/src/qpdf/libqpdf/Pl_TIFFPredictor.cc

Source
#include <qpdf/Pl_TIFFPredictor.hh>

#include <qpdf/BitStream.hh>
#include <qpdf/BitWriter.hh>
#include <qpdf/QTC.hh>
#include <qpdf/Util.hh>
#include <qpdf/global_private.hh>

#include <climits>
#include <stdexcept>

using namespace qpdf;

namespace
{
    unsigned long long const& memory_limit = global::Limits::tiff_max_memory();
} // namespace

Pl_TIFFPredictor::Pl_TIFFPredictor(
    char const* identifier,
    Pipeline* next,
    action_e action,
    uint32_t columns,
    uint32_t samples_per_pixel,
    uint32_t bits_per_sample) :
    Pipeline(identifier, next),
    action(action),
    columns(columns),
    samples_per_pixel(samples_per_pixel),
    bits_per_sample(bits_per_sample)
{
    util::assertion(next, "Attempt to create Pl_TIFFPredictor with nullptr as next");
    util::no_ci_rt_error_if(
        samples_per_pixel < 1, "TIFFPredictor created with invalid samples_per_pixel");
    util::no_ci_rt_error_if(
        bits_per_sample < 1 || bits_per_sample > (8 * (sizeof(unsigned long long))),
        "TIFFPredictor created with invalid bits_per_sample");
    auto bits_per_pixel = 1ULL * bits_per_sample * samples_per_pixel;
    util::no_ci_rt_error_if(
        !util::fits<uint32_t>(bits_per_pixel + 7),
        "TIFFPredictor created with bits_per_sample and samples_per_pixel values that cause "
        "overflow");
    auto bpr = (columns * bits_per_pixel + 7) / 8;
    util::no_ci_rt_error_if(
        bpr == 0 || !util::fits<uint32_t>(bpr), "TIFFPredictor created with invalid columns value");
    util::no_ci_rt_error_if(
        memory_limit > 0 && bpr > (memory_limit / 2ULL), "TIFFPredictor memory limit exceeded");
    bytes_per_row = static_cast<uint32_t>(bpr);
}

void
Pl_TIFFPredictor::setMemoryLimit(unsigned long long limit)
{
    global::Limits::tiff_max_memory(limit);
}

void
Pl_TIFFPredictor::write(unsigned char const* data, size_t len)
{
    auto end = data + len;
    auto row_end = data + (bytes_per_row - cur_row.size());
    while (row_end <= end) {
        // finish off current row
        cur_row.insert(cur_row.end(), data, row_end);
        data = row_end;
        row_end += bytes_per_row;

        processRow();

        // Prepare for next row
        cur_row.clear();
    }

    cur_row.insert(cur_row.end(), data, end);
}

void
Pl_TIFFPredictor::processRow()
{
    QTC::TC("libtests", "Pl_TIFFPredictor processRow", (action == a_decode ? 0 : 1));
    previous.assign(samples_per_pixel, 0);
    if (bits_per_sample != 8) {
        BitWriter bw(next());
        BitStream in(cur_row.data(), cur_row.size());
        for (uint32_t col = 0; col < this->columns; ++col) {
            for (auto& prev: previous) {
                long long sample = in.getBitsSigned(this->bits_per_sample);
                long long new_sample = sample;
                if (action == a_encode) {
                    new_sample -= prev;
                    prev = sample;
                } else {
                    new_sample += prev;
                    prev = new_sample;
                }
                bw.writeBitsSigned(new_sample, this->bits_per_sample);
            }
        }
        bw.flush();
    } else {
        out.clear();
        auto next_it = cur_row.begin();
        auto cr_end = cur_row.end();
        auto pr_end = previous.end();

        while (next_it != cr_end) {
            for (auto prev = previous.begin(); prev != pr_end && next_it != cr_end;
                 ++prev, ++next_it) {
                long long sample = *next_it;
                long long new_sample = sample;
                if (action == a_encode) {
                    new_sample -= *prev;
                    *prev = sample;
                } else {
                    new_sample += *prev;
                    *prev = new_sample;
                }
                out.push_back(static_cast<unsigned char>(255U & new_sample));
            }
        }
        next()->write(out.data(), out.size());
    }
}

void
Pl_TIFFPredictor::finish()
{
    if (!cur_row.empty()) {
        // write partial row
        cur_row.insert(cur_row.end(), bytes_per_row - cur_row.size(), 0);
        processRow();
    }
    cur_row.clear();
    next()->finish();
}

Line	Count	Source
1		#include <qpdf/Pl_TIFFPredictor.hh>
2
3		#include <qpdf/BitStream.hh>
4		#include <qpdf/BitWriter.hh>
5		#include <qpdf/QTC.hh>
6		#include <qpdf/Util.hh>
7		#include <qpdf/global_private.hh>
8
9		#include <climits>
10		#include <stdexcept>
11
12		using namespace qpdf;
13
14		namespace
15		{
16		unsigned long long const& memory_limit = global::Limits::tiff_max_memory();
17		} // namespace
18
19		Pl_TIFFPredictor::Pl_TIFFPredictor(
20		char const* identifier,
21		Pipeline* next,
22		action_e action,
23		uint32_t columns,
24		uint32_t samples_per_pixel,
25		uint32_t bits_per_sample) :
26	0	Pipeline(identifier, next),
27	0	action(action),
28	0	columns(columns),
29	0	samples_per_pixel(samples_per_pixel),
30	0	bits_per_sample(bits_per_sample)
31	0	{
32	0	util::assertion(next, "Attempt to create Pl_TIFFPredictor with nullptr as next");
33	0	util::no_ci_rt_error_if(
34	0	samples_per_pixel < 1, "TIFFPredictor created with invalid samples_per_pixel");
35	0	util::no_ci_rt_error_if(
36	0	bits_per_sample < 1 \|\| bits_per_sample > (8 * (sizeof(unsigned long long))),
37	0	"TIFFPredictor created with invalid bits_per_sample");
38	0	auto bits_per_pixel = 1ULL * bits_per_sample * samples_per_pixel;
39	0	util::no_ci_rt_error_if(
40	0	!util::fits<uint32_t>(bits_per_pixel + 7),
41	0	"TIFFPredictor created with bits_per_sample and samples_per_pixel values that cause "
42	0	"overflow");
43	0	auto bpr = (columns * bits_per_pixel + 7) / 8;
44	0	util::no_ci_rt_error_if(
45	0	bpr == 0 \|\| !util::fits<uint32_t>(bpr), "TIFFPredictor created with invalid columns value");
46	0	util::no_ci_rt_error_if(
47	0	memory_limit > 0 && bpr > (memory_limit / 2ULL), "TIFFPredictor memory limit exceeded");
48	0	bytes_per_row = static_cast<uint32_t>(bpr);
49	0	}
50
51		void
52		Pl_TIFFPredictor::setMemoryLimit(unsigned long long limit)
53	0	{
54	0	global::Limits::tiff_max_memory(limit);
55	0	}
56
57		void
58		Pl_TIFFPredictor::write(unsigned char const* data, size_t len)
59	0	{
60	0	auto end = data + len;
61	0	auto row_end = data + (bytes_per_row - cur_row.size());
62	0	while (row_end <= end) {
63		// finish off current row
64	0	cur_row.insert(cur_row.end(), data, row_end);
65	0	data = row_end;
66	0	row_end += bytes_per_row;
67
68	0	processRow();
69
70		// Prepare for next row
71	0	cur_row.clear();
72	0	}
73
74	0	cur_row.insert(cur_row.end(), data, end);
75	0	}
76
77		void
78		Pl_TIFFPredictor::processRow()
79	0	{
80	0	QTC::TC("libtests", "Pl_TIFFPredictor processRow", (action == a_decode ? 0 : 1));
81	0	previous.assign(samples_per_pixel, 0);
82	0	if (bits_per_sample != 8) {
83	0	BitWriter bw(next());
84	0	BitStream in(cur_row.data(), cur_row.size());
85	0	for (uint32_t col = 0; col < this->columns; ++col) {
86	0	for (auto& prev: previous) {
87	0	long long sample = in.getBitsSigned(this->bits_per_sample);
88	0	long long new_sample = sample;
89	0	if (action == a_encode) {
90	0	new_sample -= prev;
91	0	prev = sample;
92	0	} else {
93	0	new_sample += prev;
94	0	prev = new_sample;
95	0	}
96	0	bw.writeBitsSigned(new_sample, this->bits_per_sample);
97	0	}
98	0	}
99	0	bw.flush();
100	0	} else {
101	0	out.clear();
102	0	auto next_it = cur_row.begin();
103	0	auto cr_end = cur_row.end();
104	0	auto pr_end = previous.end();
105
106	0	while (next_it != cr_end) {
107	0	for (auto prev = previous.begin(); prev != pr_end && next_it != cr_end;
108	0	++prev, ++next_it) {
109	0	long long sample = *next_it;
110	0	long long new_sample = sample;
111	0	if (action == a_encode) {
112	0	new_sample -= *prev;
113	0	*prev = sample;
114	0	} else {
115	0	new_sample += *prev;
116	0	*prev = new_sample;
117	0	}
118	0	out.push_back(static_cast<unsigned char>(255U & new_sample));
119	0	}
120	0	}
121	0	next()->write(out.data(), out.size());
122	0	}
123	0	}
124
125		void
126		Pl_TIFFPredictor::finish()
127	0	{
128	0	if (!cur_row.empty()) {
129		// write partial row
130	0	cur_row.insert(cur_row.end(), bytes_per_row - cur_row.size(), 0);
131	0	processRow();
132	0	}
133	0	cur_row.clear();
134	0	next()->finish();
135	0	}

Coverage Report

Created: 2026-06-09 06:58