[spirv-reader] Add switch-selection
- Avoid redundant switch-break. WGSL does an implicit break at the end of a switch case, because it has fallthrough. TODO: Emit fallthrough Bug: tint:3 Change-Id: Ida44b13181a01a2c1459c0447dac496ba5b97ffc Reviewed-on: https://dawn-review.googlesource.com/c/tint/+/22961 Reviewed-by: dan sinclair <dsinclair@google.com>
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@ -14,6 +14,7 @@
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#include "src/reader/spirv/function.h"
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#include <algorithm>
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#include <unordered_map>
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#include <unordered_set>
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#include <utility>
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@ -28,6 +29,7 @@
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#include "src/ast/assignment_statement.h"
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#include "src/ast/binary_expression.h"
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#include "src/ast/break_statement.h"
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#include "src/ast/case_statement.h"
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#include "src/ast/continue_statement.h"
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#include "src/ast/else_statement.h"
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#include "src/ast/fallthrough_statement.h"
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@ -38,6 +40,7 @@
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#include "src/ast/member_accessor_expression.h"
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#include "src/ast/return_statement.h"
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#include "src/ast/scalar_constructor_expression.h"
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#include "src/ast/sint_literal.h"
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#include "src/ast/storage_class.h"
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#include "src/ast/switch_statement.h"
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#include "src/ast/uint_literal.h"
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@ -387,7 +390,7 @@ FunctionEmitter::StatementBlock::StatementBlock(
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uint32_t end_id,
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CompletionAction completion_action,
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ast::StatementList statements,
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ast::CaseStatementList cases)
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std::unique_ptr<ast::CaseStatementList> cases)
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: construct_(construct),
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end_id_(end_id),
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completion_action_(completion_action),
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@ -401,9 +404,8 @@ FunctionEmitter::StatementBlock::~StatementBlock() = default;
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void FunctionEmitter::PushNewStatementBlock(const Construct* construct,
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uint32_t end_id,
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CompletionAction action) {
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statements_stack_.emplace_back(StatementBlock(construct, end_id, action,
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ast::StatementList{},
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ast::CaseStatementList{}));
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statements_stack_.emplace_back(
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StatementBlock{construct, end_id, action, ast::StatementList{}, nullptr});
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}
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const ast::StatementList& FunctionEmitter::ast_body() {
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@ -981,7 +983,6 @@ bool FunctionEmitter::FindSwitchCaseHeaders() {
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// Process case targets.
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for (uint32_t iarg = 2; iarg + 1 < branch->NumInOperands(); iarg += 2) {
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const auto o = branch->GetInOperand(iarg);
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const auto value = branch->GetInOperand(iarg).AsLiteralUint64();
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const auto case_target_id = branch->GetSingleWordInOperand(iarg + 1);
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@ -1715,8 +1716,14 @@ bool FunctionEmitter::EmitBasicBlock(const BlockInfo& block_info) {
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break;
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case Construct::kSwitchSelection:
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if (!EmitStatementsInBasicBlock(block_info, &emitted)) {
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return false;
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}
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if (!EmitSwitchStart(block_info)) {
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return false;
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}
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has_normal_terminator = false;
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return Fail() << "unhandled: switch construct";
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break;
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}
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}
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@ -1827,6 +1834,128 @@ bool FunctionEmitter::EmitIfStart(const BlockInfo& block_info) {
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return success();
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}
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bool FunctionEmitter::EmitSwitchStart(const BlockInfo& block_info) {
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// The block is the if-header block. So its construct is the if construct.
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auto* construct = block_info.construct;
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assert(construct->kind == Construct::kSwitchSelection);
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assert(construct->begin_id == block_info.id);
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const auto* branch = block_info.basic_block->terminator();
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auto* const switch_stmt =
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AddStatement(std::make_unique<ast::SwitchStatement>())->AsSwitch();
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const auto selector_id = branch->GetSingleWordInOperand(0);
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// Generate the code for the selector.
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auto selector = MakeExpression(selector_id);
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switch_stmt->set_condition(std::move(selector.expr));
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// First, push the statement block for the entire switch. All the actual
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// work is done by completion actions of the case/default clauses.
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PushNewStatementBlock(
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construct, construct->end_id, [switch_stmt](StatementBlock* s) {
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switch_stmt->set_body(std::move(*std::move(s->cases_)));
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});
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statements_stack_.back().cases_ = std::make_unique<ast::CaseStatementList>();
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// Grab a pointer to the case list. It will get buried in the statement block
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// stack.
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auto* cases = statements_stack_.back().cases_.get();
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// We will push statement-blocks onto the stack to gather the statements in
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// the default clause and cases clauses. Determine the list of blocks
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// that start each clause.
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std::vector<const BlockInfo*> clause_heads;
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// Collect the case clauses, even if they are just the merge block.
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// First the default clause.
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const auto default_id = branch->GetSingleWordInOperand(1);
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const auto* default_info = GetBlockInfo(default_id);
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clause_heads.push_back(default_info);
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// Now the case clauses.
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for (uint32_t iarg = 2; iarg + 1 < branch->NumInOperands(); iarg += 2) {
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const auto case_target_id = branch->GetSingleWordInOperand(iarg + 1);
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clause_heads.push_back(GetBlockInfo(case_target_id));
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}
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std::stable_sort(clause_heads.begin(), clause_heads.end(),
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[](const BlockInfo* lhs, const BlockInfo* rhs) {
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return lhs->pos < rhs->pos;
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});
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// Remove duplicates
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{
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// Use read index r, and write index w.
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// Invariant: w <= r;
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size_t w = 0;
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for (size_t r = 0; r < clause_heads.size(); ++r) {
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if (clause_heads[r] != clause_heads[w]) {
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++w; // Advance the write cursor.
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}
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clause_heads[w] = clause_heads[r];
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}
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// We know it's not empty because it always has at least a default clause.
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assert(!clause_heads.empty());
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clause_heads.resize(w + 1);
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}
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// Push them on in reverse order.
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const auto last_clause_index = clause_heads.size() - 1;
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for (size_t i = last_clause_index;; --i) {
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// Create the case clause. Temporarily put it in the wrong order
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// on the case statement list.
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cases->emplace_back(std::make_unique<ast::CaseStatement>());
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auto* clause = cases->back().get();
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// Create a list of integer literals for the selector values leading to
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// this case clause.
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ast::CaseSelectorList selectors;
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const auto* values_ptr = clause_heads[i]->case_values.get();
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const bool has_selectors = (values_ptr && !values_ptr->empty());
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if (has_selectors) {
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std::vector<uint64_t> values(values_ptr->begin(), values_ptr->end());
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std::stable_sort(values.begin(), values.end());
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for (auto value : values) {
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// The rest of this module can handle up to 64 bit switch values.
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// The Tint AST handles 32-bit values.
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const uint32_t value32 = uint32_t(value & 0xFFFFFFFF);
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if (selector.type->is_unsigned_scalar_or_vector()) {
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selectors.emplace_back(
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std::make_unique<ast::UintLiteral>(selector.type, value32));
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} else {
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selectors.emplace_back(
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std::make_unique<ast::SintLiteral>(selector.type, value32));
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}
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}
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clause->set_selectors(std::move(selectors));
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}
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// Where does this clause end?
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const auto end_id = (i + 1 < clause_heads.size()) ? clause_heads[i + 1]->id
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: construct->end_id;
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PushNewStatementBlock(construct, end_id, [clause](StatementBlock* s) {
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clause->set_body(std::move(s->statements_));
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});
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if ((default_info == clause_heads[i]) && has_selectors &&
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construct->ContainsPos(default_info->pos)) {
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// Generate a default clause with a just fallthrough.
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ast::StatementList stmts;
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stmts.emplace_back(std::make_unique<ast::FallthroughStatement>());
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auto case_stmt = std::make_unique<ast::CaseStatement>();
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case_stmt->set_body(std::move(stmts));
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cases->emplace_back(std::move(case_stmt));
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}
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if (i == 0) {
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break;
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}
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}
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// We've listed cases in reverse order in the switch statement. Reorder them
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// to match the presentation order in WGSL.
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std::reverse(cases->begin(), cases->end());
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return success();
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}
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bool FunctionEmitter::EmitLoopStart(const Construct* construct) {
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auto* loop = AddStatement(std::make_unique<ast::LoopStatement>())->AsLoop();
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PushNewStatementBlock(
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@ -1946,7 +2075,31 @@ std::unique_ptr<ast::Statement> FunctionEmitter::MakeBranch(
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case EdgeKind::kBack:
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// Nothing to do. The loop backedge is implicit.
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break;
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case EdgeKind::kSwitchBreak:
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case EdgeKind::kSwitchBreak: {
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// Don't bother with a break at the end of a case.
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const auto header = dest_info.header_for_merge;
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assert(header != 0);
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const auto* exiting_construct = GetBlockInfo(header)->construct;
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assert(exiting_construct->kind == Construct::kSwitchSelection);
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const auto candidate_next_case_pos = src_info.pos + 1;
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// Leaving the last block from the last case?
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if (candidate_next_case_pos == dest_info.pos) {
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// No break needed.
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return nullptr;
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}
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// Leaving the last block from not-the-last-case?
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if (exiting_construct->ContainsPos(candidate_next_case_pos)) {
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const auto* candidate_next_case =
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GetBlockInfo(block_order_[candidate_next_case_pos]);
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if (candidate_next_case->case_head_for == exiting_construct ||
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candidate_next_case->default_head_for == exiting_construct) {
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// No break needed.
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return nullptr;
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}
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}
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// We need a break.
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return std::make_unique<ast::BreakStatement>();
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}
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case EdgeKind::kLoopBreak:
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return std::make_unique<ast::BreakStatement>();
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case EdgeKind::kLoopContinue:
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@ -289,6 +289,13 @@ class FunctionEmitter {
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/// @returns false if emission failed.
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bool EmitIfStart(const BlockInfo& block_info);
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/// Emits a SwitchStatement, including its condition expression, and sets
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/// up the statement stack to accumulate subsequent basic blocks into
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/// the default clause and case clauses.
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/// @param block_info the switch-selection header block
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/// @returns false if emission failed.
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bool EmitSwitchStart(const BlockInfo& block_info);
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/// Emits a LoopStatement, and pushes a new StatementBlock to accumulate
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/// the remaining instructions in the current block and subsequent blocks
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/// in the loop.
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@ -375,7 +382,7 @@ class FunctionEmitter {
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/// Gets the block info for a block ID, if any exists
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/// @param id the SPIR-V ID of the OpLabel instruction starting the block
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/// @returns the block info for the given ID, if it exists, or nullptr
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BlockInfo* GetBlockInfo(uint32_t id) {
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BlockInfo* GetBlockInfo(uint32_t id) const {
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auto where = block_info_.find(id);
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if (where == block_info_.end())
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return nullptr;
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@ -434,7 +441,7 @@ class FunctionEmitter {
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uint32_t end_id,
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CompletionAction completion_action,
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ast::StatementList statements,
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ast::CaseStatementList cases);
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std::unique_ptr<ast::CaseStatementList> cases);
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StatementBlock(StatementBlock&&);
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~StatementBlock();
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@ -449,10 +456,13 @@ class FunctionEmitter {
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// Only one of |statements| or |cases| is active.
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// The list of statements being built.
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// The list of statements being built, if this construct is not a switch.
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ast::StatementList statements_;
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// The list of cases being built, for a switch.
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ast::CaseStatementList cases_;
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// The list of switch cases being built, if this construct is a switch.
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// The algorithm will cache a pointer to the vector. We want that pointer
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// to be stable no matter how |statements_stack_| is resized. That's
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// why we make this a unique_ptr rather than just a plain vector.
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std::unique_ptr<ast::CaseStatementList> cases_;
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};
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/// Pushes an empty statement block onto the statements stack.
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