/* Copyright (C) 2000-2002 Paul Davis This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. $Id$ */ #include #include #include #include #include #include #include "canvas-waveview.h" #include "rgb_macros.h" enum { ARG_0, ARG_DATA_SRC, ARG_CHANNEL, ARG_LENGTH_FUNCTION, ARG_PEAK_FUNCTION, ARG_GAIN_FUNCTION, ARG_GAIN_SRC, ARG_CACHE, ARG_CACHE_UPDATER, ARG_SAMPLES_PER_PIXEL, ARG_AMPLITUDE_ABOVE_AXIS, ARG_X, ARG_Y, ARG_HEIGHT, ARG_WAVE_COLOR, ARG_RECTIFIED, ARG_SOURCEFILE_LENGTH_FUNCTION, ARG_REGION_START }; static void gnome_canvas_waveview_class_init (GnomeCanvasWaveViewClass *class); static void gnome_canvas_waveview_init (GnomeCanvasWaveView *waveview); static void gnome_canvas_waveview_set_arg (GtkObject *object, GtkArg *arg, guint arg_id); static void gnome_canvas_waveview_get_arg (GtkObject *object, GtkArg *arg, guint arg_id); static void gnome_canvas_waveview_update (GnomeCanvasItem *item, double *affine, ArtSVP *clip_path, int flags); static void gnome_canvas_waveview_bounds (GnomeCanvasItem *item, double *x1, double *y1, double *x2, double *y2); static double gnome_canvas_waveview_point (GnomeCanvasItem *item, double x, double y, int cx, int cy, GnomeCanvasItem **actual_item); static void gnome_canvas_waveview_render (GnomeCanvasItem *item, GnomeCanvasBuf *buf); static void gnome_canvas_waveview_draw (GnomeCanvasItem *item, GdkDrawable *drawable, int x, int y, int w, int h); static void gnome_canvas_waveview_set_data_src (GnomeCanvasWaveView *, void *); static void gnome_canvas_waveview_set_channel (GnomeCanvasWaveView *, guint32); static gint32 gnome_canvas_waveview_ensure_cache (GnomeCanvasWaveView *waveview, gulong start_sample, gulong end_sample); static GnomeCanvasItemClass *parent_class; GtkType gnome_canvas_waveview_get_type (void) { static GtkType waveview_type = 0; if (!waveview_type) { GtkTypeInfo waveview_info = { "GnomeCanvasWaveView", sizeof (GnomeCanvasWaveView), sizeof (GnomeCanvasWaveViewClass), (GtkClassInitFunc) gnome_canvas_waveview_class_init, (GtkObjectInitFunc) gnome_canvas_waveview_init, NULL, /* reserved_1 */ NULL, /* reserved_2 */ (GtkClassInitFunc) NULL }; waveview_type = gtk_type_unique (gnome_canvas_item_get_type (), &waveview_info); } return waveview_type; } static void gnome_canvas_waveview_class_init (GnomeCanvasWaveViewClass *class) { GtkObjectClass *object_class; GnomeCanvasItemClass *item_class; object_class = (GtkObjectClass *) class; item_class = (GnomeCanvasItemClass *) class; parent_class = gtk_type_class (gnome_canvas_item_get_type ()); gtk_object_add_arg_type ("GnomeCanvasWaveView::data_src", GTK_TYPE_POINTER, GTK_ARG_READWRITE, ARG_DATA_SRC); gtk_object_add_arg_type ("GnomeCanvasWaveView::channel", GTK_TYPE_POINTER, GTK_ARG_READWRITE, ARG_CHANNEL); gtk_object_add_arg_type ("GnomeCanvasWaveView::length_function", GTK_TYPE_POINTER, GTK_ARG_READWRITE, ARG_LENGTH_FUNCTION); gtk_object_add_arg_type ("GnomeCanvasWaveView::sourcefile_length_function", GTK_TYPE_POINTER, GTK_ARG_READWRITE, ARG_SOURCEFILE_LENGTH_FUNCTION); gtk_object_add_arg_type ("GnomeCanvasWaveView::peak_function", GTK_TYPE_POINTER, GTK_ARG_READWRITE, ARG_PEAK_FUNCTION); gtk_object_add_arg_type ("GnomeCanvasWaveView::gain_function", GTK_TYPE_POINTER, GTK_ARG_READWRITE, ARG_GAIN_FUNCTION); gtk_object_add_arg_type ("GnomeCanvasWaveView::gain_src", GTK_TYPE_POINTER, GTK_ARG_READWRITE, ARG_GAIN_SRC); gtk_object_add_arg_type ("GnomeCanvasWaveView::cache", GTK_TYPE_POINTER, GTK_ARG_READWRITE, ARG_CACHE); gtk_object_add_arg_type ("GnomeCanvasWaveView::cache_updater", GTK_TYPE_POINTER, GTK_ARG_READWRITE, ARG_CACHE_UPDATER); gtk_object_add_arg_type ("GnomeCanvasWaveView::samples_per_unit", GTK_TYPE_DOUBLE, GTK_ARG_READWRITE, ARG_SAMPLES_PER_PIXEL); gtk_object_add_arg_type ("GnomeCanvasWaveView::amplitude_above_axis", GTK_TYPE_DOUBLE, GTK_ARG_READWRITE, ARG_AMPLITUDE_ABOVE_AXIS); gtk_object_add_arg_type ("GnomeCanvasWaveView::x", GTK_TYPE_DOUBLE, GTK_ARG_READWRITE, ARG_X); gtk_object_add_arg_type ("GnomeCanvasWaveView::y", GTK_TYPE_DOUBLE, GTK_ARG_READWRITE, ARG_Y); gtk_object_add_arg_type ("GnomeCanvasWaveView::height", GTK_TYPE_DOUBLE, GTK_ARG_READWRITE, ARG_HEIGHT); gtk_object_add_arg_type ("GnomeCanvasWaveView::wave_color", GTK_TYPE_INT, GTK_ARG_READWRITE, ARG_WAVE_COLOR); gtk_object_add_arg_type ("GnomeCanvasWaveView::rectified", GTK_TYPE_BOOL, GTK_ARG_READWRITE, ARG_RECTIFIED); gtk_object_add_arg_type ("GnomeCanvasWaveView::region_start", GTK_TYPE_UINT, GTK_ARG_READWRITE, ARG_REGION_START); object_class->set_arg = gnome_canvas_waveview_set_arg; object_class->get_arg = gnome_canvas_waveview_get_arg; item_class->update = gnome_canvas_waveview_update; item_class->bounds = gnome_canvas_waveview_bounds; item_class->point = gnome_canvas_waveview_point; item_class->render = gnome_canvas_waveview_render; item_class->draw = gnome_canvas_waveview_draw; } GnomeCanvasWaveViewCache* gnome_canvas_waveview_cache_new () { GnomeCanvasWaveViewCache *c; c = g_malloc (sizeof (GnomeCanvasWaveViewCache)); c->allocated = 2048; c->data = g_malloc (sizeof (GnomeCanvasWaveViewCacheEntry) * c->allocated); c->data_size = 0; c->start = 0; c->end = 0; return c; } void gnome_canvas_waveview_cache_destroy (GnomeCanvasWaveViewCache* cache) { g_free (cache->data); g_free (cache); } static void gnome_canvas_waveview_init (GnomeCanvasWaveView *waveview) { waveview->x = 0.0; waveview->y = 0.0; waveview->cache = 0; waveview->cache_updater = FALSE; waveview->data_src = NULL; waveview->channel = 0; waveview->peak_function = NULL; waveview->length_function = NULL; waveview->sourcefile_length_function = NULL; waveview->gain_curve_function = NULL; waveview->gain_src = NULL; waveview->rectified = FALSE; waveview->region_start = 0; waveview->samples_per_unit = 1.0; waveview->amplitude_above_axis = 1.0; waveview->height = 100.0; waveview->screen_width = gdk_screen_width (); waveview->reload_cache_in_render = FALSE; waveview->wave_color = RGBA_TO_UINT(44,35,126,255); GNOME_CANVAS_ITEM(waveview)->object.flags |= GNOME_CANVAS_ITEM_NO_AUTO_REDRAW; } #define DEBUG_CACHE 0 static gint32 gnome_canvas_waveview_ensure_cache (GnomeCanvasWaveView *waveview, gulong start_sample, gulong end_sample) { gulong required_cache_entries; gulong rf1, rf2,rf3, required_frames; gulong new_cache_start, new_cache_end; gulong half_width; gulong npeaks; gulong offset; gulong ostart; gulong present_frames; gulong present_entries; gulong copied; GnomeCanvasWaveViewCache *cache; float* gain; cache = waveview->cache; start_sample = start_sample + waveview->region_start; end_sample = end_sample + waveview->region_start; #if DEBUG_CACHE // printf("waveview->region_start == %lu\n",waveview->region_start); printf ("=> 0x%x cache @ 0x%x range: %lu - %lu request: %lu - %lu (%lu frames)\n", waveview, cache, cache->start, cache->end, start_sample, end_sample, end_sample - start_sample); #endif if (cache->start <= start_sample && cache->end >= end_sample) { #if DEBUG_CACHE // printf ("0x%x: cache hit for %lu-%lu (cache holds: %lu-%lu\n", // waveview, start_sample, end_sample, cache->start, cache->end); #endif goto out; } /* make sure the cache is at least twice as wide as the screen width, and put the start sample in the middle, ensuring that we cover the end_sample. */ /* Note the assumption that we have a 1:1 units:pixel ratio for the canvas. Its everywhere ... */ half_width = (gulong) floor ((waveview->screen_width * waveview->samples_per_unit)/2.0 + 0.5); if (start_sample < half_width) { new_cache_start = 0; } else { new_cache_start = start_sample - half_width; } /* figure out how many frames we want */ rf1 = end_sample - start_sample + 1; rf2 = (gulong) floor ((waveview->screen_width * waveview->samples_per_unit * 2.0f)); required_frames = MAX(rf1,rf2); /* but make sure it doesn't extend beyond the end of the source material */ rf3 = (gulong) (waveview->sourcefile_length_function (waveview->data_src)) + 1; rf3 -= new_cache_start; #if DEBUG_CACHE fprintf (stderr, "\n\nAVAILABLE FRAMES = %lu of %lu, start = %lu, sstart = %lu, cstart = %lu\n", rf3, waveview->sourcefile_length_function (waveview->data_src), waveview->region_start, start_sample, new_cache_start); #endif required_frames = MIN(required_frames,rf3); new_cache_end = new_cache_start + required_frames - 1; required_cache_entries = (gulong) floor (required_frames / waveview->samples_per_unit ); #if DEBUG_CACHE fprintf (stderr, "new cache = %lu - %lu\n", new_cache_start, new_cache_end); fprintf(stderr,"required_cach_entries = %lu, samples_per_unit = %f\n", required_cache_entries,waveview->samples_per_unit); #endif if (required_cache_entries > cache->allocated) { cache->data = g_realloc (cache->data, sizeof (GnomeCanvasWaveViewCacheEntry) * required_cache_entries); cache->allocated = required_cache_entries; // cache->start = 0; // cache->end = 0; } ostart = new_cache_start; #undef CACHE_MEMMOVE_OPTIMIZATION #ifdef CACHE_MEMMOVE_OPTIMIZATION /* data is not entirely in the cache, so go fetch it, making sure to fill the cache */ /* some of the required cache entries are in the cache, but in the wrong locations. use memmove to fix this. */ if (cache->start < new_cache_start && new_cache_start < cache->end) { /* case one: the common area is at the end of the existing cache. move it to the beginning of the cache, and set up to refill whatever remains. wv->cache_start wv->cache_end |-------------------------------------------------------| cache |--------------------------------| requested <-------------------> "present" new_cache_start new_cache_end */ present_frames = cache->end - new_cache_start; present_entries = (gulong) floor (present_frames / waveview->samples_per_unit); #if DEBUG_CACHE fprintf (stderr, "existing material at end of current cache, move to start of new cache\n" "\tcopy from %lu to start\n", cache->data_size - present_entries); #endif memmove (&cache->data[0], &cache->data[cache->data_size - present_entries], present_entries * sizeof (GnomeCanvasWaveViewCacheEntry)); #if DEBUG_CACHE fprintf (stderr, "satisfied %lu of %lu frames, offset = %lu, will start at %lu (ptr = 0x%x)\n", present_frames, required_frames, present_entries, new_cache_start + present_entries, cache->data + present_entries); #endif copied = present_entries; offset = present_entries; new_cache_start += present_frames; required_frames -= present_frames; } else if (new_cache_end > cache->start && new_cache_end < cache->end) { /* case two: the common area lives at the beginning of the existing cache. wv->cache_start wv->cache_end |-----------------------------------------------------| |--------------------------------| <-----------------> "present" new_cache_start new_cache_end */ present_frames = new_cache_end - cache->start; present_entries = (gulong) floor (present_frames / waveview->samples_per_unit); memmove (&cache->data[cache->data_size - present_entries], &cache->data[0], present_entries * sizeof (GnomeCanvasWaveViewCacheEntry)); #if DEBUG_CACHE fprintf (stderr, "existing material at start of current cache, move to start of end cache\n"); #endif #if DEBUG_CACHE fprintf (stderr, "satisfied %lu of %lu frames, offset = %lu, will start at %lu (ptr = 0x%x)\n", present_entries, required_frames, present_entries, new_cache_start + present_entries, cache->data + present_entries); #endif copied = present_entries; offset = 0; required_frames -= present_frames; } else { copied = 0; offset = 0; } #else copied = 0; offset = 0; #endif /* CACHE_MEMMOVE_OPTIMIZATION */ // fprintf(stderr,"length == %lu\n",waveview->length_function (waveview->data_src)); // required_frames = MIN (waveview->length_function (waveview->data_src) - new_cache_start, required_frames); npeaks = (gulong) floor (required_frames / waveview->samples_per_unit); npeaks = MAX (1, npeaks); required_frames = npeaks * waveview->samples_per_unit; #if DEBUG_CACHE printf ("requesting %lu/%f to cover %lu-%lu at %f spu (request was %lu-%lu) into cache + %lu\n", required_frames, required_frames/waveview->samples_per_unit, new_cache_start, new_cache_end, waveview->samples_per_unit, start_sample, end_sample, offset); #endif #if DEBUG_CACHE // printf ("cache holds %lu entries, requesting %lu to cover %lu-%lu (request was %lu-%lu)\n", // cache->data_size, npeaks, new_cache_start, new_cache_end, // start_sample, end_sample); #endif waveview->peak_function (waveview->data_src, npeaks, new_cache_start, required_frames, cache->data + offset, waveview->channel,waveview->samples_per_unit); /* take into account any copied peaks */ npeaks += copied; if (npeaks < cache->allocated) { #if DEBUG_CACHE fprintf (stderr, "zero fill cache for %lu at %lu\n", cache->allocated - npeaks, npeaks); #endif memset (&cache->data[npeaks], 0, sizeof (GnomeCanvasWaveViewCacheEntry) * (cache->allocated - npeaks)); cache->data_size = npeaks; } else { cache->data_size = cache->allocated; } if (waveview->gain_curve_function) { guint32 n; gain = (float*) malloc (sizeof (float) * cache->data_size); waveview->gain_curve_function (waveview->gain_src, new_cache_start, new_cache_end, gain, cache->data_size); for (n = 0; n < cache->data_size; ++n) { cache->data[n].min *= gain[n]; cache->data[n].max *= gain[n]; } free (gain); } cache->start = ostart; cache->end = new_cache_end; out: #if DEBUG_CACHE fprintf (stderr, "return cache index = %d\n", (gint32) floor ((((double) (start_sample - cache->start)) / waveview->samples_per_unit) + 0.5)); #endif return (gint32) floor ((((double) (start_sample - cache->start)) / waveview->samples_per_unit) + 0.5); } void gnome_canvas_waveview_set_data_src (GnomeCanvasWaveView *waveview, void *data_src) { if (waveview->cache_updater) { if (waveview->data_src == data_src) { waveview->reload_cache_in_render = TRUE; return; } waveview->cache->start = 0; waveview->cache->end = 0; } waveview->data_src = data_src; } void gnome_canvas_waveview_set_channel (GnomeCanvasWaveView *waveview, guint32 chan) { if (waveview->channel == chan) { return; } waveview->channel = chan; } static void gnome_canvas_waveview_reset_bounds (GnomeCanvasItem *item) { double x1, x2, y1, y2; ArtPoint i1, i2; ArtPoint w1, w2; int Ix1, Ix2, Iy1, Iy2; double i2w[6]; gnome_canvas_waveview_bounds (item, &x1, &y1, &x2, &y2); i1.x = x1; i1.y = y1; i2.x = x2; i2.y = y2; gnome_canvas_item_i2w_affine (item, i2w); art_affine_point (&w1, &i1, i2w); art_affine_point (&w2, &i2, i2w); Ix1 = (int) rint(w1.x); Ix2 = (int) rint(w2.x); Iy1 = (int) rint(w1.y); Iy2 = (int) rint(w2.y); gnome_canvas_update_bbox (item, Ix1, Iy1, Ix2, Iy2); } /* * CANVAS CALLBACKS */ static void gnome_canvas_waveview_set_arg (GtkObject *object, GtkArg *arg, guint arg_id) { GnomeCanvasItem *item; GnomeCanvasWaveView *waveview; int redraw; int calc_bounds; item = GNOME_CANVAS_ITEM (object); waveview = GNOME_CANVAS_WAVEVIEW (object); redraw = FALSE; calc_bounds = FALSE; switch (arg_id) { case ARG_DATA_SRC: gnome_canvas_waveview_set_data_src (waveview, GTK_VALUE_POINTER(*arg)); redraw = TRUE; break; case ARG_CHANNEL: gnome_canvas_waveview_set_channel (waveview, GTK_VALUE_UINT(*arg)); redraw = TRUE; break; case ARG_LENGTH_FUNCTION: waveview->length_function = GTK_VALUE_POINTER(*arg); redraw = TRUE; break; case ARG_SOURCEFILE_LENGTH_FUNCTION: waveview->sourcefile_length_function = GTK_VALUE_POINTER(*arg); redraw = TRUE; break; case ARG_PEAK_FUNCTION: waveview->peak_function = GTK_VALUE_POINTER(*arg); redraw = TRUE; break; case ARG_GAIN_FUNCTION: waveview->gain_curve_function = GTK_VALUE_POINTER(*arg); redraw = TRUE; break; case ARG_GAIN_SRC: waveview->gain_src = GTK_VALUE_POINTER(*arg); if (waveview->cache_updater) { waveview->cache->start = 0; waveview->cache->end = 0; } redraw = TRUE; calc_bounds = TRUE; break; case ARG_CACHE: waveview->cache = GTK_VALUE_POINTER(*arg); redraw = TRUE; break; case ARG_CACHE_UPDATER: waveview->cache_updater = GTK_VALUE_BOOL(*arg); redraw = TRUE; break; case ARG_SAMPLES_PER_PIXEL: if ((waveview->samples_per_unit = GTK_VALUE_DOUBLE(*arg)) < 1.0) { waveview->samples_per_unit = 1.0; } if (waveview->cache_updater) { waveview->cache->start = 0; waveview->cache->end = 0; } redraw = TRUE; calc_bounds = TRUE; break; case ARG_AMPLITUDE_ABOVE_AXIS: waveview->amplitude_above_axis = GTK_VALUE_DOUBLE(*arg); redraw = TRUE; break; case ARG_X: if (waveview->x != GTK_VALUE_DOUBLE (*arg)) { waveview->x = GTK_VALUE_DOUBLE (*arg); calc_bounds = TRUE; } break; case ARG_Y: if (waveview->y != GTK_VALUE_DOUBLE (*arg)) { waveview->y = GTK_VALUE_DOUBLE (*arg); calc_bounds = TRUE; } break; case ARG_HEIGHT: if (waveview->height != fabs (GTK_VALUE_DOUBLE (*arg))) { waveview->height = fabs (GTK_VALUE_DOUBLE (*arg)); redraw = TRUE; } break; case ARG_WAVE_COLOR: if (waveview->wave_color != GTK_VALUE_INT(*arg)) { waveview->wave_color = GTK_VALUE_INT(*arg); redraw = TRUE; } break; case ARG_RECTIFIED: if (waveview->rectified != GTK_VALUE_BOOL(*arg)) { waveview->rectified = GTK_VALUE_BOOL(*arg); redraw = TRUE; } break; case ARG_REGION_START: waveview->region_start = GTK_VALUE_UINT(*arg); redraw = TRUE; calc_bounds = TRUE; break; default: break; } if (calc_bounds) { gnome_canvas_waveview_reset_bounds (item); } if (redraw) { gnome_canvas_item_request_update (item); } } static void gnome_canvas_waveview_get_arg (GtkObject *object, GtkArg *arg, guint arg_id) { GnomeCanvasWaveView *waveview; waveview = GNOME_CANVAS_WAVEVIEW (object); switch (arg_id) { case ARG_DATA_SRC: GTK_VALUE_POINTER(*arg) = waveview->data_src; break; case ARG_CHANNEL: GTK_VALUE_UINT(*arg) = waveview->channel; break; case ARG_LENGTH_FUNCTION: GTK_VALUE_POINTER(*arg) = waveview->length_function; break; case ARG_SOURCEFILE_LENGTH_FUNCTION: GTK_VALUE_POINTER(*arg) = waveview->sourcefile_length_function; break; case ARG_PEAK_FUNCTION: GTK_VALUE_POINTER(*arg) = waveview->peak_function; break; case ARG_GAIN_FUNCTION: GTK_VALUE_POINTER(*arg) = waveview->gain_curve_function; break; case ARG_GAIN_SRC: GTK_VALUE_POINTER(*arg) = waveview->gain_src; break; case ARG_CACHE: GTK_VALUE_POINTER(*arg) = waveview->cache; break; case ARG_CACHE_UPDATER: GTK_VALUE_BOOL(*arg) = waveview->cache_updater; break; case ARG_SAMPLES_PER_PIXEL: GTK_VALUE_DOUBLE(*arg) = waveview->samples_per_unit; break; case ARG_AMPLITUDE_ABOVE_AXIS: GTK_VALUE_DOUBLE(*arg) = waveview->amplitude_above_axis; break; case ARG_X: GTK_VALUE_DOUBLE (*arg) = waveview->x; break; case ARG_Y: GTK_VALUE_DOUBLE (*arg) = waveview->y; break; case ARG_HEIGHT: GTK_VALUE_DOUBLE (*arg) = waveview->height; break; case ARG_WAVE_COLOR: GTK_VALUE_INT (*arg) = waveview->wave_color; break; case ARG_RECTIFIED: GTK_VALUE_BOOL (*arg) = waveview->rectified; case ARG_REGION_START: GTK_VALUE_UINT (*arg) = waveview->region_start; default: arg->type = GTK_TYPE_INVALID; break; } } static void gnome_canvas_waveview_update (GnomeCanvasItem *item, double *affine, ArtSVP *clip_path, int flags) { GnomeCanvasWaveView *waveview; double x, y; waveview = GNOME_CANVAS_WAVEVIEW (item); // check_cache (waveview, "start of update"); if (parent_class->update) (* parent_class->update) (item, affine, clip_path, flags); gnome_canvas_waveview_reset_bounds (item); /* get the canvas coordinates of the view. Do NOT use affines for this, because they do not round to the integer units used by the canvas, resulting in subtle pixel-level errors later. */ x = waveview->x; y = waveview->y; gnome_canvas_item_i2w (item, &x, &y); gnome_canvas_w2c (GNOME_CANVAS(item->canvas), x, y, &waveview->bbox_ulx, &waveview->bbox_uly); waveview->samples = waveview->length_function (waveview->data_src); x = waveview->x + (waveview->samples / waveview->samples_per_unit); y = waveview->y + waveview->height; gnome_canvas_item_i2w (item, &x, &y); gnome_canvas_w2c (GNOME_CANVAS(item->canvas), x, y, &waveview->bbox_lrx, &waveview->bbox_lry); /* cache the half-height and the end point in canvas units */ waveview->half_height = waveview->height / 2.0; /* parse the color */ UINT_TO_RGBA (waveview->wave_color, &waveview->wave_r, &waveview->wave_g, &waveview->wave_b, &waveview->wave_a); // check_cache (waveview, "end of update"); } static void gnome_canvas_waveview_render (GnomeCanvasItem *item, GnomeCanvasBuf *buf) { GnomeCanvasWaveView *waveview; gulong s1, s2; int clip_length = 0; int pymin, pymax; int cache_index; double half_height; int x, end, begin; waveview = GNOME_CANVAS_WAVEVIEW (item); // check_cache (waveview, "start of render"); if (parent_class->render) { (*parent_class->render) (item, buf); } if (buf->is_bg) { gnome_canvas_buf_ensure_buf (buf); buf->is_bg = FALSE; } begin = MAX(waveview->bbox_ulx,buf->rect.x0); if (waveview->bbox_lrx >= 0) { end = MIN(waveview->bbox_lrx,buf->rect.x1); } else { end = buf->rect.x1; } if (begin == end) { return; } s1 = floor ((begin - waveview->bbox_ulx) * waveview->samples_per_unit) ; // fprintf (stderr, "0x%x begins at sample %f\n", waveview, waveview->bbox_ulx * waveview->samples_per_unit); if (end == waveview->bbox_lrx) { /* This avoids minor rounding errors when we have the entire region visible. */ s2 = waveview->samples; } else { s2 = s1 + floor ((end - begin) * waveview->samples_per_unit); } #if 0 printf ("0x%x r (%d..%d)(%d..%d) bbox (%d..%d)(%d..%d)" " b/e %d..%d s= %lu..%lu\n", waveview, buf->rect.x0, buf->rect.x1, buf->rect.y0, buf->rect.y1, waveview->bbox_ulx, waveview->bbox_lrx, waveview->bbox_uly, waveview->bbox_lry, begin, end, s1, s2); #endif /* now ensure that the cache is full and properly positioned. */ // check_cache (waveview, "pre-ensure"); if (waveview->cache_updater && waveview->reload_cache_in_render) { waveview->cache->start = 0; waveview->cache->end = 0; waveview->reload_cache_in_render = FALSE; } cache_index = gnome_canvas_waveview_ensure_cache (waveview, s1, s2); // check_cache (waveview, "post-ensure"); /* Now draw each line, clipping it appropriately. The clipping is done by the macros PAINT_FOO(). */ half_height = waveview->half_height; /* this makes it slightly easier to comprehend whats going on */ #define origin half_height for (x = begin; x < end; x++) { double max, min; int clip_max, clip_min; clip_max = 0; clip_min = 0; max = waveview->cache->data[cache_index].max; min = waveview->cache->data[cache_index].min; if (max >= 1.0) { max = 1.0; clip_max = 1; } if (min <= -1.0) { min = -1.0; clip_min = 1; } /* don't rectify at single-sample zoom */ if (waveview->rectified && waveview->samples_per_unit > 1) { if (fabs (min) > fabs (max)) { max = fabs (min); } max = max * waveview->height; pymax = (int) rint ((item->y1 + waveview->height - max) * item->canvas->pixels_per_unit); pymin = (int) rint ((item->y1 + waveview->height) * item->canvas->pixels_per_unit); } else { max = max * half_height; min = min * half_height; pymax = (int) rint ((item->y1 + origin - max) * item->canvas->pixels_per_unit); pymin = (int) rint ((item->y1 + origin - min) * item->canvas->pixels_per_unit); } /* OK, now fill the RGB buffer at x=i with a line between pymin and pymax, or, if samples_per_unit == 1, then a dot at each location. */ if (pymax == pymin) { PAINT_DOTA(buf, waveview->wave_r, waveview->wave_g, waveview->wave_b, waveview->wave_a, x, pymin); } else { PAINT_VERTA(buf, waveview->wave_r, waveview->wave_g, waveview->wave_b, waveview->wave_a, x, pymax, pymin); } /* show clipped waveforms with small red lines */ if (clip_max || clip_min) { clip_length = MIN(5,(waveview->height/4)); } if (clip_max) { PAINT_VERT(buf, 255, 0, 0, x, pymax, pymax+clip_length); } if (clip_min) { PAINT_VERT(buf, 255, 0, 0, x, pymin-clip_length, pymin); } /* presto, we're done */ cache_index++; } #undef origin } static void gnome_canvas_waveview_draw (GnomeCanvasItem *item, GdkDrawable *drawable, int x, int y, int width, int height) { GnomeCanvasWaveView *waveview; waveview = GNOME_CANVAS_WAVEVIEW (item); if (parent_class->draw) { (* parent_class->draw) (item, drawable, x, y, width, height); } fprintf (stderr, "please don't use the CanvasWaveView item in a non-aa Canvas\n"); abort (); } static void gnome_canvas_waveview_bounds (GnomeCanvasItem *item, double *x1, double *y1, double *x2, double *y2) { GnomeCanvasWaveView *waveview = GNOME_CANVAS_WAVEVIEW (item); *x1 = waveview->x; *y1 = waveview->y; *x2 = ceil (*x1 + (waveview->length_function (waveview->data_src) / waveview->samples_per_unit)); *y2 = *y1 + waveview->height; #if 0 x = 0; y = 0; gnome_canvas_item_i2w (item, &x, &y); gnome_canvas_w2c_d (GNOME_CANVAS(item->canvas), x, y, &a, &b); x = *x2; y = *y2; gnome_canvas_item_i2w (item, &x, &y); gnome_canvas_w2c_d (GNOME_CANVAS(item->canvas), x, y, &c, &d); printf ("item bounds now (%g,%g),(%g,%g)\n", a, b, c, d); #endif } static double gnome_canvas_waveview_point (GnomeCanvasItem *item, double x, double y, int cx, int cy, GnomeCanvasItem **actual_item) { /* XXX for now, point is never inside the wave GnomeCanvasWaveView *waveview; double x1, y1, x2, y2; double dx, dy; */ return DBL_MAX; #if 0 waveview = GNOME_CANVAS_WAVEVIEW (item); *actual_item = item; /* Find the bounds for the rectangle plus its outline width */ gnome_canvas_waveview_bounds (item, &x1, &y1, &x2, &y2); /* Is point inside rectangle */ if ((x >= x1) && (y >= y1) && (x <= x2) && (y <= y2)) { return 0.0; } /* Point is outside rectangle */ if (x < x1) dx = x1 - x; else if (x > x2) dx = x - x2; else dx = 0.0; if (y < y1) dy = y1 - y; else if (y > y2) dy = y - y2; else dy = 0.0; return sqrt (dx * dx + dy * dy); #endif }