Linux Manuals session 3

Section 3: library functions

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    xcb_alloc_color_cells_pixels_length (3) Linux Manual Page

    ByLinux Manual

    xcb_alloc_color_cells – Synopsis #include <xcb/xproto.h> Request function xcb_alloc_color_cells_cookie_t xcb_alloc_color_cells(xcb_connection_t *conn, uint8_t contiguous, xcb_colormap_t cmap, uint16_t colors, uint16_t planes); Reply datastructure typedef struct xcb_alloc_color_cells_reply_t { uint8_t response_type; uint8_t pad0; uint16_t sequence; uint32_t length; uint16_t pixels_len; uint16_t masks_len; uint8_t pad1[20]; } xcb_alloc_color_cells_reply_t; Reply function xcb_alloc_color_cells_reply_t *xcb_alloc_color_cells_reply(xcb_connection_t *conn, xcb_alloc_color_cells_cookie_t cookie, xcb_generic_error_t **e); Reply accessors uint32_t *xcb_alloc_color_cells_pixels(const xcb_alloc_color_cells_request_t *reply); int xcb_alloc_color_cells_pixels_length(const xcb_alloc_color_cells_reply_t…

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    xcb_alloc_color_cells_pixels_end (3) Linux Manual Page

    ByLinux Manual

    xcb_alloc_color_cells – Synopsis #include <xcb/xproto.h> Request function xcb_alloc_color_cells_cookie_t xcb_alloc_color_cells(xcb_connection_t *conn, uint8_t contiguous, xcb_colormap_t cmap, uint16_t colors, uint16_t planes); Reply datastructure typedef struct xcb_alloc_color_cells_reply_t { uint8_t response_type; uint8_t pad0; uint16_t sequence; uint32_t length; uint16_t pixels_len; uint16_t masks_len; uint8_t pad1[20]; } xcb_alloc_color_cells_reply_t; Reply function xcb_alloc_color_cells_reply_t *xcb_alloc_color_cells_reply(xcb_connection_t *conn, xcb_alloc_color_cells_cookie_t cookie, xcb_generic_error_t **e); Reply accessors uint32_t *xcb_alloc_color_cells_pixels(const xcb_alloc_color_cells_request_t *reply); int xcb_alloc_color_cells_pixels_length(const xcb_alloc_color_cells_reply_t…

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    xcb_alloc_color_cells_pixels (3) Linux Manual Page

    ByLinux Manual

    xcb_alloc_color_cells – Synopsis #include <xcb/xproto.h> Request function xcb_alloc_color_cells_cookie_t xcb_alloc_color_cells(xcb_connection_t *conn, uint8_t contiguous, xcb_colormap_t cmap, uint16_t colors, uint16_t planes); Reply datastructure typedef struct xcb_alloc_color_cells_reply_t { uint8_t response_type; uint8_t pad0; uint16_t sequence; uint32_t length; uint16_t pixels_len; uint16_t masks_len; uint8_t pad1[20]; } xcb_alloc_color_cells_reply_t; Reply function xcb_alloc_color_cells_reply_t *xcb_alloc_color_cells_reply(xcb_connection_t *conn, xcb_alloc_color_cells_cookie_t cookie, xcb_generic_error_t **e); Reply accessors uint32_t *xcb_alloc_color_cells_pixels(const xcb_alloc_color_cells_request_t *reply); int xcb_alloc_color_cells_pixels_length(const xcb_alloc_color_cells_reply_t…

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    xcb_alloc_color_cells_masks_length (3) Linux Manual Page

    ByLinux Manual

    xcb_alloc_color_cells – Synopsis #include <xcb/xproto.h> Request function xcb_alloc_color_cells_cookie_t xcb_alloc_color_cells(xcb_connection_t *conn, uint8_t contiguous, xcb_colormap_t cmap, uint16_t colors, uint16_t planes); Reply datastructure typedef struct xcb_alloc_color_cells_reply_t { uint8_t response_type; uint8_t pad0; uint16_t sequence; uint32_t length; uint16_t pixels_len; uint16_t masks_len; uint8_t pad1[20]; } xcb_alloc_color_cells_reply_t; Reply function xcb_alloc_color_cells_reply_t *xcb_alloc_color_cells_reply(xcb_connection_t *conn, xcb_alloc_color_cells_cookie_t cookie, xcb_generic_error_t **e); Reply accessors uint32_t *xcb_alloc_color_cells_pixels(const xcb_alloc_color_cells_request_t *reply); int xcb_alloc_color_cells_pixels_length(const xcb_alloc_color_cells_reply_t…

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    xcb_alloc_color_cells_masks_end (3) Linux Manual Page

    ByLinux Manual

    xcb_alloc_color_cells – Synopsis #include <xcb/xproto.h> Request function xcb_alloc_color_cells_cookie_t xcb_alloc_color_cells(xcb_connection_t *conn, uint8_t contiguous, xcb_colormap_t cmap, uint16_t colors, uint16_t planes); Reply datastructure typedef struct xcb_alloc_color_cells_reply_t { uint8_t response_type; uint8_t pad0; uint16_t sequence; uint32_t length; uint16_t pixels_len; uint16_t masks_len; uint8_t pad1[20]; } xcb_alloc_color_cells_reply_t; Reply function xcb_alloc_color_cells_reply_t *xcb_alloc_color_cells_reply(xcb_connection_t *conn, xcb_alloc_color_cells_cookie_t cookie, xcb_generic_error_t **e); Reply accessors uint32_t *xcb_alloc_color_cells_pixels(const xcb_alloc_color_cells_request_t *reply); int xcb_alloc_color_cells_pixels_length(const xcb_alloc_color_cells_reply_t…

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    xcb_alloc_color_cells_masks (3) Linux Manual Page

    ByLinux Manual

    xcb_alloc_color_cells – Synopsis #include <xcb/xproto.h> Request function xcb_alloc_color_cells_cookie_t xcb_alloc_color_cells(xcb_connection_t *conn, uint8_t contiguous, xcb_colormap_t cmap, uint16_t colors, uint16_t planes); Reply datastructure typedef struct xcb_alloc_color_cells_reply_t { uint8_t response_type; uint8_t pad0; uint16_t sequence; uint32_t length; uint16_t pixels_len; uint16_t masks_len; uint8_t pad1[20]; } xcb_alloc_color_cells_reply_t; Reply function xcb_alloc_color_cells_reply_t *xcb_alloc_color_cells_reply(xcb_connection_t *conn, xcb_alloc_color_cells_cookie_t cookie, xcb_generic_error_t **e); Reply accessors uint32_t *xcb_alloc_color_cells_pixels(const xcb_alloc_color_cells_request_t *reply); int xcb_alloc_color_cells_pixels_length(const xcb_alloc_color_cells_reply_t…

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    xcb_alloc_color_cells (3) Linux Manual Page

    ByLinux Manual

    xcb_alloc_color_cells – Synopsis #include <xcb/xproto.h> Request function xcb_alloc_color_cells_cookie_t xcb_alloc_color_cells(xcb_connection_t *conn, uint8_t contiguous, xcb_colormap_t cmap, uint16_t colors, uint16_t planes); Reply datastructure typedef struct xcb_alloc_color_cells_reply_t { uint8_t response_type; uint8_t pad0; uint16_t sequence; uint32_t length; uint16_t pixels_len; uint16_t masks_len; uint8_t pad1[20]; } xcb_alloc_color_cells_reply_t; Reply function xcb_alloc_color_cells_reply_t *xcb_alloc_color_cells_reply(xcb_connection_t *conn, xcb_alloc_color_cells_cookie_t cookie, xcb_generic_error_t **e); Reply accessors uint32_t *xcb_alloc_color_cells_pixels(const xcb_alloc_color_cells_request_t *reply); int xcb_alloc_color_cells_pixels_length(const xcb_alloc_color_cells_reply_t…

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    xcb_alloc_color (3) Linux Manual Page

    ByLinux Manual

    xcb_alloc_color – Allocate a color Synopsis #include <xcb/xproto.h> Request function xcb_alloc_color_cookie_t xcb_alloc_color(xcb_connection_t *conn, xcb_colormap_t cmap, uint16_t red, uint16_t green, uint16_t blue); Reply datastructure typedef struct xcb_alloc_color_reply_t { uint8_t response_type; uint8_t pad0; uint16_t sequence; uint32_t length; uint16_t red; uint16_t green; uint16_t blue; uint8_t pad1[2]; uint32_t pixel; } xcb_alloc_color_reply_t; Reply function xcb_alloc_color_reply_t *xcb_alloc_color_reply(xcb_connection_t *conn, xcb_alloc_color_cookie_t cookie, xcb_generic_error_t **e); Request Arguments…

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    xcb-requests (3) Linux Manual Page

    ByLinux Manual

    xcb-requests – about request manpages Description Every request in X11, like MapWindow, corresponds to a number of functions and data structures in XCB. For MapWindow, XCB provides the function xcb_map_window, which fills the xcb_map_window_request_t data structure and writes that to the X11 connection. Since the MapWindow request does not have a reply, this is the…

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    xcb-examples (3) Linux Manual Page

    ByLinux Manual

    xcb-examples – manpage examples Description Many of the XCB manpages contain example code. These examples intend to explain how to use one particular part of XCB. They almost never represent a standalone (or even useful) program – X11 programs are relatively involved and thus beyond the scope of a manpage example. Environment Every example assumes…

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    xbegin (3) Linux Manual Page

    ByLinux Manual

    QuantLib::LexicographicalView – Lexicographical 2-D view of a contiguous set of data. Synopsis #include <ql/math/lexicographicalview.hpp> Public Types typedef RandomAccessIterator x_iterator iterates over $ v_{ij} $ with $ j $ fixed. typedef boost::reverse_iterator< RandomAccessIterator > reverse_x_iterator iterates backwards over $ v_{ij} $ with $ j $ fixed. typedef step_iterator< RandomAccessIterator > y_iterator iterates over $ v_{ij} $…

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    x_iterator (3) Linux Manual Page

    ByLinux Manual

    QuantLib::LexicographicalView – Lexicographical 2-D view of a contiguous set of data. Synopsis #include <ql/math/lexicographicalview.hpp> Public Types typedef RandomAccessIterator x_iterator iterates over $ v_{ij} $ with $ j $ fixed. typedef boost::reverse_iterator< RandomAccessIterator > reverse_x_iterator iterates backwards over $ v_{ij} $ with $ j $ fixed. typedef step_iterator< RandomAccessIterator > y_iterator iterates over $ v_{ij} $…

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    xValues (3) Linux Manual Page

    ByLinux Manual

    QuantLib::Interpolation::Impl – abstract base class for interpolation implementations Synopsis virtual void update ()=0 virtual Real xMin () const =0 virtual Real xMax () const =0 virtual std::vector< Real > xValues () const =0 virtual std::vector< Real > yValues () const =0 virtual bool isInRange (Real) const =0 virtual Real value (Real) const =0 virtual Real…

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    xSize (3) Linux Manual Page

    ByLinux Manual

    QuantLib::LexicographicalView – Lexicographical 2-D view of a contiguous set of data. Synopsis #include <ql/math/lexicographicalview.hpp> Public Types typedef RandomAccessIterator x_iterator iterates over $ v_{ij} $ with $ j $ fixed. typedef boost::reverse_iterator< RandomAccessIterator > reverse_x_iterator iterates backwards over $ v_{ij} $ with $ j $ fixed. typedef step_iterator< RandomAccessIterator > y_iterator iterates over $ v_{ij} $…

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    xProcess_ (3) Linux Manual Page

    ByLinux Manual

    QuantLib::G2ForwardProcess – Forward G2 stochastic process Synopsis #include <ql/processes/g2process.hpp> Inherits QuantLib::ForwardMeasureProcess. Public Member Functions G2ForwardProcess (Real a, Real sigma, Real b, Real eta, Real rho) StochasticProcess interface Size size () const returns the number of dimensions of the stochastic process Disposable< Array > initialValues () const returns the initial values of the state variables Disposable<…

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    xProcess (3) Linux Manual Page

    ByLinux Manual

    QuantLib::TwoFactorModel::ShortRateDynamics – Class describing the dynamics of the two state variables. Synopsis #include <ql/models/shortrate/twofactormodel.hpp> Inherited by Dynamics. Public Member Functions ShortRateDynamics (const boost::shared_ptr< StochasticProcess1D > &xProcess, const boost::shared_ptr< StochasticProcess1D > &yProcess, Real correlation) virtual Rate shortRate (Time t, Real x, Real y) const =0 const boost::shared_ptr< StochasticProcess1D > & xProcess () const Risk-neutral dynamics of…

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    xMin_ (3) Linux Manual Page

    ByLinux Manual

    QuantLib::Solver1D – Base class for 1-D solvers. Synopsis #include <ql/math/solver1d.hpp> Inherits CuriouslyRecurringTemplate< Impl >. Public Member Functions Modifiers template<class F > Real solve (const F &f, Real accuracy, Real guess, Real step) const template<class F > Real solve (const F &f, Real accuracy, Real guess, Real xMin, Real xMax) const void setMaxEvaluations (Size evaluations) void…

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    xMin (3) Linux Manual Page

    ByLinux Manual

    QuantLib::Interpolation – base class for 1-D interpolations. Synopsis bool empty () const Real operator() (Real x, bool allowExtrapolation=false) const Real primitive (Real x, bool allowExtrapolation=false) const Real derivative (Real x, bool allowExtrapolation=false) const Real secondDerivative (Real x, bool allowExtrapolation=false) const Real xMin () const Real xMax () const bool isInRange (Real x) const void update…

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    xMax_ (3) Linux Manual Page

    ByLinux Manual

    QuantLib::Solver1D – Base class for 1-D solvers. Synopsis #include <ql/math/solver1d.hpp> Inherits CuriouslyRecurringTemplate< Impl >. Public Member Functions Modifiers template<class F > Real solve (const F &f, Real accuracy, Real guess, Real step) const template<class F > Real solve (const F &f, Real accuracy, Real guess, Real xMin, Real xMax) const void setMaxEvaluations (Size evaluations) void…

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    xMax (3) Linux Manual Page

    ByLinux Manual

    QuantLib::Interpolation – base class for 1-D interpolations. Synopsis bool empty () const Real operator() (Real x, bool allowExtrapolation=false) const Real primitive (Real x, bool allowExtrapolation=false) const Real derivative (Real x, bool allowExtrapolation=false) const Real secondDerivative (Real x, bool allowExtrapolation=false) const Real xMin () const Real xMax () const bool isInRange (Real x) const void update…