#else
13#include <containers/array.hfa> // part of SUT
14#endif
15
16#include "dimexpr-match.hfa" // test framework
17
18// CFA "classic" behaviour is inconsistent between "C array" and "new array."
19// The impelementation of "non classic" rules makes C arrays and new arrays work the same.
20#ifdef CFA_IS_CLASSIC
21
22 // CFA "classic" allows mismatched static lengths on "new arrays," which is a bug.
23 // For cfacc-classic compiling C arrays, the (expected) rejection of mismatched static lenghts happens in gcc, not cfa-cpp.
24 // When the CFA input is a C array, the cfa-cc handling is passthrough, so GCC sees the error.
25 // When the CFA input is a new array, the cfa-cpp handling is nontrivial; this rewriting hides the error from GCC, causing the case to be accepted.
26 // This issue is fixed in the implementation of the "non classic" rules.
27 #undef RULE_CF_NE_STA_STA
28 #define RULE_CF_NE_STA_STA ACC
29
30 // CFA "classic" rejects mismatched `[N]`s on "new arrays," which is the original signature featere of "new arrays."
31 // But it is unable to do the same with `n`s. So CFA "classic" treats `n` and `[N]` differently.
32 // The impelementation of "non classic" rules extends this safety to `n`s, and to C arrays.
33 #undef GRP_K_DIM // reclassify dim7/dim42 as group XXX, instead of group DYN
34 #define GRP_K_DIM XXX
35 #define RULE_CF_EQ_XXX_XXX ACC // these rules correspond with non-"classic" DYN
36 #define RULE_CF_NE_XXX_XXX REJ
37 #define RULE_CF_NE_XXX_STA REJ
38 #define RULE_CF_NE_STA_XXX REJ
39 #define RULE_CF_NE_XXX_DYN REJ
40 #define RULE_CF_NE_DYN_XXX REJ
41 #define RULE_CF_NE_XXX_UNS REJ
42 #define RULE_CF_NE_UNS_XXX REJ
43
44#endif
45
46
47DECLN_runTests {
48
49 enum { enu7 = 7, enu42 = 42 };
50 int mut7 = 7, mut42 = 42;
51
52
53 #define TRY_COMPAT( LV, RV ) \
54 { \
55 void f( array(float, LV) * x ) {} \
56 array(float, RV) a; \
57 f( & a ); \
58 }
59 ARRANGEMENT( PTRPARM_CALL )
60 #undef TRY_COMPAT
61
62 #define TRY_COMPAT( LV, RV ) \
63 { \
64 array(float, RV) a; \
65 array(float, LV) * b = & a; \
66 }
67 ARRANGEMENT( PTRVAR_INIT )
68 #undef TRY_COMPAT
69
70 #define TRY_COMPAT( LV, RV ) \
71 { \
72 array(float, RV) a; \
73 array(float, LV) * b = NULL; \
74 b = & a; \
75 }
76 ARRANGEMENT( PTRVAR_ASGN )
77 #undef TRY_COMPAT
78
79 #define TRY_COMPAT( LV, RV ) \
80 { \
81 void f( array(float, LV) & x ) {} \
82 array(float, RV) a; \
83 f( a ); \
84 }
85 ARRANGEMENT( REFPARM_CALL )
86 #undef TRY_COMPAT
87
88 #define TRY_COMPAT( LV, RV ) \
89 { \
90 array(float, RV) a; \
91 array(float, LV) & b = a; \
92 }
93 ARRANGEMENT( REFVAR_INIT )
94 #undef TRY_COMPAT
95
96 #define TRY_COMPAT( LV, RV ) \
97 { \
98 array(float, RV) a; \
99 array(float, LV) & b = *0p; \
100 & b = & a; \
101 }
102 ARRANGEMENT( REFVAR_ASGN )
103 #undef TRY_COMPAT
104
105
106 forall( [N] )
107 void zip( array(float, N) & a, array(float, N) & b ) {}
108
109 #define TRY_COMPAT( LV, RV ) \
110 { \
111 array(float, LV) a; \
112 array(float, RV) b; \
113 zip( a, b ); \
114 }
115 ARRANGEMENT( CALLZIP )
116 #undef TRY_COMPAT
117
118}
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