nuclear@0: #include <limits.h>
nuclear@0: #include "psyspp.h"
nuclear@0: #include "sdrman.h"
nuclear@0: #include "logger.h"
nuclear@0: #include "mesh.h"	// just for the attrib enums
nuclear@0: #include "unistate.h"
nuclear@0: #include "datapath.h"
nuclear@0: #include "texman.h"
nuclear@0: #include "texgen.h"
nuclear@0: 
nuclear@0: static void pdraw_start(const psys_emitter *em, void *cls);
nuclear@0: static void pdraw(const psys_emitter *em, const psys_particle *part, void *cls);
nuclear@0: static void pdraw_end(const psys_emitter *em, void *cls);
nuclear@0: 
nuclear@0: static unsigned int psys_load_texture(const char *fname, void *cls);
nuclear@0: 
nuclear@0: ParticleSystemAttributes::ParticleSystemAttributes()
nuclear@0: {
nuclear@0: 	tex = 0;
nuclear@0: 	own_psattr = true;
nuclear@0: 	psattr = new psys_attributes;
nuclear@0: 	psys_init_attr(psattr);
nuclear@0: }
nuclear@0: 
nuclear@0: ParticleSystemAttributes::ParticleSystemAttributes(psys_attributes *psattr)
nuclear@0: {
nuclear@0: 	tex = 0;
nuclear@0: 	own_psattr = false;
nuclear@0: 	this->psattr = psattr;
nuclear@0: }
nuclear@0: 
nuclear@0: ParticleSystemAttributes::~ParticleSystemAttributes()
nuclear@0: {
nuclear@0: 	if(own_psattr) {
nuclear@0: 		psys_destroy_attr(psattr);
nuclear@0: 		delete psattr;
nuclear@0: 	}
nuclear@0: }
nuclear@0: 
nuclear@0: ParticleSystemAttributes::ParticleSystemAttributes(const ParticleSystemAttributes &rhs)
nuclear@0: {
nuclear@0: 	own_psattr = true;
nuclear@0: 	tex = rhs.tex;
nuclear@0: 	psattr = new psys_attributes;
nuclear@0: 	psys_init_attr(psattr);
nuclear@0: 
nuclear@0: 	psys_copy_attr(psattr, rhs.psattr);
nuclear@0: }
nuclear@0: 
nuclear@0: ParticleSystemAttributes &ParticleSystemAttributes::operator =(const ParticleSystemAttributes &rhs)
nuclear@0: {
nuclear@0: 	if(&rhs != this) {
nuclear@0: 		tex = rhs.tex;
nuclear@0: 		psys_copy_attr(psattr, rhs.psattr);
nuclear@0: 	}
nuclear@0: 	return *this;
nuclear@0: }
nuclear@0: 
nuclear@0: bool ParticleSystemAttributes::load(const char *fname)
nuclear@0: {
nuclear@0: 	psys_texture_loader(psys_load_texture, 0, this);
nuclear@0: 	return psys_load_attr(psattr, datafile_path(fname).c_str()) != -1;
nuclear@0: }
nuclear@0: 
nuclear@0: bool ParticleSystemAttributes::load(FILE *fp)
nuclear@0: {
nuclear@0: 	psys_texture_loader(psys_load_texture, 0, this);
nuclear@0: 	return psys_load_attr_stream(psattr, fp) != -1;
nuclear@0: }
nuclear@0: 
nuclear@0: bool ParticleSystemAttributes::save(const char *fname) const
nuclear@0: {
nuclear@0: 	return psys_save_attr(psattr, fname) != -1;
nuclear@0: }
nuclear@0: 
nuclear@0: bool ParticleSystemAttributes::save(FILE *fp) const
nuclear@0: {
nuclear@0: 	return psys_save_attr_stream(psattr, fp) != -1;
nuclear@0: }
nuclear@0: 
nuclear@0: void ParticleSystemAttributes::set_part_color(const Vector3 &color, float t)
nuclear@0: {
nuclear@0: 	psys_set_value3(&psattr->part_attr.color, (anm_time_t)(t * 1000.0), v3_cons(color.x, color.y, color.z));
nuclear@0: }
nuclear@0: 
nuclear@0: void ParticleSystemAttributes::set_part_alpha(float alpha, float t)
nuclear@0: {
nuclear@0: 	psys_set_value(&psattr->part_attr.alpha, (anm_time_t)(t * 1000.0), alpha);
nuclear@0: }
nuclear@0: 
nuclear@0: void ParticleSystemAttributes::set_part_scale(float size, float t)
nuclear@0: {
nuclear@0: 	psys_set_value(&psattr->part_attr.size, (anm_time_t)(t * 1000.0), size);
nuclear@0: }
nuclear@0: 
nuclear@0: 
nuclear@0: // emmiter attributes
nuclear@0: void ParticleSystemAttributes::set_texture(Texture *tex)
nuclear@0: {
nuclear@0: 	this->tex = tex;
nuclear@0: 	psattr->tex = tex->get_id();
nuclear@0: }
nuclear@0: 
nuclear@0: Texture *ParticleSystemAttributes::get_texture() const
nuclear@0: {
nuclear@0: 	return tex;
nuclear@0: }
nuclear@0: 
nuclear@0: void ParticleSystemAttributes::set_spawn_range(const Vector3 &range, long tm)
nuclear@0: {
nuclear@0: 	psys_set_value3(&psattr->spawn_range, ANM_MSEC2TM(tm), v3_cons(range.x, range.y, range.z));
nuclear@0: }
nuclear@0: 
nuclear@0: void ParticleSystemAttributes::set_spawn_rate(float rate, long tm)
nuclear@0: {
nuclear@0: 	psys_set_value(&psattr->rate, ANM_MSEC2TM(tm), rate);
nuclear@0: }
nuclear@0: 
nuclear@0: float ParticleSystemAttributes::get_spawn_rate(long tm) const
nuclear@0: {
nuclear@0: 	return psys_get_value(&psattr->rate, ANM_MSEC2TM(tm));
nuclear@0: }
nuclear@0: 
nuclear@0: void ParticleSystemAttributes::set_life(float life, float range, long tm)
nuclear@0: {
nuclear@0: 	psys_set_anm_rnd(&psattr->life, ANM_MSEC2TM(tm), life, range);
nuclear@0: }
nuclear@0: 
nuclear@0: void ParticleSystemAttributes::set_size(float sz, float range, long tm)
nuclear@0: {
nuclear@0: 	psys_set_anm_rnd(&psattr->size, ANM_MSEC2TM(tm), sz, range);
nuclear@0: }
nuclear@0: 
nuclear@0: void ParticleSystemAttributes::set_spawn_dir(const Vector3 &dir, const Vector3 &range, long tm)
nuclear@0: {
nuclear@0: 	psys_set_anm_rnd3(&psattr->dir, ANM_MSEC2TM(tm), v3_cons(dir.x, dir.y, dir.z), v3_cons(range.x, range.y, range.z));
nuclear@0: }
nuclear@0: 
nuclear@0: void ParticleSystemAttributes::set_gravity(const Vector3 &grav, long tm)
nuclear@0: {
nuclear@0: 	psys_set_value3(&psattr->grav, ANM_MSEC2TM(tm), v3_cons(grav.x, grav.y, grav.z));
nuclear@0: }
nuclear@0: 
nuclear@0: void ParticleSystemAttributes::set_drag(float drag)
nuclear@0: {
nuclear@0: 	psattr->drag = drag;
nuclear@0: }
nuclear@0: 
nuclear@0: void ParticleSystemAttributes::set_particle_limit(int lim)
nuclear@0: {
nuclear@0: 	psattr->max_particles = lim;
nuclear@0: }
nuclear@0: 
nuclear@0: 
nuclear@0: // ---- ParticleSystem ----
nuclear@0: 
nuclear@0: ParticleSystem::ParticleSystem()
nuclear@0: 	: attr(&psys.attr)
nuclear@0: {
nuclear@0: 	psys_init(&psys);
nuclear@0: 	psys_draw_func(&psys, pdraw, pdraw_start, pdraw_end, (void*)this);
nuclear@0: 	start_time = LONG_MIN;
nuclear@0: 	last_upd_time = LONG_MIN;
nuclear@0: }
nuclear@0: 
nuclear@0: ParticleSystem::~ParticleSystem()
nuclear@0: {
nuclear@0: 	psys_destroy(&psys);
nuclear@0: }
nuclear@0: 
nuclear@0: void ParticleSystem::set_start_time(long tm)
nuclear@0: {
nuclear@0: 	start_time = tm;
nuclear@0: }
nuclear@0: 
nuclear@0: bool ParticleSystem::is_active() const
nuclear@0: {
nuclear@0: 	float rate = attr.get_spawn_rate(last_upd_time);
nuclear@0: 	return psys.pcount > 0 || last_upd_time == 0;// || rate > 0.0;
nuclear@0: }
nuclear@0: 
nuclear@0: ParticleSystemAttributes *ParticleSystem::get_attr()
nuclear@0: {
nuclear@0: 	return &attr;
nuclear@0: }
nuclear@0: 
nuclear@0: const ParticleSystemAttributes *ParticleSystem::get_attr() const
nuclear@0: {
nuclear@0: 	return &attr;
nuclear@0: }
nuclear@0: 
nuclear@0: void ParticleSystem::set_attr(const ParticleSystemAttributes &pattr)
nuclear@0: {
nuclear@0: 	attr = pattr;
nuclear@0: }
nuclear@0: 
nuclear@0: bool ParticleSystem::load(const char *fname)
nuclear@0: {
nuclear@0: 	psys_texture_loader(psys_load_texture, 0, &attr);
nuclear@0: 	return attr.load(fname);
nuclear@0: }
nuclear@0: 
nuclear@0: bool ParticleSystem::save(const char *fname) const
nuclear@0: {
nuclear@0: 	return attr.save(fname);
nuclear@0: }
nuclear@0: 
nuclear@0: void ParticleSystem::update(long tm)
nuclear@0: {
nuclear@0: 	if(start_time > LONG_MIN) {
nuclear@0: 		tm -= start_time;
nuclear@0: 	}
nuclear@0: 
nuclear@0: 	Matrix4x4 xform;
nuclear@0: 	get_xform(tm, &xform);
nuclear@0: 
nuclear@0: 	Vector3 pos = Vector3(0, 0, 0).transformed(xform);
nuclear@0: 
nuclear@0: 	psys_set_pos(&psys, v3_cons(pos.x, pos.y, pos.z), 0);
nuclear@0: 	psys_update(&psys, (double)tm / 1000.0);
nuclear@0: 
nuclear@0: 	last_upd_time = tm;
nuclear@0: }
nuclear@0: 
nuclear@0: void ParticleSystem::draw() const
nuclear@0: {
nuclear@0: 	psys_draw(&psys);
nuclear@0: }
nuclear@0: 
nuclear@0: // ---- particle drawing ----
nuclear@0: struct PVertex {
nuclear@0: 	Vector4 color;
nuclear@0: 	Vector3 pos;
nuclear@0: 	Vector2 texcoord;
nuclear@0: };
nuclear@0: 
nuclear@0: 
nuclear@0: #define USE_VBO
nuclear@0: #define USE_IBO
nuclear@0: 
nuclear@0: 
nuclear@0: #define MAX_DRAW_PART	256
nuclear@0: #define MAX_PVERTS		(MAX_DRAW_PART * 4)
nuclear@0: static PVertex *pvarr, *pvptr;
nuclear@0: 
nuclear@0: // double-buffered vbo set, write on one, while drawing from the other
nuclear@0: 
nuclear@0: #ifdef USE_VBO
nuclear@0: static unsigned int vbo[2];
nuclear@0: static int cur_buf;		// current write vbo
nuclear@0: #endif
nuclear@0: static int num_buffered;	// number of particles bufferd, will flush when >= MAX_DRAW_PART
nuclear@0: 
nuclear@0: // ok so the index array is constant, regardless of the particle system
nuclear@0: // so this is a static index buffer created in init_particle_draw which should
nuclear@0: // be called once.
nuclear@0: #define MAX_PVIDX		(MAX_DRAW_PART * 6)
nuclear@0: #ifdef USE_IBO
nuclear@0: static unsigned int ibo;
nuclear@0: #endif
nuclear@0: unsigned int *pvidx;
nuclear@0: 
nuclear@0: static ShaderProg *psdr;	// particle shader
nuclear@0: static Texture2D *blank_tex;
nuclear@0: 
nuclear@0: static inline void init_particle_draw()
nuclear@0: {
nuclear@0: 	static bool done_init;
nuclear@0: 	if(done_init) {
nuclear@0: 		return;		// once
nuclear@0: 	}
nuclear@0: 
nuclear@0: 	pvidx = new unsigned int[MAX_PVIDX];
nuclear@0: 	unsigned int *ptr = pvidx;
nuclear@0: 
nuclear@0: 	static const unsigned int idxoffs[] = { 0, 1, 2, 0, 2, 3 };
nuclear@0: 
nuclear@0: 	for(int i=0; i<MAX_DRAW_PART; i++) {
nuclear@0: 		for(int j=0; j<6; j++) {
nuclear@0: 			*ptr++ = i * 4 + idxoffs[j];
nuclear@0: 		}
nuclear@0: 	}
nuclear@0: 
nuclear@0: #ifdef USE_IBO
nuclear@0: 	glGenBuffers(1, &ibo);
nuclear@0: 	glBindBuffer(GL_ELEMENT_ARRAY_BUFFER, ibo);
nuclear@0: 	glBufferData(GL_ELEMENT_ARRAY_BUFFER, MAX_PVIDX * sizeof *pvidx, pvidx, GL_STATIC_DRAW);
nuclear@0: 	glBindBuffer(GL_ELEMENT_ARRAY_BUFFER, 0);
nuclear@0: 
nuclear@0: 	delete [] pvidx;
nuclear@0: #endif
nuclear@0: 
nuclear@0: #ifdef USE_VBO
nuclear@0: 	// create the stream vertex buffers (double buffering)
nuclear@0: 	glGenBuffers(2, vbo);
nuclear@0: 	for(int i=0; i<2; i++) {
nuclear@0: 		glBindBuffer(GL_ARRAY_BUFFER, vbo[i]);
nuclear@0: 		glBufferData(GL_ARRAY_BUFFER, MAX_PVERTS * sizeof(PVertex), 0, GL_STREAM_DRAW);
nuclear@0: 	}
nuclear@0: 	glBindBuffer(GL_ARRAY_BUFFER, 0);
nuclear@0: #else
nuclear@0: 	pvarr = new PVertex[MAX_PVERTS];
nuclear@0: 	pvptr = pvarr;
nuclear@0: #endif
nuclear@0: 
nuclear@0: 	// load shader program
nuclear@0: 	if(!(psdr = get_sdrprog("psdr.v.glsl", "psdr.p.glsl"))) {
nuclear@0: 		error_log("failed to load particle shader!\n");
nuclear@0: 	}
nuclear@0: 
nuclear@0: 	// create empty texture
nuclear@0: 	Image *img = texgen_solid(8, 8, Vector4(1, 1, 1, 1));
nuclear@0: 	blank_tex = new Texture2D;
nuclear@0: 	blank_tex->set_image(*img);
nuclear@0: 	delete img;
nuclear@0: 
nuclear@0: 	done_init = true;
nuclear@0: }
nuclear@0: 
nuclear@0: static void pdraw_flush()
nuclear@0: {
nuclear@0: #ifdef USE_VBO
nuclear@0: 	// assuming vbo[cur_buf] is bound
nuclear@0: 	glUnmapBuffer(GL_ARRAY_BUFFER);
nuclear@0: #endif
nuclear@0: 
nuclear@0: 	// draw from the bound buffer 6 indices per particle
nuclear@0: #ifdef USE_IBO
nuclear@0: 	glDrawElements(GL_TRIANGLES, num_buffered * 6, GL_UNSIGNED_INT, 0);
nuclear@0: #else
nuclear@0: 	glDrawElements(GL_TRIANGLES, num_buffered * 6, GL_UNSIGNED_INT, pvidx);
nuclear@0: #endif
nuclear@0: 	num_buffered = 0;
nuclear@0: 
nuclear@0: #ifdef USE_VBO
nuclear@0: 	// map the next buffer (write buffer) while the previous is drawing
nuclear@0: 	cur_buf = (cur_buf + 1) & 1;
nuclear@0: 	glBindBuffer(GL_ARRAY_BUFFER, vbo[cur_buf]);
nuclear@0: 	pvarr = (PVertex*)glMapBuffer(GL_ARRAY_BUFFER, GL_WRITE_ONLY);
nuclear@0: #endif
nuclear@0: 	pvptr = pvarr;
nuclear@0: }
nuclear@0: 
nuclear@0: static void pdraw_start(const psys_emitter *em, void *cls)
nuclear@0: {
nuclear@0: 	ParticleSystem *ps = (ParticleSystem*)cls;
nuclear@0: 
nuclear@0: 	init_particle_draw();
nuclear@0: 
nuclear@0: 	num_buffered = 0;
nuclear@0: 
nuclear@0: #ifdef USE_IBO
nuclear@0: 	// bind the particle index buffer which is static
nuclear@0: 	glBindBuffer(GL_ELEMENT_ARRAY_BUFFER, ibo);
nuclear@0: #endif
nuclear@0: 
nuclear@0: #ifdef USE_VBO
nuclear@0: 	// map the current write buffer
nuclear@0: 	glBindBuffer(GL_ARRAY_BUFFER, vbo[cur_buf]);
nuclear@0: 	pvarr = (PVertex*)glMapBuffer(GL_ARRAY_BUFFER, GL_WRITE_ONLY);
nuclear@0: #endif
nuclear@0: 	pvptr = pvarr;
nuclear@0: 
nuclear@0: 	Texture *tex = ps->get_attr()->get_texture();
nuclear@0: 	if(tex) {
nuclear@0: 		tex->bind();
nuclear@0: 	} else {
nuclear@0: 		blank_tex->bind();
nuclear@0: 	}
nuclear@0: 	psdr->bind();
nuclear@0: 
nuclear@0: 	glDisable(GL_DEPTH_TEST);
nuclear@0: 	glDisable(GL_CULL_FACE);
nuclear@0: 	glEnable(GL_BLEND);
nuclear@0: 	glBlendFunc(GL_SRC_ALPHA, GL_ONE);
nuclear@0: 	glDepthMask(0);
nuclear@0: 
nuclear@0: 	glEnableVertexAttribArray(MESH_ATTR_VERTEX);
nuclear@0: 	glEnableVertexAttribArray(MESH_ATTR_COLOR);
nuclear@0: 	glEnableVertexAttribArray(MESH_ATTR_TEXCOORD);
nuclear@0: 
nuclear@0: #ifdef USE_VBO
nuclear@0: 	glVertexAttribPointer(MESH_ATTR_VERTEX, 3, GL_FLOAT, GL_FALSE, sizeof *pvarr, (void*)((char*)&pvarr->pos - (char*)pvarr));
nuclear@0: 	glVertexAttribPointer(MESH_ATTR_COLOR, 4, GL_FLOAT, GL_TRUE, sizeof *pvarr, (void*)((char*)&pvarr->color - (char*)pvarr));
nuclear@0: 	glVertexAttribPointer(MESH_ATTR_TEXCOORD, 2, GL_FLOAT, GL_FALSE, sizeof *pvarr, (void*)((char*)&pvarr->texcoord - (char*)pvarr));
nuclear@0: #else
nuclear@0: 	glVertexAttribPointer(MESH_ATTR_VERTEX, 3, GL_FLOAT, GL_FALSE, sizeof *pvarr, (void*)&pvarr->pos);
nuclear@0: 	glVertexAttribPointer(MESH_ATTR_COLOR, 4, GL_FLOAT, GL_TRUE, sizeof *pvarr, (void*)&pvarr->color);
nuclear@0: 	glVertexAttribPointer(MESH_ATTR_TEXCOORD, 2, GL_FLOAT, GL_FALSE, sizeof *pvarr, (void*)&pvarr->texcoord);
nuclear@0: #endif
nuclear@0: }
nuclear@0: 
nuclear@0: static void pdraw(const psys_emitter *em, const psys_particle *part, void *cls)
nuclear@0: {
nuclear@0: 	ParticleSystem *ps = (ParticleSystem*)cls;
nuclear@0: 
nuclear@0: 	static const Vector3 pv[] = {
nuclear@0: 		Vector3(-0.5, -0.5, 0),
nuclear@0: 		Vector3(0.5, -0.5, 0),
nuclear@0: 		Vector3(0.5, 0.5, 0),
nuclear@0: 		Vector3(-0.5, 0.5, 0)
nuclear@0: 	};
nuclear@0: 	static const Vector2 tex[] = {
nuclear@0: 		Vector2(0, 0), Vector2(0, 1), Vector2(1, 1), Vector2(1, 0)
nuclear@0: 	};
nuclear@0: 	Vector4 color = Vector4(part->color.x, part->color.y, part->color.z, part->alpha);
nuclear@0: 
nuclear@0: 	for(int i=0; i<4; i++) {
nuclear@0: 		pvptr->color = color;
nuclear@0: 		pvptr->pos = pv[i] * part->size + part->pos;
nuclear@0: 		pvptr->texcoord = tex[i];
nuclear@0: 		pvptr++;
nuclear@0: 	}
nuclear@0: 	// XXX we don't need billboarding for this game, so don't bother
nuclear@0: 
nuclear@0: 	// if we reached the maximum number of buffered particles, draw them
nuclear@0: 	if(++num_buffered >= MAX_DRAW_PART) {
nuclear@0: 		pdraw_flush();	// this will reset the counter
nuclear@0: 	}
nuclear@0: }
nuclear@0: 
nuclear@0: static void pdraw_end(const psys_emitter *em, void *cls)
nuclear@0: {
nuclear@0: 	// if we have leftover particles buffered, draw them before returning
nuclear@0: 	if(num_buffered) {
nuclear@0: 		pdraw_flush();
nuclear@0: 	}
nuclear@0: 
nuclear@0: 	// cleanup
nuclear@0: 	glDisableVertexAttribArray(MESH_ATTR_VERTEX);
nuclear@0: 	glDisableVertexAttribArray(MESH_ATTR_COLOR);
nuclear@0: 	glDisableVertexAttribArray(MESH_ATTR_TEXCOORD);
nuclear@0: 
nuclear@0: #ifdef USE_VBO
nuclear@0: 	glUnmapBuffer(GL_ARRAY_BUFFER);
nuclear@0: 	glBindBuffer(GL_ARRAY_BUFFER, 0);
nuclear@0: #endif
nuclear@0: #ifdef USE_IBO
nuclear@0: 	glBindBuffer(GL_ELEMENT_ARRAY_BUFFER, 0);
nuclear@0: #endif
nuclear@0: 
nuclear@0: 	glDepthMask(1);
nuclear@0: 	glDisable(GL_BLEND);
nuclear@0: 
nuclear@0: 	glEnable(GL_DEPTH_TEST);
nuclear@0: 	glEnable(GL_CULL_FACE);
nuclear@0: }
nuclear@0: 
nuclear@0: static unsigned int psys_load_texture(const char *fname, void *cls)
nuclear@0: {
nuclear@0: 	ParticleSystemAttributes *attr = (ParticleSystemAttributes*)cls;
nuclear@0: 
nuclear@0: 	Texture *tex = texset.get(fname);
nuclear@0: 	if(tex) {
nuclear@0: 		attr->set_texture(tex);
nuclear@0: 		return tex->get_id();
nuclear@0: 	}
nuclear@0: 	return 0;
nuclear@0: }