kolibrios-gitea/programs/network/netsurf/include/libnsfb_plot.h
Dmitry Pereverzev (SoUrcerer) 67a60882fd Kolibri Native UI for NSFB - much faster and stable! But without keyboard yet
git-svn-id: svn://kolibrios.org@3621 a494cfbc-eb01-0410-851d-a64ba20cac60
2013-06-07 22:16:59 +00:00

170 lines
5.3 KiB
C

/*
* Copyright 2009 Vincent Sanders <vince@simtec.co.uk>
*
* This file is part of libnsfb, http://www.netsurf-browser.org/
* Licenced under the MIT License,
* http://www.opensource.org/licenses/mit-license.php
*
* This is the exported plotter interface for the libnsfb graphics library.
*/
#ifndef _LIBNSFB_PLOT_H
#define _LIBNSFB_PLOT_H 1
/** representation of a colour.
*
* The colour value comprises of four components arranged in the order ABGR:
* bits 24-31 are the alpha value and represent the opacity. 0 is
* transparent i.e. there would be no change in the target surface if
* this colour were to be used and 0xFF is opaque.
*
* bits 16-23 are the Blue component of the colour.
*
* bits 8-15 are the Green component of the colour.
*
* bits 0-7 are the Red component of the colour.
*/
typedef uint32_t nsfb_colour_t;
/**
* Type of plot operation
*/
typedef enum nsfb_plot_optype_e {
NFSB_PLOT_OPTYPE_NONE = 0, /**< No operation */
NFSB_PLOT_OPTYPE_SOLID, /**< Solid colour */
NFSB_PLOT_OPTYPE_PATTERN, /**< Pattern plot */
} nsfb_plot_optype_t;
/** pen colour and raster operation for plotting primatives. */
typedef struct nsfb_plot_pen_s {
nsfb_plot_optype_t stroke_type; /**< Stroke plot type */
int stroke_width; /**< Width of stroke, in pixels */
nsfb_colour_t stroke_colour; /**< Colour of stroke */
uint32_t stroke_pattern;
nsfb_plot_optype_t fill_type; /**< Fill plot type */
nsfb_colour_t fill_colour; /**< Colour of fill */
} nsfb_plot_pen_t;
/** path operation type. */
typedef enum nsfb_plot_pathop_type_e {
NFSB_PLOT_PATHOP_MOVE,
NFSB_PLOT_PATHOP_LINE,
NFSB_PLOT_PATHOP_QUAD,
NFSB_PLOT_PATHOP_CUBIC,
} nsfb_plot_pathop_type_t;
/** path element */
typedef struct nsfb_plot_pathop_s {
nsfb_plot_pathop_type_t operation;
nsfb_point_t point;
} nsfb_plot_pathop_t;
/** Sets a clip rectangle for subsequent plots.
*
* Sets a clipping area which constrains all subsequent plotting operations.
* The clipping area must lie within the framebuffer visible screen or false
* will be returned and the new clipping area not set.
*/
bool nsfb_plot_set_clip(nsfb_t *nsfb, nsfb_bbox_t *clip);
/** Get the previously set clipping region.
*/
bool nsfb_plot_get_clip(nsfb_t *nsfb, nsfb_bbox_t *clip);
/** Clears plotting area to a flat colour.
*/
bool nsfb_plot_clg(nsfb_t *nsfb, nsfb_colour_t c);
/** Plots a rectangle outline.
*
* The line can be solid, dotted or dashed. Top left corner at (x0,y0) and
* rectangle has given width and height.
*/
bool nsfb_plot_rectangle(nsfb_t *nsfb, nsfb_bbox_t *rect, int line_width, nsfb_colour_t c, bool dotted, bool dashed);
/** Plots a filled rectangle. Top left corner at (x0,y0), bottom
* right corner at (x1,y1). Note: (x0,y0) is inside filled area,
* but (x1,y1) is below and to the right. See diagram below.
*/
bool nsfb_plot_rectangle_fill(nsfb_t *nsfb, nsfb_bbox_t *rect, nsfb_colour_t c);
/** Plots a line.
*
* Draw a line from (x0,y0) to (x1,y1). Coordinates are at centre of line
* width/thickness.
*/
bool nsfb_plot_line(nsfb_t *nsfb, nsfb_bbox_t *line, nsfb_plot_pen_t *pen);
/** Plots a number of lines.
*
* Draw a series of lines.
*/
bool nsfb_plot_lines(nsfb_t *nsfb, int linec, nsfb_bbox_t *line, nsfb_plot_pen_t *pen);
/** Plots a number of connected lines.
*
* Draw a series of connected lines.
*/
bool nsfb_plot_polylines(nsfb_t *nsfb, int pointc, const nsfb_point_t *points, nsfb_plot_pen_t *pen);
/** Plots a filled polygon.
*
* Plots a filled polygon with straight lines between points. The lines around
* the edge of the ploygon are not plotted. The polygon is filled with a
* non-zero winding rule.
*
*
*/
bool nsfb_plot_polygon(nsfb_t *nsfb, const int *p, unsigned int n, nsfb_colour_t fill);
/** Plot an ellipse.
*/
bool nsfb_plot_ellipse(nsfb_t *nsfb, nsfb_bbox_t *ellipse, nsfb_colour_t c);
/** Plot a filled ellipse.
*/
bool nsfb_plot_ellipse_fill(nsfb_t *nsfb, nsfb_bbox_t *ellipse, nsfb_colour_t c);
/** Plots an arc.
*
* around (x,y), from anticlockwise from angle1 to angle2. Angles are measured
* anticlockwise from horizontal, in degrees.
*/
bool nsfb_plot_arc(nsfb_t *nsfb, int x, int y, int radius, int angle1, int angle2, nsfb_colour_t c);
/** Plots an alpha blended pixel.
*
* plots an alpha blended pixel.
*/
bool nsfb_plot_point(nsfb_t *nsfb, int x, int y, nsfb_colour_t c);
bool nsfb_plot_cubic_bezier(nsfb_t *nsfb, nsfb_bbox_t *curve, nsfb_point_t *ctrla, nsfb_point_t *ctrlb, nsfb_plot_pen_t *pen);
bool nsfb_plot_quadratic_bezier(nsfb_t *nsfb, nsfb_bbox_t *curve, nsfb_point_t *ctrla, nsfb_plot_pen_t *pen);
bool nsfb_plot_path(nsfb_t *nsfb, int pathc, nsfb_plot_pathop_t *pathop, nsfb_plot_pen_t *pen);
/** copy an area of screen
*
* Copy an area of the display.
*/
bool nsfb_plot_copy(nsfb_t *srcfb, nsfb_bbox_t *srcbox, nsfb_t *dstfb, nsfb_bbox_t *dstbox);
/** Plot bitmap.
*/
bool nsfb_plot_bitmap(nsfb_t *nsfb, const nsfb_bbox_t *loc, const nsfb_colour_t *pixel, int bmp_width, int bmp_height, int bmp_stride, bool alpha);
/** Plot an 8 bit glyph.
*/
bool nsfb_plot_glyph8(nsfb_t *nsfb, nsfb_bbox_t *loc, const uint8_t *pixel, int pitch, nsfb_colour_t c);
/** Plot an 1 bit glyph.
*/
bool nsfb_plot_glyph1(nsfb_t *nsfb, nsfb_bbox_t *loc, const uint8_t *pixel, int pitch, nsfb_colour_t c);
/* read rectangle into buffer */
bool nsfb_plot_readrect(nsfb_t *nsfb, nsfb_bbox_t *rect, nsfb_colour_t *buffer);
#endif /* _LIBNSFB_PLOT_H */