fix ya.make

1 files changed, 0 insertions, 145 deletions

diff --git a/contrib/libs/cxxsupp/builtins/comparesf2.c b/contrib/libs/cxxsupp/builtins/comparesf2.c
deleted file mode 100644
index 1fd50636aba..00000000000
--- a/contrib/libs/cxxsupp/builtins/comparesf2.c
+++ /dev/null
@@ -1,145 +0,0 @@
-//===-- lib/comparesf2.c - Single-precision comparisons -----------*- C -*-===//
-//
-//                     The LLVM Compiler Infrastructure
-//
-// This file is dual licensed under the MIT and the University of Illinois Open
-// Source Licenses. See LICENSE.TXT for details.
-//
-//===----------------------------------------------------------------------===//
-//
-// This file implements the following soft-fp_t comparison routines:
-//
-//   __eqsf2   __gesf2   __unordsf2
-//   __lesf2   __gtsf2
-//   __ltsf2
-//   __nesf2
-//
-// The semantics of the routines grouped in each column are identical, so there
-// is a single implementation for each, and wrappers to provide the other names.
-//
-// The main routines behave as follows:
-//
-//   __lesf2(a,b) returns -1 if a < b
-//                         0 if a == b
-//                         1 if a > b
-//                         1 if either a or b is NaN
-//
-//   __gesf2(a,b) returns -1 if a < b
-//                         0 if a == b
-//                         1 if a > b
-//                        -1 if either a or b is NaN
-//
-//   __unordsf2(a,b) returns 0 if both a and b are numbers
-//                           1 if either a or b is NaN
-//
-// Note that __lesf2( ) and __gesf2( ) are identical except in their handling of
-// NaN values.
-//
-//===----------------------------------------------------------------------===//
-
-#define SINGLE_PRECISION
-#include "fp_lib.h"
-
-enum LE_RESULT {
-    LE_LESS      = -1,
-    LE_EQUAL     =  0,
-    LE_GREATER   =  1,
-    LE_UNORDERED =  1
-};
-
-COMPILER_RT_ABI enum LE_RESULT
-__lesf2(fp_t a, fp_t b) {
-    
-    const srep_t aInt = toRep(a);
-    const srep_t bInt = toRep(b);
-    const rep_t aAbs = aInt & absMask;
-    const rep_t bAbs = bInt & absMask;
-    
-    // If either a or b is NaN, they are unordered.
-    if (aAbs > infRep || bAbs > infRep) return LE_UNORDERED;
-    
-    // If a and b are both zeros, they are equal.
-    if ((aAbs | bAbs) == 0) return LE_EQUAL;
-    
-    // If at least one of a and b is positive, we get the same result comparing
-    // a and b as signed integers as we would with a fp_ting-point compare.
-    if ((aInt & bInt) >= 0) {
-        if (aInt < bInt) return LE_LESS;
-        else if (aInt == bInt) return LE_EQUAL;
-        else return LE_GREATER;
-    }
-    
-    // Otherwise, both are negative, so we need to flip the sense of the
-    // comparison to get the correct result.  (This assumes a twos- or ones-
-    // complement integer representation; if integers are represented in a
-    // sign-magnitude representation, then this flip is incorrect).
-    else {
-        if (aInt > bInt) return LE_LESS;
-        else if (aInt == bInt) return LE_EQUAL;
-        else return LE_GREATER;
-    }
-}
-
-#if defined(__ELF__)
-// Alias for libgcc compatibility
-FNALIAS(__cmpsf2, __lesf2);
-#endif
-
-enum GE_RESULT {
-    GE_LESS      = -1,
-    GE_EQUAL     =  0,
-    GE_GREATER   =  1,
-    GE_UNORDERED = -1   // Note: different from LE_UNORDERED
-};
-
-COMPILER_RT_ABI enum GE_RESULT
-__gesf2(fp_t a, fp_t b) {
-    
-    const srep_t aInt = toRep(a);
-    const srep_t bInt = toRep(b);
-    const rep_t aAbs = aInt & absMask;
-    const rep_t bAbs = bInt & absMask;
-    
-    if (aAbs > infRep || bAbs > infRep) return GE_UNORDERED;
-    if ((aAbs | bAbs) == 0) return GE_EQUAL;
-    if ((aInt & bInt) >= 0) {
-        if (aInt < bInt) return GE_LESS;
-        else if (aInt == bInt) return GE_EQUAL;
-        else return GE_GREATER;
-    } else {
-        if (aInt > bInt) return GE_LESS;
-        else if (aInt == bInt) return GE_EQUAL;
-        else return GE_GREATER;
-    }
-}
-
-ARM_EABI_FNALIAS(fcmpun, unordsf2)
-
-COMPILER_RT_ABI int
-__unordsf2(fp_t a, fp_t b) {
-    const rep_t aAbs = toRep(a) & absMask;
-    const rep_t bAbs = toRep(b) & absMask;
-    return aAbs > infRep || bAbs > infRep;
-}
-
-// The following are alternative names for the preceding routines.
-
-COMPILER_RT_ABI enum LE_RESULT
-__eqsf2(fp_t a, fp_t b) {
-    return __lesf2(a, b);
-}
-
-COMPILER_RT_ABI enum LE_RESULT
-__ltsf2(fp_t a, fp_t b) {
-    return __lesf2(a, b);
-}
-
-COMPILER_RT_ABI enum LE_RESULT
-__nesf2(fp_t a, fp_t b) {
-    return __lesf2(a, b);
-}
-
-COMPILER_RT_ABI enum GE_RESULT
-__gtsf2(fp_t a, fp_t b) {
-    return __gesf2(a, b);
-}