| // RUN: %clang_cc1 -analyze -analyzer-checker=core,debug.ExprInspection -verify -analyzer-constraints=basic -Wno-tautological-compare %s |
| // RUN: %clang_cc1 -analyze -analyzer-checker=core,debug.ExprInspection -verify -analyzer-constraints=range -Wno-tautological-compare %s |
| |
| void clang_analyzer_eval(bool); |
| |
| #define UINT_MAX (~0U) |
| #define INT_MAX (UINT_MAX & (UINT_MAX >> 1)) |
| #define INT_MIN (-INT_MAX - 1) |
| |
| //--------------- |
| // Plus/minus |
| //--------------- |
| |
| void separateExpressions (int a) { |
| int b = a + 1; |
| --b; |
| |
| clang_analyzer_eval(a != 0 && b == 0); // expected-warning{{FALSE}} |
| } |
| |
| void oneLongExpression (int a) { |
| // Expression canonicalization should still allow this to work, even though |
| // the first term is on the left. |
| int b = 15 + a + 15 - 10 - 20; |
| |
| clang_analyzer_eval(a != 0 && b == 0); // expected-warning{{FALSE}} |
| } |
| |
| void mixedTypes (int a) { |
| // Different additive types should not cause crashes when constant-folding. |
| // This is part of PR7406. |
| int b = a + 1LL; |
| clang_analyzer_eval(a != 0 && (b-1) == 0); // not crash, expected-warning{{FALSE}} |
| |
| int c = a + 1U; |
| clang_analyzer_eval(a != 0 && (c-1) == 0); // not crash, expected-warning{{FALSE}} |
| } |
| |
| //--------------- |
| // Comparisons |
| //--------------- |
| |
| // Equality and inequality only |
| void eq_ne (unsigned a) { |
| if (a == UINT_MAX) { |
| clang_analyzer_eval(a+1 == 0); // expected-warning{{TRUE}} |
| clang_analyzer_eval(a-1 == UINT_MAX-1); // expected-warning{{TRUE}} |
| } else { |
| clang_analyzer_eval(a+1 != 0); // expected-warning{{TRUE}} |
| clang_analyzer_eval(a-1 != UINT_MAX-1); // expected-warning{{TRUE}} |
| } |
| } |
| |
| // Mixed typed inequalities (part of PR7406) |
| // These should not crash. |
| void mixed_eq_ne (int a) { |
| if (a == 1) { |
| clang_analyzer_eval(a+1U == 2); // expected-warning{{TRUE}} |
| clang_analyzer_eval(a-1U == 0); // expected-warning{{TRUE}} |
| } else { |
| clang_analyzer_eval(a+1U != 2); // expected-warning{{TRUE}} |
| clang_analyzer_eval(a-1U != 0); // expected-warning{{TRUE}} |
| } |
| } |
| |
| |
| // Simple order comparisons with no adjustment |
| void baselineGT (unsigned a) { |
| if (a > 0) |
| clang_analyzer_eval(a != 0); // expected-warning{{TRUE}} |
| else |
| clang_analyzer_eval(a == 0); // expected-warning{{TRUE}} |
| } |
| |
| void baselineGE (unsigned a) { |
| if (a >= UINT_MAX) |
| clang_analyzer_eval(a == UINT_MAX); // expected-warning{{TRUE}} |
| else |
| clang_analyzer_eval(a != UINT_MAX); // expected-warning{{TRUE}} |
| } |
| |
| void baselineLT (unsigned a) { |
| if (a < UINT_MAX) |
| clang_analyzer_eval(a != UINT_MAX); // expected-warning{{TRUE}} |
| else |
| clang_analyzer_eval(a == UINT_MAX); // expected-warning{{TRUE}} |
| } |
| |
| void baselineLE (unsigned a) { |
| if (a <= 0) |
| clang_analyzer_eval(a == 0); // expected-warning{{TRUE}} |
| else |
| clang_analyzer_eval(a != 0); // expected-warning{{TRUE}} |
| } |
| |
| |
| // Adjustment gives each of these an extra solution! |
| void adjustedGT (unsigned a) { |
| clang_analyzer_eval(a-1 > UINT_MAX-1); // expected-warning{{UNKNOWN}} |
| } |
| |
| void adjustedGE (unsigned a) { |
| clang_analyzer_eval(a-1 > UINT_MAX-1); // expected-warning{{UNKNOWN}} |
| |
| if (a-1 >= UINT_MAX-1) |
| clang_analyzer_eval(a == UINT_MAX); // expected-warning{{UNKNOWN}} |
| } |
| |
| void adjustedLT (unsigned a) { |
| clang_analyzer_eval(a+1 < 1); // expected-warning{{UNKNOWN}} |
| } |
| |
| void adjustedLE (unsigned a) { |
| clang_analyzer_eval(a+1 <= 1); // expected-warning{{UNKNOWN}} |
| |
| if (a+1 <= 1) |
| clang_analyzer_eval(a == 0); // expected-warning{{UNKNOWN}} |
| } |
| |
| |
| // Tautologies |
| // The negative forms are exercised as well |
| // because clang_analyzer_eval tests both possibilities. |
| void tautologies(unsigned a) { |
| clang_analyzer_eval(a <= UINT_MAX); // expected-warning{{TRUE}} |
| clang_analyzer_eval(a >= 0); // expected-warning{{TRUE}} |
| } |
| |
| |
| // Tautologies from outside the range of the symbol |
| void tautologiesOutside(unsigned char a) { |
| clang_analyzer_eval(a <= 0x100); // expected-warning{{TRUE}} |
| clang_analyzer_eval(a < 0x100); // expected-warning{{TRUE}} |
| |
| clang_analyzer_eval(a != 0x100); // expected-warning{{TRUE}} |
| clang_analyzer_eval(a != -1); // expected-warning{{TRUE}} |
| |
| clang_analyzer_eval(a > -1); // expected-warning{{TRUE}} |
| clang_analyzer_eval(a >= -1); // expected-warning{{TRUE}} |
| } |
| |
| |
| // Wraparound with mixed types. Note that the analyzer assumes |
| // -fwrapv semantics. |
| void mixedWraparoundSanityCheck(int a) { |
| int max = INT_MAX; |
| int min = INT_MIN; |
| |
| int b = a + 1; |
| clang_analyzer_eval(a == max && b != min); // expected-warning{{FALSE}} |
| } |
| |
| void mixedWraparoundLE_GT(int a) { |
| int max = INT_MAX; |
| int min = INT_MIN; |
| |
| clang_analyzer_eval((a + 2) <= (max + 1LL)); // expected-warning{{TRUE}} |
| clang_analyzer_eval((a - 2) > (min - 1LL)); // expected-warning{{TRUE}} |
| clang_analyzer_eval((a + 2LL) <= max); // expected-warning{{UNKNOWN}} |
| } |
| |
| void mixedWraparoundGE_LT(int a) { |
| int max = INT_MAX; |
| int min = INT_MIN; |
| |
| clang_analyzer_eval((a + 2) < (max + 1LL)); // expected-warning{{TRUE}} |
| clang_analyzer_eval((a - 2) >= (min - 1LL)); // expected-warning{{TRUE}} |
| clang_analyzer_eval((a - 2LL) >= min); // expected-warning{{UNKNOWN}} |
| } |
| |
| void mixedWraparoundEQ_NE(int a) { |
| int max = INT_MAX; |
| |
| clang_analyzer_eval((a + 2) != (max + 1LL)); // expected-warning{{TRUE}} |
| clang_analyzer_eval((a + 2LL) == (max + 1LL)); // expected-warning{{UNKNOWN}} |
| } |
| |
| |
| // Mixed-signedness comparisons. |
| void mixedSignedness(int a, unsigned b) { |
| int sMin = INT_MIN; |
| unsigned uMin = INT_MIN; |
| |
| clang_analyzer_eval(a == sMin && a != uMin); // expected-warning{{FALSE}} |
| clang_analyzer_eval(b == uMin && b != sMin); // expected-warning{{FALSE}} |
| } |
| |
| |
| void multiplicativeSanityTest(int x) { |
| // At one point we were ignoring the *4 completely -- the constraint manager |
| // would see x < 8 and then declare the assertion to be known false. |
| if (x*4 < 8) |
| return; |
| |
| clang_analyzer_eval(x == 3); // expected-warning{{UNKNOWN}} |
| } |