#include "bcsignals.h"
#include "bccolors.h"
+#include "boxblur.h"
#include "clip.h"
#include "cursors.h"
+#include "file.h"
+#include "filesystem.h"
#include "language.h"
+#include "overlayframe.h"
#include "scopewindow.h"
#include "theme.h"
this->gui = gui;
}
-#define BPP 3
-#define incr_point(rows,h, n, comp) \
-if(iy >= 0 && iy < h) { int v; \
- uint8_t *vp = rows[iy] + ix*BPP + (comp); \
- v = *vp+(n); *vp = v>0xff ? 0xff : v; \
+#define SCOPE_SEARCHPATH "/scopes"
+
+#define incr_point(rows,h, iv,comp) { \
+if(iy >= 0 && iy < h) { \
+ uint8_t *vp = rows[iy] + ix*3 + (comp); \
+ int v = *vp+(iv); *vp = v>0xff ? 0xff : v; } \
}
-#define incr_points(rows,h, rv, gv, bv) \
-if(iy >= 0 && iy < h) { int v; \
- uint8_t *vp = rows[iy] + ix*BPP; \
- v = *vp+(rv); *vp++ = v>0xff ? 0xff : v; \
+#define incr_points(rows,h, rv,gv,bv, comps) { \
+if(iy >= 0 && iy < h) { \
+ uint8_t *vp = rows[iy] + ix*comps; \
+ int v = *vp+(rv); *vp++ = v>0xff ? 0xff : v; \
v = *vp+(gv); *vp++ = v>0xff ? 0xff : v; \
- v = *vp+(bv); *vp = v>0xff ? 0xff : v; \
+ v = *vp+(bv); *vp = v>0xff ? 0xff : v; } \
+}
+#define decr_points(rows,h, rv,gv,bv, comps) { \
+if(iy >= 0 && iy < h) { \
+ uint8_t *vp = rows[iy] + ix*comps; \
+ int v = *vp-(rv); *vp++ = v<0 ? 0 : v; \
+ v = *vp-(gv); *vp++ = v<0 ? 0 : v; \
+ v = *vp-(bv); *vp = v<0 ? 0 : v; } \
}
-#define clip_points(rows,h, rv, gv, bv) \
-if(iy >= 0 && iy < h) { int v; \
- uint8_t *vp = rows[iy] + ix*BPP; \
- v = *vp+(rv); *vp++ = v>0xff ? 0xff : v<0 ? 0 : v; \
+#define clip_points(rows,h, rv,gv,bv) { \
+if(iy >= 0 && iy < h) { \
+ uint8_t *vp = rows[iy] + ix*3; \
+ int v = *vp+(rv); *vp++ = v>0xff ? 0xff : v<0 ? 0 : v; \
v = *vp+(gv); *vp++ = v>0xff ? 0xff : v<0 ? 0 : v; \
- v = *vp+(bv); *vp = v>0xff ? 0xff : v<0 ? 0 : v; \
+ v = *vp+(bv); *vp = v>0xff ? 0xff : v<0 ? 0 : v; } \
}
#define PROCESS_PIXEL(column) { \
} \
/* Calculate waveform */ \
if(use_wave || use_wave_parade) { \
- int ix = (column) * wave_w / out_w; \
- if(ix >= 0 && ix < wave_w) { \
+ int ix = column * wave_w / dat_w; \
+ if(ix >= 0 && ix < wave_w-1) { \
if(use_wave_parade > 0) { \
ix /= 3; \
- int iy = wave_h - (int)((r - FLOAT_MIN) / \
+ int iy = wave_h - ((r - FLOAT_MIN) / \
(FLOAT_MAX - FLOAT_MIN) * wave_h); \
- incr_point(waveform_rows,wave_h, winc, 0); \
+ incr_point(waveform_rows,wave_h, winc,0); \
ix += wave_w/3; \
- iy = wave_h - (int)((g - FLOAT_MIN) / \
+ iy = wave_h - ((g - FLOAT_MIN) / \
(FLOAT_MAX - FLOAT_MIN) * wave_h); \
- incr_point(waveform_rows,wave_h, winc, 1); \
+ incr_point(waveform_rows,wave_h, winc,1); \
ix += wave_w/3; \
- iy = wave_h - (int)((b - FLOAT_MIN) / \
+ iy = wave_h - ((b - FLOAT_MIN) / \
(FLOAT_MAX - FLOAT_MIN) * wave_h); \
- incr_point(waveform_rows,wave_h, winc, 2); \
+ incr_point(waveform_rows,wave_h, winc,2); \
} \
else if(use_wave_parade < 0) { \
- int iy = wave_h - (int)((r - FLOAT_MIN) / \
+ int iy = wave_h - ((r - FLOAT_MIN) / \
(FLOAT_MAX - FLOAT_MIN) * wave_h); \
- clip_points(waveform_rows,wave_h, winc, -winc, -winc); \
- iy = wave_h - (int)((g - FLOAT_MIN) / \
+ clip_points(waveform_rows,wave_h, winc,-winc,-winc); \
+ iy = wave_h - ((g - FLOAT_MIN) / \
(FLOAT_MAX - FLOAT_MIN) * wave_h); \
- clip_points(waveform_rows,wave_h, -winc, winc, -winc); \
- iy = wave_h - (int)((b - FLOAT_MIN) / \
+ clip_points(waveform_rows,wave_h, -winc,winc,-winc); \
+ iy = wave_h - ((b - FLOAT_MIN) / \
(FLOAT_MAX - FLOAT_MIN) * wave_h); \
- clip_points(waveform_rows,wave_h, -winc, -winc, winc); \
+ clip_points(waveform_rows,wave_h, -winc,-winc,winc); \
} \
- else { int yinc = 3*winc; \
- int rinc = yinc*(r-FLOAT_MIN) / (FLOAT_MAX-FLOAT_MIN) + 3; \
- int ginc = yinc*(g-FLOAT_MIN) / (FLOAT_MAX-FLOAT_MIN) + 3; \
- int binc = yinc*(b-FLOAT_MIN) / (FLOAT_MAX-FLOAT_MIN) + 3; \
+ else { float yinc = 3*winc; \
+ float rinc = yinc*(r-FLOAT_MIN) / (FLOAT_MAX-FLOAT_MIN) + 3; \
+ float ginc = yinc*(g-FLOAT_MIN) / (FLOAT_MAX-FLOAT_MIN) + 3; \
+ float binc = yinc*(b-FLOAT_MIN) / (FLOAT_MAX-FLOAT_MIN) + 3; \
int iy = wave_h - ((intensity - FLOAT_MIN) / \
(FLOAT_MAX - FLOAT_MIN) * wave_h); \
- incr_points(waveform_rows,wave_h, rinc, ginc, binc); \
+ incr_points(waveform_rows,wave_h, rinc, ginc, binc, 3); \
} \
} \
} \
/* Calculate vectorscope */ \
- if(use_vector) { \
- float th = 90 - h; \
- if( th < 0 ) th += 360; \
- double t = TO_RAD(th); \
- float adjacent = -cos(t), opposite = sin(t); \
- int ix = vector_w / 2 + adjacent * (s) / (FLOAT_MAX) * radius; \
- int iy = vector_h / 2 - opposite * (s) / (FLOAT_MAX) * radius; \
+ if(use_vector > 0) { \
+ double t = TO_RAD(-h); \
+ float adjacent = sin(t), opposite = cos(t); \
+ int ix = vector_cx + adjacent * (s) / (FLOAT_MAX) * radius; \
+ int iy = vector_cy - opposite * (s) / (FLOAT_MAX) * radius; \
CLAMP(ix, 0, vector_w - 1); \
- /* Get color with full saturation & value */ \
- float r_f, g_f, b_f; \
- if( (h=h-90) < 0 ) h += 360; \
- HSV::hsv_to_rgb(r_f, g_f, b_f, h, s, 1); \
- int rv = CLIP(r_f, 0, 1) * vinc + 3; \
- int gv = CLIP(g_f, 0, 1) * vinc + 3; \
- int bv = CLIP(b_f, 0, 1) * vinc + 3; \
- incr_points(vector_rows,vector_h, rv, gv, bv); \
+ HSV::hsv_to_rgb(r, g, b, h, s, vincf); \
+ int rv = r + 3; \
+ int gv = g + 3; \
+ int bv = b + 3; \
+ incr_points(vector_rows,vector_h, rv,gv,bv, 4); \
+ } \
+ else if(use_vector < 0) { \
+ double t = TO_RAD(-h); \
+ float adjacent = sin(t), opposite = cos(t); \
+ int ix = vector_cx + adjacent * (s) / (FLOAT_MAX) * radius; \
+ int iy = vector_cy - opposite * (s) / (FLOAT_MAX) * radius; \
+ CLAMP(ix, 0, vector_w - 1); \
+ decr_points(vector_rows,vector_h, vinc,vinc,vinc, 4); \
} \
}
-#define PROCESS_RGB_PIXEL(column, max) { \
- r = (float)*row++ / max; \
- g = (float)*row++ / max; \
- b = (float)*row++ / max; \
+#define PROCESS_RGB_PIXEL(type,max, column) { \
+ type *rp = (type *)row; \
+ r = (float)rp[0] / max; \
+ g = (float)rp[1] / max; \
+ b = (float)rp[2] / max; \
HSV::rgb_to_hsv(r, g, b, h, s, v); \
intensity = v; \
PROCESS_PIXEL(column) \
}
-#define PROCESS_BGR_PIXEL(column, max) { \
- b = (float)*row++ / max; \
- g = (float)*row++ / max; \
- r = (float)*row++ / max; \
+#define PROCESS_BGR_PIXEL(type,max, column) { \
+ type *rp = (type *)row; \
+ b = (float)rp[0] / max; \
+ g = (float)rp[1] / max; \
+ r = (float)rp[2] / max; \
HSV::rgb_to_hsv(r, g, b, h, s, v); \
intensity = v; \
PROCESS_PIXEL(column) \
int use_vector = gui->use_vector;
int use_wave = gui->use_wave;
int use_wave_parade = gui->use_wave_parade;
+ int vector_cx = gui->vector_cx;
+ int vector_cy = gui->vector_cy;
+ int radius = gui->radius;
VFrame *waveform_vframe = gui->waveform_vframe;
VFrame *vector_vframe = gui->vector_vframe;
int wave_h = waveform_vframe->get_h();
int wave_w = waveform_vframe->get_w();
int vector_h = vector_vframe->get_h();
int vector_w = vector_vframe->get_w();
- int out_w = gui->output_frame->get_w();
- int out_h = gui->output_frame->get_h();
- int winc = (wave_w * wave_h) / (out_w * out_h);
+ int dat_w = gui->data_frame->get_w();
+ int dat_h = gui->data_frame->get_h();
+ int winc = (wave_w * wave_h) / (dat_w * dat_h);
if( use_wave_parade ) winc *= 3;
- winc += 2; winc *= gui->wdial;
- int vinc = 3*(vector_w * vector_h) / (out_w * out_h) + 2;
- vinc *= gui->vdial;
- float radius = MIN(gui->vector_w / 2, gui->vector_h / 2);
- unsigned char **waveform_rows = waveform_vframe->get_rows();
- unsigned char **vector_rows = vector_vframe->get_rows();
- unsigned char **rows = gui->output_frame->get_rows();
-
- switch( gui->output_frame->get_color_model() ) {
+ winc += 2; winc = (winc << gui->use_wave_gain) / 4;
+ int vinc = 3*(vector_w * vector_h) / (dat_w * dat_h);
+ vinc += 2; vinc = (vinc << gui->use_vect_gain) / 4;
+ float vincf = vinc;
+ uint8_t **waveform_rows = waveform_vframe->get_rows();
+ uint8_t **vector_rows = vector_vframe->get_rows();
+ uint8_t **rows = gui->data_frame->get_rows();
+
+ switch( gui->data_frame->get_color_model() ) {
case BC_RGB888:
for( int y=pkg->row1; y<pkg->row2; ++y ) {
- unsigned char *row = rows[y];
- for( int x=0; x<out_w; ++x ) {
- PROCESS_RGB_PIXEL(x, 255)
+ uint8_t *row = rows[y];
+ for( int x=0; x<dat_w; ++x ) {
+ PROCESS_RGB_PIXEL(uint8_t,0xff, x)
+ row += 3*sizeof(uint8_t);
}
}
break;
case BC_RGBA8888:
for( int y=pkg->row1; y<pkg->row2; ++y ) {
- unsigned char *row = rows[y];
- for( int x=0; x<out_w; ++x ) {
- PROCESS_RGB_PIXEL(x, 255)
- ++row;
+ uint8_t *row = rows[y];
+ for( int x=0; x<dat_w; ++x ) {
+ PROCESS_RGB_PIXEL(uint8_t,0xff, x)
+ row += 4*sizeof(uint8_t);
+ }
+ }
+ break;
+ case BC_RGB161616:
+ for( int y=pkg->row1; y<pkg->row2; ++y ) {
+ uint8_t *row = rows[y];
+ for( int x=0; x<dat_w; ++x ) {
+ PROCESS_RGB_PIXEL(uint16_t,0xffff, x)
+ row += 3*sizeof(uint16_t);
+ }
+ }
+ break;
+ case BC_RGBA16161616:
+ for( int y=pkg->row1; y<pkg->row2; ++y ) {
+ uint8_t *row = rows[y];
+ for( int x=0; x<dat_w; ++x ) {
+ PROCESS_RGB_PIXEL(uint16_t,0xffff, x)
+ row += 4*sizeof(uint16_t);
}
}
break;
case BC_BGR888:
for( int y=pkg->row1; y<pkg->row2; ++y ) {
- unsigned char *row = rows[y];
- for( int x=0; x<out_w; ++x ) {
- PROCESS_BGR_PIXEL(x, 255)
+ uint8_t *row = rows[y];
+ for( int x=0; x<dat_w; ++x ) {
+ PROCESS_BGR_PIXEL(uint8_t,0xff, x)
+ row += 3*sizeof(uint8_t);
}
}
break;
case BC_BGR8888:
for( int y=pkg->row1; y<pkg->row2; ++y ) {
- unsigned char *row = rows[y];
- for( int x=0; x<out_w; ++x ) {
- PROCESS_BGR_PIXEL(x, 255)
- ++row;
+ uint8_t *row = rows[y];
+ for( int x=0; x<dat_w; ++x ) {
+ PROCESS_BGR_PIXEL(uint8_t,0xff, x)
+ row += 4*sizeof(uint8_t);
}
}
break;
case BC_RGB_FLOAT:
for( int y=pkg->row1; y<pkg->row2; ++y ) {
- float *row = (float*)rows[y];
- for( int x=0; x<out_w; ++x ) {
- PROCESS_RGB_PIXEL(x, 1.0)
+ uint8_t *row = rows[y];
+ for( int x=0; x<dat_w; ++x ) {
+ PROCESS_RGB_PIXEL(float,1.f, x)
+ row += 3*sizeof(float);
}
}
break;
case BC_RGBA_FLOAT:
for( int y=pkg->row1; y<pkg->row2; ++y ) {
- float *row = (float*)rows[y];
- for( int x=0; x<out_w; ++x ) {
- PROCESS_RGB_PIXEL(x, 1.0)
- ++row;
+ uint8_t *row = rows[y];
+ for( int x=0; x<dat_w; ++x ) {
+ PROCESS_RGB_PIXEL(float,1.f, x)
+ row += 4*sizeof(float);
}
}
break;
case BC_YUV888:
for( int y=pkg->row1; y<pkg->row2; ++y ) {
- unsigned char *row = rows[y];
- for( int x=0; x<out_w; ++x ) {
+ uint8_t *row = rows[y];
+ for( int x=0; x<dat_w; ++x ) {
PROCESS_YUV_PIXEL(x, row[0], row[1], row[2])
- row += 3;
+ row += 3*sizeof(uint8_t);
}
}
break;
case BC_YUVA8888:
for( int y=pkg->row1; y<pkg->row2; ++y ) {
- unsigned char *row = rows[y];
- for( int x=0; x<out_w; ++x ) {
+ uint8_t *row = rows[y];
+ for( int x=0; x<dat_w; ++x ) {
PROCESS_YUV_PIXEL(x, row[0], row[1], row[2])
- row += 4;
+ row += 4*sizeof(uint8_t);
}
}
break;
case BC_YUV420P: {
- unsigned char *yp = gui->output_frame->get_y();
- unsigned char *up = gui->output_frame->get_u();
- unsigned char *vp = gui->output_frame->get_v();
+ uint8_t *yp = gui->data_frame->get_y();
+ uint8_t *up = gui->data_frame->get_u();
+ uint8_t *vp = gui->data_frame->get_v();
for( int y=pkg->row1; y<pkg->row2; ++y ) {
- unsigned char *y_row = yp + y * out_w;
- unsigned char *u_row = up + (y / 2) * (out_w / 2);
- unsigned char *v_row = vp + (y / 2) * (out_w / 2);
- for( int x=0; x<out_w; x+=2 ) {
+ uint8_t *y_row = yp + y * dat_w;
+ uint8_t *u_row = up + (y / 2) * (dat_w / 2);
+ uint8_t *v_row = vp + (y / 2) * (dat_w / 2);
+ for( int x=0; x<dat_w; x+=2 ) {
PROCESS_YUV_PIXEL(x, *y_row, *u_row, *v_row);
++y_row;
PROCESS_YUV_PIXEL(x + 1, *y_row, *u_row, *v_row);
- ++y_row;
- ++u_row; ++v_row;
+ ++y_row; ++u_row; ++v_row;
}
}
break; }
case BC_YUV422:
for( int y=pkg->row1; y<pkg->row2; ++y ) {
- unsigned char *row = rows[y];
- for( int x=0; x<out_w; x+=2 ) {
+ uint8_t *row = rows[y];
+ for( int x=0; x<dat_w; x+=2 ) {
PROCESS_YUV_PIXEL(x, row[0], row[1], row[3]);
PROCESS_YUV_PIXEL(x + 1, row[2], row[1], row[3]);
- row += 4;
+ row += 4*sizeof(uint8_t);
}
}
break;
default:
printf("ScopeUnit::process_package %d: color_model=%d unrecognized\n",
- __LINE__, gui->output_frame->get_color_model());
+ __LINE__, gui->data_frame->get_color_model());
break;
}
}
void ScopeEngine::init_packages()
{
- int y = 0, h = gui->output_frame->get_h();
+ int y = 0, h = gui->data_frame->get_h();
for( int i=0,n=LoadServer::get_total_packages(); i<n; ) {
ScopePackage *pkg = (ScopePackage*)get_package(i);
pkg->row1 = y;
{
delete waveform_vframe;
delete vector_vframe;
+ delete wheel_vframe;
delete engine;
+ delete box_blur;
+ delete temp_frame;
+ delete wave_slider;
+ delete vect_slider;
+ delete grat_image;
+ delete overlay;
}
void ScopeGUI::reset()
{
- frame_w = 1;
waveform_vframe = 0;
vector_vframe = 0;
+ wheel_vframe = 0;
engine = 0;
+ box_blur = 0;
+ temp_frame = 0;
+ wave_slider = 0;
+ vect_slider = 0;
+ grat_image = 0;
+ overlay = 0;
+ grat_idx = 0;
+ settings = 0;
+
+ output_frame = 0;
+ data_frame = 0;
+ frame_w = 1;
+ use_smooth = 1;
+ use_refresh = 0;
+ use_release = 0;
+ use_wave_gain = 5;
+ use_vect_gain = 5;
use_hist = 0;
use_wave = 1;
use_vector = 1;
use_hist_parade = 0;
use_wave_parade = 0;
+ use_graticule = 0;
waveform = 0;
vectorscope = 0;
histogram = 0;
- wave_w = wave_h = vector_w = vector_h = 0;
- wdial = vdial = 5.f;
+ wave_w = wave_h = 0;
+ vector_w = vector_h = 0;
+ vector_cx = vector_cy = 0;
+ radius = 0;
+ text_color = GREEN;
+ dark_color = (text_color>>2) & 0x3f3f3f;
+ BC_Resources *resources = BC_WindowBase::get_resources();
+ if( resources->bg_color == 0xffffff )
+ text_color = dark_color;
}
-
void ScopeGUI::create_objects()
{
if( use_hist && use_hist_parade )
if( use_wave && use_wave_parade )
use_wave = 0;
if( !engine ) engine = new ScopeEngine(this, cpus);
+ grat_idx = use_graticule; // last graticule
+ use_graticule = 0;
lock_window("ScopeGUI::create_objects");
- int x = theme->widget_border;
- int y = theme->widget_border +
- ScopeWaveDial::calculate_h() - ScopeMenu::calculate_h();
+ int margin = theme->widget_border;
+ int x = margin, y = margin;
add_subwindow(scope_menu = new ScopeMenu(this, x, y));
scope_menu->create_objects();
- x += scope_menu->get_w() + theme->widget_border;
- add_subwindow(value_text = new BC_Title(x, y, ""));
+ int x1 = x + scope_menu->get_w() + 2*margin;
+ add_subwindow(settings = new ScopeSettings(this, x1, y));
+ settings->create_objects();
create_panels();
update_toggles();
void ScopeGUI::create_panels()
{
calculate_sizes(get_w(), get_h());
+ int slider_w = xS(100);
if( (use_wave || use_wave_parade) ) {
- int px = wave_x + wave_w - ScopeWaveDial::calculate_w() - xS(5);
- int py = wave_y - ScopeWaveDial::calculate_h() - yS(5);
+ int px = wave_x + wave_w - slider_w - xS(5);
+ int py = wave_y - ScopeGain::calculate_h() - yS(5);
if( !waveform ) {
add_subwindow(waveform = new ScopeWaveform(this,
wave_x, wave_y, wave_w, wave_h));
waveform->create_objects();
- add_subwindow(wave_dial = new ScopeWaveDial(this, px, py));
+ wave_slider = new ScopeWaveSlider(this, px, py, slider_w);
+ wave_slider->create_objects();
}
else {
waveform->reposition_window(
wave_x, wave_y, wave_w, wave_h);
waveform->clear_box(0, 0, wave_w, wave_h);
- wave_dial->reposition_window(px, py);
+ wave_slider->reposition_window(px, py);
}
}
else if( !(use_wave || use_wave_parade) && waveform ) {
- delete waveform; waveform = 0;
- delete wave_dial; wave_dial = 0;
+ delete waveform; waveform = 0;
+ delete wave_slider; wave_slider = 0;
}
if( use_vector ) {
- int vx = vector_x + vector_w - ScopeVectDial::calculate_w() - xS(5);
- int vy = vector_y - ScopeVectDial::calculate_h() - yS(5);
+ int vx = vector_x + vector_w - slider_w - xS(5);
+ int vy = vector_y - ScopeGain::calculate_h() - yS(5);
if( !vectorscope ) {
add_subwindow(vectorscope = new ScopeVectorscope(this,
vector_x, vector_y, vector_w, vector_h));
vectorscope->create_objects();
- add_subwindow(vect_dial = new ScopeVectDial(this, vx, vy));
+ vect_slider = new ScopeVectSlider(this, vx, vy, slider_w);
+ vect_slider->create_objects();
}
else {
vectorscope->reposition_window(
vector_x, vector_y, vector_w, vector_h);
vectorscope->clear_box(0, 0, vector_w, vector_h);
- vect_dial->reposition_window(vx, vy);
+ vect_slider->reposition_window(vx, vy);
}
}
else if( !use_vector && vectorscope ) {
delete vectorscope; vectorscope = 0;
- delete vect_dial; vect_dial = 0;
+ delete vect_slider; vect_slider = 0;
}
if( (use_hist || use_hist_parade) ) {
void ScopeGUI::calculate_sizes(int w, int h)
{
int margin = theme->widget_border;
- int menu_h = ScopeWaveDial::calculate_h() + margin * 2;
+ int menu_h = scope_menu->get_h() + ScopeGain::calculate_h() + margin * 3;
int text_w = get_text_width(SMALLFONT, "000") + margin * 2;
int total_panels = ((use_hist || use_hist_parade) ? 1 : 0) +
((use_wave || use_wave_parade) ? 1 : 0) +
if( vector_w > vector_h ) {
vector_w = vector_h;
- vector_x = w - theme->widget_border - vector_w;
+ vector_x = w - margin - vector_w;
}
--total_panels;
if(total_panels > 0)
panel_w = (vector_x - text_w - margin) / total_panels;
}
+ vector_cx = vector_w / 2;
+ vector_cy = vector_h / 2;
+ radius = bmin(vector_cx, vector_cy);
// Histogram is always 1st panel
if( use_hist || use_hist_parade ) {
{
if(waveform_vframe) delete waveform_vframe;
if(vector_vframe) delete vector_vframe;
+ if(wheel_vframe) delete wheel_vframe;
int w, h;
//printf("ScopeGUI::allocate_vframes %d %d %d %d %d\n", __LINE__,
waveform_vframe = new VFrame(w, h, BC_RGB888);
w = MAX(vector_w, xs16);
h = MAX(vector_h, ys16);
- vector_vframe = new VFrame(w, h, BC_RGB888);
+ vector_vframe = new VFrame(w, h, BC_RGBA8888);
+ vector_vframe->set_clear_color(BLACK, 0xff);
+ wheel_vframe = 0;
}
this->w = w;
this->h = h;
calculate_sizes(w, h);
+ int margin = theme->widget_border;
if( waveform ) {
waveform->reposition_window(wave_x, wave_y, wave_w, wave_h);
waveform->clear_box(0, 0, wave_w, wave_h);
- int px = wave_x + wave_w - ScopeWaveDial::calculate_w() - xS(5);
- int py = wave_y - ScopeWaveDial::calculate_h() - yS(5);
- wave_dial->reposition_window(px, py);
+ int px = wave_x + wave_w - wave_slider->get_w() - margin;
+ int py = wave_y - wave_slider->get_h() - margin;
+ wave_slider->reposition_window(px, py);
}
if( histogram ) {
if( vectorscope ) {
vectorscope->reposition_window(vector_x, vector_y, vector_w, vector_h);
vectorscope->clear_box(0, 0, vector_w, vector_h);
- int vx = vector_x + vector_w - ScopeVectDial::calculate_w() - xS(5);
- int vy = vector_y - ScopeVectDial::calculate_h() - yS(5);
- vect_dial->reposition_window(vx, vy);
+ int vx = vector_x + vector_w - vect_slider->get_w() - margin;
+ int vy = vector_y - vect_slider->get_h() - margin;
+ vect_slider->reposition_window(vx, vy);
}
allocate_vframes();
clear_points(0);
- update_scope();
draw_overlays(1, 1, 1);
+ update_scope();
return 1;
}
void ScopeGUI::draw_overlays(int overlays, int borders, int flush)
{
- BC_Resources *resources = BC_WindowBase::get_resources();
- int text_color = GREEN;
- int dark_color = (text_color>>2) & 0x3f3f3f;
- if( resources->bg_color == 0xffffff ) {
- text_color = dark_color;
- }
-
+ int margin = theme->widget_border;
if( overlays && borders ) {
clear_box(0, 0, get_w(), get_h());
}
char string[BCTEXTLEN];
sprintf(string, "%d", (int)lround((FLOAT_MAX -
i * (FLOAT_MAX - FLOAT_MIN) / WAVEFORM_DIVISIONS) * 100));
- int text_x = wave_x - get_text_width(SMALLFONT, string) - theme->widget_border;
+ int text_x = wave_x - get_text_width(SMALLFONT, string) - margin;
set_color(text_color);
draw_text(text_x, text_y, string);
CLAMP(y, 0, waveform->get_h() - 1);
}
// Vectorscope overlay
if( vectorscope && use_vector ) {
- set_line_dashes(1);
- int radius = MIN(vector_w / 2, vector_h / 2);
- for( int i=1; i<=VECTORSCOPE_DIVISIONS; i+=2 ) {
- int y = vector_h / 2 - radius * i / VECTORSCOPE_DIVISIONS;
- int text_y = y + vector_y + get_text_ascent(SMALLFONT) / 2;
- set_color(text_color);
- char string[BCTEXTLEN];
- sprintf(string, "%d",
- (int)((FLOAT_MAX / VECTORSCOPE_DIVISIONS * i) * 100));
- int text_x = vector_x - get_text_width(SMALLFONT, string) - theme->widget_border;
- draw_text(text_x, text_y, string);
- int x = vector_w / 2 - radius * i / VECTORSCOPE_DIVISIONS;
- int w = radius * i / VECTORSCOPE_DIVISIONS * 2;
- int h = radius * i / VECTORSCOPE_DIVISIONS * 2;
- if( i+2 > VECTORSCOPE_DIVISIONS )
- set_line_dashes(0);
- set_color(dark_color);
- vectorscope->draw_circle(x, y, w, h);
- }
set_color(text_color);
vectorscope->draw_point();
- set_line_dashes(1);
vectorscope->flash(0);
+ set_line_dashes(1);
}
set_font(MEDIUMFONT);
if(flush) this->flush();
}
+void ScopeGUI::draw_scope()
+{
+ int graticule = use_vector < 0 ? grat_idx : 0;
+ if( grat_image && use_graticule != graticule ) {
+ delete grat_image; grat_image = 0;
+ }
+ if( !grat_image && graticule > 0 )
+ grat_image = VFramePng::vframe_png(grat_paths[graticule]);
+ if( grat_image ) {
+ if( !overlay )
+ overlay = new OverlayFrame(1);
+ int cx = vector_cx, cy = vector_cy, r = radius;
+ int iw = grat_image->get_w(), ih = grat_image->get_h();
+ overlay->overlay(vector_vframe, grat_image,
+ 0,0, iw, ih, cx-r,cy-r, cx+r, cy+r,
+ 1, TRANSFER_NORMAL, CUBIC_CUBIC);
+ }
+ use_graticule = graticule;
+ vectorscope->draw_vframe(vector_vframe);
+ if( use_vector > 0 ) {
+ int margin = theme->widget_border;
+ set_line_dashes(1);
+ for( int i=1; i<=VECTORSCOPE_DIVISIONS; i+=2 ) {
+ int y = vector_cy - radius * i / VECTORSCOPE_DIVISIONS;
+ int text_y = y + vector_y + get_text_ascent(SMALLFONT) / 2;
+ set_color(text_color);
+ char string[BCTEXTLEN];
+ sprintf(string, "%d",
+ (int)((FLOAT_MAX / VECTORSCOPE_DIVISIONS * i) * 100));
+ int text_x = vector_x - get_text_width(SMALLFONT, string) - margin;
+ draw_text(text_x, text_y, string);
+ int x = vector_cx - radius * i / VECTORSCOPE_DIVISIONS;
+ int w = radius * i / VECTORSCOPE_DIVISIONS * 2;
+ int h = radius * i / VECTORSCOPE_DIVISIONS * 2;
+ if( i+2 > VECTORSCOPE_DIVISIONS )
+ set_line_dashes(0);
+ set_color(dark_color);
+ vectorscope->draw_circle(x, y, w, h);
+ }
+ float th = TO_RAD(90 + 32.875);
+ vectorscope->draw_radient(th, 0.1f, .75f, dark_color);
+ }
+}
+
+
+void ScopeGUI::update_graticule(int idx)
+{
+ grat_idx = idx;
+ update_scope();
+ toggle_event();
+}
+
+void ScopeGUI::draw_colorwheel(VFrame *dst, int bg_color)
+{
+// downfactor radius to prevent extreme edge from showing behind graticule
+ float cx = vector_cx, cy = vector_cy, rad = radius * 0.99;
+ int color_model = dst->get_color_model();
+ int bpp = BC_CModels::calculate_pixelsize(color_model);
+ int bg_r = (bg_color>>16) & 0xff;
+ int bg_g = (bg_color>> 8) & 0xff;
+ int bg_b = (bg_color>> 0) & 0xff;
+ int w = dst->get_w(), h = dst->get_h();
+ unsigned char **rows = dst->get_rows();
+ for( int y=0; y<h; ++y ) {
+ unsigned char *row = rows[y];
+ for( int x=0; x<w; ++x,row+=bpp ) {
+ int dx = cx-x, dy = cy-y;
+ float d = sqrt(dx*dx + dy*dy);
+ float r, g, b;
+ if( d < rad ) {
+ float h = TO_DEG(atan2(cx-x, cy-y));
+ if( h < 0 ) h += 360;
+ float s = d / rad, v = 255;
+ HSV::hsv_to_rgb(r, g, b, h, s, v);
+ }
+ else {
+ r = bg_r; g = bg_g; b = bg_b;
+ }
+ row[0] = r; row[1] = g; row[2] = b; row[3] = 0xff;
+ }
+ }
+}
void ScopeGUI::process(VFrame *output_frame)
{
lock_window("ScopeGUI::process");
this->output_frame = output_frame;
- frame_w = output_frame->get_w();
- //float radius = MIN(vector_w / 2, vector_h / 2);
+ int ow = output_frame->get_w(), oh = output_frame->get_h();
+ if( use_smooth ) {
+ VFrame::get_temp(temp_frame, ow, oh, BC_RGB161616);
+ temp_frame->transfer_from(output_frame);
+ if( !box_blur ) box_blur = new BoxBlur(cpus);
+ box_blur->blur(temp_frame, temp_frame, 2, 2);
+ data_frame = temp_frame;
+ }
+ else
+ data_frame = output_frame;
+ frame_w = data_frame->get_w();
bzero(waveform_vframe->get_data(), waveform_vframe->get_data_size());
- bzero(vector_vframe->get_data(), vector_vframe->get_data_size());
+ if( use_vector > 0 )
+ vector_vframe->clear_frame();
+ else if( use_vector < 0 ) {
+ if( wheel_vframe && (
+ wheel_vframe->get_w() != vector_w ||
+ wheel_vframe->get_h() != vector_h ) ) {
+ delete wheel_vframe; wheel_vframe = 0;
+ }
+ if( !wheel_vframe ) {
+ wheel_vframe = new VFrame(vector_w, vector_h, BC_RGBA8888);
+ draw_colorwheel(wheel_vframe, BLACK);
+ }
+ vector_vframe->copy_from(wheel_vframe);
+ }
engine->process();
if( histogram )
histogram->draw(0, 0);
if( waveform )
- waveform->draw_vframe(waveform_vframe, 1, 0, 0);
+ waveform->draw_vframe(waveform_vframe);
if( vectorscope )
- vectorscope->draw_vframe(vector_vframe, 1, 0, 0);
+ draw_scope();
draw_overlays(1, 0, 1);
unlock_window();
void ScopeGUI::update_toggles()
{
scope_menu->update_toggles();
+ settings->update_toggles();
}
ScopePanel::ScopePanel(ScopeGUI *gui, int x, int y, int w, int h)
{
if( is_dragging ) {
is_dragging = 0;
+ hide_tooltip();
return 1;
}
return 0;
float value = ((float)get_h() - y) / get_h() * (FLOAT_MAX - FLOAT_MIN) + FLOAT_MIN;
char string[BCTEXTLEN];
sprintf(string, "X: %d Value: %.3f", frame_x, value);
- gui->value_text->update(string, 0);
+ show_tooltip(string);
draw_point();
flash(1);
{
// Hide it
draw_point();
-
- int radius = MIN(get_w() / 2, get_h() / 2);
- drag_radius = sqrt(SQR(x - get_w() / 2) + SQR(y - get_h() / 2));
- drag_angle = atan2(y - get_h() / 2, x - get_w() / 2);
-
- drag_radius = MIN(drag_radius, radius);
-
- float saturation = (float)drag_radius / radius * FLOAT_MAX;
- float hue = -drag_angle * 360 / 2 / M_PI - 90;
+ int dx = x - gui->vector_cx, dy = y - gui->vector_cy;
+ drag_radius = sqrt(dx*dx + dy*dy);
+ if( drag_radius > gui->radius ) drag_radius = gui->radius;
+ float saturation = (float)drag_radius / gui->radius * FLOAT_MAX;
+ drag_angle = atan2(-dy, dx);
+ float hue = TO_DEG(drag_angle) - 90;
if( hue < 0 ) hue += 360;
char string[BCTEXTLEN];
sprintf(string, "Hue: %.3f Sat: %.3f", hue, saturation);
- gui->value_text->update(string, 0);
+ show_tooltip(string);
// Show it
draw_point();
void ScopeVectorscope::draw_point()
{
- if( drag_radius > 0 ) {
- int radius = MIN(get_w() / 2, get_h() / 2);
- set_inverse();
- set_color(0xff0000);
+ set_inverse();
+ draw_point(drag_angle, drag_radius, RED);
+ set_opaque();
+}
+
+void ScopeVectorscope::draw_point(float th, float r, int color)
+{
+ if( r > 0 ) {
+ set_color(color);
set_line_width(2);
- draw_circle(get_w() / 2 - drag_radius, get_h() / 2 - drag_radius,
- drag_radius * 2, drag_radius * 2);
- draw_line(get_w() / 2, get_h() / 2,
- get_w() / 2 + radius * cos(drag_angle),
- get_h() / 2 + radius * sin(drag_angle));
+ int cx = gui->vector_cx, cy = gui->vector_cy;
+ draw_circle(cx-r, cy-r, r*2, r*2);
set_line_width(1);
- set_opaque();
+ float radius = gui->radius;
+ draw_radient(th, 0.f, drag_radius/radius, color);
}
}
+void ScopeVectorscope::draw_radient(float th, float r1, float r2, int color)
+{
+ if( r2 > 0 && r2 >= r1 ) {
+ set_color(color);
+ set_line_width(2);
+ int r = gui->radius;
+ double cth = r*cos(th), sth = -r*sin(th);
+ int cx = gui->vector_cx, cy = gui->vector_cy;
+ draw_line(cx+r1*cth, cy+r1*sth, cx+r2*cth, cy+r2*sth);
+ set_line_width(1);
+ }
+}
ScopeHistogram::ScopeHistogram(ScopeGUI *gui,
char string[BCTEXTLEN];
sprintf(string, "Value: %.3f", value);
- gui->value_text->update(string, 0);
+ show_tooltip(string);
draw_point();
flash(1);
case SCOPE_VECTORSCOPE:
gui->use_vector = v;
break;
+ case SCOPE_VECTORWHEEL:
+ gui->use_vector = -v;
+ break;
}
gui->toggle_event();
gui->update_toggles();
}
ScopeMenu::ScopeMenu(ScopeGUI *gui, int x, int y)
- : BC_PopupMenu(x, y, xS(100), _("Scopes"))
+ : BC_PopupMenu(x, y, xS(110), _("Scopes"))
{
this->gui = gui;
}
new ScopeScopesOn(this, _("Histogram"), SCOPE_HISTOGRAM));
add_item(hist_rgb_on =
new ScopeScopesOn(this, _("Histogram RGB"), SCOPE_HISTOGRAM_RGB));
+ add_item(new BC_MenuItem("-"));
add_item(wave_on =
new ScopeScopesOn(this, _("Waveform"), SCOPE_WAVEFORM));
add_item(wave_rgb_on =
new ScopeScopesOn(this, _("Waveform RGB"), SCOPE_WAVEFORM_RGB));
add_item(wave_ply_on =
new ScopeScopesOn(this, _("Waveform ply"), SCOPE_WAVEFORM_PLY));
+ add_item(new BC_MenuItem("-"));
add_item(vect_on =
new ScopeScopesOn(this, _("Vectorscope"), SCOPE_VECTORSCOPE));
+ add_item(vect_wheel =
+ new ScopeScopesOn(this, _("VectorWheel"), SCOPE_VECTORWHEEL));
}
void ScopeMenu::update_toggles()
wave_on->set_checked(gui->use_wave);
wave_rgb_on->set_checked(gui->use_wave_parade>0);
wave_ply_on->set_checked(gui->use_wave_parade<0);
- vect_on->set_checked(gui->use_vector);
+ vect_on->set_checked(gui->use_vector>0);
+ vect_wheel->set_checked(gui->use_vector<0);
}
-ScopeWaveDial::ScopeWaveDial(ScopeGUI *gui, int x, int y)
- : BC_FPot(x, y, gui->wdial, 1.f, 9.f)
+
+ScopeSettingOn::ScopeSettingOn(ScopeSettings *settings, const char *text, int id)
+ : BC_MenuItem(text)
{
- this->gui = gui;
+ this->settings = settings;
+ this->id = id;
}
-int ScopeWaveDial::handle_event()
+
+int ScopeSettingOn::handle_event()
{
- gui->wdial = get_value();
+ int v = get_checked() ? 0 : 1;
+ set_checked(v);
+ ScopeGUI *gui = settings->gui;
+ switch( id ) {
+ case SCOPE_SMOOTH:
+ gui->use_smooth = v;
+ break;
+ case SCOPE_REFRESH:
+ gui->use_refresh = v;
+ gui->use_release = 0;
+ break;
+ case SCOPE_RELEASE:
+ gui->use_release = v;
+ gui->use_refresh = 0;
+ }
+ gui->toggle_event();
+ gui->update_toggles();
gui->update_scope();
+ gui->show_window();
return 1;
}
-ScopeVectDial::ScopeVectDial(ScopeGUI *gui, int x, int y)
- : BC_FPot(x, y, gui->vdial, 1.f, 9.f)
+ScopeSettings::ScopeSettings(ScopeGUI *gui, int x, int y)
+ : BC_PopupMenu(x, y, xS(150), _("Settings"))
{
this->gui = gui;
+ refresh_on = 0;
+ release_on = 0;
}
-int ScopeVectDial::handle_event()
+
+void ScopeSettings::create_objects()
{
- gui->vdial = get_value();
+ add_item(smooth_on =
+ new ScopeSettingOn(this, _("Smooth"), SCOPE_SMOOTH));
+ smooth_on->set_checked(gui->use_smooth);
+ if( gui->use_refresh >= 0 ) {
+ add_item(refresh_on =
+ new ScopeSettingOn(this, _("Refresh on Stop"), SCOPE_REFRESH));
+ add_item(release_on =
+ new ScopeSettingOn(this, _("Refresh on Release"), SCOPE_RELEASE));
+ refresh_on->set_checked(gui->use_refresh);
+ release_on->set_checked(gui->use_release);
+ }
+ add_item(new BC_MenuItem(_("-VectorWheel Grids-")));
+
+ gui->grat_paths.remove_all_objects();
+ ScopeGratItem *item;
+ add_item(item = new ScopeGratItem(this, _("None"), 0));
+ if( item->idx == gui->grat_idx ) item->set_checked(1);
+ gui->grat_paths.append(0);
+ FileSystem fs;
+ fs.set_filter("[*.png]");
+ char scope_path[BCTEXTLEN];
+ sprintf(scope_path, "%s%s", File::get_plugin_path(), SCOPE_SEARCHPATH);
+ fs.update(scope_path);
+ for( int i=0; i<fs.total_files(); ++i ) {
+ FileItem *file_item = fs.get_entry(i);
+ if( file_item->get_is_dir() ) continue;
+ strcpy(scope_path, file_item->get_name());
+ char *cp = strrchr(scope_path, '.');
+ if( cp ) *cp = 0;
+ add_item(item = new ScopeGratItem(this, scope_path, gui->grat_paths.size()));
+ if( item->idx == gui->grat_idx ) item->set_checked(1);
+ gui->grat_paths.append(cstrdup(file_item->get_path()));
+ }
+}
+
+void ScopeSettings::update_toggles()
+{
+ if( refresh_on )
+ refresh_on->set_checked(gui->use_refresh);
+ if( release_on )
+ release_on->set_checked(gui->use_release);
+}
+
+ScopeGratItem::ScopeGratItem(ScopeSettings *settings, const char *text, int idx)
+ : BC_MenuItem(text)
+{
+ this->settings = settings;
+ this->idx = idx;
+}
+
+int ScopeGratItem::handle_event()
+{
+ for( int i=0,n=settings->total_items(); i<n; ++i ) {
+ ScopeGratItem *item = (ScopeGratItem *)settings->get_item(i);
+ item->set_checked(item->idx == idx);
+ }
+ settings->gui->update_graticule(idx);
+ return 1;
+}
+
+
+ScopeGainReset::ScopeGainReset(ScopeGain *gain, int x, int y)
+ : BC_Button(x, y, gain->gui->theme->get_image_set("reset_button"))
+{
+ this->gain = gain;
+}
+
+int ScopeGainReset::calculate_w(BC_Theme *theme)
+{
+ VFrame *vfrm = *theme->get_image_set("reset_button");
+ return vfrm->get_w();
+}
+
+int ScopeGainReset::handle_event()
+{
+ gain->slider->update(5);
+ return gain->handle_event();
+}
+
+ScopeGainSlider::ScopeGainSlider(ScopeGain *gain, int x, int y, int w)
+ : BC_ISlider(x, y, 0, w, w, 1, 9, *gain->value)
+{
+ this->gain = gain;
+}
+
+int ScopeGainSlider::handle_event()
+{
+ return gain->handle_event();
+}
+
+ScopeGain::ScopeGain(ScopeGUI *gui, int x, int y, int w, int *value)
+{
+ this->gui = gui;
+ this->x = x;
+ this->y = y;
+ this->w = w;
+ this->value = value;
+
+ slider = 0;
+ reset = 0;
+}
+ScopeGain::~ScopeGain()
+{
+ delete reset;
+ delete slider;
+}
+
+int ScopeGain::calculate_h()
+{
+ return BC_ISlider::get_span(0);
+}
+
+void ScopeGain::create_objects()
+{
+ reset_w = ScopeGainReset::calculate_w(gui->theme);
+ gui->add_subwindow(slider = new ScopeGainSlider(this, x, y, w-reset_w-xS(5)));
+ gui->add_subwindow(reset = new ScopeGainReset(this, x+w-reset_w, y));
+}
+
+int ScopeGain::handle_event()
+{
+ *value = slider->get_value();
gui->update_scope();
+ gui->toggle_event();
return 1;
}
+void ScopeGain::reposition_window(int x, int y)
+{
+ this->x = x; this->y = y;
+ slider->reposition_window(x, y);
+ reset->reposition_window(x+w-reset_w, y);
+}
+
+ScopeWaveSlider::ScopeWaveSlider(ScopeGUI *gui, int x, int y, int w)
+ : ScopeGain(gui, x, y, w, &gui->use_wave_gain)
+{
+}
+
+ScopeVectSlider::ScopeVectSlider(ScopeGUI *gui, int x, int y, int w)
+ : ScopeGain(gui, x, y, w, &gui->use_vect_gain)
+{
+}
+