source: icGREP/icgrep-devel/icgrep/pablo/carry_manager.cpp @ 5721

Last change on this file since 5721 was 5721, checked in by cameron, 16 months ago

EnableAsserts? and EnableCycleCounter? are DebugOptions? (disable object caching)

File size: 53.5 KB
Line 
1/*
2 *  Copyright (c) 2015 International Characters.
3 *  This software is licensed to the public under the Open Software License 3.0.
4 *  icgrep is a trademark of International Characters.
5 */
6
7#include "carry_manager.h"
8#include <pablo/carry_data.h>
9#include <pablo/codegenstate.h>
10#include <llvm/IR/BasicBlock.h>
11#include <llvm/IR/DerivedTypes.h>
12#include <llvm/Transforms/Utils/Local.h>
13#include <pablo/branch.h>
14#include <pablo/pe_advance.h>
15#include <pablo/pe_scanthru.h>
16#include <pablo/pe_matchstar.h>
17#include <pablo/pe_var.h>
18#include <kernels/kernel_builder.h>
19#include <toolchain/toolchain.h>
20#include <array>
21
22using namespace llvm;
23
24namespace pablo {
25
26inline static bool is_power_2(const unsigned n) {
27    return (n && ((n & (n - 1)) == 0));
28}
29
30inline static unsigned ceil_log2(const unsigned v) {
31    assert ("log2(0) is undefined!" && v != 0);
32    return (sizeof(unsigned) * CHAR_BIT) - __builtin_clz(v - 1U);
33}
34
35inline static unsigned floor_log2(const unsigned v) {
36    assert ("log2(0) is undefined!" && v != 0);
37    return ((sizeof(unsigned) * CHAR_BIT) - 1U) - __builtin_clz(v);
38}
39
40inline static unsigned nearest_pow2(const unsigned v) {
41    assert (v > 0 && v < (UINT32_MAX / 2));
42    return (v < 2) ? 1 : (1U << ceil_log2(v));
43}
44
45inline static unsigned nearest_multiple(const unsigned n, const unsigned m) {
46    assert (is_power_2(m));
47    const unsigned r = (n + m - 1U) & -m;
48    assert (r >= n);
49    return r;
50}
51
52inline static bool is_multiple_of(const unsigned n, const unsigned m) {
53    return nearest_multiple(n, m) == n;
54}
55
56inline static unsigned udiv(const unsigned x, const unsigned y) {
57    assert (is_power_2(y));
58    const unsigned z = x >> floor_log2(y);
59    assert (z == (x / y));
60    return z;
61}
62
63inline static unsigned ceil_udiv(const unsigned x, const unsigned y) {
64    return (((x - 1) | (y - 1)) + 1) / y;
65}
66
67using TypeId = PabloAST::ClassTypeId;
68
69inline static bool isNonAdvanceCarryGeneratingStatement(const Statement * const stmt) {
70    return isa<CarryProducingStatement>(stmt) && !isa<Advance>(stmt) && !isa<IndexedAdvance>(stmt);
71}
72
73#define LONG_ADVANCE_BREAKPOINT 64
74
75/** ------------------------------------------------------------------------------------------------------------- *
76 * @brief initializeCarryData
77 ** ------------------------------------------------------------------------------------------------------------- */
78void CarryManager::initializeCarryData(const std::unique_ptr<kernel::KernelBuilder> & b, PabloKernel * const kernel) {
79
80    // Each scope constructs its own CarryData struct, which will be added to the final "carries" struct
81    // that is added to the Kernel. The scope index will indicate which struct to access.
82
83    // A CarryData struct either contains an array of CarryPackBlocks or an integer indicating the capacity of
84    // the variable length CarryData struct and pointer. A variable length CarryData struct is required whenever
85    // the streams accessed by a loop could vary between iterations. When resizing a CarryData struct for a
86    // particular loop, the current loop struct and all nested structs need to be resized. This accommodates
87    // the fact every pablo While loop must be executed at least once.
88
89    // A nested loop may also contain a variable length CarryData struct
90
91    // To determine whether we require a variable length CarryData struct, we test the escaped variables of
92    // each loop branch to see whether they are used as the index parameter of a nested Extract statement.
93    // Any scope that requires variable length CarryData, requires that all nested branches have a unique
94    // set of carries for that iteration.
95
96    assert (mKernel == nullptr);
97    mCurrentScope = kernel->getEntryBlock();
98    mKernel = kernel;
99
100    mCarryScopes = 0;
101
102    mCarryMetadata.resize(getScopeCount(mCurrentScope));
103
104    Type * const carryStateTy = analyse(b, mCurrentScope);
105
106    kernel->addScalar(carryStateTy, "carries");
107
108    if (mHasLoop) {
109        kernel->addScalar(b->getInt32Ty(), "selector");
110    }
111    if (mHasLongAdvance) {
112        kernel->addScalar(b->getSizeTy(), "CarryBlockIndex");
113    }
114    for (unsigned i = 0; i < mIndexedLongAdvanceTotal; i++) {
115        kernel->addScalar(b->getSizeTy(), "IndexedAdvancePosition" + std::to_string(i));
116    }
117}
118
119bool isDynamicallyAllocatedType(const Type * const ty) {
120    if (isa<StructType>(ty) && ty->getStructNumElements() == 3) {
121        return (ty->getStructElementType(1)->isPointerTy() && ty->getStructElementType(2)->isPointerTy() && ty->getStructElementType(0)->isIntegerTy());
122    }
123    return false;
124}
125
126bool containsDynamicallyAllocatedType(const Type * const ty) {
127    if (isa<StructType>(ty)) {
128        for (unsigned i = 0; i < ty->getStructNumElements(); ++i) {
129            if (isDynamicallyAllocatedType(ty->getStructElementType(i))) {
130                return true;
131            }
132        }
133    }
134    return false;
135}
136
137void freeDynamicallyAllocatedMemory(const std::unique_ptr<kernel::KernelBuilder> & idb, Value * const frame) {
138    StructType * const ty = cast<StructType>(frame->getType()->getPointerElementType());
139    std::array<Value *, 3> indices;
140    indices[0] = idb->getInt32(0);
141    for (unsigned i = 0; i < ty->getStructNumElements(); ++i) {
142        if (isDynamicallyAllocatedType(ty->getStructElementType(i))) {
143            indices[1] = idb->getInt32(i);
144            indices[2] = idb->getInt32(1);
145            Value * const innerFrame = idb->CreateLoad(idb->CreateGEP(frame, ArrayRef<Value*>(indices.data(), 3)));
146            if (containsDynamicallyAllocatedType(innerFrame->getType())) {
147                indices[2] = indices[0];
148                Value *  const count = idb->CreateLoad(idb->CreateGEP(frame, ArrayRef<Value*>(indices.data(), 3)));
149                BasicBlock * const entry = idb->GetInsertBlock();
150                BasicBlock * const cond = idb->CreateBasicBlock("freeCarryDataCond");
151                BasicBlock * const body = idb->CreateBasicBlock("freeCarryDataLoop");
152                BasicBlock * const exit = idb->CreateBasicBlock("freeCarryDataExit");
153                idb->CreateBr(cond);
154                idb->SetInsertPoint(cond);
155                PHINode * const index = idb->CreatePHI(count->getType(), 2);
156                index->addIncoming(ConstantInt::getNullValue(count->getType()), entry);
157                Value * test = idb->CreateICmpNE(index, count);
158                idb->CreateCondBr(test, body, exit);
159                idb->SetInsertPoint(body);
160                freeDynamicallyAllocatedMemory(idb, idb->CreateGEP(innerFrame, index));
161                index->addIncoming(idb->CreateAdd(index, ConstantInt::get(count->getType(), 1)), body);
162                idb->CreateBr(cond);
163                idb->SetInsertPoint(exit);
164            }
165            idb->CreateFree(innerFrame);
166            indices[2] = idb->getInt32(2);
167            Value *  const summary = idb->CreateLoad(idb->CreateGEP(frame, ArrayRef<Value*>(indices.data(), 3)));
168            idb->CreateFree(summary);
169        }
170    }
171}
172
173/** ------------------------------------------------------------------------------------------------------------- *
174 * @brief releaseCarryData
175 ** ------------------------------------------------------------------------------------------------------------- */
176void CarryManager::releaseCarryData(const std::unique_ptr<kernel::KernelBuilder> & idb) {
177    if (mHasNonCarryCollapsingLoops) {
178        freeDynamicallyAllocatedMemory(idb, idb->getScalarFieldPtr("carries"));
179    }
180}
181
182/** ------------------------------------------------------------------------------------------------------------- *
183 * @brief initializeCodeGen
184 ** ------------------------------------------------------------------------------------------------------------- */
185void CarryManager::initializeCodeGen(const std::unique_ptr<kernel::KernelBuilder> & b) {
186
187    assert(!mCarryMetadata.empty());
188    mCarryInfo = &mCarryMetadata[0];
189    assert (!mCarryInfo->hasSummary());
190
191    mCurrentFrame = b->getScalarFieldPtr("carries");
192    mCurrentFrameIndex = 0;
193    mCarryScopes = 0;
194    mCarryScopeIndex.push_back(0);
195
196    assert (mCarryFrameStack.empty());
197
198    assert (mCarrySummaryStack.empty());
199
200    Type * const carryTy = b->getBitBlockType();
201
202    mCarrySummaryStack.push_back(Constant::getNullValue(carryTy));
203
204    if (mHasLoop) {       
205        mLoopSelector = b->getScalarField("selector");
206        mNextLoopSelector = b->CreateXor(mLoopSelector, ConstantInt::get(mLoopSelector->getType(), 1));
207    }
208
209}
210
211/** ------------------------------------------------------------------------------------------------------------- *
212 * @brief finalizeCodeGen
213 ** ------------------------------------------------------------------------------------------------------------- */
214void CarryManager::finalizeCodeGen(const std::unique_ptr<kernel::KernelBuilder> & b) {
215    if (mHasLoop) {
216        b->setScalarField("selector", mNextLoopSelector);
217    }
218    if (mHasLongAdvance) {
219        Value * idx = b->getScalarField("CarryBlockIndex");
220        idx = b->CreateAdd(idx, b->getSize(1));
221        b->setScalarField("CarryBlockIndex", idx);
222    }
223    assert (mCarryFrameStack.empty());   
224    assert ("base summary value was deleted!" && mCarrySummaryStack.size() == 1);
225    assert ("base summary value was overwritten with non-zero value!" && isa<Constant>(mCarrySummaryStack[0]) && cast<Constant>(mCarrySummaryStack[0])->isNullValue());
226    mCarrySummaryStack.clear();
227    assert (mCarryScopeIndex.size() == 1);
228    mCarryScopeIndex.clear();
229}
230
231/** ------------------------------------------------------------------------------------------------------------- *
232 * @brief enterLoopScope
233 ** ------------------------------------------------------------------------------------------------------------- */
234void CarryManager::enterLoopScope(const std::unique_ptr<kernel::KernelBuilder> & b, const PabloBlock * const scope) {
235    assert (scope);
236    assert (mHasLoop);
237    ++mLoopDepth;
238    enterScope(b, scope);
239}
240
241/** ------------------------------------------------------------------------------------------------------------- *
242 * @brief enterLoopBody
243 ** ------------------------------------------------------------------------------------------------------------- */
244void CarryManager::enterLoopBody(const std::unique_ptr<kernel::KernelBuilder> & b, BasicBlock * const entryBlock) {
245    if (mCarryInfo->hasSummary()) {
246        Type * const carryTy = b->getBitBlockType();
247        PHINode * phiCarryOutSummary = b->CreatePHI(carryTy, 2, "summary");
248        assert (!mCarrySummaryStack.empty());
249        phiCarryOutSummary->addIncoming(mCarrySummaryStack.back(), entryBlock);
250        // Replace the incoming carry summary with the phi node and add the phi node to the stack  so that we can
251        // properly OR it into the outgoing summary value.
252        // NOTE: this may change the base summary value; when exiting to the base scope, replace this summary with
253        // a null value to prevent subsequent nested scopes from inheriting the summary of this scope.
254        mCarrySummaryStack.back() = phiCarryOutSummary;
255        mCarrySummaryStack.push_back(phiCarryOutSummary);
256    }
257    if (LLVM_UNLIKELY(mCarryInfo->nonCarryCollapsingMode())) {
258
259        assert (mCarryInfo->hasSummary());
260
261        Type * const int8PtrTy = b->getInt8PtrTy();
262        Type * const carryTy = b->getBitBlockType();
263        PointerType * const carryPtrTy = carryTy->getPointerTo();
264
265        // Check whether we need to resize the carry state
266        PHINode * index = b->CreatePHI(b->getSizeTy(), 2);
267        mLoopIndicies.push_back(index);
268        index->addIncoming(b->getSize(0), entryBlock);
269        Value * capacityPtr = b->CreateGEP(mCurrentFrame, {b->getInt32(0), b->getInt32(0)});
270        Value * capacity = b->CreateLoad(capacityPtr, "capacity");
271        Constant * const ONE = ConstantInt::get(capacity->getType(), 1);
272        Value * arrayPtr = b->CreateGEP(mCurrentFrame, {b->getInt32(0), b->getInt32(1)});
273        Value * array = b->CreateLoad(arrayPtr, "array");
274        BasicBlock * const entry = b->GetInsertBlock();
275        BasicBlock * const resizeCarryState = b->CreateBasicBlock("ResizeCarryState");
276        BasicBlock * const reallocExisting = b->CreateBasicBlock("ReallocExisting");
277        BasicBlock * const createNew = b->CreateBasicBlock("CreateNew");
278        BasicBlock * const resumeKernel = b->CreateBasicBlock("ResumeKernel");
279        b->CreateLikelyCondBr(b->CreateICmpNE(index, capacity), resumeKernel, resizeCarryState);
280
281        // RESIZE CARRY BLOCK
282        b->SetInsertPoint(resizeCarryState);
283        const auto BlockWidth = b->getBitBlockWidth() / 8;
284        const auto Log2BlockWidth = floor_log2(BlockWidth);
285        Constant * const carryStateWidth = ConstantExpr::getIntegerCast(ConstantExpr::getSizeOf(array->getType()->getPointerElementType()), b->getSizeTy(), false);
286        Value * const summaryPtr = b->CreateGEP(mCurrentFrame, {b->getInt32(0), b->getInt32(2)});
287        Value * const hasCarryState = b->CreateICmpNE(array, ConstantPointerNull::get(cast<PointerType>(array->getType())));
288        b->CreateLikelyCondBr(hasCarryState, reallocExisting, createNew);
289
290        // REALLOCATE EXISTING
291        b->SetInsertPoint(reallocExisting);
292        Value * const capacitySize = b->CreateMul(capacity, carryStateWidth);
293        Value * const newCapacitySize = b->CreateShl(capacitySize, 1); // x 2
294        Value * const newArray = b->CreateCacheAlignedMalloc(newCapacitySize);
295        b->CreateMemCpy(newArray, array, capacitySize, b->getCacheAlignment());
296        b->CreateFree(array);
297        b->CreateStore(newArray, arrayPtr);
298        Value * const startNewArrayPtr = b->CreateGEP(b->CreatePointerCast(newArray, int8PtrTy), capacitySize);
299        b->CreateMemZero(startNewArrayPtr, capacitySize, BlockWidth);
300        Value * const newCapacity = b->CreateShl(capacity, 1);
301        b->CreateStore(newCapacity, capacityPtr);
302        Value * const summary = b->CreateLoad(summaryPtr, false);
303        Value * const summarySize = b->CreateShl(b->CreateAdd(b->CreateCeilLog2(capacity), ONE), Log2BlockWidth + 1);
304        Constant * const additionalSpace = b->getSize(2 * BlockWidth);
305        Value * const newSummarySize = b->CreateAdd(summarySize, additionalSpace);
306        Value * const newSummary = b->CreateBlockAlignedMalloc(newSummarySize);
307        b->CreateMemCpy(newSummary, summary, summarySize, BlockWidth);
308        b->CreateFree(summary);
309        b->CreateStore(b->CreatePointerCast(newSummary, carryPtrTy), summaryPtr);
310        Value * const startNewSummaryPtr = b->CreateGEP(b->CreatePointerCast(newSummary, int8PtrTy), summarySize);
311        b->CreateMemZero(startNewSummaryPtr, additionalSpace, BlockWidth);
312        b->CreateBr(resumeKernel);
313
314        // CREATE NEW
315        b->SetInsertPoint(createNew);
316        Constant * const initialLog2Capacity = b->getInt64(4);
317        Constant * const initialCapacity = ConstantExpr::getShl(ONE, initialLog2Capacity);
318        b->CreateStore(initialCapacity, capacityPtr);
319        Constant * const initialCapacitySize = ConstantExpr::getMul(initialCapacity, carryStateWidth);
320        Value * initialArray = b->CreateCacheAlignedMalloc(initialCapacitySize);
321        b->CreateMemZero(initialArray, initialCapacitySize, BlockWidth);
322        initialArray = b->CreatePointerCast(initialArray, array->getType());
323        b->CreateStore(initialArray, arrayPtr);
324        Constant * initialSummarySize = ConstantExpr::getShl(ConstantExpr::getAdd(initialLog2Capacity, b->getInt64(1)), b->getInt64(Log2BlockWidth + 1));
325        Value * initialSummary = b->CreateBlockAlignedMalloc(initialSummarySize);
326        b->CreateMemZero(initialSummary, initialSummarySize, BlockWidth);
327        initialSummary = b->CreatePointerCast(initialSummary, carryPtrTy);
328        b->CreateStore(initialSummary, summaryPtr);
329        b->CreateBr(resumeKernel);
330
331        // RESUME KERNEL
332        b->SetInsertPoint(resumeKernel);
333        PHINode * phiArrayPtr = b->CreatePHI(array->getType(), 3);
334        phiArrayPtr->addIncoming(array, entry);
335        phiArrayPtr->addIncoming(initialArray, createNew);
336        phiArrayPtr->addIncoming(newArray, reallocExisting);
337
338        // NOTE: the 3 here is only to pass the assertion later. It refers to the number of elements in the carry data struct.
339        mCarryFrameStack.emplace_back(mCurrentFrame, 3);
340        mCurrentFrame = b->CreateGEP(phiArrayPtr, index);
341    }
342}
343
344/** ------------------------------------------------------------------------------------------------------------- *
345 * @brief leaveLoopBody
346 ** ------------------------------------------------------------------------------------------------------------- */
347void CarryManager::leaveLoopBody(const std::unique_ptr<kernel::KernelBuilder> & b, BasicBlock * /* exitBlock */) {
348
349    Type * const carryTy = b->getBitBlockType();
350
351    if (LLVM_UNLIKELY(mCarryInfo->nonCarryCollapsingMode())) {
352
353        assert (mCarryInfo->hasSummary());
354
355        ConstantInt * const summaryIndex = b->getInt32(mCarryInfo->hasExplicitSummary() ? mCurrentFrameIndex : (mCurrentFrameIndex - 1));
356
357        Value * const carryInAccumulator = readCarryInSummary(b, summaryIndex);
358        Value * const carryOutAccumulator = mCarrySummaryStack.back();
359
360        if (mCarryInfo->hasExplicitSummary()) {
361            writeCarryOutSummary(b, carryOutAccumulator, summaryIndex);
362        }
363
364        std::tie(mCurrentFrame, mCurrentFrameIndex) = mCarryFrameStack.back();
365        mCarryFrameStack.pop_back();
366
367        // In non-carry-collapsing mode, we cannot rely on the fact that performing a single iteration of this
368        // loop will consume all of the incoming carries from the prior block. We need to subtract the carries
369        // consumed by this iteration from our carry summary state. To do so in parallel, we use the the half-
370        // subtractor circuit to do it in ceil log2 steps. Similarly, we compute our carry out summary state
371        // (for the subsequent block to subtract) using a half-adder circuit.
372
373        // NOTE: this requires that, for all loop iterations, i, and all block iterations, j, the carry in
374        // summary, CI_i,j, matches the carry out summary of the prior block iteration, CO_i,j - 1.
375        // Otherwise we will end up with an incorrect result or being trapped in an infinite loop.
376
377        Value * capacityPtr = b->CreateGEP(mCurrentFrame, {b->getInt32(0), b->getInt32(0)});
378        Value * capacity = b->CreateLoad(capacityPtr, false);
379        Value * summaryPtr = b->CreateGEP(mCurrentFrame, {b->getInt32(0), b->getInt32(2)});
380        Value * summary = b->CreateLoad(summaryPtr, false);
381
382        Constant * const ONE = ConstantInt::get(capacity->getType(), 1);
383
384        Value * loopSelector = b->CreateZExt(mLoopSelector, capacity->getType());
385
386        BasicBlock * entry = b->GetInsertBlock();
387        BasicBlock * update = b->CreateBasicBlock("UpdateNonCarryCollapsingSummary");
388        BasicBlock * resume = b->CreateBasicBlock("ResumeAfterUpdatingNonCarryCollapsingSummary");
389
390        b->CreateBr(update);
391
392        b->SetInsertPoint(update);
393        PHINode * i = b->CreatePHI(capacity->getType(), 2);
394        i->addIncoming(ConstantInt::getNullValue(capacity->getType()), entry);
395        PHINode * const borrow = b->CreatePHI(carryInAccumulator->getType(), 2);
396        borrow->addIncoming(carryInAccumulator, entry);
397        PHINode * const carry = b->CreatePHI(carryOutAccumulator->getType(), 2);
398        carry->addIncoming(carryOutAccumulator, entry);
399        // OR the updated carry in summary later for the summaryTest
400        PHINode * const carryInSummary = b->CreatePHI(carryTy, 2);
401        carryInSummary->addIncoming(Constant::getNullValue(carryTy), entry);
402
403        // half subtractor
404        Value * const carryInOffset = b->CreateOr(b->CreateShl(i, 1), loopSelector);
405        Value * const carryInPtr = b->CreateGEP(summary, carryInOffset);
406        Value * const carryIn = b->CreateBlockAlignedLoad(carryInPtr);
407        Value * const nextCarryIn = b->CreateXor(carryIn, borrow);
408        Value * const nextSummary = b->CreateOr(carryInSummary, nextCarryIn);
409
410        b->CreateBlockAlignedStore(nextCarryIn, carryInPtr);
411        carryInSummary->addIncoming(nextSummary, update);
412        Value * finalBorrow = b->CreateAnd(b->CreateNot(carryIn), borrow);
413        borrow->addIncoming(finalBorrow, update);
414
415        // half adder
416        Value * const carryOutOffset = b->CreateXor(carryInOffset, ConstantInt::get(carryInOffset->getType(), 1));
417        Value * const carryOutPtr = b->CreateGEP(summary, carryOutOffset);
418        Value * const carryOut = b->CreateBlockAlignedLoad(carryOutPtr);
419        Value * const nextCarryOut = b->CreateXor(carryOut, carry);
420
421        b->CreateBlockAlignedStore(nextCarryOut, carryOutPtr);
422        Value * finalCarry = b->CreateAnd(carryOut, carry);
423        carry->addIncoming(finalCarry, update);
424
425        // loop condition
426        i->addIncoming(b->CreateAdd(i, ONE), update);
427        b->CreateCondBr(b->CreateICmpNE(b->CreateShl(ONE, i), capacity), update, resume);
428
429        b->SetInsertPoint(resume);
430
431        if (codegen::DebugOptionIsSet(codegen::EnableAsserts)) {
432            b->CreateAssertZero(b->CreateOr(finalBorrow, finalCarry),
433                                       "CarryManager: loop post-condition violated: final borrow and carry must be zero!");
434        }
435
436        assert (!mLoopIndicies.empty());
437        PHINode * index = mLoopIndicies.back();
438        index->addIncoming(b->CreateAdd(index, b->getSize(1)), resume);
439        mLoopIndicies.pop_back();
440
441        mNextSummaryTest = nextSummary;
442    }
443    if (mCarryInfo->hasSummary()) {
444        const auto n = mCarrySummaryStack.size(); assert (n > 1);
445        Value * carryOut = mCarrySummaryStack.back();
446        mCarrySummaryStack.pop_back();
447        PHINode * phiCarryOut = cast<PHINode>(mCarrySummaryStack.back());
448        phiCarryOut->addIncoming(carryOut, b->GetInsertBlock());
449        // If we're returning to the base scope, reset our accumulated summary value.
450        if (n == 2) {
451            carryOut = Constant::getNullValue(carryTy);
452        }
453        mCarrySummaryStack.back() = carryOut;
454    }
455}
456
457/** ------------------------------------------------------------------------------------------------------------- *
458 * @brief leaveLoopScope
459 ** ------------------------------------------------------------------------------------------------------------- */
460void CarryManager::leaveLoopScope(const std::unique_ptr<kernel::KernelBuilder> & b, BasicBlock * const /* entryBlock */, BasicBlock * const /* exitBlock */) {
461    assert (mLoopDepth > 0);
462    --mLoopDepth;
463    leaveScope(b);
464}
465
466/** ------------------------------------------------------------------------------------------------------------- *
467 * @brief enterIfScope
468 ** ------------------------------------------------------------------------------------------------------------- */
469void CarryManager::enterIfScope(const std::unique_ptr<kernel::KernelBuilder> & b, const PabloBlock * const scope) {
470    ++mIfDepth;
471    enterScope(b, scope);
472    // We zero-initialized the nested summary value and later OR in the current summary into the escaping summary
473    // so that upon processing the subsequent block iteration, we branch into this If scope iff a carry out was
474    // generated by a statement within this If scope and not by a dominating statement in the outer scope.
475    if (LLVM_LIKELY(mCarryInfo->hasSummary())) {
476        assert (mCurrentFrameIndex == 0);
477        mNextSummaryTest = readCarryInSummary(b, b->getInt32(0));
478        if (mCarryInfo->hasExplicitSummary()) {
479            mCurrentFrameIndex = 1;
480        }
481    }
482    Type * const carryTy = b->getBitBlockType();
483    mCarrySummaryStack.push_back(Constant::getNullValue(carryTy));
484}
485
486/** ------------------------------------------------------------------------------------------------------------- *
487 * @brief generateSummaryTest
488 ** ------------------------------------------------------------------------------------------------------------- */
489Value * CarryManager::generateSummaryTest(const std::unique_ptr<kernel::KernelBuilder> & b, Value * condition) {
490    if (LLVM_LIKELY(mCarryInfo->hasSummary())) {
491        assert ("summary test was not generated" && mNextSummaryTest);
492        condition = b->simd_or(condition, mNextSummaryTest);
493        mNextSummaryTest = nullptr;
494    }
495    assert ("summary test was not consumed" && (mNextSummaryTest == nullptr));
496    return condition;
497}
498
499/** ------------------------------------------------------------------------------------------------------------- *
500 * @brief enterIfBody
501 ** ------------------------------------------------------------------------------------------------------------- */
502void CarryManager::enterIfBody(const std::unique_ptr<kernel::KernelBuilder> & /* b */, BasicBlock * const entryBlock) {
503    assert (entryBlock);
504}
505
506/** ------------------------------------------------------------------------------------------------------------- *
507 * @brief leaveIfBody
508 ** ------------------------------------------------------------------------------------------------------------- */
509void CarryManager::leaveIfBody(const std::unique_ptr<kernel::KernelBuilder> & b, BasicBlock * const exitBlock) {
510    assert (exitBlock);
511    const auto n = mCarrySummaryStack.size();
512    if (LLVM_LIKELY(mCarryInfo->hasExplicitSummary())) {
513        writeCarryOutSummary(b, mCarrySummaryStack[n - 1], b->getInt32(0));
514    }
515    if (n > 2) {
516        mCarrySummaryStack[n - 1] = b->CreateOr(mCarrySummaryStack[n - 1], mCarrySummaryStack[n - 2], "summary");
517    }
518}
519
520/** ------------------------------------------------------------------------------------------------------------- *
521 * @brief leaveIfScope
522 ** ------------------------------------------------------------------------------------------------------------- */
523void CarryManager::leaveIfScope(const std::unique_ptr<kernel::KernelBuilder> & b, BasicBlock * const entryBlock, BasicBlock * const exitBlock) {
524    assert (mIfDepth > 0);
525    if (LLVM_LIKELY(mCarryInfo->hasSummary())) {
526        const auto n = mCarrySummaryStack.size(); assert (n > 0);
527        if (n > 2) {
528            // When leaving a nested If scope with a summary value, phi out the summary to ensure the
529            // appropriate summary is stored in the outer scope.
530            Value * nested = mCarrySummaryStack[n - 1];
531            Value * outer = mCarrySummaryStack[n - 2];
532            assert (nested->getType() == outer->getType());
533            PHINode * const phi = b->CreatePHI(nested->getType(), 2, "summary");
534            phi->addIncoming(outer, entryBlock);
535            phi->addIncoming(nested, exitBlock);
536            mCarrySummaryStack[n - 2] = phi;
537        }
538    }
539    --mIfDepth;
540    leaveScope(b);
541    mCarrySummaryStack.pop_back();
542}
543
544/** ------------------------------------------------------------------------------------------------------------ *
545 * @brief enterScope
546 ** ------------------------------------------------------------------------------------------------------------- */
547void CarryManager::enterScope(const std::unique_ptr<kernel::KernelBuilder> & b, const PabloBlock * const scope) {
548    assert (scope);
549    // Store the state of the current frame and update the scope state
550    mCarryFrameStack.emplace_back(mCurrentFrame, mCurrentFrameIndex + 1);
551    mCurrentScope = scope;
552    mCarryScopeIndex.push_back(++mCarryScopes);
553    mCarryInfo = &mCarryMetadata[mCarryScopes];
554    // Check whether we're still within our struct bounds; if this fails, either the Pablo program changed during
555    // compilation or a memory corruption has occured.
556    assert (mCurrentFrameIndex < mCurrentFrame->getType()->getPointerElementType()->getStructNumElements());
557    mCurrentFrame = b->CreateGEP(mCurrentFrame, {b->getInt32(0), b->getInt32(mCurrentFrameIndex)});
558    // Verify we're pointing to a carry frame struct
559    assert(mCurrentFrame->getType()->getPointerElementType()->isStructTy());
560    mCurrentFrameIndex = 0;
561}
562
563/** ------------------------------------------------------------------------------------------------------------- *
564 * @brief leaveScope
565 ** ------------------------------------------------------------------------------------------------------------- */
566void CarryManager::leaveScope(const std::unique_ptr<kernel::KernelBuilder> & /* b */) {
567
568    // Did we use all of the packs in this carry struct?
569    assert (mCurrentFrameIndex == mCurrentFrame->getType()->getPointerElementType()->getStructNumElements());
570    // Sanity test: are there remaining carry frames?
571    assert (!mCarryFrameStack.empty());
572
573    std::tie(mCurrentFrame, mCurrentFrameIndex) = mCarryFrameStack.back();
574
575    assert(mCurrentFrame->getType()->getPointerElementType()->isStructTy());
576
577    mCarryFrameStack.pop_back();
578    mCarryScopeIndex.pop_back();
579    assert (!mCarryScopeIndex.empty());
580    mCurrentScope = mCurrentScope->getPredecessor();
581    assert (mCurrentScope);
582    mCarryInfo = &mCarryMetadata[mCarryScopeIndex.back()];
583}
584
585/** ------------------------------------------------------------------------------------------------------------- *
586 * @brief addCarryInCarryOut
587 ** ------------------------------------------------------------------------------------------------------------- */
588Value * CarryManager::addCarryInCarryOut(const std::unique_ptr<kernel::KernelBuilder> & b, const Statement * const operation, Value * const e1, Value * const e2) {
589    assert (operation && (isNonAdvanceCarryGeneratingStatement(operation)));
590    Value * const carryIn = getNextCarryIn(b);
591    Value * carryOut, * result;
592    std::tie(carryOut, result) = b->bitblock_add_with_carry(e1, e2, carryIn);
593    setNextCarryOut(b, carryOut);
594    assert (result->getType() == b->getBitBlockType());
595    return result;
596}
597
598/** ------------------------------------------------------------------------------------------------------------- *
599 * @brief advanceCarryInCarryOut
600 ** ------------------------------------------------------------------------------------------------------------- */
601Value * CarryManager::advanceCarryInCarryOut(const std::unique_ptr<kernel::KernelBuilder> & b, const Advance * const advance, Value * const value) {
602    const auto shiftAmount = advance->getAmount();
603    if (LLVM_LIKELY(shiftAmount < LONG_ADVANCE_BREAKPOINT)) {
604        Value * const carryIn = getNextCarryIn(b);
605        Value * carryOut, * result;
606        std::tie(carryOut, result) = b->bitblock_advance(value, carryIn, shiftAmount);
607        setNextCarryOut(b, carryOut);
608        assert (result->getType() == b->getBitBlockType());
609        return result;
610    } else {
611        return longAdvanceCarryInCarryOut(b, value, shiftAmount);
612    }
613}
614
615/** ------------------------------------------------------------------------------------------------------------- *
616 * @brief indexedAdvanceCarryInCarryOut
617 ** ------------------------------------------------------------------------------------------------------------- */
618Value * CarryManager::indexedAdvanceCarryInCarryOut(const std::unique_ptr<kernel::KernelBuilder> & b, const IndexedAdvance * const advance, Value * const strm, Value * const index_strm) {
619    const auto shiftAmount = advance->getAmount();
620    if (LLVM_LIKELY(shiftAmount < LONG_ADVANCE_BREAKPOINT)) {
621        Value * const carryIn = getNextCarryIn(b);
622        Value * carryOut, * result;
623        std::tie(carryOut, result) = b->bitblock_indexed_advance(strm, index_strm, carryIn, shiftAmount);
624        setNextCarryOut(b, carryOut);
625        return result;
626    } else if (shiftAmount <= b->getBitBlockWidth()) {
627        Value * carryPtr = b->CreateGEP(mCurrentFrame, {b->getInt32(0), b->getInt32(mCurrentFrameIndex++), b->getInt32(0)});
628        Value * carryIn = b->CreateBlockAlignedLoad(carryPtr);
629        Value * carryOut, * result;
630        std::tie(carryOut, result) = b->bitblock_indexed_advance(strm, index_strm, carryIn, shiftAmount);
631        b->CreateBlockAlignedStore(carryOut, carryPtr);
632        if ((mIfDepth > 0) && mCarryInfo->hasExplicitSummary()) {
633            addToCarryOutSummary(b, strm);
634        }
635        return result;
636    } else {
637        unsigned summaryFrame = mCurrentFrameIndex;
638        if (mIfDepth > 0) {
639            // Skip over summary frame to perform the long indexed advance.
640            mCurrentFrameIndex++;
641        }
642        Type * iBitBlock = b->getIntNTy(b->getBitBlockWidth());
643        Constant * blockWidth = b->getSize(b->getBitBlockWidth());
644        Constant * blockWidth_1 = b->getSize(b->getBitBlockWidth() - 1);
645        Value * carryPosition = b->getScalarField("IndexedAdvancePosition" + std::to_string(mIndexedLongAdvanceIndex));
646        Value * carryBlockEndPos = b->CreateAdd(carryPosition, blockWidth_1);
647        unsigned carry_blocks = nearest_pow2(1+ceil_udiv(shiftAmount, b->getBitBlockWidth()));
648        Constant * carryQueueBlocks = b->getSize(carry_blocks);
649        Value * carryBlock = b->CreateTrunc(b->CreateURem(b->CreateUDiv(carryPosition, blockWidth), carryQueueBlocks), b->getInt32Ty());
650        Value * carryEndBlock = b->CreateTrunc(b->CreateURem(b->CreateUDiv(carryBlockEndPos, blockWidth), carryQueueBlocks), b->getInt32Ty());
651        Value * lo_GEP = b->CreateGEP(mCurrentFrame, {b->getInt32(0), b->getInt32(mCurrentFrameIndex), carryBlock});
652        Value * hi_GEP = b->CreateGEP(mCurrentFrame, {b->getInt32(0), b->getInt32(mCurrentFrameIndex), carryEndBlock});
653        Value * c_lo = b->CreateBitCast(b->CreateBlockAlignedLoad(lo_GEP), iBitBlock);
654        Value * c_hi = b->CreateBitCast(b->CreateBlockAlignedLoad(hi_GEP), iBitBlock);
655        Value * lo_shift = b->CreateZExt(b->CreateURem(carryPosition, blockWidth), iBitBlock);
656        Value * hi_shift = b->CreateZExt(b->CreateSub(blockWidth_1, b->CreateURem(carryBlockEndPos, blockWidth)), iBitBlock);
657        Value * carryIn = b->CreateOr(b->CreateLShr(c_lo, lo_shift), b->CreateShl(c_hi, hi_shift));
658        Value * carryOut, * result;
659        std::tie(carryOut, result) = b->bitblock_indexed_advance(strm, index_strm, carryIn, shiftAmount);
660        carryOut = b->CreateBitCast(carryOut, iBitBlock);
661        Value * adv = b->mvmd_extract(sizeof(size_t) * 8, b->simd_popcount(b->getBitBlockWidth(), index_strm), 0);
662        b->setScalarField("IndexedAdvancePosition" + std::to_string(mIndexedLongAdvanceIndex), b->CreateAdd(carryPosition, adv));
663        Value * carryOutPosition = b->CreateAdd(carryPosition, b->getSize(shiftAmount));
664        Value * carryOutEndPos = b->CreateAdd(carryOutPosition, blockWidth_1);
665        carryBlock = b->CreateTrunc(b->CreateURem(b->CreateUDiv(carryOutPosition, blockWidth), carryQueueBlocks), b->getInt32Ty());
666        carryEndBlock = b->CreateTrunc(b->CreateURem(b->CreateUDiv(carryOutEndPos, blockWidth), carryQueueBlocks), b->getInt32Ty());
667        lo_GEP = b->CreateGEP(mCurrentFrame, {b->getInt32(0), b->getInt32(mCurrentFrameIndex), carryBlock});
668        hi_GEP = b->CreateGEP(mCurrentFrame, {b->getInt32(0), b->getInt32(mCurrentFrameIndex), carryEndBlock});
669        lo_shift = b->CreateZExt(b->CreateURem(carryOutPosition, blockWidth), iBitBlock);
670        hi_shift = b->CreateZExt(b->CreateSub(blockWidth_1, b->CreateURem(carryOutEndPos, blockWidth)), iBitBlock);
671        c_lo = b->CreateOr(b->CreateBitCast(b->CreateBlockAlignedLoad(lo_GEP), iBitBlock), b->CreateShl(carryOut, lo_shift));
672        c_hi = b->CreateLShr(carryOut, hi_shift);
673        b->CreateBlockAlignedStore(b->CreateBitCast(c_lo, b->getBitBlockType()), lo_GEP);
674        b->CreateBlockAlignedStore(b->CreateBitCast(c_hi, b->getBitBlockType()), hi_GEP);
675        mIndexedLongAdvanceIndex++;
676        mCurrentFrameIndex++;
677        // Now handle the summary.
678        if (mIfDepth > 0) {
679            const auto summaryBlocks = ceil_udiv(shiftAmount, b->getBitBlockWidth());
680            const auto summarySize = ceil_udiv(summaryBlocks, b->getBitBlockWidth());
681            for (unsigned i = 0; i < summarySize; i++) {
682                // All ones summary for now.
683                b->CreateBlockAlignedStore(b->allOnes(), b->CreateGEP(mCurrentFrame, {b->getInt32(0), b->getInt32(summaryFrame), b->getInt32(i)}));
684            }
685        }
686        return result;
687    }
688}
689
690
691/** ------------------------------------------------------------------------------------------------------------- *
692 * @brief longAdvanceCarryInCarryOut
693 ** ------------------------------------------------------------------------------------------------------------- */
694inline Value * CarryManager::longAdvanceCarryInCarryOut(const std::unique_ptr<kernel::KernelBuilder> & b, Value * const value, const unsigned shiftAmount) {
695
696    assert (mHasLongAdvance);
697    assert (shiftAmount >= LONG_ADVANCE_BREAKPOINT);
698    assert (value);
699
700    const auto blockWidth = b->getBitBlockWidth();
701    Type * const streamTy = b->getIntNTy(blockWidth);
702
703    Value * indices[3];
704
705    indices[0] = b->getInt32(0);
706
707    if (mIfDepth > 0) {
708        if (shiftAmount > blockWidth) {
709
710            // TODO: once CEILING(shiftAmount / 256) > 2, consider using a half-adder/subtractor strategy?
711
712            Value * carry = b->CreateZExt(b->bitblock_any(value), streamTy);
713            const auto summaryBlocks = ceil_udiv(shiftAmount, blockWidth);
714            const auto summarySize = ceil_udiv(summaryBlocks, blockWidth);
715            VectorType * const bitBlockTy = b->getBitBlockType();
716            IntegerType * const laneTy = cast<IntegerType>(bitBlockTy->getVectorElementType());
717            const auto laneWidth = laneTy->getIntegerBitWidth();
718
719            assert (summarySize > 0);
720            assert (is_power_2(laneWidth));
721
722            indices[1] = b->getInt32(mCurrentFrameIndex++);
723
724            for (unsigned i = 1;;++i) {
725
726                assert (i <= summarySize);
727
728                indices[2] = b->getInt32(i - 1);
729
730                Value * const ptr = b->CreateGEP(mCurrentFrame, indices);
731                Value * const prior = b->CreateBitCast(b->CreateBlockAlignedLoad(ptr), streamTy);
732
733                Value * advanced = nullptr;
734                if (LLVM_LIKELY(summaryBlocks < laneWidth)) {
735                    advanced = b->CreateOr(b->CreateShl(prior, 1), carry);
736                    carry = b->CreateLShr(prior, summaryBlocks - 1);
737                } else {
738                    std::tie(advanced, carry) = b->bitblock_advance(prior, carry, 1);
739                }
740                Value * stream = b->CreateBitCast(advanced, bitBlockTy);
741                if (LLVM_LIKELY(i == summarySize)) {
742                    const auto n = bitBlockTy->getVectorNumElements();
743                    Constant * mask[n];                                       
744                    const auto m = udiv(summaryBlocks, laneWidth);
745                    if (m) {
746                        std::fill_n(mask, m, ConstantInt::getAllOnesValue(laneTy));
747                    }
748                    mask[m] = ConstantInt::get(laneTy, (1UL << (summaryBlocks & (laneWidth - 1))) - 1UL);
749                    if (n > m) {
750                        std::fill_n(mask + m + 1, n - m, UndefValue::get(laneTy));
751                    }
752                    stream = b->CreateAnd(stream, ConstantVector::get(ArrayRef<Constant *>(mask, n)));
753                    addToCarryOutSummary(b, stream);
754                    b->CreateBlockAlignedStore(stream, ptr);
755                    break;
756                }
757                addToCarryOutSummary(b, stream);
758                b->CreateBlockAlignedStore(stream, ptr);
759            }
760
761        } else if (LLVM_LIKELY(mCarryInfo->hasExplicitSummary())) {
762            addToCarryOutSummary(b, value);
763        }
764    }
765
766    indices[1] = b->getInt32(mCurrentFrameIndex++);
767
768    // special case using a single buffer entry and the carry_out value.
769    if (LLVM_LIKELY((shiftAmount < blockWidth) && (mLoopDepth == 0))) {
770
771        indices[2] = indices[0]; // b->getInt32(0)
772        assert (cast<ConstantInt>(indices[2])->isNullValue());
773
774        Value * const buffer = b->CreateGEP(mCurrentFrame, indices);
775        assert (buffer->getType()->getPointerElementType() == b->getBitBlockType());
776        Value * carryIn = b->CreateBlockAlignedLoad(buffer);
777
778        b->CreateBlockAlignedStore(value, buffer);
779        /* Very special case - no combine */
780        if (LLVM_UNLIKELY(shiftAmount == blockWidth)) {
781            return b->CreateBitCast(carryIn, b->getBitBlockType());
782        }
783        Value* block0_shr = b->CreateLShr(b->CreateBitCast(carryIn, streamTy), blockWidth - shiftAmount);
784        Value* block1_shl = b->CreateShl(b->CreateBitCast(value, streamTy), shiftAmount);
785        return b->CreateBitCast(b->CreateOr(block1_shl, block0_shr), b->getBitBlockType());
786    } else { //
787        const unsigned blockShift = shiftAmount & (blockWidth - 1);
788        const unsigned summaryBlocks = ceil_udiv(shiftAmount, blockWidth);
789
790        // Create a mask to implement circular buffer indexing
791        Value * indexMask = b->getSize(nearest_pow2(summaryBlocks) - 1);
792        Value * blockIndex = b->getScalarField("CarryBlockIndex");
793
794        Value * carryIndex0 = b->CreateSub(blockIndex, b->getSize(summaryBlocks));
795        indices[2] = b->CreateAnd(carryIndex0, indexMask);
796        Value * const carryInPtr = b->CreateGEP(mCurrentFrame, indices);
797        Value * carryIn = b->CreateBlockAlignedLoad(carryInPtr);
798
799        indices[2] = b->CreateAnd(blockIndex, indexMask);
800        Value * const carryOutPtr = b->CreateGEP(mCurrentFrame, indices);
801        assert (carryIn->getType() == b->getBitBlockType());
802
803        // If the long advance is an exact multiple of BitBlockWidth, we simply return the oldest
804        // block in the long advance carry data area.
805        if (LLVM_UNLIKELY(blockShift == 0)) {
806            b->CreateBlockAlignedStore(value, carryOutPtr);
807            return carryIn;
808        } else { // Otherwise we need to combine data from the two oldest blocks.
809            Value * const carryIndex1 = b->CreateSub(blockIndex, b->getSize(summaryBlocks - 1));
810            indices[2] = b->CreateAnd(carryIndex1, indexMask);
811
812            Value * const carryInPtr2 = b->CreateGEP(mCurrentFrame, indices);
813            Value * const carryIn2 = b->CreateBlockAlignedLoad(carryInPtr2);
814            assert (carryOutPtr->getType()->getPointerElementType() == value->getType());
815            b->CreateBlockAlignedStore(value, carryOutPtr);
816
817            Value * const b0 = b->CreateLShr(b->CreateBitCast(carryIn, streamTy), blockWidth - blockShift);
818            Value * const b1 = b->CreateShl(b->CreateBitCast(carryIn2, streamTy), blockShift);
819            return b->CreateBitCast(b->CreateOr(b1, b0), b->getBitBlockType());
820        }
821    }
822}
823
824/** ------------------------------------------------------------------------------------------------------------- *
825 * @brief getNextCarryIn
826 ** ------------------------------------------------------------------------------------------------------------- */
827Value * CarryManager::getNextCarryIn(const std::unique_ptr<kernel::KernelBuilder> & b) {
828    assert (mCurrentFrameIndex < mCurrentFrame->getType()->getPointerElementType()->getStructNumElements());
829    if (mLoopDepth == 0) {
830        mCarryPackPtr = b->CreateGEP(mCurrentFrame, {b->getInt32(0), b->getInt32(mCurrentFrameIndex)});
831    } else {
832        mCarryPackPtr = b->CreateGEP(mCurrentFrame, {b->getInt32(0), b->getInt32(mCurrentFrameIndex), mLoopSelector});
833    }
834    Type * const carryTy = b->getBitBlockType();
835    assert (mCarryPackPtr->getType()->getPointerElementType() == carryTy);
836    Value * const carryIn = b->CreateBlockAlignedLoad(mCarryPackPtr);
837    if (mLoopDepth > 0) {
838        b->CreateBlockAlignedStore(Constant::getNullValue(carryTy), mCarryPackPtr);
839    }
840    return carryIn;
841}
842
843/** ------------------------------------------------------------------------------------------------------------- *
844 * @brief setNextCarryOut
845 ** ------------------------------------------------------------------------------------------------------------- */
846void CarryManager::setNextCarryOut(const std::unique_ptr<kernel::KernelBuilder> & b, Value * carryOut) {
847    Type * const carryTy = b->getBitBlockType();
848    assert (mCurrentFrameIndex < mCurrentFrame->getType()->getPointerElementType()->getStructNumElements());
849    carryOut = b->CreateBitCast(carryOut, carryTy);
850    if (mCarryInfo->hasSummary()) {
851        addToCarryOutSummary(b, carryOut);
852    }
853    if (mLoopDepth != 0) {
854        mCarryPackPtr = b->CreateGEP(mCurrentFrame, {b->getInt32(0), b->getInt32(mCurrentFrameIndex), mNextLoopSelector});
855        if (LLVM_LIKELY(!mCarryInfo->nonCarryCollapsingMode())) {
856            Value * accum = b->CreateBlockAlignedLoad(mCarryPackPtr);
857            carryOut = b->CreateOr(carryOut, accum);
858        }
859    }
860    ++mCurrentFrameIndex;
861    assert (mCarryPackPtr->getType()->getPointerElementType() == carryTy);
862    b->CreateBlockAlignedStore(carryOut, mCarryPackPtr);
863}
864
865/** ------------------------------------------------------------------------------------------------------------- *
866 * @brief readCarryInSummary
867 ** ------------------------------------------------------------------------------------------------------------- */
868Value * CarryManager::readCarryInSummary(const std::unique_ptr<kernel::KernelBuilder> & b, ConstantInt * index) const {
869    assert (mCarryInfo->hasSummary());
870    unsigned count = 2;
871    if (LLVM_UNLIKELY(mCarryInfo->hasBorrowedSummary())) {
872        Type * frameTy = mCurrentFrame->getType()->getPointerElementType();
873        count = 1;
874        while (frameTy->isStructTy()) {
875            ++count;
876            assert (frameTy->getStructNumElements() > 0);
877            frameTy = frameTy->getStructElementType(0);
878        }
879    }
880    const unsigned length = (mLoopDepth == 0) ? count : (count + 1);
881    Value * indicies[length];
882    std::fill(indicies, indicies + count - 1, b->getInt32(0));
883    indicies[count - 1] = index;
884    if (mLoopDepth != 0) {
885        indicies[count] = mLoopSelector;
886    }
887
888    ArrayRef<Value *> ar(indicies, length);
889    Value * const ptr = b->CreateGEP(mCurrentFrame, ar);
890    Value * const summary = b->CreateBlockAlignedLoad(ptr);
891    if (mLoopDepth != 0 && mCarryInfo->hasExplicitSummary()) {
892        Type * const carryTy = b->getBitBlockType();
893        b->CreateBlockAlignedStore(Constant::getNullValue(carryTy), ptr);
894    }
895    return summary;
896}
897
898/** ------------------------------------------------------------------------------------------------------------- *
899 * @brief writeCarryOutSummary
900 ** ------------------------------------------------------------------------------------------------------------- */
901inline void CarryManager::writeCarryOutSummary(const std::unique_ptr<kernel::KernelBuilder> & b, Value * const summary, ConstantInt * index) const {
902    Value * ptr = nullptr;
903    assert (mCarryInfo->hasExplicitSummary());
904    if (mLoopDepth > 0) {
905        ptr = b->CreateGEP(mCurrentFrame, {b->getInt32(0), index, mNextLoopSelector});
906    } else {
907        ptr = b->CreateGEP(mCurrentFrame, {b->getInt32(0), index});
908    }
909    b->CreateBlockAlignedStore(summary, ptr);
910}
911
912/** ------------------------------------------------------------------------------------------------------------- *
913 * @brief addToCarryOutSummary
914 ** ------------------------------------------------------------------------------------------------------------- */
915inline void CarryManager::addToCarryOutSummary(const std::unique_ptr<kernel::KernelBuilder> & b, Value * const value) {
916    assert ("cannot add null summary value!" && value);   
917    assert ("summary stack is empty!" && !mCarrySummaryStack.empty());
918    assert (mCarryInfo->hasSummary());
919    mCarrySummaryStack.back() = b->CreateOr(value, mCarrySummaryStack.back());
920}
921
922/** ------------------------------------------------------------------------------------------------------------- *
923 * @brief enumerate
924 ** ------------------------------------------------------------------------------------------------------------- */
925unsigned CarryManager::getScopeCount(const PabloBlock * const scope, unsigned index) {
926    for (const Statement * stmt : *scope) {
927        if (LLVM_UNLIKELY(isa<Branch>(stmt))) {
928            index = getScopeCount(cast<Branch>(stmt)->getBody(), index);
929        }
930    }
931    return index + 1;
932}
933
934/** ------------------------------------------------------------------------------------------------------------- *
935 * @brief hasIterationSpecificAssignment
936 ** ------------------------------------------------------------------------------------------------------------- */
937bool isNonRegularLanguage(const PabloBlock * const scope) {
938    if (const Branch * br = scope->getBranch()) {
939        return !br->isRegular();
940    }
941    return false;
942}
943
944static bool hasNonEmptyCarryStruct(const Type * const frameTy) {
945    if (frameTy->isStructTy()) {
946        for (unsigned i = 0; i < frameTy->getStructNumElements(); ++i) {
947            if (hasNonEmptyCarryStruct(frameTy->getStructElementType(i))) {
948                return true;
949            }
950        }
951        return false;
952    }
953    return true;
954}
955
956static bool hasNonEmptyCarryStruct(const std::vector<Type *> & state) {
957    for (const Type * const frameTy : state) {
958        if (hasNonEmptyCarryStruct(frameTy)) {
959            return true;
960        }
961    }
962    return false;
963}
964
965/** ------------------------------------------------------------------------------------------------------------- *
966 * @brief analyse
967 ** ------------------------------------------------------------------------------------------------------------- */
968StructType * CarryManager::analyse(const std::unique_ptr<kernel::KernelBuilder> & b, const PabloBlock * const scope,
969                                   const unsigned ifDepth, const unsigned loopDepth, const bool isNestedWithinNonCarryCollapsingLoop) {
970    assert ("scope cannot be null!" && scope);
971    assert ("entry scope (and only the entry scope) must be in scope 0"
972            && (mCarryScopes == 0 ? (scope == mKernel->getEntryBlock()) : (scope != mKernel->getEntryBlock())));
973    assert (mCarryScopes < mCarryMetadata.size());
974    Type * const carryTy = b->getBitBlockType();
975    Type * const blockTy = b->getBitBlockType();
976
977    const unsigned carryScopeIndex = mCarryScopes++;
978    const bool nonCarryCollapsingMode = isNonRegularLanguage(scope);
979    Type * const carryPackType = (loopDepth == 0) ? carryTy : ArrayType::get(carryTy, 2);
980    std::vector<Type *> state;
981    for (const Statement * stmt : *scope) {
982        if (LLVM_UNLIKELY(isa<Advance>(stmt) || isa<IndexedAdvance>(stmt))) {
983            int64_t amount;
984            if (isa<Advance>(stmt)) amount = cast<Advance>(stmt)->getAmount();
985            else amount = cast<IndexedAdvance>(stmt)->getAmount();
986            Type * type = carryPackType;
987            if (LLVM_UNLIKELY(amount >= LONG_ADVANCE_BREAKPOINT)) {
988                const auto blockWidth = b->getBitBlockWidth();
989                const auto blocks = ceil_udiv(amount, blockWidth);
990                type = ArrayType::get(blockTy, nearest_pow2(blocks + (isa<IndexedAdvance>(stmt) ? 1:0) + ((loopDepth != 0) ? 1 : 0)));
991                if (LLVM_UNLIKELY(ifDepth > 0 && blocks != 1)) {
992                    const auto summarySize = ceil_udiv(blocks, blockWidth);
993                    // 1 bit will mark the presense of any bit in each block.
994                    state.push_back(ArrayType::get(blockTy, summarySize));
995                }
996                mHasLongAdvance = true;
997                if (isa<IndexedAdvance>(stmt)) mIndexedLongAdvanceTotal++;
998            }
999            state.push_back(type);
1000        } else if (LLVM_UNLIKELY(isNonAdvanceCarryGeneratingStatement(stmt))) {
1001            state.push_back(carryPackType);
1002        } else if (LLVM_UNLIKELY(isa<If>(stmt))) {
1003            state.push_back(analyse(b, cast<If>(stmt)->getBody(), ifDepth + 1, loopDepth, nonCarryCollapsingMode | isNestedWithinNonCarryCollapsingLoop));
1004        } else if (LLVM_UNLIKELY(isa<While>(stmt))) {
1005            mHasLoop = true;
1006            state.push_back(analyse(b, cast<While>(stmt)->getBody(), ifDepth, loopDepth + 1, nonCarryCollapsingMode | isNestedWithinNonCarryCollapsingLoop));
1007        }
1008    }
1009    // Build the carry state struct and add the summary pack if needed.
1010    CarryData & cd = mCarryMetadata[carryScopeIndex];
1011    StructType * carryState = nullptr;
1012    CarryData::SummaryType summaryType = CarryData::NoSummary;
1013    if (LLVM_UNLIKELY(state.empty())) {
1014        carryState = StructType::get(b->getContext());
1015    } else {
1016        // do we have a summary or a sequence of nested empty structs?
1017        if (hasNonEmptyCarryStruct(state)) {
1018            if (dyn_cast_or_null<If>(scope->getBranch()) || nonCarryCollapsingMode || isNestedWithinNonCarryCollapsingLoop) {
1019                if (LLVM_LIKELY(state.size() > 1)) {
1020                    summaryType = CarryData::ExplicitSummary;
1021                    // NOTE: summaries are stored differently depending whether we're entering an If or While branch. With an If branch, they
1022                    // preceed the carry state data and with a While loop they succeed it. This is to help cache prefectching performance.
1023                    state.insert(isa<If>(scope->getBranch()) ? state.begin() : state.end(), carryPackType);
1024                } else {
1025                    summaryType = CarryData::ImplicitSummary;
1026                    if (hasNonEmptyCarryStruct(state[0])) {
1027                        summaryType = CarryData::BorrowedSummary;
1028                    }
1029                }
1030            }
1031        }
1032        carryState = StructType::get(b->getContext(), state);
1033        // If we're in a loop and cannot use collapsing carry mode, convert the carry state struct into a capacity,
1034        // carry state pointer, and summary pointer struct.
1035        if (LLVM_UNLIKELY(nonCarryCollapsingMode)) {
1036            mHasNonCarryCollapsingLoops = true;
1037            carryState = StructType::get(b->getSizeTy(), carryState->getPointerTo(), carryTy->getPointerTo(), nullptr);
1038            assert (isDynamicallyAllocatedType(carryState));
1039        }
1040        cd.setNonCollapsingCarryMode(nonCarryCollapsingMode);
1041    }
1042    cd.setSummaryType(summaryType);
1043    return carryState;
1044}
1045
1046/** ------------------------------------------------------------------------------------------------------------- *
1047 * @brief constructor
1048 ** ------------------------------------------------------------------------------------------------------------- */
1049CarryManager::CarryManager() noexcept
1050: mKernel(nullptr)
1051, mCurrentFrame(nullptr)
1052, mCurrentFrameIndex(0)
1053, mCurrentScope(nullptr)
1054, mCarryInfo(nullptr)
1055, mNextSummaryTest(nullptr)
1056, mIfDepth(0)
1057, mHasLongAdvance(false)
1058, mIndexedLongAdvanceTotal(0)
1059, mIndexedLongAdvanceIndex(0)
1060, mHasNonCarryCollapsingLoops(false)
1061, mHasLoop(false)
1062, mLoopDepth(0)
1063, mLoopSelector(nullptr)
1064, mNextLoopSelector(nullptr)
1065, mCarryPackPtr(nullptr)
1066, mCarryScopes(0) {
1067
1068}
1069
1070}
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