1*103e46e4SHarish Mahendrakar // Copyright (c) 2016 The WebM project authors. All Rights Reserved.
2*103e46e4SHarish Mahendrakar //
3*103e46e4SHarish Mahendrakar // Use of this source code is governed by a BSD-style license
4*103e46e4SHarish Mahendrakar // that can be found in the LICENSE file in the root of the source
5*103e46e4SHarish Mahendrakar // tree. An additional intellectual property rights grant can be found
6*103e46e4SHarish Mahendrakar // in the file PATENTS. All contributing project authors may
7*103e46e4SHarish Mahendrakar // be found in the AUTHORS file in the root of the source tree.
8*103e46e4SHarish Mahendrakar #include "src/float_parser.h"
9*103e46e4SHarish Mahendrakar
10*103e46e4SHarish Mahendrakar #include <cassert>
11*103e46e4SHarish Mahendrakar #include <cstdint>
12*103e46e4SHarish Mahendrakar #include <cstring>
13*103e46e4SHarish Mahendrakar #include <limits>
14*103e46e4SHarish Mahendrakar
15*103e46e4SHarish Mahendrakar #include "src/parser_utils.h"
16*103e46e4SHarish Mahendrakar #include "webm/element.h"
17*103e46e4SHarish Mahendrakar #include "webm/reader.h"
18*103e46e4SHarish Mahendrakar #include "webm/status.h"
19*103e46e4SHarish Mahendrakar
20*103e46e4SHarish Mahendrakar namespace webm {
21*103e46e4SHarish Mahendrakar
FloatParser(double default_value)22*103e46e4SHarish Mahendrakar FloatParser::FloatParser(double default_value)
23*103e46e4SHarish Mahendrakar : default_value_(default_value) {}
24*103e46e4SHarish Mahendrakar
Init(const ElementMetadata & metadata,std::uint64_t max_size)25*103e46e4SHarish Mahendrakar Status FloatParser::Init(const ElementMetadata& metadata,
26*103e46e4SHarish Mahendrakar std::uint64_t max_size) {
27*103e46e4SHarish Mahendrakar assert(metadata.size == kUnknownElementSize || metadata.size <= max_size);
28*103e46e4SHarish Mahendrakar
29*103e46e4SHarish Mahendrakar if (metadata.size == 0) {
30*103e46e4SHarish Mahendrakar value_ = default_value_;
31*103e46e4SHarish Mahendrakar } else if (metadata.size == 4 || metadata.size == 8) {
32*103e46e4SHarish Mahendrakar uint64_value_ = 0;
33*103e46e4SHarish Mahendrakar } else {
34*103e46e4SHarish Mahendrakar return Status(Status::kInvalidElementSize);
35*103e46e4SHarish Mahendrakar }
36*103e46e4SHarish Mahendrakar
37*103e46e4SHarish Mahendrakar num_bytes_remaining_ = static_cast<int>(metadata.size);
38*103e46e4SHarish Mahendrakar use_32_bits_ = metadata.size == 4;
39*103e46e4SHarish Mahendrakar
40*103e46e4SHarish Mahendrakar return Status(Status::kOkCompleted);
41*103e46e4SHarish Mahendrakar }
42*103e46e4SHarish Mahendrakar
Feed(Callback * callback,Reader * reader,std::uint64_t * num_bytes_read)43*103e46e4SHarish Mahendrakar Status FloatParser::Feed(Callback* callback, Reader* reader,
44*103e46e4SHarish Mahendrakar std::uint64_t* num_bytes_read) {
45*103e46e4SHarish Mahendrakar assert(callback != nullptr);
46*103e46e4SHarish Mahendrakar assert(reader != nullptr);
47*103e46e4SHarish Mahendrakar assert(num_bytes_read != nullptr);
48*103e46e4SHarish Mahendrakar
49*103e46e4SHarish Mahendrakar if (num_bytes_remaining_ == 0) {
50*103e46e4SHarish Mahendrakar return Status(Status::kOkCompleted);
51*103e46e4SHarish Mahendrakar }
52*103e46e4SHarish Mahendrakar
53*103e46e4SHarish Mahendrakar const Status status = AccumulateIntegerBytes(num_bytes_remaining_, reader,
54*103e46e4SHarish Mahendrakar &uint64_value_, num_bytes_read);
55*103e46e4SHarish Mahendrakar num_bytes_remaining_ -= static_cast<int>(*num_bytes_read);
56*103e46e4SHarish Mahendrakar
57*103e46e4SHarish Mahendrakar if (num_bytes_remaining_ == 0) {
58*103e46e4SHarish Mahendrakar if (use_32_bits_) {
59*103e46e4SHarish Mahendrakar static_assert(std::numeric_limits<float>::is_iec559,
60*103e46e4SHarish Mahendrakar "Your compiler does not support 32-bit IEC 559/IEEE 754 "
61*103e46e4SHarish Mahendrakar "floating point types");
62*103e46e4SHarish Mahendrakar std::uint32_t uint32_value = static_cast<std::uint32_t>(uint64_value_);
63*103e46e4SHarish Mahendrakar float float32_value;
64*103e46e4SHarish Mahendrakar std::memcpy(&float32_value, &uint32_value, 4);
65*103e46e4SHarish Mahendrakar value_ = float32_value;
66*103e46e4SHarish Mahendrakar } else {
67*103e46e4SHarish Mahendrakar static_assert(std::numeric_limits<double>::is_iec559,
68*103e46e4SHarish Mahendrakar "Your compiler does not support 64-bit IEC 559/IEEE 754 "
69*103e46e4SHarish Mahendrakar "floating point types");
70*103e46e4SHarish Mahendrakar std::memcpy(&value_, &uint64_value_, 8);
71*103e46e4SHarish Mahendrakar }
72*103e46e4SHarish Mahendrakar }
73*103e46e4SHarish Mahendrakar
74*103e46e4SHarish Mahendrakar return status;
75*103e46e4SHarish Mahendrakar }
76*103e46e4SHarish Mahendrakar
77*103e46e4SHarish Mahendrakar } // namespace webm
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