[2/2] tree-optimization/111489 - raise --param uninit-max-chain-len to 8
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Commit Message
This raises --param uninit-max-chain-len to avoid a bogus diagnostic
for the large testcase in PR111489.
Bootstrapped and tested on x86_64-unknown-linux-gnu, pushed.
PR tree-optimization/111489
* params.opt (-param uninit-max-chain-len=): Raise default to 8.
* gcc.dg/uninit-pr111489.c: New testcase.
---
gcc/params.opt | 2 +-
gcc/testsuite/gcc.dg/uninit-pr111489.c | 112 +++++++++++++++++++++++++
2 files changed, 113 insertions(+), 1 deletion(-)
create mode 100644 gcc/testsuite/gcc.dg/uninit-pr111489.c
@@ -1107,7 +1107,7 @@ Common Joined UInteger Var(param_uninit_control_dep_attempts) Init(1000) Integer
Maximum number of nested calls to search for control dependencies during uninitialized variable analysis.
-param=uninit-max-chain-len=
-Common Joined UInteger Var(param_uninit_max_chain_len) Init(5) IntegerRange(1, 128) Param Optimization
+Common Joined UInteger Var(param_uninit_max_chain_len) Init(8) IntegerRange(1, 128) Param Optimization
Maximum number of predicates anded for each predicate ored in the normalized
predicate chain.
new file mode 100644
@@ -0,0 +1,112 @@
+/* { dg-do compile } */
+/* { dg-options "-O2 -Wuninitialized" } */
+
+#include <stdint.h>
+#include <stddef.h>
+
+typedef struct
+{
+ uint16_t pgv1_size;
+ uint16_t pgv1_flags1;
+ uint16_t pgv1_flags2;
+ uint16_t pgv1_flags3;
+ uint16_t pgv1_nslots;
+ uint32_t pgv1_generic;
+} page_v1_t;
+
+typedef struct
+{
+ page_v1_t pgv2_hdr;
+ int64_t pgv2_next;
+ int64_t pgv2_prev;
+} page_v2_t;
+
+typedef struct
+{
+ union
+ {
+ struct
+ {
+ uint16_t pgv0_size;
+ uint16_t pgv0_flags;
+ };
+ uint32_t pgv0_nslots;
+ };
+ uint32_t pgv0_mode;
+ uint32_t pgv0_next;
+} page_v0_t;
+
+typedef struct
+{
+ uint16_t sl4_off;
+ uint16_t sl4_len;
+} slot4_t;
+
+typedef struct
+{
+ uint32_t sl8_off;
+ uint32_t sl8_len;
+} slot8_t;
+extern int64_t cur_rowid;
+
+extern uint8_t *pg_alloc(size_t pg_size);
+extern void mem_move(void *dst, const void *src, size_t len);
+extern void pg_expand(uint8_t *row_in, uint8_t *row_out, uint16_t pg_version);
+extern void pg_reorg(uint32_t flags, uint8_t *pg_old, uint16_t slotnum, uint8_t *row_data, uint64_t cur_partp);
+
+void pg_reorg(uint32_t flags, uint8_t *pg_old, uint16_t slotnum, uint8_t *row_data, uint64_t cur_partp)
+{
+ uint16_t pg_version;
+ size_t pg_size = ((((page_v1_t *)(pg_old))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_old))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_old))->pgv0_size & 0xF800)));
+ uint8_t *pg_new = pg_alloc(pg_size);
+ uint8_t *old_slot = ((((((page_v1_t *)(pg_old))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_old))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_old))->pgv0_size & 0xF800))) > 0x4000) ? (&(pg_old)[((((page_v1_t *)(pg_old))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_old))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_old))->pgv0_size & 0xF800))) - sizeof(int64_t) - (1*sizeof(slot8_t))]) : ((((page_v0_t *)(pg_old))->pgv0_mode & 1) ? (&(pg_old)[((((page_v1_t *)(pg_old))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_old))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_old))->pgv0_size & 0xF800))) - sizeof(int64_t) - (1*sizeof(slot4_t))]) : (&(pg_old)[((((page_v1_t *)(pg_old))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_old))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_old))->pgv0_size & 0xF800))) - sizeof(int32_t) - (1*sizeof(slot4_t))])));
+ uint8_t *new_slot = ((((((page_v1_t *)(pg_new))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_new))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_new))->pgv0_size & 0xF800))) > 0x4000) ? (&(pg_new)[((((page_v1_t *)(pg_new))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_new))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_new))->pgv0_size & 0xF800))) - sizeof(int64_t) - (1*sizeof(slot8_t))]) : ((((page_v0_t *)(pg_new))->pgv0_mode & 1) ? (&(pg_new)[((((page_v1_t *)(pg_new))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_new))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_new))->pgv0_size & 0xF800))) - sizeof(int64_t) - (1*sizeof(slot4_t))]) : (&(pg_new)[((((page_v1_t *)(pg_new))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_new))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_new))->pgv0_size & 0xF800))) - sizeof(int32_t) - (1*sizeof(slot4_t))])));
+
+ if (flags == 2)
+ {
+
+ pg_version = ((((page_v1_t *)(pg_old))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_old))->pgv1_generic >> 24) : ((uint32_t)((page_v0_t *)(pg_old))->pgv0_next >> 24));
+ }
+
+ int64_t sav_rowid = cur_rowid;
+
+
+ for (uint16_t i = 1; i <= ((((page_v1_t *)(pg_old))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_old))->pgv1_nslots) : (((page_v0_t *)(pg_old))->pgv0_nslots)); i++,
+ (old_slot -= ((((((page_v1_t *)(pg_old))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_old))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_old))->pgv0_size & 0xF800))) > 0x4000) ? sizeof(slot8_t) : sizeof(slot4_t))), (new_slot -= ((((((page_v1_t *)(pg_new))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_new))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_new))->pgv0_size & 0xF800))) > 0x4000) ? sizeof(slot8_t) : sizeof(slot4_t))))
+ {
+ size_t length;
+
+
+ if (flags == 1 && (slotnum == 0 || i == slotnum))
+ {
+ uint16_t slotlen = ((((((page_v1_t *)(pg_old))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_old))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_old))->pgv0_size & 0xF800))) > 0x4000) ? (((slot8_t *)(old_slot))->sl8_len & 0x000FFFFF) : (((slot4_t *)(old_slot))->sl4_len & 0x3FFF));
+ ((((((page_v1_t *)(pg_new))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_new))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_new))->pgv0_size & 0xF800))) > 0x4000) ? (((slot8_t *)(new_slot))->sl8_len = (((((((page_v1_t *)(pg_new))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_new))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_new))->pgv0_size & 0xF800))) > 0x4000) ? (((slot8_t *)(new_slot))->sl8_len & 0xFFF00000) : (((slot4_t *)(new_slot))->sl4_len & 0xC000)) | ((slotlen) & 0x000FFFFF))) : (((slot4_t *)(new_slot))->sl4_len = (((((((page_v1_t *)(pg_new))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_new))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_new))->pgv0_size & 0xF800))) > 0x4000) ? (((slot8_t *)(new_slot))->sl8_len & 0xFFF00000) : (((slot4_t *)(new_slot))->sl4_len & 0xC000)) | ((slotlen) & 0x3FFF))));
+ length = ((((((page_v1_t *)(pg_old))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_old))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_old))->pgv0_size & 0xF800))) > 0x4000) ? (((slot8_t *)(old_slot))->sl8_len & 0x000FFFFF) : (((slot4_t *)(old_slot))->sl4_len & 0x3FFF));
+ }
+ else
+ {
+ length = ((((((page_v1_t *)(pg_old))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_old))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_old))->pgv0_size & 0xF800))) > 0x4000) ? (((slot8_t *)(old_slot))->sl8_len & 0x000FFFFF) : (((slot4_t *)(old_slot))->sl4_len & 0x3FFF));
+ ((((((page_v1_t *)(pg_new))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_new))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_new))->pgv0_size & 0xF800))) > 0x4000) ? (((slot8_t *)(new_slot))->sl8_len = (((((((page_v1_t *)(pg_new))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_new))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_new))->pgv0_size & 0xF800))) > 0x4000) ? (((slot8_t *)(new_slot))->sl8_len & 0xFFF00000) : (((slot4_t *)(new_slot))->sl4_len & 0xC000)) | ((length) & 0x000FFFFF))) : (((slot4_t *)(new_slot))->sl4_len = (((((((page_v1_t *)(pg_new))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_new))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_new))->pgv0_size & 0xF800))) > 0x4000) ? (((slot8_t *)(new_slot))->sl8_len & 0xFFF00000) : (((slot4_t *)(new_slot))->sl4_len & 0xC000)) | ((length) & 0x3FFF))));
+ }
+
+
+ if (((((((page_v1_t *)(pg_old))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_old))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_old))->pgv0_size & 0xF800))) > 0x4000) ? (((slot8_t *)old_slot)->sl8_off) : (((slot4_t *)old_slot)->sl4_off)) == 0)
+ {
+ ((((((page_v1_t *)(pg_new))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_new))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_new))->pgv0_size & 0xF800))) > 0x4000) ? (((slot8_t *)new_slot)->sl8_off = (0)) : (((slot4_t *)new_slot)->sl4_off = (0)));
+ continue;
+ }
+
+ ((((((page_v1_t *)(pg_new))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_new))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_new))->pgv0_size & 0xF800))) > 0x4000) ? (((slot8_t *)new_slot)->sl8_off = (0)) : (((slot4_t *)new_slot)->sl4_off = (0)));
+
+ if (flags == 2)
+ {
+ cur_rowid = (((((cur_partp) & 0x400000000) ? 1 : 0)) ? (uint64_t)(((((int64_t)((((uint64_t)(sav_rowid) & ((uint64_t)1 << 63)) ? (int64_t)(((sav_rowid) & 0x7FFFFFFFFFFF0000) >> 16) : (int64_t)(((sav_rowid) & 0xFFFFFF00) >> 8)))) << 16) + (i)) | ((uint64_t)1 << 63)) : (uint64_t)((((int32_t)((((uint64_t)(sav_rowid) & ((uint64_t)1 << 63)) ? (int64_t)(((sav_rowid) & 0x7FFFFFFFFFFF0000) >> 16) : (int64_t)(((sav_rowid) & 0xFFFFFF00) >> 8)))) << 8) + (i)));
+ pg_expand(((((((page_v1_t *)(pg_old))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_old))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_old))->pgv0_size & 0xF800))) > 0x4000) ? (((uint8_t*)(pg_old)) + ((slot8_t *)old_slot)->sl8_off) : (((uint8_t*)(pg_old)) + ((slot4_t *)old_slot)->sl4_off)), row_data, pg_version); /* { dg-bogus "uninitialized" } */
+ }
+ else
+ {
+
+ mem_move(((((((page_v1_t *)(pg_new))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_new))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_new))->pgv0_size & 0xF800))) > 0x4000) ? (((uint8_t*)(pg_new)) + ((slot8_t *)new_slot)->sl8_off) : (((uint8_t*)(pg_new)) + ((slot4_t *)new_slot)->sl4_off)), ((((((page_v1_t *)(pg_old))->pgv1_flags3 == 3) ? (((page_v1_t *)(pg_old))->pgv1_size*1024) : (uint16_t)(0x0800 + (((page_v0_t *)(pg_old))->pgv0_size & 0xF800))) > 0x4000) ? (((uint8_t*)(pg_old)) + ((slot8_t *)old_slot)->sl8_off) : (((uint8_t*)(pg_old)) + ((slot4_t *)old_slot)->sl4_off)), length);
+ }
+ }
+}