source: tests/array-collections/dimexpr-match.hfa @ 50be8af

//  Framework for the dimexpr-match tests.
//
//  These tests show whether an expression of type like `float (*)[25]`
//  can be used in a context expecting a type like `float (*)[rand()]`.
//
//  A test includes this header and defines the function `runTests`.
//  The `runTests` body is made with macros defined here.
//
//  Normally, drive a test either from test.py or ./dimexpr-match-detail.sh.
//  Direct usage is for making small repro cases, while troubleshooting a problem.
//
//  Direct usage is:
//
//      compiler=gcc -x c           # pick one
//      compiler=$fa
//
//      test=dimexpr-match-c.cfa    # pick one
//      test=dimexpr-match-cfa.cfa
//
//      $compiler $test
//      ./a.out
//      ./a.out -cmd4skip | sed -E -n 's/skip.*\| *//p'
//
//  Expect the above compiler invocation to report success.
//  Expect the first a.out invocation to print a mix of "done" and "skipped" messages.
//  Assume the second a.out invocation (through sed) prints several compiler CLI invocations.  For each...
//  Expect that running the current compiler invocation reports an error.
//  So far, this is what dimexpr-match-detail.sh does.
//
//  The macro logic in here is hard to read.
//  A specific test's TRY_COMPAT definition is easy to read.
//
//  An error message from an unexpected rejection is hard to read, because the message blames a macro.
//  To diagnose one, first obtain the failing case's coordinates by ruuning:
//      $compiler $test -E -P -DEMIT_COORDS > temp.cfa  # just preprocessor
//      $compiler temp.cfa                              # will fail, want message
//  Open temp.cfa and chase an error detail's line number, to find the failing code.
//  Look at the pragma-message above the failing line, and read off the failure's -D coordinates.
//  Isolate this case by running:                              ... copied from pragma message ...............................................................................................
//      $compiler $test -E -P -DEMIT_MINIMAL -DINCLUDE_MINIMAL -DARRANGEMENT__OPTIN -DARRANGEMENT_PTRPARM_---- -DCASE_MANUAL -DCASE_FORMATION_L=--- -DCASE_FORMATION_R=--- -DCASE_EQUALITY=-- > mycase.cfa  # template
//      $compiler $test -E -P -DEMIT_MINIMAL -DINCLUDE_MINIMAL -DARRANGEMENT__OPTIN -DARRANGEMENT_PTRPARM_CALL -DCASE_MANUAL -DCASE_FORMATION_L=LIT -DCASE_FORMATION_R=LIT -DCASE_EQUALITY=NE > mycase.cfa  # example
//      $compiler mycase.cfa
//  The content of mycase.cfa is easy to read.

#ifdef __cforall
    extern "C" {
        int strcmp (const char* str1, const char* str2);
    }
    #define NULL 0p
#else
    #include <stdio.h>
    #include <string.h>
#endif

#define CAT(a, ...) PRIMITIVE_CAT(a, __VA_ARGS__)
#define PRIMITIVE_CAT(a, ...) a ## __VA_ARGS__

#define DO_PRAGMA(x) _Pragma (#x)
#define DO_MESSAGE(x) DO_PRAGMA(message #x)

#ifdef EMIT_COORDS
#define MAYPRINT(...)
#define MAYDELIMIT( LV, RV, KL, KR, FL, FR, ISEQ, ARR_NAME ) \
    DO_MESSAGE(-DARRANGEMENT__OPTIN -DARRANGEMENT_ ## ARR_NAME -DCASE_MANUAL -DCASE_FORMATION_L=KL -DCASE_FORMATION_R=KR -DCASE_EQUALITY=ISEQ)
#else
#define MAYPRINT(...) printf(__VA_ARGS__);
#define MAYDELIMIT( LV, RV, KL, KR, FL, FR, ISEQ, ARR_NAME )
#endif

#ifdef EMIT_MINIMAL
#undef MAYPRINT
#define MAYPRINT(...)
#endif

#define GRP_K_LIT STA
#define GRP_K_ENU STA
#define GRP_K_CPR DYN
#define GRP_K_DIM DYN
#define GRP_K_MUT UNS
#define GRP_K( K ) GRP_K_ ## K

#define MKV7_LIT 7
#define MKV7_ENU enu7
#define MKV7_CPR cpr7
#define MKV7_DIM dim7
#define MKV7_MUT mut7
#define MKV7( K ) MKV7_ ## K

#define MKV42_LIT 42
#define MKV42_ENU enu42
#define MKV42_CPR cpr42
#define MKV42_DIM dim42
#define MKV42_MUT mut42
#define MKV42( K ) MKV42_ ## K

#define MKLV( LK ) MKV7( LK )

#define MKRV_EQ( KR ) MKV7(KR)
#define MKRV_NE( KR ) MKV42(KR)
#define MKRV( KR, ISEQ ) MKRV_ ## ISEQ( KR )

#ifdef __cforall
#define RULE_PFX RULE_CF_
#else
#define RULE_PFX RULE_C_
#endif

#define X_CASE_2( KL, KR, ISEQ, FL, FR, ARR_NAME ) \
    MAY_TRY_COMPAT( \
        CAT(CAT(CAT(CAT(CAT(RULE_PFX, ISEQ), _), FL), _), FR), \
        MKLV( KL ), \
        MKRV( KR, ISEQ ), \
        KL, KR, FL, FR, ISEQ, ARR_NAME \
    )

#define X_CASE( KL, KR, ISEQ, ARR_NAME ) X_CASE_2( KL, KR, ISEQ, GRP_K(KL), GRP_K(KR), ARR_NAME )

#ifdef ERRS
#define MAY_TRY_COMPAT_REJ( LV, RV, KL, KR, FL, FR, ISEQ, ARR_NAME ) \
    _Pragma("message \"Expect fail\"") \
    MAY_TRY_COMPAT_ACC( LV, RV, KL, KR, FL, FR, ISEQ, ARR_NAME )
#else
#define MAY_TRY_COMPAT_REJ( LV, RV, KL, KR, FL, FR, ISEQ, ARR_NAME ) \
    MAYPRINT("skip %s %s %s, L=%s, R=%s",  #FL, #ISEQ, #FR, #LV, #RV ) \
    if (cmd4skip) { \
        MAYPRINT(" | -DERRS -Werror %s -DARRANGEMENT__OPTIN -DARRANGEMENT_%s -DCASE_MANUAL -DCASE_FORMATION_L=%s -DCASE_FORMATION_R=%s -DCASE_EQUALITY=%s",  __FILE__, #ARR_NAME, #KL, #KR, #ISEQ ) \
    } \
    MAYPRINT("\n")
#endif

#define MAY_TRY_COMPAT_ACC( LV, RV, KL, KR, FL, FR, ISEQ, ARR_NAME ) \
    MAYDELIMIT( LV, RV, KL, KR, FL, FR, ISEQ, ARR_NAME ) \
    TRY_COMPAT(LV, RV) \
    MAYPRINT("done %s %s %s, L=%s, R=%s\n",  #FL, #ISEQ, #FR, #LV, #RV )

#define MAY_TRY_COMPAT(EXPECT, LV, RV, KL, KR, FL, FR, ISEQ, ARR_NAME) \
    CAT(MAY_TRY_COMPAT_, EXPECT( LV, RV, KL, KR, FL, FR, ISEQ, ARR_NAME ))

#define TCXXX(Q) Q
#define TCXX(Q) #Q

#define QUOTE(str) #str
#define EXPAND_AND_QUOTE(str) QUOTE(str)
#define TRY_COMPAT_E EXPAND_AND_QUOTE(TRY_COMPAT(__L__,__R__))

#if ! defined __cforall
#define SUPPRESS_FORALL_N
#endif

#if defined SUPPRESS_FORALL_N_ON_CLASSIC && defined CFA_IS_CLASSIC
#define SUPPRESS_FORALL_N
#endif

/*

RULE macros define the expected outcome:
Given a compiler's functionality level and a  test case, do we expect the compiler to accept or reject the case?

Group STA: Statically stable
    - literal
    - enumeration

Group DYN: Dynamically stable
    - parameter that is a constant
    - static constant global

Group UNS: potentially Unstable
    - variable
    - parameter that is a constant reference to constant
    - function return
    - extern constant (safe and annoying here; must be here if you can link it to something that changes)

C rules
    - Reject a pair from group STA if it has two different values
    - otherwise, accept

CFA "classic" rules (what CFA actually does, before Mike brings in CFA rules)
    - same as C, except
    - reject STA/non-STA crossing

CFA rules ("preview" only)
    - accept a pair from group STA if it has the same value
    - accept a pair from group DYN if it is written out the same (e.g. refers to same variable)
    - otherwise, reject
        (notably, reject all group UNS)
        (notably, reject any group crossing)

The RULE_* definitions below encode the summary above into the test harness's format.
This format is: tabled function to {ACC,REJ} from {STA,DYN,UNS}^2 x {EQ,NE}

*/

#define RULE_C_EQ_STA_STA  ACC
#define RULE_C_EQ_STA_DYN  ACC
#define RULE_C_EQ_STA_UNS  ACC
#define RULE_C_EQ_DYN_STA  ACC
#define RULE_C_EQ_DYN_DYN  ACC
#define RULE_C_EQ_DYN_UNS  ACC
#define RULE_C_EQ_UNS_STA  ACC
#define RULE_C_EQ_UNS_DYN  ACC
#define RULE_C_EQ_UNS_UNS  ACC

#define RULE_C_NE_STA_STA  REJ
#define RULE_C_NE_STA_DYN  ACC
#define RULE_C_NE_STA_UNS  ACC
#define RULE_C_NE_DYN_STA  ACC
#define RULE_C_NE_DYN_DYN  ACC
#define RULE_C_NE_DYN_UNS  ACC
#define RULE_C_NE_UNS_STA  ACC
#define RULE_C_NE_UNS_DYN  ACC
#define RULE_C_NE_UNS_UNS  ACC

#ifdef CFA_IS_CLASSIC

#define RULE_CF_EQ_STA_STA  ACC
#define RULE_CF_EQ_STA_DYN  REJ
#define RULE_CF_EQ_STA_UNS  REJ
#define RULE_CF_EQ_DYN_STA  REJ
#define RULE_CF_EQ_DYN_DYN  ACC
#define RULE_CF_EQ_DYN_UNS  ACC
#define RULE_CF_EQ_UNS_STA  REJ
#define RULE_CF_EQ_UNS_DYN  ACC
#define RULE_CF_EQ_UNS_UNS  ACC

#define RULE_CF_NE_STA_STA  REJ
#define RULE_CF_NE_STA_DYN  REJ
#define RULE_CF_NE_STA_UNS  REJ
#define RULE_CF_NE_DYN_STA  REJ
#define RULE_CF_NE_DYN_DYN  ACC
#define RULE_CF_NE_DYN_UNS  ACC
#define RULE_CF_NE_UNS_STA  REJ
#define RULE_CF_NE_UNS_DYN  ACC
#define RULE_CF_NE_UNS_UNS  ACC

#else

#define RULE_CF_EQ_STA_STA  ACC
#define RULE_CF_EQ_STA_DYN  REJ
#define RULE_CF_EQ_STA_UNS  REJ
#define RULE_CF_EQ_DYN_STA  REJ
#define RULE_CF_EQ_DYN_DYN  ACC
#define RULE_CF_EQ_DYN_UNS  REJ
#define RULE_CF_EQ_UNS_STA  REJ
#define RULE_CF_EQ_UNS_DYN  REJ
#define RULE_CF_EQ_UNS_UNS  REJ

#define RULE_CF_NE_STA_STA  REJ
#define RULE_CF_NE_STA_DYN  REJ
#define RULE_CF_NE_STA_UNS  REJ
#define RULE_CF_NE_DYN_STA  REJ
#define RULE_CF_NE_DYN_DYN  REJ
#define RULE_CF_NE_DYN_UNS  REJ
#define RULE_CF_NE_UNS_STA  REJ
#define RULE_CF_NE_UNS_DYN  REJ
#define RULE_CF_NE_UNS_UNS  REJ

#endif

#ifndef ARRANGEMENT__OPTIN
#define ARRANGEMENT_PTRVAR_INIT 1
#define ARRANGEMENT_PTRPARM_CALL 1
#define ARRANGEMENT_PTRVAR_ASGN 1
#define ARRANGEMENT_REFVAR_INIT 1
#define ARRANGEMENT_REFPARM_CALL 1
#define ARRANGEMENT_REFVAR_ASGN 1
#define ARRANGEMENT_CALLZIP 1
#endif

#define EMIT_SKIP( ARR_NAME ) \
    MAYPRINT( "---- " #ARR_NAME " skipped\n" )

#define MAY_EMIT_ARRANGEMENT_PTRVAR_INIT( ARR_NAME ) EMIT_SKIP( ARR_NAME )
#define MAY_EMIT_ARRANGEMENT_PTRPARM_CALL( ARR_NAME ) EMIT_SKIP( ARR_NAME )
#define MAY_EMIT_ARRANGEMENT_PTRVAR_ASGN( ARR_NAME ) EMIT_SKIP( ARR_NAME )
#define MAY_EMIT_ARRANGEMENT_REFVAR_INIT( ARR_NAME ) EMIT_SKIP( ARR_NAME )
#define MAY_EMIT_ARRANGEMENT_REFPARM_CALL( ARR_NAME ) EMIT_SKIP( ARR_NAME )
#define MAY_EMIT_ARRANGEMENT_REFVAR_ASGN( ARR_NAME ) EMIT_SKIP( ARR_NAME )
#define MAY_EMIT_ARRANGEMENT_CALLZIP( ARR_NAME ) EMIT_SKIP( ARR_NAME )

#define MAY_EMIT_1( ARR_NAME ) \
    MAYPRINT( "---- " #ARR_NAME ":   " TRY_COMPAT_E "\n" ) \
    RUNCASES( ARR_NAME )

#ifndef CASE_MANUAL
  #define RUNCASES( ARR_NAME ) \
    X_CASE( LIT, LIT, EQ, ARR_NAME ) \
    X_CASE( LIT, LIT, NE, ARR_NAME ) \
    X_CASE( LIT, ENU, EQ, ARR_NAME ) \
    X_CASE( LIT, ENU, NE, ARR_NAME ) \
    X_CASE( LIT, CPR, NE, ARR_NAME ) \
    X_CASE( LIT, MUT, NE, ARR_NAME ) \
    X_CASE( ENU, ENU, EQ, ARR_NAME ) \
    X_CASE( ENU, ENU, NE, ARR_NAME ) \
    X_CASE( ENU, LIT, EQ, ARR_NAME ) \
    X_CASE( ENU, LIT, NE, ARR_NAME ) \
    X_CASE( ENU, CPR, NE, ARR_NAME ) \
    X_CASE( ENU, MUT, NE, ARR_NAME ) \
    X_CASE( CPR, CPR, EQ, ARR_NAME ) \
    X_CASE( CPR, CPR, NE, ARR_NAME ) \
    X_CASE( CPR, LIT, NE, ARR_NAME ) \
    X_CASE( CPR, ENU, NE, ARR_NAME ) \
    X_CASE( CPR, MUT, NE, ARR_NAME ) \
    X_CASE( MUT, MUT, EQ, ARR_NAME ) \
    X_CASE( MUT, MUT, NE, ARR_NAME ) \
    X_CASE( MUT, LIT, NE, ARR_NAME ) \
    X_CASE( MUT, ENU, NE, ARR_NAME ) \
    X_CASE( MUT, CPR, NE, ARR_NAME ) \
    RUNCASES_FORALL_N( ARR_NAME )

  #ifndef SUPPRESS_FORALL_N
  #define RUNCASES_FORALL_N( ARR_NAME ) \
    X_CASE( LIT, DIM, NE, ARR_NAME ) \
    X_CASE( ENU, DIM, NE, ARR_NAME ) \
    X_CASE( CPR, DIM, NE, ARR_NAME ) \
    X_CASE( DIM, DIM, EQ, ARR_NAME ) \
    X_CASE( DIM, DIM, NE, ARR_NAME ) \
    X_CASE( DIM, LIT, NE, ARR_NAME ) \
    X_CASE( DIM, ENU, NE, ARR_NAME ) \
    X_CASE( DIM, CPR, NE, ARR_NAME ) \
    X_CASE( DIM, MUT, NE, ARR_NAME ) \
    X_CASE( MUT, DIM, NE, ARR_NAME ) 
  #else
  #define RUNCASES_FORALL_N( ARR_NAME )
  #endif

#else
    #ifndef CASE_FORMATION_L
    #error CASE_FORMATION_L not specified along with CASE_MANUAL
    #endif
    #ifndef CASE_FORMATION_R
    #error CASE_FORMATION_R not specified along with CASE_MANUAL
    #endif
    #ifndef CASE_EQUALITY
    #error CASE_EQUALITY not specified along with CASE_MANUAL
    #endif
    #define RUNCASES( ARR_NAME ) X_CASE( CASE_FORMATION_L, CASE_FORMATION_R, CASE_EQUALITY, ARR_NAME )
#endif 

#define ARRANGEMENT( ARR_NAME ) CAT(MAY_EMIT_, CAT(ARRANGEMENT_, ARR_NAME)) ( ARR_NAME )


#if defined SUPPRESS_FORALL_N

    #define DECLN_runTests                   \
        void runTests(                       \
            const int cpr7, const int cpr42, \
            int cmd4skip                     \
        )
#else

    forall( [N] ) struct quicktag {};

    #define DECLN_runTests                   \
        forall( [dim7], [dim42] )            \
        void runTests(                       \
            const int cpr7, const int cpr42, \
            quicktag(dim7), quicktag(dim42), \
            int cmd4skip                     \
        )
#endif

DECLN_runTests;

int main(int argc, const char *argv[]) {

    int cmd4skip = 0;

    if (argc > 1 && strcmp("-cmd4skip", argv[1]) == 0) {
        cmd4skip = 1;
    }

  #if defined SUPPRESS_FORALL_N
    runTests(7, 42, cmd4skip);
  #else
    quicktag(7) tag7;
    quicktag(42) tag42;
    runTests(7, 42, tag7, tag42, cmd4skip);
  #endif

    return 0;
}