forked from OSchip/llvm-project
290 lines
5.7 KiB
C++
290 lines
5.7 KiB
C++
// RUN: %check_clang_tidy %s readability-non-const-parameter %t
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// Currently the checker only warns about pointer arguments.
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//
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// It can be defined both that the data is const and that the pointer is const,
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// the checker only checks if the data can be const-specified.
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//
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// It does not warn about pointers to records or function pointers.
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// Some external function where first argument is nonconst and second is const.
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char *strcpy1(char *dest, const char *src);
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unsigned my_strcpy(char *buf, const char *s);
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unsigned my_strlen(const char *buf);
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// CHECK-MESSAGES: :[[@LINE+1]]:29: warning: pointer parameter 'last' can be pointer to const [readability-non-const-parameter]
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void warn1(int *first, int *last) {
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// CHECK-FIXES: {{^}}void warn1(int *first, const int *last) {{{$}}
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*first = 0;
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if (first < last) {
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} // <- last can be const
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}
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// TODO: warning should be written here
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void warn2(char *p) {
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char buf[10];
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strcpy1(buf, p);
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}
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// CHECK-MESSAGES: :[[@LINE+1]]:19: warning: pointer parameter 'p' can be
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void assign1(int *p) {
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// CHECK-FIXES: {{^}}void assign1(const int *p) {{{$}}
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const int *q;
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q = p;
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}
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// CHECK-MESSAGES: :[[@LINE+1]]:19: warning: pointer parameter 'p' can be
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void assign2(int *p) {
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// CHECK-FIXES: {{^}}void assign2(const int *p) {{{$}}
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const int *q;
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q = p + 1;
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}
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void assign3(int *p) {
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*p = 0;
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}
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void assign4(int *p) {
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*p += 2;
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}
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void assign5(char *p) {
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p[0] = 0;
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}
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void assign6(int *p) {
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int *q;
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q = p++;
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}
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void assign7(char *p) {
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char *a, *b;
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a = b = p;
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}
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void assign8(char *a, char *b) {
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char *x;
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x = (a ? a : b);
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}
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void assign9(unsigned char *str, const unsigned int i) {
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unsigned char *p;
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for (p = str + i; *p;) {
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}
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}
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void assign10(int *buf) {
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int i, *p;
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for (i = 0, p = buf; i < 10; i++, p++) {
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*p = 1;
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}
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}
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// CHECK-MESSAGES: :[[@LINE+1]]:17: warning: pointer parameter 'p' can be
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void init1(int *p) {
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// CHECK-FIXES: {{^}}void init1(const int *p) {{{$}}
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const int *q = p;
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}
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// CHECK-MESSAGES: :[[@LINE+1]]:17: warning: pointer parameter 'p' can be
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void init2(int *p) {
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// CHECK-FIXES: {{^}}void init2(const int *p) {{{$}}
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const int *q = p + 1;
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}
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void init3(int *p) {
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int *q = p;
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}
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void init4(float *p) {
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int *q = (int *)p;
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}
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void init5(int *p) {
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int *i = p ? p : 0;
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}
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void init6(int *p) {
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int *a[] = {p, p, 0};
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}
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void init7(int *p, int x) {
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for (int *q = p + x - 1; 0; q++)
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;
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}
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// CHECK-MESSAGES: :[[@LINE+1]]:18: warning: pointer parameter 'p' can be
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int return1(int *p) {
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// CHECK-FIXES: {{^}}int return1(const int *p) {{{$}}
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return *p;
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}
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// CHECK-MESSAGES: :[[@LINE+1]]:25: warning: pointer parameter 'p' can be
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const int *return2(int *p) {
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// CHECK-FIXES: {{^}}const int *return2(const int *p) {{{$}}
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return p;
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}
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// CHECK-MESSAGES: :[[@LINE+1]]:25: warning: pointer parameter 'p' can be
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const int *return3(int *p) {
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// CHECK-FIXES: {{^}}const int *return3(const int *p) {{{$}}
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return p + 1;
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}
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// CHECK-MESSAGES: :[[@LINE+1]]:27: warning: pointer parameter 'p' can be
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const char *return4(char *p) {
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// CHECK-FIXES: {{^}}const char *return4(const char *p) {{{$}}
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return p ? p : "";
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}
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char *return5(char *s) {
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return s;
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}
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char *return6(char *s) {
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return s + 1;
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}
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char *return7(char *a, char *b) {
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return a ? a : b;
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}
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char return8(int *p) {
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return ++(*p);
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}
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void dontwarn1(int *p) {
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++(*p);
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}
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void dontwarn2(int *p) {
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(*p)++;
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}
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int dontwarn3(_Atomic(int) * p) {
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return *p;
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}
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void callFunction1(char *p) {
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strcpy1(p, "abc");
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}
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void callFunction2(char *p) {
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strcpy1(&p[0], "abc");
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}
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void callFunction3(char *p) {
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strcpy1(p + 2, "abc");
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}
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char *callFunction4(char *p) {
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return strcpy1(p, "abc");
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}
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unsigned callFunction5(char *buf) {
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unsigned len = my_strlen(buf);
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return len + my_strcpy(buf, "abc");
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}
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void f6(int **p);
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void callFunction6(int *p) { f6(&p); }
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typedef union { void *v; } t;
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void f7(t obj);
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void callFunction7(int *p) {
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f7((t){p});
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}
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void f8(int &x);
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void callFunction8(int *p) {
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f8(*p);
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}
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// Don't warn about nonconst function pointers that can be const.
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void functionpointer(double f(double), int x) {
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f(x);
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}
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// TODO: This is a false positive.
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// CHECK-MESSAGES: :[[@LINE+1]]:27: warning: pointer parameter 'p' can be
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int functionpointer2(int *p) {
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return *p;
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}
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void use_functionpointer2() {
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int (*fp)(int *) = functionpointer2; // <- the parameter 'p' can't be const
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}
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// Don't warn about nonconst record pointers that can be const.
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struct XY {
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int *x;
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int *y;
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};
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void recordpointer(struct XY *xy) {
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*(xy->x) = 0;
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}
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class C {
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public:
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C(int *p) : p(p) {}
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private:
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int *p;
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};
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class C2 {
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public:
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// CHECK-MESSAGES: :[[@LINE+1]]:11: warning: pointer parameter 'p' can be
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C2(int *p) : p(p) {}
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// CHECK-FIXES: {{^}} C2(const int *p) : p(p) {}{{$}}
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private:
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const int *p;
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};
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void tempObject(int *p) {
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C c(p);
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}
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// avoid fp for const pointer array
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void constPointerArray(const char *remapped[][2]) {
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const char *name = remapped[0][0];
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}
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class Warn {
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public:
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// CHECK-MESSAGES: :[[@LINE+1]]:21: warning: pointer parameter 'p' can be
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void doStuff(int *p) {
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// CHECK-FIXES: {{^}} void doStuff(const int *p) {{{$}}
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x = *p;
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}
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private:
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int x;
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};
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class Base {
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public:
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// Ensure there is no false positive for this method. It is virtual.
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virtual void doStuff(int *p) {
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int x = *p;
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}
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};
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class Derived : public Base {
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public:
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// Ensure there is no false positive for this method. It overrides a method.
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void doStuff(int *p) override {
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int x = *p;
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}
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};
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extern char foo(char *s); // 1
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// CHECK-FIXES: {{^}}extern char foo(const char *s); // 1{{$}}
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// CHECK-MESSAGES: :[[@LINE+1]]:16: warning: pointer parameter 's' can be
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char foo(char *s) {
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// CHECK-FIXES: {{^}}char foo(const char *s) {{{$}}
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return *s;
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}
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char foo(char *s); // 2
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// CHECK-FIXES: {{^}}char foo(const char *s); // 2{{$}}
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