// Copyright 2018 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.

#include "src/turbo-assembler.h"

#include "src/builtins/builtins.h"
#include "src/builtins/constants-table-builder.h"
#include "src/isolate-data.h"
#include "src/isolate-inl.h"
#include "src/snapshot/serializer-common.h"

namespace v8 {
namespace internal {

TurboAssemblerBase::TurboAssemblerBase(Isolate* isolate,
                                       const AssemblerOptions& options,
                                       void* buffer, int buffer_size,
                                       CodeObjectRequired create_code_object)
    : Assembler(options, buffer, buffer_size), isolate_(isolate) {
  if (create_code_object == CodeObjectRequired::kYes) {
    code_object_ = Handle<HeapObject>::New(
        ReadOnlyRoots(isolate).self_reference_marker(), isolate);
  }
}

void TurboAssemblerBase::IndirectLoadConstant(Register destination,
                                              Handle<HeapObject> object) {
  CHECK(root_array_available_);

  // Before falling back to the (fairly slow) lookup from the constants table,
  // check if any of the fast paths can be applied.

  int builtin_index;
  RootIndex root_index;
  if (isolate()->roots_table().IsRootHandle(object, &root_index)) {
    // Roots are loaded relative to the root register.
    LoadRoot(destination, root_index);
  } else if (isolate()->builtins()->IsBuiltinHandle(object, &builtin_index)) {
    // Similar to roots, builtins may be loaded from the builtins table.
    LoadRootRelative(destination,
                     RootRegisterOffsetForBuiltinIndex(builtin_index));
  } else if (object.is_identical_to(code_object_) &&
             Builtins::IsBuiltinId(maybe_builtin_index_)) {
    // The self-reference loaded through Codevalue() may also be a builtin
    // and thus viable for a fast load.
    LoadRootRelative(destination,
                     RootRegisterOffsetForBuiltinIndex(maybe_builtin_index_));
  } else {
    CHECK(isolate()->ShouldLoadConstantsFromRootList());
    // Ensure the given object is in the builtins constants table and fetch its
    // index.
    BuiltinsConstantsTableBuilder* builder =
        isolate()->builtins_constants_table_builder();
    uint32_t index = builder->AddObject(object);

    // Slow load from the constants table.
    LoadFromConstantsTable(destination, index);
  }
}

void TurboAssemblerBase::IndirectLoadExternalReference(
    Register destination, ExternalReference reference) {
  CHECK(root_array_available_);

  if (IsAddressableThroughRootRegister(isolate(), reference)) {
    // Some external references can be efficiently loaded as an offset from
    // kRootRegister.
    intptr_t offset =
        RootRegisterOffsetForExternalReference(isolate(), reference);
    LoadRootRegisterOffset(destination, offset);
  } else {
    // Otherwise, do a memory load from the external reference table.
    LoadRootRelative(
        destination,
        RootRegisterOffsetForExternalReferenceTableEntry(isolate(), reference));
  }
}

// static
int32_t TurboAssemblerBase::RootRegisterOffsetForRootIndex(
    RootIndex root_index) {
  return IsolateData::root_slot_offset(root_index);
}

// static
int32_t TurboAssemblerBase::RootRegisterOffsetForBuiltinIndex(
    int builtin_index) {
  return IsolateData::builtin_slot_offset(builtin_index);
}

// static
intptr_t TurboAssemblerBase::RootRegisterOffsetForExternalReference(
    Isolate* isolate, const ExternalReference& reference) {
  return static_cast<intptr_t>(reference.address() - isolate->isolate_root());
}

// static
int32_t TurboAssemblerBase::RootRegisterOffsetForExternalReferenceTableEntry(
    Isolate* isolate, const ExternalReference& reference) {
  // Encode as an index into the external reference table stored on the
  // isolate.
  ExternalReferenceEncoder encoder(isolate);
  ExternalReferenceEncoder::Value v = encoder.Encode(reference.address());
  CHECK(!v.is_from_api());

  return IsolateData::external_reference_table_offset() +
         ExternalReferenceTable::OffsetOfEntry(v.index());
}

// static
bool TurboAssemblerBase::IsAddressableThroughRootRegister(
    Isolate* isolate, const ExternalReference& reference) {
  Address address = reference.address();
  return isolate->root_register_addressable_region().contains(address);
}

void TurboAssemblerBase::RecordCommentForOffHeapTrampoline(int builtin_index) {
  if (!FLAG_code_comments) return;
  std::ostringstream str;
  str << "-- Inlined Trampoline to " << Builtins::name(builtin_index) << " --";
  RecordComment(str.str().c_str());
}

}  // namespace internal
}  // namespace v8