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// Copyright 2011 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "printing/pdf_metafile_cg_mac.h"
#include <CoreGraphics/CoreGraphics.h>
#include <stdint.h>
#include <memory>
#include <string>
#include <vector>
#include "base/files/file_util.h"
#include "base/hash/sha1.h"
#include "base/path_service.h"
#include "printing/mojom/print.mojom.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "ui/gfx/codec/png_codec.h"
#include "ui/gfx/geometry/rect.h"
namespace printing {
namespace {
base::FilePath GetPdfTestData(const base::FilePath::StringType& filename) {
base::FilePath root_path;
if (!base::PathService::Get(base::DIR_SRC_TEST_DATA_ROOT, &root_path)) {
return base::FilePath();
}
return root_path.Append("pdf").Append("test").Append("data").Append(filename);
}
base::FilePath GetPrintingTestData(const base::FilePath::StringType& filename) {
base::FilePath root_path;
if (!base::PathService::Get(base::DIR_SRC_TEST_DATA_ROOT, &root_path)) {
return base::FilePath();
}
return root_path.Append("printing")
.Append("test")
.Append("data")
.Append("pdf_cg")
.Append(filename);
}
std::unique_ptr<PdfMetafileCg> GetPdfMetafile(
const base::FilePath::StringType& pdf_filename) {
// Get test data.
base::FilePath pdf_file = GetPdfTestData(pdf_filename);
if (pdf_file.empty())
return nullptr;
std::string pdf_data;
if (!base::ReadFileToString(pdf_file, &pdf_data))
return nullptr;
// Initialize and check metafile.
auto pdf_cg = std::make_unique<PdfMetafileCg>();
if (!pdf_cg->InitFromData(base::as_bytes(base::make_span(pdf_data))))
return nullptr;
return pdf_cg;
}
void RenderedPdfSha1(const base::FilePath::StringType& pdf_filename,
size_t page_number,
const gfx::Rect& expected_page_bounds,
const gfx::Size& dest_size,
bool autorotate,
bool fit_to_page,
base::SHA1Digest* rendered_hash) {
// Initialize and verify the metafile.
std::unique_ptr<PdfMetafileCg> pdf_cg = GetPdfMetafile(pdf_filename);
ASSERT_TRUE(pdf_cg);
ASSERT_LE(page_number, pdf_cg->GetPageCount());
const gfx::Rect bounds = pdf_cg->GetPageBounds(page_number);
ASSERT_EQ(expected_page_bounds, bounds);
// Set up rendering context.
constexpr size_t kBitsPerComponent = 8;
constexpr size_t kBytesPerPixel = 4;
const size_t kStride = dest_size.width() * kBytesPerPixel;
std::vector<uint8_t> rendered_bitmap(dest_size.height() * kStride);
base::apple::ScopedCFTypeRef<CGColorSpaceRef> color_space(
CGColorSpaceCreateDeviceRGB());
base::apple::ScopedCFTypeRef<CGContextRef> context(CGBitmapContextCreate(
rendered_bitmap.data(), dest_size.width(), dest_size.height(),
kBitsPerComponent, kStride, color_space.get(),
uint32_t{kCGImageAlphaPremultipliedFirst} | kCGBitmapByteOrder32Little));
// Render using metafile and calculate the output hash.
ASSERT_TRUE(pdf_cg->RenderPage(page_number, context.get(),
gfx::Rect(dest_size).ToCGRect(), autorotate,
fit_to_page));
*rendered_hash = base::SHA1HashSpan(rendered_bitmap);
}
void ExpectedPngSha1(const base::FilePath::StringType& expected_png_filename,
const gfx::Size& expected_png_size,
base::SHA1Digest* expected_hash) {
base::FilePath expected_png_file = GetPrintingTestData(expected_png_filename);
ASSERT_FALSE(expected_png_file.empty());
std::string expected_png_data;
ASSERT_TRUE(base::ReadFileToString(expected_png_file, &expected_png_data));
// Decode expected PNG and calculate the output hash.
std::vector<uint8_t> expected_png_bitmap;
int png_width;
int png_height;
ASSERT_TRUE(gfx::PNGCodec::Decode(
reinterpret_cast<const uint8_t*>(expected_png_data.data()),
expected_png_data.size(), gfx::PNGCodec::FORMAT_BGRA,
&expected_png_bitmap, &png_width, &png_height));
ASSERT_EQ(expected_png_size.width(), png_width);
ASSERT_EQ(expected_png_size.height(), png_height);
*expected_hash = base::SHA1HashSpan(expected_png_bitmap);
}
void TestRenderPageWithTransformParams(
const base::FilePath::StringType& pdf_filename,
size_t page_number,
const gfx::Rect& expected_page_bounds,
const base::FilePath::StringType& expected_png_filename,
const gfx::Size& dest_size,
bool autorotate,
bool fit_to_page) {
base::SHA1Digest rendered_hash;
RenderedPdfSha1(pdf_filename, page_number, expected_page_bounds, dest_size,
autorotate, fit_to_page, &rendered_hash);
base::SHA1Digest expected_hash;
ExpectedPngSha1(expected_png_filename, dest_size, &expected_hash);
// Make sure the hashes match.
EXPECT_EQ(expected_hash, rendered_hash);
}
void TestRenderPage(const base::FilePath::StringType& pdf_filename,
size_t page_number,
const gfx::Rect& expected_page_bounds,
const base::FilePath::StringType& expected_png_filename,
const gfx::Size& dest_size) {
TestRenderPageWithTransformParams(
pdf_filename, page_number, expected_page_bounds, expected_png_filename,
dest_size, /*autorotate=*/true, /*fit_to_page=*/false);
}
} // namespace
TEST(PdfMetafileCgTest, Pdf) {
// Test in-renderer constructor.
PdfMetafileCg pdf;
EXPECT_TRUE(pdf.Init());
EXPECT_TRUE(pdf.context());
// Render page 1.
constexpr gfx::Rect kRect1(10, 10, 520, 700);
constexpr gfx::Size kSize1(540, 720);
pdf.StartPage(kSize1, kRect1, 1.25, mojom::PageOrientation::kUpright);
pdf.FinishPage();
// Render page 2.
constexpr gfx::Rect kRect2(10, 10, 520, 700);
constexpr gfx::Size kSize2(720, 540);
pdf.StartPage(kSize2, kRect2, 2.0, mojom::PageOrientation::kUpright);
pdf.FinishPage();
pdf.FinishDocument();
// Check data size.
const uint32_t size = pdf.GetDataSize();
EXPECT_GT(size, 0U);
// Get resulting data.
std::vector<char> buffer(size, 0);
pdf.GetData(&buffer.front(), size);
// Test browser-side constructor.
PdfMetafileCg pdf2;
// TODO(thestig): Make `buffer` uint8_t and avoid the base::as_bytes() call.
EXPECT_TRUE(pdf2.InitFromData(base::as_bytes(base::make_span(buffer))));
// Get the first 4 characters from pdf2.
std::vector<char> buffer2(4, 0);
pdf2.GetData(&buffer2.front(), 4);
// Test that the header begins with "%PDF".
std::string header(&buffer2.front(), 4);
EXPECT_EQ(0U, header.find("%PDF", 0));
// Test that the PDF is correctly reconstructed.
EXPECT_EQ(2U, pdf2.GetPageCount());
gfx::Size page_size = pdf2.GetPageBounds(1).size();
EXPECT_EQ(540, page_size.width());
EXPECT_EQ(720, page_size.height());
page_size = pdf2.GetPageBounds(2).size();
EXPECT_EQ(720, page_size.width());
EXPECT_EQ(540, page_size.height());
}
TEST(PdfMetafileCgTest, GetPageBounds) {
// Get test data.
base::FilePath pdf_file = GetPdfTestData("rectangles_multi_pages.pdf");
ASSERT_FALSE(pdf_file.empty());
std::string pdf_data;
ASSERT_TRUE(base::ReadFileToString(pdf_file, &pdf_data));
// Initialize and check metafile.
PdfMetafileCg pdf_cg;
ASSERT_TRUE(pdf_cg.InitFromData(base::as_bytes(base::make_span(pdf_data))));
ASSERT_EQ(5u, pdf_cg.GetPageCount());
// Since the input into GetPageBounds() is a 1-indexed page number, 0 and 6
// are out of bounds.
gfx::Rect bounds;
for (size_t i : {0, 6}) {
bounds = pdf_cg.GetPageBounds(i);
EXPECT_EQ(0, bounds.x());
EXPECT_EQ(0, bounds.y());
EXPECT_EQ(0, bounds.width());
EXPECT_EQ(0, bounds.height());
}
// Whereas 1-5 are in bounds.
for (size_t i = 1; i < 6; ++i) {
bounds = pdf_cg.GetPageBounds(i);
EXPECT_EQ(0, bounds.x());
EXPECT_EQ(0, bounds.y());
EXPECT_EQ(200, bounds.width());
EXPECT_EQ(250, bounds.height());
}
}
TEST(PdfMetafileCgTest, RenderPortraitRectangles) {
constexpr gfx::Rect kPageBounds(200, 300);
constexpr gfx::Size kDestinationSize(200, 300);
TestRenderPage("rectangles.pdf", /*page_number=*/1, kPageBounds,
"render_portrait_rectangles_expected.0.png", kDestinationSize);
}
TEST(PdfMetafileCgTest, RenderAutorotatedPortraitRectangles) {
constexpr gfx::Rect kPageBounds(200, 300);
constexpr gfx::Size kDestinationSize(300, 200);
TestRenderPage("rectangles.pdf", /*page_number=*/1, kPageBounds,
"render_autorotated_portrait_rectangles_expected.0.png",
kDestinationSize);
}
TEST(PdfMetafileCgTest, RenderLargePortraitRectangles) {
constexpr gfx::Rect kPageBounds(200, 300);
constexpr gfx::Size kDestinationSize(100, 120);
TestRenderPage("rectangles.pdf", /*page_number=*/1, kPageBounds,
"render_large_portrait_rectangles_expected.0.png",
kDestinationSize);
}
TEST(PdfMetafileCgTest, RenderSmallPortraitRectangles) {
constexpr gfx::Rect kPageBounds(200, 300);
constexpr gfx::Size kDestinationSize(300, 450);
TestRenderPage("rectangles.pdf", /*page_number=*/1, kPageBounds,
"render_small_portrait_rectangles_expected.0.png",
kDestinationSize);
}
TEST(PdfMetafileCgTest, RenderLandscapeRectangles) {
constexpr gfx::Rect kPageBounds(800, 500);
constexpr gfx::Size kDestinationSize(400, 600);
TestRenderPage("landscape_rectangles.pdf", /*page_number=*/1, kPageBounds,
"render_landscape_rectangles_expected.0.png",
kDestinationSize);
}
TEST(PdfMetafileCgTest, RenderRotatedRectangles) {
constexpr gfx::Rect kPageBounds(800, 500);
constexpr gfx::Size kLandscapeDestinationSize(600, 400);
constexpr gfx::Size kPortraitDestinationSize(400, 600);
TestRenderPage("rotated_rectangles.pdf", /*page_number=*/1, kPageBounds,
"render_rotated_rectangles_expected.0.png",
kLandscapeDestinationSize);
TestRenderPage("rotated_rectangles.pdf", /*page_number=*/2, kPageBounds,
"render_rotated_rectangles_expected.1.png",
kPortraitDestinationSize);
TestRenderPage("rotated_rectangles.pdf", /*page_number=*/3, kPageBounds,
"render_rotated_rectangles_expected.2.png",
kLandscapeDestinationSize);
TestRenderPage("rotated_rectangles.pdf", /*page_number=*/4, kPageBounds,
"render_rotated_rectangles_expected.3.png",
kPortraitDestinationSize);
TestRenderPage("rotated_rectangles.pdf", /*page_number=*/1, kPageBounds,
"render_autorotated_rotated_rectangles_expected.0.png",
kPortraitDestinationSize);
TestRenderPage("rotated_rectangles.pdf", /*page_number=*/2, kPageBounds,
"render_autorotated_rotated_rectangles_expected.1.png",
kLandscapeDestinationSize);
TestRenderPage("rotated_rectangles.pdf", /*page_number=*/3, kPageBounds,
"render_autorotated_rotated_rectangles_expected.2.png",
kPortraitDestinationSize);
TestRenderPage("rotated_rectangles.pdf", /*page_number=*/4, kPageBounds,
"render_autorotated_rotated_rectangles_expected.3.png",
kLandscapeDestinationSize);
}
TEST(PdfMetafileCgTest, RenderLargeLandscapeRectangles) {
constexpr gfx::Rect kPageBounds(800, 500);
constexpr gfx::Size kDestinationSize(200, 300);
TestRenderPage("landscape_rectangles.pdf", /*page_number=*/1, kPageBounds,
"render_large_landscape_rectangles_expected.0.png",
kDestinationSize);
}
TEST(PdfMetafileCgTest, RenderSmallLandscapeRectangles) {
constexpr gfx::Rect kPageBounds(800, 500);
constexpr gfx::Size kDestinationSize(600, 900);
TestRenderPage("landscape_rectangles.pdf", /*page_number=*/1, kPageBounds,
"render_small_landscape_rectangles_expected.0.png",
kDestinationSize);
}
TEST(PdfMetafileCgTest, RenderScaledLargeLandscapeRectangles) {
constexpr gfx::Rect kPageBounds(800, 500);
constexpr gfx::Size kDestinationSize(300, 450);
TestRenderPageWithTransformParams(
"landscape_rectangles.pdf", /*page_number=*/1, kPageBounds,
"render_scaled_large_landscape_rectangles_expected.0.png",
kDestinationSize,
/*autorotate=*/true, /*fit_to_page=*/true);
}
TEST(PdfMetafileCgTest, RenderScaledSmallLandscapeRectangles) {
constexpr gfx::Rect kPageBounds(800, 500);
constexpr gfx::Size kDestinationSize(600, 900);
TestRenderPageWithTransformParams(
"landscape_rectangles.pdf", /*page_number=*/1, kPageBounds,
"render_scaled_small_landscape_rectangles_expected.0.png",
kDestinationSize,
/*autorotate=*/true, /*fit_to_page=*/true);
}
} // namespace printing