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#include <assert.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <inttypes.h>
#include <pthread.h>
#include <stdlib.h>
#include <string.h>
#include <stdint.h>
#include <sys/time.h>
#include <time.h>
#include <unistd.h>
#include "til.h"
#include "til_fb.h"
#include "til_module_context.h"
#include "til_settings.h"
#include "til_threads.h"
#include "til_util.h"
/* Copyright (C) 2016 Vito Caputo <vcaputo@pengaru.com> */
#define DEFAULT_MODULE "rtv"
static til_threads_t *til_threads;
extern til_module_t blinds_module;
extern til_module_t checkers_module;
extern til_module_t compose_module;
extern til_module_t drizzle_module;
extern til_module_t flui2d_module;
extern til_module_t julia_module;
extern til_module_t meta2d_module;
extern til_module_t moire_module;
extern til_module_t montage_module;
extern til_module_t pixbounce_module;
extern til_module_t plasma_module;
extern til_module_t plato_module;
extern til_module_t ray_module;
extern til_module_t rkt_module;
extern til_module_t roto_module;
extern til_module_t rtv_module;
extern til_module_t shapes_module;
extern til_module_t snow_module;
extern til_module_t sparkler_module;
extern til_module_t spiro_module;
extern til_module_t stars_module;
extern til_module_t strobe_module;
extern til_module_t submit_module;
extern til_module_t swab_module;
extern til_module_t swarm_module;
extern til_module_t voronoi_module;
static const til_module_t *modules[] = {
&blinds_module,
&checkers_module,
&compose_module,
&drizzle_module,
&flui2d_module,
&julia_module,
&meta2d_module,
&moire_module,
&montage_module,
&pixbounce_module,
&plasma_module,
&plato_module,
&ray_module,
&rkt_module,
&roto_module,
&rtv_module,
&shapes_module,
&snow_module,
&sparkler_module,
&spiro_module,
&stars_module,
&strobe_module,
&submit_module,
&swab_module,
&swarm_module,
&voronoi_module,
};
/* initialize rototiller (create rendering threads) */
int til_init(void)
{
if (!(til_threads = til_threads_create()))
return -errno;
return 0;
}
/* wait for all threads to be idle */
void til_quiesce(void)
{
til_threads_wait_idle(til_threads);
}
void til_shutdown(void)
{
til_threads_destroy(til_threads);
}
static void _blank_prepare_frame(til_module_context_t *context, til_stream_t *stream, unsigned ticks, til_fb_fragment_t **fragment_ptr, til_frame_plan_t *res_frame_plan)
{
*res_frame_plan = (til_frame_plan_t){ .fragmenter = til_fragmenter_slice_per_cpu };
}
static void _blank_render_fragment(til_module_context_t *context, til_stream_t *stream, unsigned ticks, unsigned cpu, til_fb_fragment_t **fragment_ptr)
{
til_fb_fragment_clear(*fragment_ptr);
}
static til_module_t _blank_module = {
.prepare_frame = _blank_prepare_frame,
.render_fragment = _blank_render_fragment,
.name = "blank",
.description = "built-in blanker",
.author = "built-in",
};
const til_module_t * til_lookup_module(const char *name)
{
static const til_module_t *builtins[] = {
&_blank_module,
};
static struct {
const til_module_t **modules;
size_t n_modules;
} module_lists[] = {
{
builtins,
nelems(builtins),
},
{ modules,
nelems(modules),
}
};
assert(name);
for (size_t n = 0; n < nelems(module_lists); n++) {
for (size_t i = 0; i < module_lists[n].n_modules; i++) {
if (!strcasecmp(name, module_lists[n].modules[i]->name))
return module_lists[n].modules[i];
}
}
return NULL;
}
void til_get_modules(const til_module_t ***res_modules, size_t *res_n_modules)
{
assert(res_modules);
assert(res_n_modules);
*res_modules = modules;
*res_n_modules = nelems(modules);
}
static void module_render_fragment(til_module_context_t *context, til_stream_t *stream, til_threads_t *threads, unsigned ticks, til_fb_fragment_t **fragment_ptr)
{
const til_module_t *module;
assert(context);
assert(context->module);
assert(threads);
assert(fragment_ptr && *fragment_ptr);
module = context->module;
if (module->prepare_frame) {
til_frame_plan_t frame_plan = {};
module->prepare_frame(context, stream, ticks, fragment_ptr, &frame_plan);
/* XXX: any module which provides prepare_frame() must return a frame_plan.fragmenter,
* and provide render_fragment()
*/
assert(frame_plan.fragmenter);
assert(module->render_fragment);
if (context->n_cpus > 1) {
til_threads_frame_submit(threads, fragment_ptr, &frame_plan, module->render_fragment, context, stream, ticks);
til_threads_wait_idle(threads);
} else {
unsigned fragnum = 0;
til_fb_fragment_t frag, texture, *frag_ptr = &frag;
if ((*fragment_ptr)->texture)
frag.texture = &texture; /* fragmenter needs the space */
while (frame_plan.fragmenter(context, *fragment_ptr, fragnum++, &frag))
module->render_fragment(context, stream, ticks, 0, &frag_ptr);
}
} else if (module->render_fragment)
module->render_fragment(context, stream, ticks, 0, fragment_ptr);
if (module->finish_frame)
module->finish_frame(context, stream, ticks, fragment_ptr);
(*fragment_ptr)->cleared = 1;
}
/* This is a public interface to the threaded module rendering intended for use by
* modules that wish to get the output of other modules for their own use.
*/
void til_module_render(til_module_context_t *context, til_stream_t *stream, unsigned ticks, til_fb_fragment_t **fragment_ptr)
{
module_render_fragment(context, stream, til_threads, ticks, fragment_ptr);
}
/* if n_cpus == 0, it will be automatically set to n_threads.
* to explicitly set n_cpus, just pass the value. This is primarily intended for
* the purpose of explicitly constraining rendering parallelization to less than n_threads,
* if n_cpus is specified > n_threads it won't increase n_threads...
*/
int til_module_create_context(const til_module_t *module, til_stream_t *stream, unsigned seed, unsigned ticks, unsigned n_cpus, const char *parent_path, til_setup_t *setup, til_module_context_t **res_context)
{
til_module_context_t *context;
char *path;
assert(module);
assert(parent_path);
assert(setup || !module->setup); /* if a module provides a .setup() method, it can assume a provided setup */
assert(res_context);
{
size_t path_len;
/* TODO: when til_setup_t learns to name settings blocks, this would be where to override module->name with the setup-specified name */
path_len = strlen(parent_path) + 1 + strlen(module->name) + 1;
path = calloc(1, path_len);
if (!path)
return -ENOMEM;
snprintf(path, path_len, "%s/%s", parent_path, module->name);
}
if (!n_cpus)
n_cpus = til_threads_num_threads(til_threads);
if (!module->create_context)
context = til_module_context_new(module, sizeof(til_module_context_t), stream, seed, ticks, n_cpus, path, setup);
else
context = module->create_context(module, stream, seed, ticks, n_cpus, path, setup);
if (!context)
return -ENOMEM;
*res_context = context;
return 0;
}
/* select module if not yet selected, then setup the module. */
int til_module_setup(const til_settings_t *settings, til_setting_t **res_setting, const til_setting_desc_t **res_desc, til_setup_t **res_setup)
{
til_setting_t *setting;
const til_module_t *module;
const char *name;
name = til_settings_get_value_by_idx(settings, 0, &setting);
if (!name) {
const char *values[nelems(modules) + 1] = {};
const char *annotations[nelems(modules) + 1] = {};
til_setting_desc_t *desc;
int r;
for (unsigned i = 0, j = 0; i < nelems(modules); i++) {
if ((modules[i]->flags & TIL_MODULE_EXPERIMENTAL))
continue;
values[j] = modules[i]->name;
annotations[j] = modules[i]->description;
j++;
}
r = til_setting_desc_new( settings,
&(til_setting_spec_t){
.name = "Renderer module",
.key = NULL,
.regex = "[a-zA-Z0-9]+",
.preferred = DEFAULT_MODULE,
.values = values,
.annotations = annotations
}, res_desc);
if (r < 0)
return r;
*res_setting = name ? setting : NULL;
return 1;
}
module = til_lookup_module(name);
if (!module)
return -EINVAL;
if (module->setup)
return module->setup(settings, res_setting, res_desc, res_setup);
return 0;
}
/* originally taken from rtv, this randomizes a module's setup @res_setup, args @res_arg
* returns 0 on no setup, 1 on setup successful with results stored @res_*, -errno on error.
*/
int til_module_randomize_setup(const til_module_t *module, unsigned seed, til_setup_t **res_setup, char **res_arg)
{
til_settings_t *settings;
til_setting_t *setting;
const til_setting_desc_t *desc;
int r = 1;
assert(module);
if (!module->setup)
return 0;
/* FIXME TODO:
* This seems wrong for two reasons:
* 1. There's no parent settings to attach this to, and there really shouldn't be such
* orphaned settings instances as we're supposed ot be able to influence their values
* externally via settings. At the very least this seems like it should be part of a
* heirarchy somewhere... which leads to #2
*
* 2. Not only does lacking a parent suggest a problem, but there should be an incoming
* settings instance to randomize which may contain some values already set which we
* would skip randomizing. The settings don't currently have any kind of attributes or
* other state to indicate which ones should always be randomized vs. ones which were
* explicitly specified to stay fixed.
*/
settings = til_settings_new(NULL, module->name, NULL);
if (!settings)
return -ENOMEM;
for (setting = NULL; module->setup(settings, &setting, &desc, res_setup) > 0; setting = NULL) {
if (!setting) {
if (desc->spec.random) {
char *value;
value = desc->spec.random(rand_r(&seed));
setting = til_settings_add_value(desc->container, desc->spec.key, value, desc);
free(value);
} else if (desc->spec.values) {
int n;
for (n = 0; desc->spec.values[n]; n++);
n = rand_r(&seed) % n;
setting = til_settings_add_value(desc->container, desc->spec.key, desc->spec.values[n], desc);
} else {
setting = til_settings_add_value(desc->container, desc->spec.key, desc->spec.preferred, desc);
}
}
assert(setting);
if (desc->spec.as_nested_settings && !setting->value_as_nested_settings) {
char *label = NULL;
if (!desc->spec.key) {
/* generate a positional label for bare-value specs */
r = til_settings_label_setting(desc->container, setting, &label);
if (r < 0)
return r;
}
setting->value_as_nested_settings = til_settings_new(desc->container, desc->spec.key ? : label, setting->value);
free(label);
if (!setting->value_as_nested_settings)
return -ENOMEM;
}
}
if (res_arg) {
char *arg;
arg = til_settings_as_arg(settings);
if (!arg)
r = -ENOMEM;
else
*res_arg = arg;
}
til_settings_free(settings);
return r;
}
/* generic fragmenter using a horizontal slice per cpu according to context->n_cpus */
int til_fragmenter_slice_per_cpu(til_module_context_t *context, const til_fb_fragment_t *fragment, unsigned number, til_fb_fragment_t *res_fragment)
{
return til_fb_fragment_slice_single(fragment, context->n_cpus, number, res_fragment);
}
/* generic fragmenter using 64x64 tiles */
int til_fragmenter_tile64(til_module_context_t *context, const til_fb_fragment_t *fragment, unsigned number, til_fb_fragment_t *res_fragment)
{
return til_fb_fragment_tile_single(fragment, 64, number, res_fragment);
}
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