view src/paint.c @ 1280:434f588fcde4

Handle the change of attribute 'start' and 'end'. We do reset here. However, we should be able to optimize it latter to update the scenes directly.
author wycc
date Fri, 14 Jan 2011 00:00:11 +0800
parents c18ad321844d
children 7bd6c0e88ec8
line wrap: on
line source

// -*- indent-tabs-mode: t; tab-width: 8; c-basic-offset: 4; -*-
// vim: sw=4:ts=8:sts=4
#include <stdio.h>
#include <stdlib.h>
#include "mb_graph_engine.h"
#include "mb_paint.h"

#define ASSERT(x)

/*! \brief Solid color paint.
 */
typedef struct _paint_color {
    paint_t paint;
    co_comp_t r, g, b, a;
} paint_color_t;

int _paint_color_size = sizeof(paint_color_t);


static void paint_color_prepare(paint_t *paint, mbe_t *cr, shape_t *sh) {
    paint_color_t *color = (paint_color_t *)paint;

    mbe_set_source_rgba(cr, color->r, color->g, color->b, color->a);
}

static void paint_color_free(redraw_man_t *rdman, paint_t *paint) {
    shnode_list_free(rdman, paint->members);
    paint_destroy(paint);
    elmpool_elm_free(rdman->paint_color_pool, paint);
}

paint_t *rdman_paint_color_new(redraw_man_t *rdman,
			       co_comp_t r, co_comp_t g,
			       co_comp_t b, co_comp_t a) {
    paint_color_t *color;

    color = (paint_color_t *)elmpool_elm_alloc(rdman->paint_color_pool);
    if(color == NULL)
	return NULL;
    color->r = r;
    color->g = g;
    color->b = b;
    color->a = a;
    paint_init(&color->paint, MBP_COLOR,
	       paint_color_prepare, paint_color_free);
    return (paint_t *)color;
}

void paint_color_set(paint_t *paint,
		     co_comp_t r, co_comp_t g,
		     co_comp_t b, co_comp_t a) {
    paint_color_t *color = (paint_color_t *)paint;

    color->r = r;
    color->g = g;
    color->b = b;
    color->a = a;
}

void paint_color_get(paint_t *paint,
		     co_comp_t *r, co_comp_t *g,
		     co_comp_t *b, co_comp_t *a) {
    paint_color_t *color = (paint_color_t *)paint;

    *r = color->r;
    *g = color->g;
    *b = color->b;
    *a = color->a;
}

/*! \brief Linear gradient.
 */
typedef struct _paint_linear {
    paint_t paint;
    co_aix x1, y1;
    co_aix x2, y2;
    int n_stops;
    grad_stop_t *stops;
    int flags;
    mbe_pattern_t *ptn;
} paint_linear_t;

#define LIF_DIRTY 0x1

int _paint_linear_size = sizeof(paint_linear_t);

static void paint_linear_prepare(paint_t *paint, mbe_t *cr, shape_t *sh) {
    paint_linear_t *linear = (paint_linear_t *)paint;
    mbe_pattern_t *ptn;
    co_aix x1, y1;
    co_aix x2, y2;
    co_aix *mtx;

    ptn = linear->ptn;
    if(linear->flags & LIF_DIRTY) {
	mtx = sh_get_aggr_matrix(sh);
	x1 = linear->x1;
	y1 = linear->y1;
	matrix_trans_pos(mtx, &x1, &y1);
	x2 = linear->x2;
	y2 = linear->y2;
	matrix_trans_pos(mtx, &x2, &y2);

	if(ptn)
	    mbe_pattern_destroy(ptn);
	linear->flags &= ~LIF_DIRTY;
	ptn = mbe_pattern_create_linear(x1, y1, x2, y2,
					linear->stops, linear->n_stops);
	ASSERT(ptn != NULL);
	linear->ptn = ptn;
    }

    mbe_set_source(cr, ptn);
}

static void paint_linear_free(redraw_man_t *rdman, paint_t *paint) {
    paint_linear_t *linear = (paint_linear_t *)paint;

    if(linear->ptn)
	mbe_pattern_destroy(linear->ptn);
    paint_destroy(paint);
    elmpool_elm_free(rdman->paint_linear_pool, linear);
}

paint_t *rdman_paint_linear_new(redraw_man_t *rdman,
				co_aix x1, co_aix y1,
				co_aix x2, co_aix y2) {
    paint_linear_t *linear;

    linear = (paint_linear_t *)elmpool_elm_alloc(rdman->paint_linear_pool);
    if(linear == NULL)
	return NULL;

    paint_init(&linear->paint, MBP_LINEAR,
	       paint_linear_prepare, paint_linear_free);

    linear->x1 = x1;
    linear->y1 = y1;
    linear->x2 = x2;
    linear->y2 = y2;
    linear->n_stops = 0;
    linear->stops = NULL;
    linear->flags = LIF_DIRTY;
    linear->ptn = NULL;

    return (paint_t *)linear;
}

/*! \brief Setup color stop for a linear radient paint.
 *
 * stops should be managed by users of the function.  It should be
 * available before the paint being freed or changed to another
 * array of stops.
 */
grad_stop_t *paint_linear_stops(paint_t *paint,
				int n_stops,
				grad_stop_t *stops) {
    paint_linear_t *linear = (paint_linear_t *)paint;
    grad_stop_t *old_stops;

    old_stops = linear->stops;
    linear->n_stops = n_stops;
    linear->stops = stops;
    linear->flags |= LIF_DIRTY;

    return old_stops;
}

/*! \brief Radial gradient.
 *
 * NOTE: The only supported gradient unit is userSpaceOnUse.
 */
typedef struct _paint_radial {
    paint_t paint;
    co_aix cx, cy;
    co_aix r;
    int n_stops;
    grad_stop_t *stops;
    int flags;
    mbe_pattern_t *ptn;
} paint_radial_t;

#define RDF_DIRTY 0x1

#define pnt_radial_clear_flags(radial, _flags)	\
    do {					\
	(radial)->flags &= ~(_flags);		\
    } while(0)

int _paint_radial_size = sizeof(paint_radial_t);

static void paint_radial_prepare(paint_t *paint, mbe_t *cr, shape_t *sh) {
    paint_radial_t *radial = (paint_radial_t *)paint;
    mbe_pattern_t *ptn;
    co_aix cx, cy;
    co_aix *mtx;

    if(radial->flags & RDF_DIRTY) {
	mtx = sh_get_aggr_matrix(sh);
	cx = radial->cx;
	cy = radial->cy;
	matrix_trans_pos(mtx, &cx, &cy);
	
	ptn = mbe_pattern_create_radial(cx, cy, 0,
					cx, cy,
					radial->r,
					radial->stops,
					radial->n_stops);
	ASSERT(ptn != NULL);
	if(radial->ptn)
	    mbe_pattern_destroy(radial->ptn);
	radial->ptn = ptn;
	
	pnt_radial_clear_flags(radial, RDF_DIRTY);
    }
    mbe_set_source(cr, radial->ptn);
}

static void paint_radial_free(redraw_man_t *rdman, paint_t *paint) {
    paint_radial_t *radial = (paint_radial_t *)paint;

    if(radial->ptn)
	mbe_pattern_destroy(radial->ptn);
    paint_destroy(paint);
    elmpool_elm_free(rdman->paint_radial_pool, radial);
}

paint_t *rdman_paint_radial_new(redraw_man_t *rdman,
				co_aix cx, co_aix cy, co_aix r) {
    paint_radial_t *radial;

    radial = elmpool_elm_alloc(rdman->paint_radial_pool);
    if(radial == NULL)
	return NULL;

    paint_init(&radial->paint, MBP_RADIAL,
	       paint_radial_prepare, paint_radial_free);
    radial->cx = cx;
    radial->cy = cy;
    radial->r = r;
    radial->n_stops = 0;
    radial->stops = NULL;
    radial->flags = RDF_DIRTY;
    radial->ptn = NULL;

    return (paint_t *)radial;
}

/*! \brief Setup color stop for a radial radient paint.
 *
 * stops should be managed by users of the function.  It should be
 * available before the paint being freed or changed to another
 * array of stops.
 */
grad_stop_t *paint_radial_stops(paint_t *paint,
				int n_stops,
				grad_stop_t *stops) {
    paint_radial_t *radial = (paint_radial_t *)paint;
    grad_stop_t *old_stops;

    old_stops = radial->stops;
    radial->n_stops = n_stops;
    radial->stops = stops;
    radial->flags |= RDF_DIRTY;

    return old_stops;
}


/*! \brief Using an image as a paint.
 *
 * This type of paints fill/stroke shapes with an image.
 */
typedef struct _paint_image {
    paint_t paint;
    mb_img_data_t *img;
    mbe_pattern_t *ptn;
} paint_image_t;

int _paint_image_size = sizeof(paint_image_t);

static
void paint_image_prepare(paint_t *paint, mbe_t *cr, shape_t *sh) {
    paint_image_t *paint_img = (paint_image_t *)paint;
    mb_img_data_t *img_data;

    img_data = paint_img->img;
    mbe_set_source(cr, paint_img->ptn);
}

static
void paint_image_free(redraw_man_t *rdman, paint_t *paint) {
    paint_image_t *paint_img = (paint_image_t *)paint;
    mb_img_data_t *img_data;

    img_data = paint_img->img;
    MB_IMG_DATA_FREE(img_data);
    paint_destroy(&paint_img->paint);
    elmpool_elm_free(rdman->paint_image_pool, paint_img);
}

/*! \brief Create an image painter.
 *
 * Create a painter that fill/stroke shapes with an image.
 *
 * \param img is image data return by image load.
 *            Owner-ship of img is transfered.
 */
paint_t *rdman_paint_image_new(redraw_man_t *rdman,
			       mb_img_data_t *img) {
    paint_image_t *paint;

    paint = elmpool_elm_alloc(rdman->paint_image_pool);
    if(paint == NULL)
	return NULL;

    paint_init(&paint->paint, MBP_IMAGE,
	       paint_image_prepare, paint_image_free);
    paint->img = img;
    paint->ptn = mbe_pattern_create_image(img);
    if(paint->ptn == NULL) {
	paint_destroy(&paint->paint);
	elmpool_elm_free(rdman->paint_image_pool, paint);
	return NULL;
    }

    return (paint_t *)paint;
}

/*! \brief Setting transformation from user space to image space.
 *
 * This transformation matrix maps points drawed in user space to
 * corresponding points in image space.  It is used to resample
 * the image to generate pixels of result image.
 */
void paint_image_set_matrix(paint_t *paint, co_aix matrix[6]) {
    paint_image_t *img_paint = (paint_image_t *)paint;

    mbe_pattern_set_matrix(img_paint->ptn, matrix);
}

void paint_image_get_size(paint_t *paint, int *w, int *h) {
    paint_image_t *ipaint = (paint_image_t *)paint;

    ASSERT(paint->pnt_type == MBP_IMAGE);
    *w = ipaint->img->w;
    *h = ipaint->img->h;
}