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|
/*-------------------------------------------------------------------------
*
* llvmjit_deform.c
* Generate code for deforming a heap tuple.
*
* This gains performance benefits over unJITed deforming from compile-time
* knowledge of the tuple descriptor. Fixed column widths, NOT NULLness, etc
* can be taken advantage of.
*
* Portions Copyright (c) 1996-2023, PostgreSQL Global Development Group
* Portions Copyright (c) 1994, Regents of the University of California
*
* IDENTIFICATION
* src/backend/jit/llvm/llvmjit_deform.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include <llvm-c/Core.h>
#include "access/htup_details.h"
#include "access/tupdesc_details.h"
#include "executor/tuptable.h"
#include "jit/llvmjit.h"
#include "jit/llvmjit_emit.h"
/*
* Create a function that deforms a tuple of type desc up to natts columns.
*/
LLVMValueRef
slot_compile_deform(LLVMJitContext *context, TupleDesc desc,
const TupleTableSlotOps *ops, int natts)
{
char *funcname;
LLVMModuleRef mod;
LLVMContextRef lc;
LLVMBuilderRef b;
LLVMTypeRef deform_sig;
LLVMValueRef v_deform_fn;
LLVMBasicBlockRef b_entry;
LLVMBasicBlockRef b_adjust_unavail_cols;
LLVMBasicBlockRef b_find_start;
LLVMBasicBlockRef b_out;
LLVMBasicBlockRef b_dead;
LLVMBasicBlockRef *attcheckattnoblocks;
LLVMBasicBlockRef *attstartblocks;
LLVMBasicBlockRef *attisnullblocks;
LLVMBasicBlockRef *attcheckalignblocks;
LLVMBasicBlockRef *attalignblocks;
LLVMBasicBlockRef *attstoreblocks;
LLVMValueRef v_offp;
LLVMValueRef v_tupdata_base;
LLVMValueRef v_tts_values;
LLVMValueRef v_tts_nulls;
LLVMValueRef v_slotoffp;
LLVMValueRef v_flagsp;
LLVMValueRef v_nvalidp;
LLVMValueRef v_nvalid;
LLVMValueRef v_maxatt;
LLVMValueRef v_slot;
LLVMValueRef v_tupleheaderp;
LLVMValueRef v_tuplep;
LLVMValueRef v_infomask1;
LLVMValueRef v_infomask2;
LLVMValueRef v_bits;
LLVMValueRef v_hoff;
LLVMValueRef v_hasnulls;
/* last column (0 indexed) guaranteed to exist */
int guaranteed_column_number = -1;
/* current known alignment */
int known_alignment = 0;
/* if true, known_alignment describes definite offset of column */
bool attguaranteedalign = true;
int attnum;
/* virtual tuples never need deforming, so don't generate code */
if (ops == &TTSOpsVirtual)
return NULL;
/* decline to JIT for slot types we don't know to handle */
if (ops != &TTSOpsHeapTuple && ops != &TTSOpsBufferHeapTuple &&
ops != &TTSOpsMinimalTuple)
return NULL;
mod = llvm_mutable_module(context);
lc = LLVMGetModuleContext(mod);
funcname = llvm_expand_funcname(context, "deform");
/*
* Check which columns have to exist, so we don't have to check the row's
* natts unnecessarily.
*/
for (attnum = 0; attnum < desc->natts; attnum++)
{
Form_pg_attribute att = TupleDescAttr(desc, attnum);
/*
* If the column is declared NOT NULL then it must be present in every
* tuple, unless there's a "missing" entry that could provide a
* non-NULL value for it. That in turn guarantees that the NULL bitmap
* - if there are any NULLable columns - is at least long enough to
* cover columns up to attnum.
*
* Be paranoid and also check !attisdropped, even though the
* combination of attisdropped && attnotnull combination shouldn't
* exist.
*/
if (att->attnotnull &&
!att->atthasmissing &&
!att->attisdropped)
guaranteed_column_number = attnum;
}
/* Create the signature and function */
{
LLVMTypeRef param_types[1];
param_types[0] = l_ptr(StructTupleTableSlot);
deform_sig = LLVMFunctionType(LLVMVoidTypeInContext(lc),
param_types, lengthof(param_types), 0);
}
v_deform_fn = LLVMAddFunction(mod, funcname, deform_sig);
LLVMSetLinkage(v_deform_fn, LLVMInternalLinkage);
LLVMSetParamAlignment(LLVMGetParam(v_deform_fn, 0), MAXIMUM_ALIGNOF);
llvm_copy_attributes(AttributeTemplate, v_deform_fn);
b_entry =
LLVMAppendBasicBlockInContext(lc, v_deform_fn, "entry");
b_adjust_unavail_cols =
LLVMAppendBasicBlockInContext(lc, v_deform_fn, "adjust_unavail_cols");
b_find_start =
LLVMAppendBasicBlockInContext(lc, v_deform_fn, "find_startblock");
b_out =
LLVMAppendBasicBlockInContext(lc, v_deform_fn, "outblock");
b_dead =
LLVMAppendBasicBlockInContext(lc, v_deform_fn, "deadblock");
b = LLVMCreateBuilderInContext(lc);
attcheckattnoblocks = palloc(sizeof(LLVMBasicBlockRef) * natts);
attstartblocks = palloc(sizeof(LLVMBasicBlockRef) * natts);
attisnullblocks = palloc(sizeof(LLVMBasicBlockRef) * natts);
attcheckalignblocks = palloc(sizeof(LLVMBasicBlockRef) * natts);
attalignblocks = palloc(sizeof(LLVMBasicBlockRef) * natts);
attstoreblocks = palloc(sizeof(LLVMBasicBlockRef) * natts);
known_alignment = 0;
LLVMPositionBuilderAtEnd(b, b_entry);
/* perform allocas first, llvm only converts those to registers */
v_offp = LLVMBuildAlloca(b, TypeSizeT, "v_offp");
v_slot = LLVMGetParam(v_deform_fn, 0);
v_tts_values =
l_load_struct_gep(b, StructTupleTableSlot, v_slot, FIELDNO_TUPLETABLESLOT_VALUES,
"tts_values");
v_tts_nulls =
l_load_struct_gep(b, StructTupleTableSlot, v_slot, FIELDNO_TUPLETABLESLOT_ISNULL,
"tts_ISNULL");
v_flagsp = l_struct_gep(b, StructTupleTableSlot, v_slot, FIELDNO_TUPLETABLESLOT_FLAGS, "");
v_nvalidp = l_struct_gep(b, StructTupleTableSlot, v_slot, FIELDNO_TUPLETABLESLOT_NVALID, "");
if (ops == &TTSOpsHeapTuple || ops == &TTSOpsBufferHeapTuple)
{
LLVMValueRef v_heapslot;
v_heapslot =
LLVMBuildBitCast(b,
v_slot,
l_ptr(StructHeapTupleTableSlot),
"heapslot");
v_slotoffp = l_struct_gep(b, StructHeapTupleTableSlot, v_heapslot, FIELDNO_HEAPTUPLETABLESLOT_OFF, "");
v_tupleheaderp =
l_load_struct_gep(b, StructHeapTupleTableSlot, v_heapslot, FIELDNO_HEAPTUPLETABLESLOT_TUPLE,
"tupleheader");
}
else if (ops == &TTSOpsMinimalTuple)
{
LLVMValueRef v_minimalslot;
v_minimalslot =
LLVMBuildBitCast(b,
v_slot,
l_ptr(StructMinimalTupleTableSlot),
"minimalslot");
v_slotoffp = l_struct_gep(b,
StructMinimalTupleTableSlot,
v_minimalslot,
FIELDNO_MINIMALTUPLETABLESLOT_OFF, "");
v_tupleheaderp =
l_load_struct_gep(b,
StructMinimalTupleTableSlot,
v_minimalslot,
FIELDNO_MINIMALTUPLETABLESLOT_TUPLE,
"tupleheader");
}
else
{
/* should've returned at the start of the function */
pg_unreachable();
}
v_tuplep =
l_load_struct_gep(b,
StructHeapTupleData,
v_tupleheaderp,
FIELDNO_HEAPTUPLEDATA_DATA,
"tuple");
v_bits =
LLVMBuildBitCast(b,
l_struct_gep(b,
StructHeapTupleHeaderData,
v_tuplep,
FIELDNO_HEAPTUPLEHEADERDATA_BITS,
""),
l_ptr(LLVMInt8TypeInContext(lc)),
"t_bits");
v_infomask1 =
l_load_struct_gep(b,
StructHeapTupleHeaderData,
v_tuplep,
FIELDNO_HEAPTUPLEHEADERDATA_INFOMASK,
"infomask1");
v_infomask2 =
l_load_struct_gep(b,
StructHeapTupleHeaderData,
v_tuplep, FIELDNO_HEAPTUPLEHEADERDATA_INFOMASK2,
"infomask2");
/* t_infomask & HEAP_HASNULL */
v_hasnulls =
LLVMBuildICmp(b, LLVMIntNE,
LLVMBuildAnd(b,
l_int16_const(lc, HEAP_HASNULL),
v_infomask1, ""),
l_int16_const(lc, 0),
"hasnulls");
/* t_infomask2 & HEAP_NATTS_MASK */
v_maxatt = LLVMBuildAnd(b,
l_int16_const(lc, HEAP_NATTS_MASK),
v_infomask2,
"maxatt");
/*
* Need to zext, as getelementptr otherwise treats hoff as a signed 8bit
* integer, which'd yield a negative offset for t_hoff > 127.
*/
v_hoff =
LLVMBuildZExt(b,
l_load_struct_gep(b,
StructHeapTupleHeaderData,
v_tuplep,
FIELDNO_HEAPTUPLEHEADERDATA_HOFF,
""),
LLVMInt32TypeInContext(lc), "t_hoff");
v_tupdata_base = l_gep(b,
LLVMInt8TypeInContext(lc),
LLVMBuildBitCast(b,
v_tuplep,
l_ptr(LLVMInt8TypeInContext(lc)),
""),
&v_hoff, 1,
"v_tupdata_base");
/*
* Load tuple start offset from slot. Will be reset below in case there's
* no existing deformed columns in slot.
*/
{
LLVMValueRef v_off_start;
v_off_start = l_load(b, LLVMInt32TypeInContext(lc), v_slotoffp, "v_slot_off");
v_off_start = LLVMBuildZExt(b, v_off_start, TypeSizeT, "");
LLVMBuildStore(b, v_off_start, v_offp);
}
/* build the basic block for each attribute, need them as jump target */
for (attnum = 0; attnum < natts; attnum++)
{
attcheckattnoblocks[attnum] =
l_bb_append_v(v_deform_fn, "block.attr.%d.attcheckattno", attnum);
attstartblocks[attnum] =
l_bb_append_v(v_deform_fn, "block.attr.%d.start", attnum);
attisnullblocks[attnum] =
l_bb_append_v(v_deform_fn, "block.attr.%d.attisnull", attnum);
attcheckalignblocks[attnum] =
l_bb_append_v(v_deform_fn, "block.attr.%d.attcheckalign", attnum);
attalignblocks[attnum] =
l_bb_append_v(v_deform_fn, "block.attr.%d.align", attnum);
attstoreblocks[attnum] =
l_bb_append_v(v_deform_fn, "block.attr.%d.store", attnum);
}
/*
* Check if it is guaranteed that all the desired attributes are available
* in the tuple (but still possibly NULL), by dint of either the last
* to-be-deformed column being NOT NULL, or subsequent ones not accessed
* here being NOT NULL. If that's not guaranteed the tuple headers natt's
* has to be checked, and missing attributes potentially have to be
* fetched (using slot_getmissingattrs().
*/
if ((natts - 1) <= guaranteed_column_number)
{
/* just skip through unnecessary blocks */
LLVMBuildBr(b, b_adjust_unavail_cols);
LLVMPositionBuilderAtEnd(b, b_adjust_unavail_cols);
LLVMBuildBr(b, b_find_start);
}
else
{
LLVMValueRef v_params[3];
LLVMValueRef f;
/* branch if not all columns available */
LLVMBuildCondBr(b,
LLVMBuildICmp(b, LLVMIntULT,
v_maxatt,
l_int16_const(lc, natts),
""),
b_adjust_unavail_cols,
b_find_start);
/* if not, memset tts_isnull of relevant cols to true */
LLVMPositionBuilderAtEnd(b, b_adjust_unavail_cols);
v_params[0] = v_slot;
v_params[1] = LLVMBuildZExt(b, v_maxatt, LLVMInt32TypeInContext(lc), "");
v_params[2] = l_int32_const(lc, natts);
f = llvm_pg_func(mod, "slot_getmissingattrs");
l_call(b,
LLVMGetFunctionType(f), f,
v_params, lengthof(v_params), "");
LLVMBuildBr(b, b_find_start);
}
LLVMPositionBuilderAtEnd(b, b_find_start);
v_nvalid = l_load(b, LLVMInt16TypeInContext(lc), v_nvalidp, "");
/*
* Build switch to go from nvalid to the right startblock. Callers
* currently don't have the knowledge, but it'd be good for performance to
* avoid this check when it's known that the slot is empty (e.g. in scan
* nodes).
*/
if (true)
{
LLVMValueRef v_switch = LLVMBuildSwitch(b, v_nvalid,
b_dead, natts);
for (attnum = 0; attnum < natts; attnum++)
{
LLVMValueRef v_attno = l_int16_const(lc, attnum);
LLVMAddCase(v_switch, v_attno, attcheckattnoblocks[attnum]);
}
}
else
{
/* jump from entry block to first block */
LLVMBuildBr(b, attcheckattnoblocks[0]);
}
LLVMPositionBuilderAtEnd(b, b_dead);
LLVMBuildUnreachable(b);
/*
* Iterate over each attribute that needs to be deformed, build code to
* deform it.
*/
for (attnum = 0; attnum < natts; attnum++)
{
Form_pg_attribute att = TupleDescAttr(desc, attnum);
LLVMValueRef v_incby;
int alignto;
LLVMValueRef l_attno = l_int16_const(lc, attnum);
LLVMValueRef v_attdatap;
LLVMValueRef v_resultp;
/* build block checking whether we did all the necessary attributes */
LLVMPositionBuilderAtEnd(b, attcheckattnoblocks[attnum]);
/*
* If this is the first attribute, slot->tts_nvalid was 0. Therefore
* also reset offset to 0, it may be from a previous execution.
*/
if (attnum == 0)
{
LLVMBuildStore(b, l_sizet_const(0), v_offp);
}
/*
* Build check whether column is available (i.e. whether the tuple has
* that many columns stored). We can avoid the branch if we know
* there's a subsequent NOT NULL column.
*/
if (attnum <= guaranteed_column_number)
{
LLVMBuildBr(b, attstartblocks[attnum]);
}
else
{
LLVMValueRef v_islast;
v_islast = LLVMBuildICmp(b, LLVMIntUGE,
l_attno,
v_maxatt,
"heap_natts");
LLVMBuildCondBr(b, v_islast, b_out, attstartblocks[attnum]);
}
LLVMPositionBuilderAtEnd(b, attstartblocks[attnum]);
/*
* Check for nulls if necessary. No need to take missing attributes
* into account, because if they're present the heaptuple's natts
* would have indicated that a slot_getmissingattrs() is needed.
*/
if (!att->attnotnull)
{
LLVMBasicBlockRef b_ifnotnull;
LLVMBasicBlockRef b_ifnull;
LLVMBasicBlockRef b_next;
LLVMValueRef v_attisnull;
LLVMValueRef v_nullbyteno;
LLVMValueRef v_nullbytemask;
LLVMValueRef v_nullbyte;
LLVMValueRef v_nullbit;
b_ifnotnull = attcheckalignblocks[attnum];
b_ifnull = attisnullblocks[attnum];
if (attnum + 1 == natts)
b_next = b_out;
else
b_next = attcheckattnoblocks[attnum + 1];
v_nullbyteno = l_int32_const(lc, attnum >> 3);
v_nullbytemask = l_int8_const(lc, 1 << ((attnum) & 0x07));
v_nullbyte = l_load_gep1(b, LLVMInt8TypeInContext(lc), v_bits, v_nullbyteno, "attnullbyte");
v_nullbit = LLVMBuildICmp(b,
LLVMIntEQ,
LLVMBuildAnd(b, v_nullbyte, v_nullbytemask, ""),
l_int8_const(lc, 0),
"attisnull");
v_attisnull = LLVMBuildAnd(b, v_hasnulls, v_nullbit, "");
LLVMBuildCondBr(b, v_attisnull, b_ifnull, b_ifnotnull);
LLVMPositionBuilderAtEnd(b, b_ifnull);
/* store null-byte */
LLVMBuildStore(b,
l_int8_const(lc, 1),
l_gep(b, LLVMInt8TypeInContext(lc), v_tts_nulls, &l_attno, 1, ""));
/* store zero datum */
LLVMBuildStore(b,
l_sizet_const(0),
l_gep(b, TypeSizeT, v_tts_values, &l_attno, 1, ""));
LLVMBuildBr(b, b_next);
attguaranteedalign = false;
}
else
{
/* nothing to do */
LLVMBuildBr(b, attcheckalignblocks[attnum]);
LLVMPositionBuilderAtEnd(b, attisnullblocks[attnum]);
LLVMBuildBr(b, attcheckalignblocks[attnum]);
}
LLVMPositionBuilderAtEnd(b, attcheckalignblocks[attnum]);
/* determine required alignment */
if (att->attalign == TYPALIGN_INT)
alignto = ALIGNOF_INT;
else if (att->attalign == TYPALIGN_CHAR)
alignto = 1;
else if (att->attalign == TYPALIGN_DOUBLE)
alignto = ALIGNOF_DOUBLE;
else if (att->attalign == TYPALIGN_SHORT)
alignto = ALIGNOF_SHORT;
else
{
elog(ERROR, "unknown alignment");
alignto = 0;
}
/* ------
* Even if alignment is required, we can skip doing it if provably
* unnecessary:
* - first column is guaranteed to be aligned
* - columns following a NOT NULL fixed width datum have known
* alignment, can skip alignment computation if that known alignment
* is compatible with current column.
* ------
*/
if (alignto > 1 &&
(known_alignment < 0 || known_alignment != TYPEALIGN(alignto, known_alignment)))
{
/*
* When accessing a varlena field, we have to "peek" to see if we
* are looking at a pad byte or the first byte of a 1-byte-header
* datum. A zero byte must be either a pad byte, or the first
* byte of a correctly aligned 4-byte length word; in either case,
* we can align safely. A non-zero byte must be either a 1-byte
* length word, or the first byte of a correctly aligned 4-byte
* length word; in either case, we need not align.
*/
if (att->attlen == -1)
{
LLVMValueRef v_possible_padbyte;
LLVMValueRef v_ispad;
LLVMValueRef v_off;
/* don't know if short varlena or not */
attguaranteedalign = false;
v_off = l_load(b, TypeSizeT, v_offp, "");
v_possible_padbyte =
l_load_gep1(b, LLVMInt8TypeInContext(lc), v_tupdata_base,
v_off, "padbyte");
v_ispad =
LLVMBuildICmp(b, LLVMIntEQ,
v_possible_padbyte, l_int8_const(lc, 0),
"ispadbyte");
LLVMBuildCondBr(b, v_ispad,
attalignblocks[attnum],
attstoreblocks[attnum]);
}
else
{
LLVMBuildBr(b, attalignblocks[attnum]);
}
LLVMPositionBuilderAtEnd(b, attalignblocks[attnum]);
/* translation of alignment code (cf TYPEALIGN()) */
{
LLVMValueRef v_off_aligned;
LLVMValueRef v_off = l_load(b, TypeSizeT, v_offp, "");
/* ((ALIGNVAL) - 1) */
LLVMValueRef v_alignval = l_sizet_const(alignto - 1);
/* ((uintptr_t) (LEN) + ((ALIGNVAL) - 1)) */
LLVMValueRef v_lh = LLVMBuildAdd(b, v_off, v_alignval, "");
/* ~((uintptr_t) ((ALIGNVAL) - 1)) */
LLVMValueRef v_rh = l_sizet_const(~(alignto - 1));
v_off_aligned = LLVMBuildAnd(b, v_lh, v_rh, "aligned_offset");
LLVMBuildStore(b, v_off_aligned, v_offp);
}
/*
* As alignment either was unnecessary or has been performed, we
* now know the current alignment. This is only safe because this
* value isn't used for varlena and nullable columns.
*/
if (known_alignment >= 0)
{
Assert(known_alignment != 0);
known_alignment = TYPEALIGN(alignto, known_alignment);
}
LLVMBuildBr(b, attstoreblocks[attnum]);
LLVMPositionBuilderAtEnd(b, attstoreblocks[attnum]);
}
else
{
LLVMPositionBuilderAtEnd(b, attcheckalignblocks[attnum]);
LLVMBuildBr(b, attalignblocks[attnum]);
LLVMPositionBuilderAtEnd(b, attalignblocks[attnum]);
LLVMBuildBr(b, attstoreblocks[attnum]);
}
LLVMPositionBuilderAtEnd(b, attstoreblocks[attnum]);
/*
* Store the current offset if known to be constant. That allows LLVM
* to generate better code. Without that LLVM can't figure out that
* the offset might be constant due to the jumps for previously
* decoded columns.
*/
if (attguaranteedalign)
{
Assert(known_alignment >= 0);
LLVMBuildStore(b, l_sizet_const(known_alignment), v_offp);
}
/* compute what following columns are aligned to */
if (att->attlen < 0)
{
/* can't guarantee any alignment after variable length field */
known_alignment = -1;
attguaranteedalign = false;
}
else if (att->attnotnull && attguaranteedalign && known_alignment >= 0)
{
/*
* If the offset to the column was previously known, a NOT NULL &
* fixed-width column guarantees that alignment is just the
* previous alignment plus column width.
*/
Assert(att->attlen > 0);
known_alignment += att->attlen;
}
else if (att->attnotnull && (att->attlen % alignto) == 0)
{
/*
* After a NOT NULL fixed-width column with a length that is a
* multiple of its alignment requirement, we know the following
* column is aligned to at least the current column's alignment.
*/
Assert(att->attlen > 0);
known_alignment = alignto;
Assert(known_alignment > 0);
attguaranteedalign = false;
}
else
{
known_alignment = -1;
attguaranteedalign = false;
}
/* compute address to load data from */
{
LLVMValueRef v_off = l_load(b, TypeSizeT, v_offp, "");
v_attdatap =
l_gep(b, LLVMInt8TypeInContext(lc), v_tupdata_base, &v_off, 1, "");
}
/* compute address to store value at */
v_resultp = l_gep(b, TypeSizeT, v_tts_values, &l_attno, 1, "");
/* store null-byte (false) */
LLVMBuildStore(b, l_int8_const(lc, 0),
l_gep(b, TypeStorageBool, v_tts_nulls, &l_attno, 1, ""));
/*
* Store datum. For byval: datums copy the value, extend to Datum's
* width, and store. For byref types: store pointer to data.
*/
if (att->attbyval)
{
LLVMValueRef v_tmp_loaddata;
LLVMTypeRef vartype = LLVMIntTypeInContext(lc, att->attlen * 8);
LLVMTypeRef vartypep = LLVMPointerType(vartype, 0);
v_tmp_loaddata =
LLVMBuildPointerCast(b, v_attdatap, vartypep, "");
v_tmp_loaddata = l_load(b, vartype, v_tmp_loaddata, "attr_byval");
v_tmp_loaddata = LLVMBuildZExt(b, v_tmp_loaddata, TypeSizeT, "");
LLVMBuildStore(b, v_tmp_loaddata, v_resultp);
}
else
{
LLVMValueRef v_tmp_loaddata;
/* store pointer */
v_tmp_loaddata =
LLVMBuildPtrToInt(b,
v_attdatap,
TypeSizeT,
"attr_ptr");
LLVMBuildStore(b, v_tmp_loaddata, v_resultp);
}
/* increment data pointer */
if (att->attlen > 0)
{
v_incby = l_sizet_const(att->attlen);
}
else if (att->attlen == -1)
{
v_incby = l_call(b,
llvm_pg_var_func_type("varsize_any"),
llvm_pg_func(mod, "varsize_any"),
&v_attdatap, 1,
"varsize_any");
l_callsite_ro(v_incby);
l_callsite_alwaysinline(v_incby);
}
else if (att->attlen == -2)
{
v_incby = l_call(b,
llvm_pg_var_func_type("strlen"),
llvm_pg_func(mod, "strlen"),
&v_attdatap, 1, "strlen");
l_callsite_ro(v_incby);
/* add 1 for NUL byte */
v_incby = LLVMBuildAdd(b, v_incby, l_sizet_const(1), "");
}
else
{
Assert(false);
v_incby = NULL; /* silence compiler */
}
if (attguaranteedalign)
{
Assert(known_alignment >= 0);
LLVMBuildStore(b, l_sizet_const(known_alignment), v_offp);
}
else
{
LLVMValueRef v_off = l_load(b, TypeSizeT, v_offp, "");
v_off = LLVMBuildAdd(b, v_off, v_incby, "increment_offset");
LLVMBuildStore(b, v_off, v_offp);
}
/*
* jump to next block, unless last possible column, or all desired
* (available) attributes have been fetched.
*/
if (attnum + 1 == natts)
{
/* jump out */
LLVMBuildBr(b, b_out);
}
else
{
LLVMBuildBr(b, attcheckattnoblocks[attnum + 1]);
}
}
/* build block that returns */
LLVMPositionBuilderAtEnd(b, b_out);
{
LLVMValueRef v_off = l_load(b, TypeSizeT, v_offp, "");
LLVMValueRef v_flags;
LLVMBuildStore(b, l_int16_const(lc, natts), v_nvalidp);
v_off = LLVMBuildTrunc(b, v_off, LLVMInt32TypeInContext(lc), "");
LLVMBuildStore(b, v_off, v_slotoffp);
v_flags = l_load(b, LLVMInt16TypeInContext(lc), v_flagsp, "tts_flags");
v_flags = LLVMBuildOr(b, v_flags, l_int16_const(lc, TTS_FLAG_SLOW), "");
LLVMBuildStore(b, v_flags, v_flagsp);
LLVMBuildRetVoid(b);
}
LLVMDisposeBuilder(b);
return v_deform_fn;
}
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