/* SPDX-License-Identifier: GPL-2.0-or-later */ /* * Copyright (C) 2019, Google Inc. * * libcamera V4L2 Subdevice format handling test */ #include #include #include #include #include "v4l2_subdevice.h" #include "v4l2_subdevice_test.h" using namespace std; using namespace libcamera; /* List image formats on the "Scaler" subdevice of vimc media device. */ class ListFormatsTest : public V4L2SubdeviceTest { protected: int run() override; private: void printFormats(unsigned int pad, unsigned code, const std::vector &sizes); }; void ListFormatsTest::printFormats(unsigned int pad, unsigned int code, const std::vector &sizes) { cout << "Enumerate formats on pad " << pad << endl; for (const SizeRange &size : sizes) { cout << " mbus code: 0x" << setfill('0') << setw(4) << hex << code << endl; cout << " min width: " << dec << size.min.width << endl; cout << " min height: " << dec << size.min.height << endl; cout << " max width: " << dec << size.max.width << endl; cout << " max height: " << dec << size.max.height << endl; } } int ListFormatsTest::run() { /* List all formats available on existing "Scaler" pads. */ ImageFormats formats; formats = scaler_->formats(0); if (formats.isEmpty()) { cerr << "Failed to list formats on pad 0 of subdevice " << scaler_->entity()->name() << endl; return TestFail; } for (unsigned int code : formats.formats()) printFormats(0, code, formats.sizes(code)); formats = scaler_->formats(1); if (formats.isEmpty()) { cerr << "Failed to list formats on pad 1 of subdevice " << scaler_->entity()->name() << endl; return TestFail; } for (unsigned int code : formats.formats()) printFormats(1, code, formats.sizes(code)); /* List format on a non-existing pad, format vector shall be empty. */ formats = scaler_->formats(2); if (!formats.isEmpty()) { cerr << "Listing formats on non-existing pad 2 of subdevice " << scaler_->entity()->name() << " should return an empty format list" << endl; return TestFail; } return TestPass; } TEST_REGISTER(ListFormatsTest); e Jacopo Mondi's clone of libcameragit repository hosting on libcamera.org
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/* SPDX-License-Identifier: LGPL-2.1-or-later */
/*
 * Copyright (C) 2019, Google Inc.
 *
 * geometry.cpp - Geometry-related structures
 */

#include <libcamera/geometry.h>

#include <sstream>
#include <stdint.h>

#include "libcamera/internal/log.h"

/**
 * \file geometry.h
 * \brief Data structures related to geometric objects
 */

namespace libcamera {

/**
 * \class Point
 * \brief Describe a point in two-dimensional space
 *
 * The Point structure defines a point in two-dimensional space with integer
 * precision. The coordinates of a Point may be negative as well as positive.
 */

/**
 * \fn Point::Point()
 * \brief Construct a Point with x and y set to 0
 */

/**
 * \fn Point::Point(int xpos, int ypos)
 * \brief Construct a Point at given \a xpos and \a ypos values
 * \param[in] xpos The x-coordinate
 * \param[in] ypos The y-coordinate
 */

/**
 * \var Point::x
 * \brief The x-coordinate of the Point
 */

/**
 * \var Point::y
 * \brief The y-coordinate of the Point
 */

/**
 * \brief Assemble and return a string describing the point
 * \return A string describing the point
 */
const std::string Point::toString() const
{
	std::stringstream ss;

	ss << "(" << x << "," << y << ")";

	return ss.str();
}

/**
 * \fn Point Point::operator-() const
 * \brief Negate a Point by negating both its x and y coordinates
 * \return The negated point
 */

/**
 * \brief Compare points for equality
 * \return True if the two points are equal, false otherwise
 */
bool operator==(const Point &lhs, const Point &rhs)
{
	return lhs.x == rhs.x && lhs.y == rhs.y;
}

/**
 * \fn bool operator!=(const Point &lhs, const Point &rhs)
 * \brief Compare points for inequality
 * \return True if the two points are not equal, false otherwise
 */

/**
 * \struct Size
 * \brief Describe a two-dimensional size
 *
 * The Size structure defines a two-dimensional size with integer precision.
 */

/**
 * \fn Size::Size()
 * \brief Construct a Size with width and height set to 0
 */

/**
 * \fn Size::Size(unsigned int width, unsigned int height)
 * \brief Construct a Size with given \a width and \a height
 * \param[in] width The Size width
 * \param[in] height The Size height
 */

/**
 * \var Size::width
 * \brief The Size width
 */

/**
 * \var Size::height
 * \brief The Size height
 */

/**
 * \fn bool Size::isNull() const
 * \brief Check if the size is null
 * \return True if both the width and height are 0, or false otherwise
 */

/**
 * \brief Assemble and return a string describing the size
 * \return A string describing the size
 */
const std::string Size::toString() const
{
	return std::to_string(width) + "x" + std::to_string(height);
}

/**
 * \fn Size::alignDownTo(unsigned int hAlignment, unsigned int vAlignment)
 * \brief Align the size down horizontally and vertically in place
 * \param[in] hAlignment Horizontal alignment
 * \param[in] vAlignment Vertical alignment
 *
 * This functions rounds the width and height down to the nearest multiple of
 * \a hAlignment and \a vAlignment respectively.
 *
 * \return A reference to this object
 */

/**
 * \fn Size::alignUpTo(unsigned int hAlignment, unsigned int vAlignment)
 * \brief Align the size up horizontally and vertically in place
 * \param[in] hAlignment Horizontal alignment
 * \param[in] vAlignment Vertical alignment
 *
 * This functions rounds the width and height up to the nearest multiple of
 * \a hAlignment and \a vAlignment respectively.
 *
 * \return A reference to this object
 */

/**
 * \fn Size::boundTo(const Size &bound)
 * \brief Bound the size to \a bound in place
 * \param[in] bound The maximum size
 *
 * This function sets the width and height to the minimum of this size and the
 * \a bound size.
 *
 * \return A reference to this object
 */

/**
 * \fn Size::expandTo(const Size &expand)
 * \brief Expand the size to \a expand
 * \param[in] expand The minimum size
 *
 * This function sets the width and height to the maximum of this size and the
 * \a expand size.
 *
 * \return A reference to this object
 */

/**
 * \fn Size::alignedDownTo(unsigned int hAlignment, unsigned int vAlignment)
 * \brief Align the size down horizontally and vertically
 * \param[in] hAlignment Horizontal alignment
 * \param[in] vAlignment Vertical alignment
 * \return A Size whose width and height are equal to the width and height of
 * this size rounded down to the nearest multiple of \a hAlignment and
 * \a vAlignment respectively
 */

/**
 * \fn Size::alignedUpTo(unsigned int hAlignment, unsigned int vAlignment)
 * \brief Align the size up horizontally and vertically
 * \param[in] hAlignment Horizontal alignment
 * \param[in] vAlignment Vertical alignment
 * \return A Size whose width and height are equal to the width and height of
 * this size rounded up to the nearest multiple of \a hAlignment and
 * \a vAlignment respectively
 */

/**
 * \fn Size::boundedTo(const Size &bound)
 * \brief Bound the size to \a bound
 * \param[in] bound The maximum size
 * \return A Size whose width and height are the minimum of the width and
 * height of this size and the \a bound size
 */

/**
 * \fn Size::expandedTo(const Size &expand)
 * \brief Expand the size to \a expand
 * \param[in] expand The minimum size
 * \return A Size whose width and height are the maximum of the width and
 * height of this size and the \a expand size
 */

/**
 * \brief Bound the size down to match the aspect ratio given by \a ratio
 * \param[in] ratio The size whose aspect ratio must be matched
 *
 * The behaviour of this function is undefined if either the width or the
 * height of the \a ratio is zero.
 *
 * \return A Size whose width and height are equal to the width and height
 * of this Size aligned down to the aspect ratio of \a ratio
 */
Size Size::boundedToAspectRatio(const Size &ratio) const
{
	ASSERT(ratio.width && ratio.height);

	uint64_t ratio1 = static_cast<uint64_t>(width) *
			  static_cast<uint64_t>(ratio.height);
	uint64_t ratio2 = static_cast<uint64_t>(ratio.width) *
			  static_cast<uint64_t>(height);

	if (ratio1 > ratio2)
		return { static_cast<unsigned int>(ratio2 / ratio.height), height };
	else
		return { width, static_cast<unsigned int>(ratio1 / ratio.width) };
}

/**
 * \brief Expand the size to match the aspect ratio given by \a ratio
 * \param[in] ratio The size whose aspect ratio must be matched
 *
 * The behaviour of this function is undefined if either the width or the
 * height of the \a ratio is zero.
 *
 * \return A Size whose width and height are equal to the width and height
 * of this Size expanded up to the aspect ratio of \a ratio
 */
Size Size::expandedToAspectRatio(const Size &ratio) const
{
	ASSERT(ratio.width && ratio.height);

	uint64_t ratio1 = static_cast<uint64_t>(width) *
			  static_cast<uint64_t>(ratio.height);
	uint64_t ratio2 = static_cast<uint64_t>(ratio.width) *
			  static_cast<uint64_t>(height);

	if (ratio1 < ratio2)
		return { static_cast<unsigned int>(ratio2 / ratio.height), height };
	else
		return { width, static_cast<unsigned int>(ratio1 / ratio.width) };
}

/**
 * \brief Center a rectangle of this size at a given Point
 * \param[in] center The center point the Rectangle is to have
 *
 * A Rectangle of this object's size is positioned so that its center
 * is at the given Point.
 *
 * \return A Rectangle of this size, centered at the given Point.
 */
Rectangle Size::centeredTo(const Point &center) const
{
	int x = center.x - width / 2;
	int y = center.y - height / 2;

	return { x, y, width, height };
}

/**
 * \brief Scale size up by the given factor
 * \param[in] factor The factor
 * \return The scaled Size
 */
Size Size::operator*(float factor) const
{
	return Size(width * factor, height * factor);
}

/**
 * \brief Scale size down by the given factor
 * \param[in] factor The factor
 * \return The scaled Size
 */
Size Size::operator/(float factor) const
{
	return Size(width / factor, height / factor);
}

/**
 * \brief Scale this size up by the given factor in place
 * \param[in] factor The factor
 * \return A reference to this object
 */
Size &Size::operator*=(float factor)
{
	width *= factor;
	height *= factor;
	return *this;
}

/**
 * \brief Scale this size down by the given factor in place
 * \param[in] factor The factor
 * \return A reference to this object
 */
Size &Size::operator/=(float factor)
{
	width /= factor;
	height /= factor;
	return *this;
}

/**
 * \brief Compare sizes for equality
 * \return True if the two sizes are equal, false otherwise
 */
bool operator==(const Size &lhs, const Size &rhs)
{
	return lhs.width == rhs.width && lhs.height == rhs.height;
}

/**
 * \brief Compare sizes for smaller than order
 *
 * Sizes are compared on three criteria, in the following order.
 *
 * - A size with smaller width and smaller height is smaller.
 * - A size with smaller area is smaller.