1 /**************************************************************************
2  *
3  * Copyright 2013 Marek Olšák <maraeo@gmail.com>
4  * All Rights Reserved.
5  *
6  * Permission is hereby granted, free of charge, to any person obtaining a
7  * copy of this software and associated documentation files (the
8  * "Software"), to deal in the Software without restriction, including
9  * without limitation the rights to use, copy, modify, merge, publish,
10  * distribute, sub license, and/or sell copies of the Software, and to
11  * permit persons to whom the Software is furnished to do so, subject to
12  * the following conditions:
13  *
14  * The above copyright notice and this permission notice (including the
15  * next paragraph) shall be included in all copies or substantial portions
16  * of the Software.
17  *
18  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
19  * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
20  * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT.
21  * IN NO EVENT SHALL THE AUTHORS AND/OR ITS SUPPLIERS BE LIABLE FOR
22  * ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
23  * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
24  * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
25  *
26  **************************************************************************/
27 
28 /* This head-up display module can draw transparent graphs on top of what
29  * the app is rendering, visualizing various data like framerate, cpu load,
30  * performance counters, etc. It can be hook up into any gallium frontend.
31  *
32  * The HUD is controlled with the GALLIUM_HUD environment variable.
33  * Set GALLIUM_HUD=help for more info.
34  */
35 
36 #include <inttypes.h>
37 #include <signal.h>
38 #include <stdio.h>
39 
40 #include "hud/hud_context.h"
41 #include "hud/hud_private.h"
42 
43 #include "cso_cache/cso_context.h"
44 #include "util/u_draw_quad.h"
45 #include "util/format/u_format.h"
46 #include "util/u_inlines.h"
47 #include "util/u_memory.h"
48 #include "util/u_math.h"
49 #include "util/u_sampler.h"
50 #include "util/u_simple_shaders.h"
51 #include "util/u_string.h"
52 #include "util/u_upload_mgr.h"
53 #include "tgsi/tgsi_text.h"
54 #include "tgsi/tgsi_dump.h"
55 
56 /* Control the visibility of all HUD contexts */
57 static boolean huds_visible = TRUE;
58 static int hud_scale = 1;
59 
60 
61 #ifdef PIPE_OS_UNIX
62 static void
signal_visible_handler(int sig,siginfo_t * siginfo,void * context)63 signal_visible_handler(int sig, siginfo_t *siginfo, void *context)
64 {
65    huds_visible = !huds_visible;
66 }
67 #endif
68 
69 static void
hud_draw_colored_prims(struct hud_context * hud,unsigned prim,float * buffer,unsigned num_vertices,float r,float g,float b,float a,int xoffset,int yoffset,float yscale)70 hud_draw_colored_prims(struct hud_context *hud, unsigned prim,
71                        float *buffer, unsigned num_vertices,
72                        float r, float g, float b, float a,
73                        int xoffset, int yoffset, float yscale)
74 {
75    struct cso_context *cso = hud->cso;
76    struct pipe_vertex_buffer vbuffer = {0};
77 
78    hud->constants.color[0] = r;
79    hud->constants.color[1] = g;
80    hud->constants.color[2] = b;
81    hud->constants.color[3] = a;
82    hud->constants.translate[0] = (float) (xoffset * hud_scale);
83    hud->constants.translate[1] = (float) (yoffset * hud_scale);
84    hud->constants.scale[0] = hud_scale;
85    hud->constants.scale[1] = yscale * hud_scale;
86    cso_set_constant_buffer(cso, PIPE_SHADER_VERTEX, 0, &hud->constbuf);
87 
88    u_upload_data(hud->pipe->stream_uploader, 0,
89                  num_vertices * 2 * sizeof(float), 16, buffer,
90                  &vbuffer.buffer_offset, &vbuffer.buffer.resource);
91    u_upload_unmap(hud->pipe->stream_uploader);
92    vbuffer.stride = 2 * sizeof(float);
93 
94    cso_set_vertex_buffers(cso, 0, 1, &vbuffer);
95    pipe_resource_reference(&vbuffer.buffer.resource, NULL);
96    cso_set_fragment_shader_handle(hud->cso, hud->fs_color);
97    cso_draw_arrays(cso, prim, 0, num_vertices);
98 }
99 
100 static void
hud_draw_colored_quad(struct hud_context * hud,unsigned prim,unsigned x1,unsigned y1,unsigned x2,unsigned y2,float r,float g,float b,float a)101 hud_draw_colored_quad(struct hud_context *hud, unsigned prim,
102                       unsigned x1, unsigned y1, unsigned x2, unsigned y2,
103                       float r, float g, float b, float a)
104 {
105    float buffer[] = {
106       (float) x1, (float) y1,
107       (float) x1, (float) y2,
108       (float) x2, (float) y2,
109       (float) x2, (float) y1,
110    };
111 
112    hud_draw_colored_prims(hud, prim, buffer, 4, r, g, b, a, 0, 0, 1);
113 }
114 
115 static void
hud_draw_background_quad(struct hud_context * hud,unsigned x1,unsigned y1,unsigned x2,unsigned y2)116 hud_draw_background_quad(struct hud_context *hud,
117                          unsigned x1, unsigned y1, unsigned x2, unsigned y2)
118 {
119    float *vertices = hud->bg.vertices + hud->bg.num_vertices*2;
120    unsigned num = 0;
121 
122    assert(hud->bg.num_vertices + 4 <= hud->bg.max_num_vertices);
123 
124    vertices[num++] = (float) x1;
125    vertices[num++] = (float) y1;
126 
127    vertices[num++] = (float) x1;
128    vertices[num++] = (float) y2;
129 
130    vertices[num++] = (float) x2;
131    vertices[num++] = (float) y2;
132 
133    vertices[num++] = (float) x2;
134    vertices[num++] = (float) y1;
135 
136    hud->bg.num_vertices += num/2;
137 }
138 
139 static void
hud_draw_string(struct hud_context * hud,unsigned x,unsigned y,const char * str,...)140 hud_draw_string(struct hud_context *hud, unsigned x, unsigned y,
141                 const char *str, ...)
142 {
143    char buf[256];
144    char *s = buf;
145    float *vertices = hud->text.vertices + hud->text.num_vertices*4;
146    unsigned num = 0;
147 
148    va_list ap;
149    va_start(ap, str);
150    vsnprintf(buf, sizeof(buf), str, ap);
151    va_end(ap);
152 
153    if (!*s)
154       return;
155 
156    hud_draw_background_quad(hud,
157                             x, y,
158                             x + strlen(buf)*hud->font.glyph_width,
159                             y + hud->font.glyph_height);
160 
161    while (*s) {
162       unsigned x1 = x;
163       unsigned y1 = y;
164       unsigned x2 = x + hud->font.glyph_width;
165       unsigned y2 = y + hud->font.glyph_height;
166       unsigned tx1 = (*s % 16) * hud->font.glyph_width;
167       unsigned ty1 = (*s / 16) * hud->font.glyph_height;
168       unsigned tx2 = tx1 + hud->font.glyph_width;
169       unsigned ty2 = ty1 + hud->font.glyph_height;
170 
171       if (*s == ' ') {
172          x += hud->font.glyph_width;
173          s++;
174          continue;
175       }
176 
177       assert(hud->text.num_vertices + num/4 + 4 <= hud->text.max_num_vertices);
178 
179       vertices[num++] = (float) x1;
180       vertices[num++] = (float) y1;
181       vertices[num++] = (float) tx1;
182       vertices[num++] = (float) ty1;
183 
184       vertices[num++] = (float) x1;
185       vertices[num++] = (float) y2;
186       vertices[num++] = (float) tx1;
187       vertices[num++] = (float) ty2;
188 
189       vertices[num++] = (float) x2;
190       vertices[num++] = (float) y2;
191       vertices[num++] = (float) tx2;
192       vertices[num++] = (float) ty2;
193 
194       vertices[num++] = (float) x2;
195       vertices[num++] = (float) y1;
196       vertices[num++] = (float) tx2;
197       vertices[num++] = (float) ty1;
198 
199       x += hud->font.glyph_width;
200       s++;
201    }
202 
203    hud->text.num_vertices += num/4;
204 }
205 
206 static void
number_to_human_readable(double num,enum pipe_driver_query_type type,char * out)207 number_to_human_readable(double num, enum pipe_driver_query_type type,
208                          char *out)
209 {
210    static const char *byte_units[] =
211       {" B", " KB", " MB", " GB", " TB", " PB", " EB"};
212    static const char *metric_units[] =
213       {"", " k", " M", " G", " T", " P", " E"};
214    static const char *time_units[] =
215       {" us", " ms", " s"};  /* based on microseconds */
216    static const char *hz_units[] =
217       {" Hz", " KHz", " MHz", " GHz"};
218    static const char *percent_units[] = {"%"};
219    static const char *dbm_units[] = {" (-dBm)"};
220    static const char *temperature_units[] = {" C"};
221    static const char *volt_units[] = {" mV", " V"};
222    static const char *amp_units[] = {" mA", " A"};
223    static const char *watt_units[] = {" mW", " W"};
224    static const char *float_units[] = {""};
225 
226    const char **units;
227    unsigned max_unit;
228    double divisor = (type == PIPE_DRIVER_QUERY_TYPE_BYTES) ? 1024 : 1000;
229    unsigned unit = 0;
230    double d = num;
231 
232    switch (type) {
233    case PIPE_DRIVER_QUERY_TYPE_MICROSECONDS:
234       max_unit = ARRAY_SIZE(time_units)-1;
235       units = time_units;
236       break;
237    case PIPE_DRIVER_QUERY_TYPE_VOLTS:
238       max_unit = ARRAY_SIZE(volt_units)-1;
239       units = volt_units;
240       break;
241    case PIPE_DRIVER_QUERY_TYPE_AMPS:
242       max_unit = ARRAY_SIZE(amp_units)-1;
243       units = amp_units;
244       break;
245    case PIPE_DRIVER_QUERY_TYPE_DBM:
246       max_unit = ARRAY_SIZE(dbm_units)-1;
247       units = dbm_units;
248       break;
249    case PIPE_DRIVER_QUERY_TYPE_TEMPERATURE:
250       max_unit = ARRAY_SIZE(temperature_units)-1;
251       units = temperature_units;
252       break;
253    case PIPE_DRIVER_QUERY_TYPE_FLOAT:
254       max_unit = ARRAY_SIZE(float_units)-1;
255       units = float_units;
256       break;
257    case PIPE_DRIVER_QUERY_TYPE_PERCENTAGE:
258       max_unit = ARRAY_SIZE(percent_units)-1;
259       units = percent_units;
260       break;
261    case PIPE_DRIVER_QUERY_TYPE_BYTES:
262       max_unit = ARRAY_SIZE(byte_units)-1;
263       units = byte_units;
264       break;
265    case PIPE_DRIVER_QUERY_TYPE_HZ:
266       max_unit = ARRAY_SIZE(hz_units)-1;
267       units = hz_units;
268       break;
269    case PIPE_DRIVER_QUERY_TYPE_WATTS:
270       max_unit = ARRAY_SIZE(watt_units)-1;
271       units = watt_units;
272       break;
273    default:
274       max_unit = ARRAY_SIZE(metric_units)-1;
275       units = metric_units;
276    }
277 
278    while (d > divisor && unit < max_unit) {
279       d /= divisor;
280       unit++;
281    }
282 
283    /* Round to 3 decimal places so as not to print trailing zeros. */
284    if (d*1000 != (int)(d*1000))
285       d = round(d * 1000) / 1000;
286 
287    /* Show at least 4 digits with at most 3 decimal places, but not zeros. */
288    if (d >= 1000 || d == (int)d)
289       sprintf(out, "%.0f%s", d, units[unit]);
290    else if (d >= 100 || d*10 == (int)(d*10))
291       sprintf(out, "%.1f%s", d, units[unit]);
292    else if (d >= 10 || d*100 == (int)(d*100))
293       sprintf(out, "%.2f%s", d, units[unit]);
294    else
295       sprintf(out, "%.3f%s", d, units[unit]);
296 }
297 
298 static void
hud_draw_graph_line_strip(struct hud_context * hud,const struct hud_graph * gr,unsigned xoffset,unsigned yoffset,float yscale)299 hud_draw_graph_line_strip(struct hud_context *hud, const struct hud_graph *gr,
300                           unsigned xoffset, unsigned yoffset, float yscale)
301 {
302    if (gr->num_vertices <= 1)
303       return;
304 
305    assert(gr->index <= gr->num_vertices);
306 
307    hud_draw_colored_prims(hud, PIPE_PRIM_LINE_STRIP,
308                           gr->vertices, gr->index,
309                           gr->color[0], gr->color[1], gr->color[2], 1,
310                           xoffset + (gr->pane->max_num_vertices - gr->index - 1) * 2 - 1,
311                           yoffset, yscale);
312 
313    if (gr->num_vertices <= gr->index)
314       return;
315 
316    hud_draw_colored_prims(hud, PIPE_PRIM_LINE_STRIP,
317                           gr->vertices + gr->index*2,
318                           gr->num_vertices - gr->index,
319                           gr->color[0], gr->color[1], gr->color[2], 1,
320                           xoffset - gr->index*2 - 1, yoffset, yscale);
321 }
322 
323 static void
hud_pane_accumulate_vertices(struct hud_context * hud,const struct hud_pane * pane)324 hud_pane_accumulate_vertices(struct hud_context *hud,
325                              const struct hud_pane *pane)
326 {
327    struct hud_graph *gr;
328    float *line_verts = hud->whitelines.vertices + hud->whitelines.num_vertices*2;
329    unsigned i, num = 0;
330    char str[32];
331    const unsigned last_line = pane->last_line;
332 
333    /* draw background */
334    hud_draw_background_quad(hud,
335                             pane->x1, pane->y1,
336                             pane->x2, pane->y2);
337 
338    /* draw numbers on the right-hand side */
339    for (i = 0; i <= last_line; i++) {
340       unsigned x = pane->x2 + 2;
341       unsigned y = pane->inner_y1 +
342                    pane->inner_height * (last_line - i) / last_line -
343                    hud->font.glyph_height / 2;
344 
345       number_to_human_readable(pane->max_value * i / last_line,
346                                pane->type, str);
347       hud_draw_string(hud, x, y, "%s", str);
348    }
349 
350    /* draw info below the pane */
351    i = 0;
352    LIST_FOR_EACH_ENTRY(gr, &pane->graph_list, head) {
353       unsigned x = pane->x1 + 2;
354       unsigned y = pane->y2 + 2 + i*hud->font.glyph_height;
355 
356       number_to_human_readable(gr->current_value, pane->type, str);
357       hud_draw_string(hud, x, y, "  %s: %s", gr->name, str);
358       i++;
359    }
360 
361    /* draw border */
362    assert(hud->whitelines.num_vertices + num/2 + 8 <= hud->whitelines.max_num_vertices);
363    line_verts[num++] = (float) pane->x1;
364    line_verts[num++] = (float) pane->y1;
365    line_verts[num++] = (float) pane->x2;
366    line_verts[num++] = (float) pane->y1;
367 
368    line_verts[num++] = (float) pane->x2;
369    line_verts[num++] = (float) pane->y1;
370    line_verts[num++] = (float) pane->x2;
371    line_verts[num++] = (float) pane->y2;
372 
373    line_verts[num++] = (float) pane->x1;
374    line_verts[num++] = (float) pane->y2;
375    line_verts[num++] = (float) pane->x2;
376    line_verts[num++] = (float) pane->y2;
377 
378    line_verts[num++] = (float) pane->x1;
379    line_verts[num++] = (float) pane->y1;
380    line_verts[num++] = (float) pane->x1;
381    line_verts[num++] = (float) pane->y2;
382 
383    /* draw horizontal lines inside the graph */
384    for (i = 0; i <= last_line; i++) {
385       float y = round((pane->max_value * i / (double)last_line) *
386                       pane->yscale + pane->inner_y2);
387 
388       assert(hud->whitelines.num_vertices + num/2 + 2 <= hud->whitelines.max_num_vertices);
389       line_verts[num++] = pane->x1;
390       line_verts[num++] = y;
391       line_verts[num++] = pane->x2;
392       line_verts[num++] = y;
393    }
394 
395    hud->whitelines.num_vertices += num/2;
396 }
397 
398 static void
hud_pane_accumulate_vertices_simple(struct hud_context * hud,const struct hud_pane * pane)399 hud_pane_accumulate_vertices_simple(struct hud_context *hud,
400                                     const struct hud_pane *pane)
401 {
402    struct hud_graph *gr;
403    unsigned i;
404    char str[32];
405 
406    /* draw info below the pane */
407    i = 0;
408    LIST_FOR_EACH_ENTRY(gr, &pane->graph_list, head) {
409       unsigned x = pane->x1;
410       unsigned y = pane->y_simple + i*hud->font.glyph_height;
411 
412       number_to_human_readable(gr->current_value, pane->type, str);
413       hud_draw_string(hud, x, y, "%s: %s", gr->name, str);
414       i++;
415    }
416 }
417 
418 static void
hud_pane_draw_colored_objects(struct hud_context * hud,const struct hud_pane * pane)419 hud_pane_draw_colored_objects(struct hud_context *hud,
420                               const struct hud_pane *pane)
421 {
422    struct hud_graph *gr;
423    unsigned i;
424 
425    /* draw colored quads below the pane */
426    i = 0;
427    LIST_FOR_EACH_ENTRY(gr, &pane->graph_list, head) {
428       unsigned x = pane->x1 + 2;
429       unsigned y = pane->y2 + 2 + i*hud->font.glyph_height;
430 
431       hud_draw_colored_quad(hud, PIPE_PRIM_QUADS, x + 1, y + 1, x + 12, y + 13,
432                             gr->color[0], gr->color[1], gr->color[2], 1);
433       i++;
434    }
435 
436    /* draw the line strips */
437    LIST_FOR_EACH_ENTRY(gr, &pane->graph_list, head) {
438       hud_draw_graph_line_strip(hud, gr, pane->inner_x1, pane->inner_y2, pane->yscale);
439    }
440 }
441 
442 static void
hud_prepare_vertices(struct hud_context * hud,struct vertex_queue * v,unsigned num_vertices,unsigned stride)443 hud_prepare_vertices(struct hud_context *hud, struct vertex_queue *v,
444                      unsigned num_vertices, unsigned stride)
445 {
446    v->num_vertices = 0;
447    v->max_num_vertices = num_vertices;
448    v->vbuf.stride = stride;
449    v->buffer_size = stride * num_vertices;
450 }
451 
452 /**
453  * Draw the HUD to the texture \p tex.
454  * The texture is usually the back buffer being displayed.
455  */
456 static void
hud_draw_results(struct hud_context * hud,struct pipe_resource * tex)457 hud_draw_results(struct hud_context *hud, struct pipe_resource *tex)
458 {
459    struct cso_context *cso = hud->cso;
460    struct pipe_context *pipe = hud->pipe;
461    struct pipe_framebuffer_state fb;
462    struct pipe_surface surf_templ, *surf;
463    struct pipe_viewport_state viewport;
464    const struct pipe_sampler_state *sampler_states[] =
465          { &hud->font_sampler_state };
466    struct hud_pane *pane;
467 
468    if (!huds_visible)
469       return;
470 
471    hud->fb_width = tex->width0;
472    hud->fb_height = tex->height0;
473    hud->constants.two_div_fb_width = 2.0f / hud->fb_width;
474    hud->constants.two_div_fb_height = 2.0f / hud->fb_height;
475 
476    cso_save_state(cso, (CSO_BIT_FRAMEBUFFER |
477                         CSO_BIT_SAMPLE_MASK |
478                         CSO_BIT_MIN_SAMPLES |
479                         CSO_BIT_BLEND |
480                         CSO_BIT_DEPTH_STENCIL_ALPHA |
481                         CSO_BIT_FRAGMENT_SHADER |
482                         CSO_BIT_FRAGMENT_SAMPLER_VIEWS |
483                         CSO_BIT_FRAGMENT_SAMPLERS |
484                         CSO_BIT_RASTERIZER |
485                         CSO_BIT_VIEWPORT |
486                         CSO_BIT_STREAM_OUTPUTS |
487                         CSO_BIT_GEOMETRY_SHADER |
488                         CSO_BIT_TESSCTRL_SHADER |
489                         CSO_BIT_TESSEVAL_SHADER |
490                         CSO_BIT_VERTEX_SHADER |
491                         CSO_BIT_VERTEX_ELEMENTS |
492                         CSO_BIT_AUX_VERTEX_BUFFER_SLOT |
493                         CSO_BIT_PAUSE_QUERIES |
494                         CSO_BIT_RENDER_CONDITION));
495    cso_save_constant_buffer_slot0(cso, PIPE_SHADER_VERTEX);
496 
497    /* set states */
498    memset(&surf_templ, 0, sizeof(surf_templ));
499    surf_templ.format = tex->format;
500 
501    /* Without this, AA lines look thinner if they are between 2 pixels
502     * because the alpha is 0.5 on both pixels. (it's ugly)
503     *
504     * sRGB makes the width of all AA lines look the same.
505     */
506    if (hud->has_srgb) {
507       enum pipe_format srgb_format = util_format_srgb(tex->format);
508 
509       if (srgb_format != PIPE_FORMAT_NONE)
510          surf_templ.format = srgb_format;
511    }
512    surf = pipe->create_surface(pipe, tex, &surf_templ);
513 
514    memset(&fb, 0, sizeof(fb));
515    fb.nr_cbufs = 1;
516    fb.cbufs[0] = surf;
517    fb.zsbuf = NULL;
518    fb.width = hud->fb_width;
519    fb.height = hud->fb_height;
520 
521    viewport.scale[0] = 0.5f * hud->fb_width;
522    viewport.scale[1] = 0.5f * hud->fb_height;
523    viewport.scale[2] = 0.0f;
524    viewport.translate[0] = 0.5f * hud->fb_width;
525    viewport.translate[1] = 0.5f * hud->fb_height;
526    viewport.translate[2] = 0.0f;
527 
528    cso_set_framebuffer(cso, &fb);
529    cso_set_sample_mask(cso, ~0);
530    cso_set_min_samples(cso, 1);
531    cso_set_depth_stencil_alpha(cso, &hud->dsa);
532    cso_set_rasterizer(cso, &hud->rasterizer);
533    cso_set_viewport(cso, &viewport);
534    cso_set_stream_outputs(cso, 0, NULL, NULL);
535    cso_set_tessctrl_shader_handle(cso, NULL);
536    cso_set_tesseval_shader_handle(cso, NULL);
537    cso_set_geometry_shader_handle(cso, NULL);
538    cso_set_vertex_shader_handle(cso, hud->vs);
539    cso_set_vertex_elements(cso, &hud->velems);
540    cso_set_render_condition(cso, NULL, FALSE, 0);
541    cso_set_sampler_views(cso, PIPE_SHADER_FRAGMENT, 1,
542                          &hud->font_sampler_view);
543    cso_set_samplers(cso, PIPE_SHADER_FRAGMENT, 1, sampler_states);
544    cso_set_constant_buffer(cso, PIPE_SHADER_VERTEX, 0, &hud->constbuf);
545 
546    /* draw accumulated vertices for background quads */
547    cso_set_blend(cso, &hud->alpha_blend);
548    cso_set_fragment_shader_handle(hud->cso, hud->fs_color);
549 
550    if (hud->bg.num_vertices) {
551       hud->constants.color[0] = 0;
552       hud->constants.color[1] = 0;
553       hud->constants.color[2] = 0;
554       hud->constants.color[3] = 0.666f;
555       hud->constants.translate[0] = 0;
556       hud->constants.translate[1] = 0;
557       hud->constants.scale[0] = hud_scale;
558       hud->constants.scale[1] = hud_scale;
559 
560       cso_set_constant_buffer(cso, PIPE_SHADER_VERTEX, 0, &hud->constbuf);
561 
562       cso_set_vertex_buffers(cso, 0, 1, &hud->bg.vbuf);
563       cso_draw_arrays(cso, PIPE_PRIM_QUADS, 0, hud->bg.num_vertices);
564    }
565    pipe_resource_reference(&hud->bg.vbuf.buffer.resource, NULL);
566 
567    /* draw accumulated vertices for text */
568    if (hud->text.num_vertices) {
569       cso_set_vertex_buffers(cso, 0, 1, &hud->text.vbuf);
570       cso_set_fragment_shader_handle(hud->cso, hud->fs_text);
571       cso_draw_arrays(cso, PIPE_PRIM_QUADS, 0, hud->text.num_vertices);
572    }
573    pipe_resource_reference(&hud->text.vbuf.buffer.resource, NULL);
574 
575    if (hud->simple) {
576       cso_restore_state(cso);
577       cso_restore_constant_buffer_slot0(cso, PIPE_SHADER_VERTEX);
578 
579       pipe_surface_reference(&surf, NULL);
580       return;
581    }
582 
583    /* draw accumulated vertices for white lines */
584    cso_set_blend(cso, &hud->no_blend);
585 
586    hud->constants.color[0] = 1;
587    hud->constants.color[1] = 1;
588    hud->constants.color[2] = 1;
589    hud->constants.color[3] = 1;
590    hud->constants.translate[0] = 0;
591    hud->constants.translate[1] = 0;
592    hud->constants.scale[0] = hud_scale;
593    hud->constants.scale[1] = hud_scale;
594    cso_set_constant_buffer(cso, PIPE_SHADER_VERTEX, 0, &hud->constbuf);
595 
596    if (hud->whitelines.num_vertices) {
597       cso_set_vertex_buffers(cso, 0, 1, &hud->whitelines.vbuf);
598       cso_set_fragment_shader_handle(hud->cso, hud->fs_color);
599       cso_draw_arrays(cso, PIPE_PRIM_LINES, 0, hud->whitelines.num_vertices);
600    }
601    pipe_resource_reference(&hud->whitelines.vbuf.buffer.resource, NULL);
602 
603    /* draw the rest */
604    cso_set_blend(cso, &hud->alpha_blend);
605    cso_set_rasterizer(cso, &hud->rasterizer_aa_lines);
606    LIST_FOR_EACH_ENTRY(pane, &hud->pane_list, head) {
607       if (pane)
608          hud_pane_draw_colored_objects(hud, pane);
609    }
610 
611    cso_restore_state(cso);
612    cso_restore_constant_buffer_slot0(cso, PIPE_SHADER_VERTEX);
613 
614    pipe_surface_reference(&surf, NULL);
615 }
616 
617 static void
hud_start_queries(struct hud_context * hud,struct pipe_context * pipe)618 hud_start_queries(struct hud_context *hud, struct pipe_context *pipe)
619 {
620    struct hud_pane *pane;
621    struct hud_graph *gr;
622 
623    /* Start queries. */
624    hud_batch_query_begin(hud->batch_query, pipe);
625 
626    LIST_FOR_EACH_ENTRY(pane, &hud->pane_list, head) {
627       LIST_FOR_EACH_ENTRY(gr, &pane->graph_list, head) {
628          if (gr->begin_query)
629             gr->begin_query(gr, pipe);
630       }
631    }
632 }
633 
634 /* Stop queries, query results, and record vertices for charts. */
635 static void
hud_stop_queries(struct hud_context * hud,struct pipe_context * pipe)636 hud_stop_queries(struct hud_context *hud, struct pipe_context *pipe)
637 {
638    struct hud_pane *pane;
639    struct hud_graph *gr, *next;
640 
641    /* prepare vertex buffers */
642    hud_prepare_vertices(hud, &hud->bg, 16 * 256, 2 * sizeof(float));
643    hud_prepare_vertices(hud, &hud->whitelines, 4 * 256, 2 * sizeof(float));
644    hud_prepare_vertices(hud, &hud->text, 16 * 1024, 4 * sizeof(float));
645 
646    /* Allocate everything once and divide the storage into 3 portions
647     * manually, because u_upload_alloc can unmap memory from previous calls.
648     */
649    u_upload_alloc(pipe->stream_uploader, 0,
650                   hud->bg.buffer_size +
651                   hud->whitelines.buffer_size +
652                   hud->text.buffer_size,
653                   16, &hud->bg.vbuf.buffer_offset, &hud->bg.vbuf.buffer.resource,
654                   (void**)&hud->bg.vertices);
655    if (!hud->bg.vertices)
656       return;
657 
658    pipe_resource_reference(&hud->whitelines.vbuf.buffer.resource, hud->bg.vbuf.buffer.resource);
659    pipe_resource_reference(&hud->text.vbuf.buffer.resource, hud->bg.vbuf.buffer.resource);
660 
661    hud->whitelines.vbuf.buffer_offset = hud->bg.vbuf.buffer_offset +
662                                         hud->bg.buffer_size;
663    hud->whitelines.vertices = hud->bg.vertices +
664                               hud->bg.buffer_size / sizeof(float);
665 
666    hud->text.vbuf.buffer_offset = hud->whitelines.vbuf.buffer_offset +
667                                   hud->whitelines.buffer_size;
668    hud->text.vertices = hud->whitelines.vertices +
669                         hud->whitelines.buffer_size / sizeof(float);
670 
671    /* prepare all graphs */
672    hud_batch_query_update(hud->batch_query, pipe);
673 
674    LIST_FOR_EACH_ENTRY(pane, &hud->pane_list, head) {
675       LIST_FOR_EACH_ENTRY(gr, &pane->graph_list, head) {
676          gr->query_new_value(gr, pipe);
677       }
678 
679       if (pane->sort_items) {
680          LIST_FOR_EACH_ENTRY_SAFE(gr, next, &pane->graph_list, head) {
681             /* ignore the last one */
682             if (&gr->head == pane->graph_list.prev)
683                continue;
684 
685             /* This is an incremental bubble sort, because we only do one pass
686              * per frame. It will eventually reach an equilibrium.
687              */
688             if (gr->current_value <
689                 LIST_ENTRY(struct hud_graph, next, head)->current_value) {
690                list_del(&gr->head);
691                list_add(&gr->head, &next->head);
692             }
693          }
694       }
695 
696       if (hud->simple)
697          hud_pane_accumulate_vertices_simple(hud, pane);
698       else
699          hud_pane_accumulate_vertices(hud, pane);
700    }
701 
702    /* unmap the uploader's vertex buffer before drawing */
703    u_upload_unmap(pipe->stream_uploader);
704 }
705 
706 /**
707  * Record queries and draw the HUD. The "cso" parameter acts as a filter.
708  * If "cso" is not the recording context, recording is skipped.
709  * If "cso" is not the drawing context, drawing is skipped.
710  * cso == NULL ignores the filter.
711  */
712 void
hud_run(struct hud_context * hud,struct cso_context * cso,struct pipe_resource * tex)713 hud_run(struct hud_context *hud, struct cso_context *cso,
714         struct pipe_resource *tex)
715 {
716    struct pipe_context *pipe = cso ? cso_get_pipe_context(cso) : NULL;
717 
718    /* If "cso" is the recording or drawing context or NULL, execute
719     * the operation. Otherwise, don't do anything.
720     */
721    if (hud->record_pipe && (!pipe || pipe == hud->record_pipe))
722       hud_stop_queries(hud, hud->record_pipe);
723 
724    if (hud->cso && (!cso || cso == hud->cso))
725       hud_draw_results(hud, tex);
726 
727    if (hud->record_pipe && (!pipe || pipe == hud->record_pipe))
728       hud_start_queries(hud, hud->record_pipe);
729 }
730 
731 /**
732  * Record query results and assemble vertices if "pipe" is a recording but
733  * not drawing context.
734  */
735 void
hud_record_only(struct hud_context * hud,struct pipe_context * pipe)736 hud_record_only(struct hud_context *hud, struct pipe_context *pipe)
737 {
738    assert(pipe);
739 
740    /* If it's a drawing context, only hud_run() records query results. */
741    if (pipe == hud->pipe || pipe != hud->record_pipe)
742       return;
743 
744    hud_stop_queries(hud, hud->record_pipe);
745    hud_start_queries(hud, hud->record_pipe);
746 }
747 
748 static void
fixup_bytes(enum pipe_driver_query_type type,int position,uint64_t * exp10)749 fixup_bytes(enum pipe_driver_query_type type, int position, uint64_t *exp10)
750 {
751    if (type == PIPE_DRIVER_QUERY_TYPE_BYTES && position % 3 == 0)
752       *exp10 = (*exp10 / 1000) * 1024;
753 }
754 
755 /**
756  * Set the maximum value for the Y axis of the graph.
757  * This scales the graph accordingly.
758  */
759 void
hud_pane_set_max_value(struct hud_pane * pane,uint64_t value)760 hud_pane_set_max_value(struct hud_pane *pane, uint64_t value)
761 {
762    double leftmost_digit;
763    uint64_t exp10;
764    int i;
765 
766    /* The following code determines the max_value in the graph as well as
767     * how many describing lines are drawn. The max_value is rounded up,
768     * so that all drawn numbers are rounded for readability.
769     * We want to print multiples of a simple number instead of multiples of
770     * hard-to-read numbers like 1.753.
771     */
772 
773    /* Find the left-most digit. Make sure exp10 * 10 and fixup_bytes doesn't
774     * overflow. (11 is safe) */
775    exp10 = 1;
776    for (i = 0; exp10 <= UINT64_MAX / 11 && exp10 * 9 < value; i++) {
777       exp10 *= 10;
778       fixup_bytes(pane->type, i + 1, &exp10);
779    }
780 
781    leftmost_digit = DIV_ROUND_UP(value, exp10);
782 
783    /* Round 9 to 10. */
784    if (leftmost_digit == 9) {
785       leftmost_digit = 1;
786       exp10 *= 10;
787       fixup_bytes(pane->type, i + 1, &exp10);
788    }
789 
790    switch ((unsigned)leftmost_digit) {
791    case 1:
792       pane->last_line = 5; /* lines in +1/5 increments */
793       break;
794    case 2:
795       pane->last_line = 8; /* lines in +1/4 increments. */
796       break;
797    case 3:
798    case 4:
799       pane->last_line = leftmost_digit * 2; /* lines in +1/2 increments */
800       break;
801    case 5:
802    case 6:
803    case 7:
804    case 8:
805       pane->last_line = leftmost_digit; /* lines in +1 increments */
806       break;
807    default:
808       assert(0);
809    }
810 
811    /* Truncate {3,4} to {2.5, 3.5} if possible. */
812    for (i = 3; i <= 4; i++) {
813       if (leftmost_digit == i && value <= (i - 0.5) * exp10) {
814          leftmost_digit = i - 0.5;
815          pane->last_line = leftmost_digit * 2; /* lines in +1/2 increments. */
816       }
817    }
818 
819    /* Truncate 2 to a multiple of 0.2 in (1, 1.6] if possible. */
820    if (leftmost_digit == 2) {
821       for (i = 1; i <= 3; i++) {
822          if (value <= (1 + i*0.2) * exp10) {
823             leftmost_digit = 1 + i*0.2;
824             pane->last_line = 5 + i; /* lines in +1/5 increments. */
825             break;
826          }
827       }
828    }
829 
830    pane->max_value = leftmost_digit * exp10;
831    pane->yscale = -(int)pane->inner_height / (float)pane->max_value;
832 }
833 
834 static void
hud_pane_update_dyn_ceiling(struct hud_graph * gr,struct hud_pane * pane)835 hud_pane_update_dyn_ceiling(struct hud_graph *gr, struct hud_pane *pane)
836 {
837    unsigned i;
838    float tmp = 0.0f;
839 
840    if (pane->dyn_ceil_last_ran != gr->index) {
841       LIST_FOR_EACH_ENTRY(gr, &pane->graph_list, head) {
842          for (i = 0; i <  gr->num_vertices; ++i) {
843             tmp = gr->vertices[i * 2 + 1] > tmp ?
844                   gr->vertices[i * 2 + 1] : tmp;
845          }
846       }
847 
848       /* Avoid setting it lower than the initial starting height. */
849       tmp = tmp > pane->initial_max_value ? tmp : pane->initial_max_value;
850       hud_pane_set_max_value(pane, tmp);
851    }
852 
853    /*
854     * Mark this adjustment run so we could avoid repeating a full update
855     * again needlessly in case the pane has more than one graph.
856     */
857    pane->dyn_ceil_last_ran = gr->index;
858 }
859 
860 static struct hud_pane *
hud_pane_create(struct hud_context * hud,unsigned x1,unsigned y1,unsigned x2,unsigned y2,unsigned y_simple,unsigned period,uint64_t max_value,uint64_t ceiling,boolean dyn_ceiling,boolean sort_items)861 hud_pane_create(struct hud_context *hud,
862                 unsigned x1, unsigned y1, unsigned x2, unsigned y2,
863                 unsigned y_simple,
864                 unsigned period, uint64_t max_value, uint64_t ceiling,
865                 boolean dyn_ceiling, boolean sort_items)
866 {
867    struct hud_pane *pane = CALLOC_STRUCT(hud_pane);
868 
869    if (!pane)
870       return NULL;
871 
872    pane->hud = hud;
873    pane->x1 = x1;
874    pane->y1 = y1;
875    pane->x2 = x2;
876    pane->y2 = y2;
877    pane->y_simple = y_simple;
878    pane->inner_x1 = x1 + 1;
879    pane->inner_x2 = x2 - 1;
880    pane->inner_y1 = y1 + 1;
881    pane->inner_y2 = y2 - 1;
882    pane->inner_width = pane->inner_x2 - pane->inner_x1;
883    pane->inner_height = pane->inner_y2 - pane->inner_y1;
884    pane->period = period;
885    pane->max_num_vertices = (x2 - x1 + 2) / 2;
886    pane->ceiling = ceiling;
887    pane->dyn_ceiling = dyn_ceiling;
888    pane->dyn_ceil_last_ran = 0;
889    pane->sort_items = sort_items;
890    pane->initial_max_value = max_value;
891    hud_pane_set_max_value(pane, max_value);
892    list_inithead(&pane->graph_list);
893    return pane;
894 }
895 
896 /* replace '-' with a space */
897 static void
strip_hyphens(char * s)898 strip_hyphens(char *s)
899 {
900    while (*s) {
901       if (*s == '-')
902          *s = ' ';
903       s++;
904    }
905 }
906 
907 /**
908  * Add a graph to an existing pane.
909  * One pane can contain multiple graphs over each other.
910  */
911 void
hud_pane_add_graph(struct hud_pane * pane,struct hud_graph * gr)912 hud_pane_add_graph(struct hud_pane *pane, struct hud_graph *gr)
913 {
914    static const float colors[][3] = {
915       {0, 1, 0},
916       {1, 0, 0},
917       {0, 1, 1},
918       {1, 0, 1},
919       {1, 1, 0},
920       {0.5, 1, 0.5},
921       {1, 0.5, 0.5},
922       {0.5, 1, 1},
923       {1, 0.5, 1},
924       {1, 1, 0.5},
925       {0, 0.5, 0},
926       {0.5, 0, 0},
927       {0, 0.5, 0.5},
928       {0.5, 0, 0.5},
929       {0.5, 0.5, 0},
930    };
931    unsigned color = pane->next_color % ARRAY_SIZE(colors);
932 
933    strip_hyphens(gr->name);
934 
935    gr->vertices = MALLOC(pane->max_num_vertices * sizeof(float) * 2);
936    gr->color[0] = colors[color][0];
937    gr->color[1] = colors[color][1];
938    gr->color[2] = colors[color][2];
939    gr->pane = pane;
940    list_addtail(&gr->head, &pane->graph_list);
941    pane->num_graphs++;
942    pane->next_color++;
943 }
944 
945 void
hud_graph_add_value(struct hud_graph * gr,double value)946 hud_graph_add_value(struct hud_graph *gr, double value)
947 {
948    gr->current_value = value;
949    value = value > gr->pane->ceiling ? gr->pane->ceiling : value;
950 
951    if (gr->fd) {
952       if (fabs(value - lround(value)) > FLT_EPSILON) {
953          fprintf(gr->fd, "%f\n", value);
954       }
955       else {
956          fprintf(gr->fd, "%" PRIu64 "\n", (uint64_t) lround(value));
957       }
958    }
959 
960    if (gr->index == gr->pane->max_num_vertices) {
961       gr->vertices[0] = 0;
962       gr->vertices[1] = gr->vertices[(gr->index-1)*2+1];
963       gr->index = 1;
964    }
965    gr->vertices[(gr->index)*2+0] = (float) (gr->index * 2);
966    gr->vertices[(gr->index)*2+1] = (float) value;
967    gr->index++;
968 
969    if (gr->num_vertices < gr->pane->max_num_vertices) {
970       gr->num_vertices++;
971    }
972 
973    if (gr->pane->dyn_ceiling == true) {
974       hud_pane_update_dyn_ceiling(gr, gr->pane);
975    }
976    if (value > gr->pane->max_value) {
977       hud_pane_set_max_value(gr->pane, value);
978    }
979 }
980 
981 static void
hud_graph_destroy(struct hud_graph * graph,struct pipe_context * pipe)982 hud_graph_destroy(struct hud_graph *graph, struct pipe_context *pipe)
983 {
984    FREE(graph->vertices);
985    if (graph->free_query_data)
986       graph->free_query_data(graph->query_data, pipe);
987    if (graph->fd)
988       fclose(graph->fd);
989    FREE(graph);
990 }
991 
strcat_without_spaces(char * dst,const char * src)992 static void strcat_without_spaces(char *dst, const char *src)
993 {
994    dst += strlen(dst);
995    while (*src) {
996       if (*src == ' ')
997          *dst++ = '_';
998       else
999          *dst++ = *src;
1000       src++;
1001    }
1002    *dst = 0;
1003 }
1004 
1005 
1006 #ifdef PIPE_OS_WINDOWS
1007 #define W_OK 0
1008 static int
access(const char * pathname,int mode)1009 access(const char *pathname, int mode)
1010 {
1011    /* no-op */
1012    return 0;
1013 }
1014 
1015 #define PATH_SEP "\\"
1016 
1017 #else
1018 
1019 #define PATH_SEP "/"
1020 
1021 #endif
1022 
1023 
1024 /**
1025  * If the GALLIUM_HUD_DUMP_DIR env var is set, we'll write the raw
1026  * HUD values to files at ${GALLIUM_HUD_DUMP_DIR}/<stat> where <stat>
1027  * is a HUD variable such as "fps", or "cpu"
1028  */
1029 static void
hud_graph_set_dump_file(struct hud_graph * gr)1030 hud_graph_set_dump_file(struct hud_graph *gr)
1031 {
1032    const char *hud_dump_dir = getenv("GALLIUM_HUD_DUMP_DIR");
1033 
1034    if (hud_dump_dir && access(hud_dump_dir, W_OK) == 0) {
1035       char *dump_file = malloc(strlen(hud_dump_dir) + sizeof(PATH_SEP)
1036                                + sizeof(gr->name));
1037       if (dump_file) {
1038          strcpy(dump_file, hud_dump_dir);
1039          strcat(dump_file, PATH_SEP);
1040          strcat_without_spaces(dump_file, gr->name);
1041          gr->fd = fopen(dump_file, "w+");
1042          if (gr->fd) {
1043             /* flush output after each line is written */
1044             setvbuf(gr->fd, NULL, _IOLBF, 0);
1045          }
1046          free(dump_file);
1047       }
1048    }
1049 }
1050 
1051 /**
1052  * Read a string from the environment variable.
1053  * The separators "+", ",", ":", and ";" terminate the string.
1054  * Return the number of read characters.
1055  */
1056 static int
parse_string(const char * s,char * out)1057 parse_string(const char *s, char *out)
1058 {
1059    int i;
1060 
1061    for (i = 0; *s && *s != '+' && *s != ',' && *s != ':' && *s != ';' && *s != '=';
1062         s++, out++, i++)
1063       *out = *s;
1064 
1065    *out = 0;
1066 
1067    if (*s && !i) {
1068       fprintf(stderr, "gallium_hud: syntax error: unexpected '%c' (%i) while "
1069               "parsing a string\n", *s, *s);
1070       fflush(stderr);
1071    }
1072 
1073    return i;
1074 }
1075 
1076 static char *
read_pane_settings(char * str,unsigned * const x,unsigned * const y,unsigned * const width,unsigned * const height,uint64_t * const ceiling,boolean * const dyn_ceiling,boolean * reset_colors,boolean * sort_items)1077 read_pane_settings(char *str, unsigned * const x, unsigned * const y,
1078                unsigned * const width, unsigned * const height,
1079                uint64_t * const ceiling, boolean * const dyn_ceiling,
1080                boolean *reset_colors, boolean *sort_items)
1081 {
1082    char *ret = str;
1083    unsigned tmp;
1084 
1085    while (*str == '.') {
1086       ++str;
1087       switch (*str) {
1088       case 'x':
1089          ++str;
1090          *x = strtoul(str, &ret, 10);
1091          str = ret;
1092          break;
1093 
1094       case 'y':
1095          ++str;
1096          *y = strtoul(str, &ret, 10);
1097          str = ret;
1098          break;
1099 
1100       case 'w':
1101          ++str;
1102          tmp = strtoul(str, &ret, 10);
1103          *width = tmp > 80 ? tmp : 80; /* 80 is chosen arbitrarily */
1104          str = ret;
1105          break;
1106 
1107       /*
1108        * Prevent setting height to less than 50. If the height is set to less,
1109        * the text of the Y axis labels on the graph will start overlapping.
1110        */
1111       case 'h':
1112          ++str;
1113          tmp = strtoul(str, &ret, 10);
1114          *height = tmp > 50 ? tmp : 50;
1115          str = ret;
1116          break;
1117 
1118       case 'c':
1119          ++str;
1120          tmp = strtoul(str, &ret, 10);
1121          *ceiling = tmp > 10 ? tmp : 10;
1122          str = ret;
1123          break;
1124 
1125       case 'd':
1126          ++str;
1127          ret = str;
1128          *dyn_ceiling = true;
1129          break;
1130 
1131       case 'r':
1132          ++str;
1133          ret = str;
1134          *reset_colors = true;
1135          break;
1136 
1137       case 's':
1138          ++str;
1139          ret = str;
1140          *sort_items = true;
1141          break;
1142 
1143       default:
1144          fprintf(stderr, "gallium_hud: syntax error: unexpected '%c'\n", *str);
1145          fflush(stderr);
1146       }
1147 
1148    }
1149 
1150    return ret;
1151 }
1152 
1153 static boolean
has_occlusion_query(struct pipe_screen * screen)1154 has_occlusion_query(struct pipe_screen *screen)
1155 {
1156    return screen->get_param(screen, PIPE_CAP_OCCLUSION_QUERY) != 0;
1157 }
1158 
1159 static boolean
has_streamout(struct pipe_screen * screen)1160 has_streamout(struct pipe_screen *screen)
1161 {
1162    return screen->get_param(screen, PIPE_CAP_MAX_STREAM_OUTPUT_BUFFERS) != 0;
1163 }
1164 
1165 static boolean
has_pipeline_stats_query(struct pipe_screen * screen)1166 has_pipeline_stats_query(struct pipe_screen *screen)
1167 {
1168    return screen->get_param(screen, PIPE_CAP_QUERY_PIPELINE_STATISTICS) != 0;
1169 }
1170 
1171 static void
hud_parse_env_var(struct hud_context * hud,struct pipe_screen * screen,const char * env)1172 hud_parse_env_var(struct hud_context *hud, struct pipe_screen *screen,
1173                   const char *env)
1174 {
1175    unsigned num, i;
1176    char name_a[256], s[256];
1177    char *name;
1178    struct hud_pane *pane = NULL;
1179    unsigned x = 10, y = 10, y_simple = 10;
1180    unsigned width = 251, height = 100;
1181    unsigned period = 500 * 1000;  /* default period (1/2 second) */
1182    uint64_t ceiling = UINT64_MAX;
1183    unsigned column_width = 251;
1184    boolean dyn_ceiling = false;
1185    boolean reset_colors = false;
1186    boolean sort_items = false;
1187    const char *period_env;
1188 
1189    if (strncmp(env, "simple,", 7) == 0) {
1190       hud->simple = true;
1191       env += 7;
1192    }
1193 
1194    /*
1195     * The GALLIUM_HUD_PERIOD env var sets the graph update rate.
1196     * The env var is in seconds (a float).
1197     * Zero means update after every frame.
1198     */
1199    period_env = getenv("GALLIUM_HUD_PERIOD");
1200    if (period_env) {
1201       float p = (float) atof(period_env);
1202       if (p >= 0.0f) {
1203          period = (unsigned) (p * 1000 * 1000);
1204       }
1205    }
1206 
1207    while ((num = parse_string(env, name_a)) != 0) {
1208       bool added = true;
1209 
1210       env += num;
1211 
1212       /* check for explicit location, size and etc. settings */
1213       name = read_pane_settings(name_a, &x, &y, &width, &height, &ceiling,
1214                                 &dyn_ceiling, &reset_colors, &sort_items);
1215 
1216      /*
1217       * Keep track of overall column width to avoid pane overlapping in case
1218       * later we create a new column while the bottom pane in the current
1219       * column is less wide than the rest of the panes in it.
1220       */
1221      column_width = width > column_width ? width : column_width;
1222 
1223       if (!pane) {
1224          pane = hud_pane_create(hud, x, y, x + width, y + height, y_simple,
1225                                 period, 10, ceiling, dyn_ceiling, sort_items);
1226          if (!pane)
1227             return;
1228       }
1229 
1230       if (reset_colors) {
1231          pane->next_color = 0;
1232          reset_colors = false;
1233       }
1234 
1235       /* Add a graph. */
1236 #if defined(HAVE_GALLIUM_EXTRA_HUD) || defined(HAVE_LIBSENSORS)
1237       char arg_name[64];
1238 #endif
1239       /* IF YOU CHANGE THIS, UPDATE print_help! */
1240       if (strcmp(name, "fps") == 0) {
1241          hud_fps_graph_install(pane);
1242       }
1243       else if (strcmp(name, "frametime") == 0) {
1244          hud_frametime_graph_install(pane);
1245       }
1246       else if (strcmp(name, "cpu") == 0) {
1247          hud_cpu_graph_install(pane, ALL_CPUS);
1248       }
1249       else if (sscanf(name, "cpu%u%s", &i, s) == 1) {
1250          hud_cpu_graph_install(pane, i);
1251       }
1252       else if (strcmp(name, "API-thread-busy") == 0) {
1253          hud_thread_busy_install(pane, name, false);
1254       }
1255       else if (strcmp(name, "API-thread-offloaded-slots") == 0) {
1256          hud_thread_counter_install(pane, name, HUD_COUNTER_OFFLOADED);
1257       }
1258       else if (strcmp(name, "API-thread-direct-slots") == 0) {
1259          hud_thread_counter_install(pane, name, HUD_COUNTER_DIRECT);
1260       }
1261       else if (strcmp(name, "API-thread-num-syncs") == 0) {
1262          hud_thread_counter_install(pane, name, HUD_COUNTER_SYNCS);
1263       }
1264       else if (strcmp(name, "main-thread-busy") == 0) {
1265          hud_thread_busy_install(pane, name, true);
1266       }
1267 #ifdef HAVE_GALLIUM_EXTRA_HUD
1268       else if (sscanf(name, "nic-rx-%s", arg_name) == 1) {
1269          hud_nic_graph_install(pane, arg_name, NIC_DIRECTION_RX);
1270       }
1271       else if (sscanf(name, "nic-tx-%s", arg_name) == 1) {
1272          hud_nic_graph_install(pane, arg_name, NIC_DIRECTION_TX);
1273       }
1274       else if (sscanf(name, "nic-rssi-%s", arg_name) == 1) {
1275          hud_nic_graph_install(pane, arg_name, NIC_RSSI_DBM);
1276          pane->type = PIPE_DRIVER_QUERY_TYPE_DBM;
1277       }
1278       else if (sscanf(name, "diskstat-rd-%s", arg_name) == 1) {
1279          hud_diskstat_graph_install(pane, arg_name, DISKSTAT_RD);
1280          pane->type = PIPE_DRIVER_QUERY_TYPE_BYTES;
1281       }
1282       else if (sscanf(name, "diskstat-wr-%s", arg_name) == 1) {
1283          hud_diskstat_graph_install(pane, arg_name, DISKSTAT_WR);
1284          pane->type = PIPE_DRIVER_QUERY_TYPE_BYTES;
1285       }
1286       else if (sscanf(name, "cpufreq-min-cpu%u", &i) == 1) {
1287          hud_cpufreq_graph_install(pane, i, CPUFREQ_MINIMUM);
1288          pane->type = PIPE_DRIVER_QUERY_TYPE_HZ;
1289       }
1290       else if (sscanf(name, "cpufreq-cur-cpu%u", &i) == 1) {
1291          hud_cpufreq_graph_install(pane, i, CPUFREQ_CURRENT);
1292          pane->type = PIPE_DRIVER_QUERY_TYPE_HZ;
1293       }
1294       else if (sscanf(name, "cpufreq-max-cpu%u", &i) == 1) {
1295          hud_cpufreq_graph_install(pane, i, CPUFREQ_MAXIMUM);
1296          pane->type = PIPE_DRIVER_QUERY_TYPE_HZ;
1297       }
1298 #endif
1299 #ifdef HAVE_LIBSENSORS
1300       else if (sscanf(name, "sensors_temp_cu-%s", arg_name) == 1) {
1301          hud_sensors_temp_graph_install(pane, arg_name,
1302                                         SENSORS_TEMP_CURRENT);
1303          pane->type = PIPE_DRIVER_QUERY_TYPE_TEMPERATURE;
1304       }
1305       else if (sscanf(name, "sensors_temp_cr-%s", arg_name) == 1) {
1306          hud_sensors_temp_graph_install(pane, arg_name,
1307                                         SENSORS_TEMP_CRITICAL);
1308          pane->type = PIPE_DRIVER_QUERY_TYPE_TEMPERATURE;
1309       }
1310       else if (sscanf(name, "sensors_volt_cu-%s", arg_name) == 1) {
1311          hud_sensors_temp_graph_install(pane, arg_name,
1312                                         SENSORS_VOLTAGE_CURRENT);
1313          pane->type = PIPE_DRIVER_QUERY_TYPE_VOLTS;
1314       }
1315       else if (sscanf(name, "sensors_curr_cu-%s", arg_name) == 1) {
1316          hud_sensors_temp_graph_install(pane, arg_name,
1317                                         SENSORS_CURRENT_CURRENT);
1318          pane->type = PIPE_DRIVER_QUERY_TYPE_AMPS;
1319       }
1320       else if (sscanf(name, "sensors_pow_cu-%s", arg_name) == 1) {
1321          hud_sensors_temp_graph_install(pane, arg_name,
1322                                         SENSORS_POWER_CURRENT);
1323          pane->type = PIPE_DRIVER_QUERY_TYPE_WATTS;
1324       }
1325 #endif
1326       else if (strcmp(name, "samples-passed") == 0 &&
1327                has_occlusion_query(screen)) {
1328          hud_pipe_query_install(&hud->batch_query, pane,
1329                                 "samples-passed",
1330                                 PIPE_QUERY_OCCLUSION_COUNTER, 0, 0,
1331                                 PIPE_DRIVER_QUERY_TYPE_UINT64,
1332                                 PIPE_DRIVER_QUERY_RESULT_TYPE_AVERAGE,
1333                                 0);
1334       }
1335       else if (strcmp(name, "primitives-generated") == 0 &&
1336                has_streamout(screen)) {
1337          hud_pipe_query_install(&hud->batch_query, pane,
1338                                 "primitives-generated",
1339                                 PIPE_QUERY_PRIMITIVES_GENERATED, 0, 0,
1340                                 PIPE_DRIVER_QUERY_TYPE_UINT64,
1341                                 PIPE_DRIVER_QUERY_RESULT_TYPE_AVERAGE,
1342                                 0);
1343       }
1344       else {
1345          boolean processed = FALSE;
1346 
1347          /* pipeline statistics queries */
1348          if (has_pipeline_stats_query(screen)) {
1349             static const char *pipeline_statistics_names[] =
1350             {
1351                "ia-vertices",
1352                "ia-primitives",
1353                "vs-invocations",
1354                "gs-invocations",
1355                "gs-primitives",
1356                "clipper-invocations",
1357                "clipper-primitives-generated",
1358                "ps-invocations",
1359                "hs-invocations",
1360                "ds-invocations",
1361                "cs-invocations"
1362             };
1363             for (i = 0; i < ARRAY_SIZE(pipeline_statistics_names); ++i)
1364                if (strcmp(name, pipeline_statistics_names[i]) == 0)
1365                   break;
1366             if (i < ARRAY_SIZE(pipeline_statistics_names)) {
1367                hud_pipe_query_install(&hud->batch_query, pane, name,
1368                                       PIPE_QUERY_PIPELINE_STATISTICS, i,
1369                                       0, PIPE_DRIVER_QUERY_TYPE_UINT64,
1370                                       PIPE_DRIVER_QUERY_RESULT_TYPE_AVERAGE,
1371                                       0);
1372                processed = TRUE;
1373             }
1374          }
1375 
1376          /* driver queries */
1377          if (!processed) {
1378             if (!hud_driver_query_install(&hud->batch_query, pane,
1379                                           screen, name)) {
1380                fprintf(stderr, "gallium_hud: unknown driver query '%s'\n", name);
1381                fflush(stderr);
1382                added = false;
1383             }
1384          }
1385       }
1386 
1387       if (*env == ':') {
1388          env++;
1389 
1390          if (!pane) {
1391             fprintf(stderr, "gallium_hud: syntax error: unexpected ':', "
1392                     "expected a name\n");
1393             fflush(stderr);
1394             break;
1395          }
1396 
1397          num = parse_string(env, s);
1398          env += num;
1399 
1400          if (num && sscanf(s, "%u", &i) == 1) {
1401             hud_pane_set_max_value(pane, i);
1402             pane->initial_max_value = i;
1403          }
1404          else {
1405             fprintf(stderr, "gallium_hud: syntax error: unexpected '%c' (%i) "
1406                             "after ':'\n", *env, *env);
1407             fflush(stderr);
1408          }
1409       }
1410 
1411       if (*env == '=') {
1412          env++;
1413 
1414          if (!pane) {
1415             fprintf(stderr, "gallium_hud: syntax error: unexpected '=', "
1416                     "expected a name\n");
1417             fflush(stderr);
1418             break;
1419          }
1420 
1421          num = parse_string(env, s);
1422          env += num;
1423 
1424          strip_hyphens(s);
1425          if (added && !list_is_empty(&pane->graph_list)) {
1426             struct hud_graph *graph;
1427             graph = LIST_ENTRY(struct hud_graph, pane->graph_list.prev, head);
1428             strncpy(graph->name, s, sizeof(graph->name)-1);
1429             graph->name[sizeof(graph->name)-1] = 0;
1430          }
1431       }
1432 
1433       if (*env == 0)
1434          break;
1435 
1436       /* parse a separator */
1437       switch (*env) {
1438       case '+':
1439          env++;
1440          break;
1441 
1442       case ',':
1443          env++;
1444          if (!pane)
1445             break;
1446 
1447          y += height + hud->font.glyph_height * (pane->num_graphs + 2);
1448          y_simple += hud->font.glyph_height * (pane->num_graphs + 1);
1449          height = 100;
1450 
1451          if (pane && pane->num_graphs) {
1452             list_addtail(&pane->head, &hud->pane_list);
1453             pane = NULL;
1454          }
1455          break;
1456 
1457       case ';':
1458          env++;
1459          y = 10;
1460          y_simple = 10;
1461          x += column_width + hud->font.glyph_width * 9;
1462          height = 100;
1463 
1464          if (pane && pane->num_graphs) {
1465             list_addtail(&pane->head, &hud->pane_list);
1466             pane = NULL;
1467          }
1468 
1469          /* Starting a new column; reset column width. */
1470          column_width = 251;
1471          break;
1472 
1473       default:
1474          fprintf(stderr, "gallium_hud: syntax error: unexpected '%c'\n", *env);
1475          fflush(stderr);
1476       }
1477 
1478       /* Reset to defaults for the next pane in case these were modified. */
1479       width = 251;
1480       ceiling = UINT64_MAX;
1481       dyn_ceiling = false;
1482       sort_items = false;
1483 
1484    }
1485 
1486    if (pane) {
1487       if (pane->num_graphs) {
1488          list_addtail(&pane->head, &hud->pane_list);
1489       }
1490       else {
1491          FREE(pane);
1492       }
1493    }
1494 
1495    LIST_FOR_EACH_ENTRY(pane, &hud->pane_list, head) {
1496       struct hud_graph *gr;
1497 
1498       LIST_FOR_EACH_ENTRY(gr, &pane->graph_list, head) {
1499          hud_graph_set_dump_file(gr);
1500       }
1501    }
1502 }
1503 
1504 static void
print_help(struct pipe_screen * screen)1505 print_help(struct pipe_screen *screen)
1506 {
1507    int i, num_queries, num_cpus = hud_get_num_cpus();
1508 
1509    puts("Syntax: GALLIUM_HUD=name1[+name2][...][:value1][,nameI...][;nameJ...]");
1510    puts("");
1511    puts("  Names are identifiers of data sources which will be drawn as graphs");
1512    puts("  in panes. Multiple graphs can be drawn in the same pane.");
1513    puts("  There can be multiple panes placed in rows and columns.");
1514    puts("");
1515    puts("  '+' separates names which will share a pane.");
1516    puts("  ':[value]' specifies the initial maximum value of the Y axis");
1517    puts("             for the given pane.");
1518    puts("  ',' creates a new pane below the last one.");
1519    puts("  ';' creates a new pane at the top of the next column.");
1520    puts("  '=' followed by a string, changes the name of the last data source");
1521    puts("      to that string");
1522    puts("");
1523    puts("  Example: GALLIUM_HUD=\"cpu,fps;primitives-generated\"");
1524    puts("");
1525    puts("  Additionally, by prepending '.[identifier][value]' modifiers to");
1526    puts("  a name, it is possible to explicitly set the location and size");
1527    puts("  of a pane, along with limiting overall maximum value of the");
1528    puts("  Y axis and activating dynamic readjustment of the Y axis.");
1529    puts("  Several modifiers may be applied to the same pane simultaneously.");
1530    puts("");
1531    puts("  'x[value]' sets the location of the pane on the x axis relative");
1532    puts("             to the upper-left corner of the viewport, in pixels.");
1533    puts("  'y[value]' sets the location of the pane on the y axis relative");
1534    puts("             to the upper-left corner of the viewport, in pixels.");
1535    puts("  'w[value]' sets width of the graph pixels.");
1536    puts("  'h[value]' sets height of the graph in pixels.");
1537    puts("  'c[value]' sets the ceiling of the value of the Y axis.");
1538    puts("             If the graph needs to draw values higher than");
1539    puts("             the ceiling allows, the value is clamped.");
1540    puts("  'd' activates dynamic Y axis readjustment to set the value of");
1541    puts("      the Y axis to match the highest value still visible in the graph.");
1542    puts("  'r' resets the color counter (the next color will be green)");
1543    puts("  's' sort items below graphs in descending order");
1544    puts("");
1545    puts("  If 'c' and 'd' modifiers are used simultaneously, both are in effect:");
1546    puts("  the Y axis does not go above the restriction imposed by 'c' while");
1547    puts("  still adjusting the value of the Y axis down when appropriate.");
1548    puts("");
1549    puts("  You can change behavior of the whole HUD by adding these options at");
1550    puts("  the beginning of the environment variable:");
1551    puts("  'simple,' disables all the fancy stuff and only draws text.");
1552    puts("");
1553    puts("  Example: GALLIUM_HUD=\".w256.h64.x1600.y520.d.c1000fps+cpu,.datom-count\"");
1554    puts("");
1555    puts("  Available names:");
1556    puts("    fps");
1557    puts("    frametime");
1558    puts("    cpu");
1559 
1560    for (i = 0; i < num_cpus; i++)
1561       printf("    cpu%i\n", i);
1562 
1563    if (has_occlusion_query(screen))
1564       puts("    samples-passed");
1565    if (has_streamout(screen))
1566       puts("    primitives-generated");
1567 
1568    if (has_pipeline_stats_query(screen)) {
1569       puts("    ia-vertices");
1570       puts("    ia-primitives");
1571       puts("    vs-invocations");
1572       puts("    gs-invocations");
1573       puts("    gs-primitives");
1574       puts("    clipper-invocations");
1575       puts("    clipper-primitives-generated");
1576       puts("    ps-invocations");
1577       puts("    hs-invocations");
1578       puts("    ds-invocations");
1579       puts("    cs-invocations");
1580    }
1581 
1582 #ifdef HAVE_GALLIUM_EXTRA_HUD
1583    hud_get_num_disks(1);
1584    hud_get_num_nics(1);
1585    hud_get_num_cpufreq(1);
1586 #endif
1587 #ifdef HAVE_LIBSENSORS
1588    hud_get_num_sensors(1);
1589 #endif
1590 
1591    if (screen->get_driver_query_info){
1592       boolean skipping = false;
1593       struct pipe_driver_query_info info;
1594       num_queries = screen->get_driver_query_info(screen, 0, NULL);
1595 
1596       for (i = 0; i < num_queries; i++){
1597          screen->get_driver_query_info(screen, i, &info);
1598          if (info.flags & PIPE_DRIVER_QUERY_FLAG_DONT_LIST) {
1599             if (!skipping)
1600                puts("    ...");
1601             skipping = true;
1602          } else {
1603             printf("    %s\n", info.name);
1604             skipping = false;
1605          }
1606       }
1607    }
1608 
1609    puts("");
1610    fflush(stdout);
1611 }
1612 
1613 static void
hud_unset_draw_context(struct hud_context * hud)1614 hud_unset_draw_context(struct hud_context *hud)
1615 {
1616    struct pipe_context *pipe = hud->pipe;
1617 
1618    if (!pipe)
1619       return;
1620 
1621    pipe_sampler_view_reference(&hud->font_sampler_view, NULL);
1622 
1623    if (hud->fs_color) {
1624       pipe->delete_fs_state(pipe, hud->fs_color);
1625       hud->fs_color = NULL;
1626    }
1627    if (hud->fs_text) {
1628       pipe->delete_fs_state(pipe, hud->fs_text);
1629       hud->fs_text = NULL;
1630    }
1631    if (hud->vs) {
1632       pipe->delete_vs_state(pipe, hud->vs);
1633       hud->vs = NULL;
1634    }
1635 
1636    hud->cso = NULL;
1637    hud->pipe = NULL;
1638 }
1639 
1640 static bool
hud_set_draw_context(struct hud_context * hud,struct cso_context * cso)1641 hud_set_draw_context(struct hud_context *hud, struct cso_context *cso)
1642 {
1643    struct pipe_context *pipe = cso_get_pipe_context(cso);
1644 
1645    assert(!hud->pipe);
1646    hud->pipe = pipe;
1647    hud->cso = cso;
1648 
1649    struct pipe_sampler_view view_templ;
1650    u_sampler_view_default_template(
1651          &view_templ, hud->font.texture, hud->font.texture->format);
1652    hud->font_sampler_view = pipe->create_sampler_view(pipe, hud->font.texture,
1653                                                       &view_templ);
1654    if (!hud->font_sampler_view)
1655       goto fail;
1656 
1657    /* fragment shader */
1658    hud->fs_color =
1659          util_make_fragment_passthrough_shader(pipe,
1660                                                TGSI_SEMANTIC_COLOR,
1661                                                TGSI_INTERPOLATE_CONSTANT,
1662                                                TRUE);
1663 
1664    {
1665       /* Read a texture and do .xxxx swizzling. */
1666       static const char *fragment_shader_text = {
1667          "FRAG\n"
1668          "DCL IN[0], GENERIC[0], LINEAR\n"
1669          "DCL SAMP[0]\n"
1670          "DCL SVIEW[0], RECT, FLOAT\n"
1671          "DCL OUT[0], COLOR[0]\n"
1672          "DCL TEMP[0]\n"
1673 
1674          "TEX TEMP[0], IN[0], SAMP[0], RECT\n"
1675          "MOV OUT[0], TEMP[0].xxxx\n"
1676          "END\n"
1677       };
1678 
1679       struct tgsi_token tokens[1000];
1680       struct pipe_shader_state state = {0};
1681 
1682       if (!tgsi_text_translate(fragment_shader_text, tokens, ARRAY_SIZE(tokens))) {
1683          assert(0);
1684          goto fail;
1685       }
1686       pipe_shader_state_from_tgsi(&state, tokens);
1687       hud->fs_text = pipe->create_fs_state(pipe, &state);
1688    }
1689 
1690    /* vertex shader */
1691    {
1692       static const char *vertex_shader_text = {
1693          "VERT\n"
1694          "DCL IN[0..1]\n"
1695          "DCL OUT[0], POSITION\n"
1696          "DCL OUT[1], COLOR[0]\n" /* color */
1697          "DCL OUT[2], GENERIC[0]\n" /* texcoord */
1698          /* [0] = color,
1699           * [1] = (2/fb_width, 2/fb_height, xoffset, yoffset)
1700           * [2] = (xscale, yscale, 0, 0) */
1701          "DCL CONST[0][0..2]\n"
1702          "DCL TEMP[0]\n"
1703          "IMM[0] FLT32 { -1, 0, 0, 1 }\n"
1704 
1705          /* v = in * (xscale, yscale) + (xoffset, yoffset) */
1706          "MAD TEMP[0].xy, IN[0], CONST[0][2].xyyy, CONST[0][1].zwww\n"
1707          /* pos = v * (2 / fb_width, 2 / fb_height) - (1, 1) */
1708          "MAD OUT[0].xy, TEMP[0], CONST[0][1].xyyy, IMM[0].xxxx\n"
1709          "MOV OUT[0].zw, IMM[0]\n"
1710 
1711          "MOV OUT[1], CONST[0][0]\n"
1712          "MOV OUT[2], IN[1]\n"
1713          "END\n"
1714       };
1715 
1716       struct tgsi_token tokens[1000];
1717       struct pipe_shader_state state = {0};
1718       if (!tgsi_text_translate(vertex_shader_text, tokens, ARRAY_SIZE(tokens))) {
1719          assert(0);
1720          goto fail;
1721       }
1722       pipe_shader_state_from_tgsi(&state, tokens);
1723       hud->vs = pipe->create_vs_state(pipe, &state);
1724    }
1725 
1726    return true;
1727 
1728 fail:
1729    hud_unset_draw_context(hud);
1730    fprintf(stderr, "hud: failed to set a draw context");
1731    return false;
1732 }
1733 
1734 static void
hud_unset_record_context(struct hud_context * hud)1735 hud_unset_record_context(struct hud_context *hud)
1736 {
1737    struct pipe_context *pipe = hud->record_pipe;
1738    struct hud_pane *pane, *pane_tmp;
1739    struct hud_graph *graph, *graph_tmp;
1740 
1741    if (!pipe)
1742       return;
1743 
1744    LIST_FOR_EACH_ENTRY_SAFE(pane, pane_tmp, &hud->pane_list, head) {
1745       LIST_FOR_EACH_ENTRY_SAFE(graph, graph_tmp, &pane->graph_list, head) {
1746          list_del(&graph->head);
1747          hud_graph_destroy(graph, pipe);
1748       }
1749       list_del(&pane->head);
1750       FREE(pane);
1751    }
1752 
1753    hud_batch_query_cleanup(&hud->batch_query, pipe);
1754    hud->record_pipe = NULL;
1755 }
1756 
1757 static void
hud_set_record_context(struct hud_context * hud,struct pipe_context * pipe)1758 hud_set_record_context(struct hud_context *hud, struct pipe_context *pipe)
1759 {
1760    hud->record_pipe = pipe;
1761 }
1762 
1763 /**
1764  * Create the HUD.
1765  *
1766  * If "share" is non-NULL and GALLIUM_HUD_SHARE=x,y is set, increment the
1767  * reference counter of "share", set "cso" as the recording or drawing context
1768  * according to the environment variable, and return "share".
1769  * This allows sharing the HUD instance within a multi-context share group,
1770  * record queries in one context and draw them in another.
1771  */
1772 struct hud_context *
hud_create(struct cso_context * cso,struct hud_context * share)1773 hud_create(struct cso_context *cso, struct hud_context *share)
1774 {
1775    const char *share_env = debug_get_option("GALLIUM_HUD_SHARE", NULL);
1776    unsigned record_ctx = 0, draw_ctx = 0;
1777 
1778    if (share_env && sscanf(share_env, "%u,%u", &record_ctx, &draw_ctx) != 2)
1779       share_env = NULL;
1780 
1781    if (share && share_env) {
1782       /* All contexts in a share group share the HUD instance.
1783        * Only one context can record queries and only one context
1784        * can draw the HUD.
1785        *
1786        * GALLIUM_HUD_SHARE=x,y determines the context indices.
1787        */
1788       int context_id = p_atomic_inc_return(&share->refcount) - 1;
1789 
1790       if (context_id == record_ctx) {
1791          assert(!share->record_pipe);
1792          hud_set_record_context(share, cso_get_pipe_context(cso));
1793       }
1794 
1795       if (context_id == draw_ctx) {
1796          assert(!share->pipe);
1797          hud_set_draw_context(share, cso);
1798       }
1799 
1800       return share;
1801    }
1802 
1803    struct pipe_screen *screen = cso_get_pipe_context(cso)->screen;
1804    struct hud_context *hud;
1805    unsigned i;
1806    const char *env = debug_get_option("GALLIUM_HUD", NULL);
1807 #ifdef PIPE_OS_UNIX
1808    unsigned signo = debug_get_num_option("GALLIUM_HUD_TOGGLE_SIGNAL", 0);
1809    static boolean sig_handled = FALSE;
1810    struct sigaction action;
1811 
1812    memset(&action, 0, sizeof(action));
1813 #endif
1814    huds_visible = debug_get_bool_option("GALLIUM_HUD_VISIBLE", TRUE);
1815    hud_scale = debug_get_num_option("GALLIUM_HUD_SCALE", 1);
1816 
1817    if (!env || !*env)
1818       return NULL;
1819 
1820    if (strcmp(env, "help") == 0) {
1821       print_help(screen);
1822       return NULL;
1823    }
1824 
1825    hud = CALLOC_STRUCT(hud_context);
1826    if (!hud)
1827       return NULL;
1828 
1829    /* font (the context is only used for the texture upload) */
1830    if (!util_font_create(cso_get_pipe_context(cso),
1831                          UTIL_FONT_FIXED_8X13, &hud->font)) {
1832       FREE(hud);
1833       return NULL;
1834    }
1835 
1836    hud->refcount = 1;
1837    hud->has_srgb = screen->is_format_supported(screen,
1838                                                PIPE_FORMAT_B8G8R8A8_SRGB,
1839                                                PIPE_TEXTURE_2D, 0, 0,
1840                                                PIPE_BIND_RENDER_TARGET) != 0;
1841 
1842    /* blend state */
1843    hud->no_blend.rt[0].colormask = PIPE_MASK_RGBA;
1844 
1845    hud->alpha_blend.rt[0].colormask = PIPE_MASK_RGBA;
1846    hud->alpha_blend.rt[0].blend_enable = 1;
1847    hud->alpha_blend.rt[0].rgb_func = PIPE_BLEND_ADD;
1848    hud->alpha_blend.rt[0].rgb_src_factor = PIPE_BLENDFACTOR_SRC_ALPHA;
1849    hud->alpha_blend.rt[0].rgb_dst_factor = PIPE_BLENDFACTOR_INV_SRC_ALPHA;
1850    hud->alpha_blend.rt[0].alpha_func = PIPE_BLEND_ADD;
1851    hud->alpha_blend.rt[0].alpha_src_factor = PIPE_BLENDFACTOR_ZERO;
1852    hud->alpha_blend.rt[0].alpha_dst_factor = PIPE_BLENDFACTOR_ONE;
1853 
1854    /* rasterizer */
1855    hud->rasterizer.half_pixel_center = 1;
1856    hud->rasterizer.bottom_edge_rule = 1;
1857    hud->rasterizer.depth_clip_near = 1;
1858    hud->rasterizer.depth_clip_far = 1;
1859    hud->rasterizer.line_width = 1;
1860    hud->rasterizer.line_last_pixel = 1;
1861 
1862    hud->rasterizer_aa_lines = hud->rasterizer;
1863    hud->rasterizer_aa_lines.line_smooth = 1;
1864 
1865    /* vertex elements */
1866    hud->velems.count = 2;
1867    for (i = 0; i < 2; i++) {
1868       hud->velems.velems[i].src_offset = i * 2 * sizeof(float);
1869       hud->velems.velems[i].src_format = PIPE_FORMAT_R32G32_FLOAT;
1870       hud->velems.velems[i].vertex_buffer_index = 0;
1871    }
1872 
1873    /* sampler state (for font drawing) */
1874    hud->font_sampler_state.wrap_s = PIPE_TEX_WRAP_CLAMP_TO_EDGE;
1875    hud->font_sampler_state.wrap_t = PIPE_TEX_WRAP_CLAMP_TO_EDGE;
1876    hud->font_sampler_state.wrap_r = PIPE_TEX_WRAP_CLAMP_TO_EDGE;
1877    hud->font_sampler_state.normalized_coords = 0;
1878 
1879    /* constants */
1880    hud->constbuf.buffer_size = sizeof(hud->constants);
1881    hud->constbuf.user_buffer = &hud->constants;
1882 
1883    list_inithead(&hud->pane_list);
1884 
1885    /* setup sig handler once for all hud contexts */
1886 #ifdef PIPE_OS_UNIX
1887    if (!sig_handled && signo != 0) {
1888       action.sa_sigaction = &signal_visible_handler;
1889       action.sa_flags = SA_SIGINFO;
1890 
1891       if (signo >= NSIG)
1892          fprintf(stderr, "gallium_hud: invalid signal %u\n", signo);
1893       else if (sigaction(signo, &action, NULL) < 0)
1894          fprintf(stderr, "gallium_hud: unable to set handler for signal %u\n", signo);
1895       fflush(stderr);
1896 
1897       sig_handled = TRUE;
1898    }
1899 #endif
1900 
1901    if (record_ctx == 0)
1902       hud_set_record_context(hud, cso_get_pipe_context(cso));
1903    if (draw_ctx == 0)
1904       hud_set_draw_context(hud, cso);
1905 
1906    hud_parse_env_var(hud, screen, env);
1907    return hud;
1908 }
1909 
1910 /**
1911  * Destroy a HUD. If the HUD has several users, decrease the reference counter
1912  * and detach the context from the HUD.
1913  */
1914 void
hud_destroy(struct hud_context * hud,struct cso_context * cso)1915 hud_destroy(struct hud_context *hud, struct cso_context *cso)
1916 {
1917    if (!cso || hud->record_pipe == cso_get_pipe_context(cso))
1918       hud_unset_record_context(hud);
1919 
1920    if (!cso || hud->cso == cso)
1921       hud_unset_draw_context(hud);
1922 
1923    if (p_atomic_dec_zero(&hud->refcount)) {
1924       pipe_resource_reference(&hud->font.texture, NULL);
1925       FREE(hud);
1926    }
1927 }
1928 
1929 void
hud_add_queue_for_monitoring(struct hud_context * hud,struct util_queue_monitoring * queue_info)1930 hud_add_queue_for_monitoring(struct hud_context *hud,
1931                              struct util_queue_monitoring *queue_info)
1932 {
1933    assert(!hud->monitored_queue);
1934    hud->monitored_queue = queue_info;
1935 }
1936