Use default member initializers for simple types

[libs/gl.git] / source / render / renderer.cpp

#include "batch.h"
#include "buffer.h"
#include "camera.h"
#include "clipping.h"
#include "error.h"
#include "framebuffer.h"
#include "lighting.h"
#include "material.h"
#include "program.h"
#include "programdata.h"
#include "renderable.h"
#include "renderer.h"
#include "resourcemanager.h"
#include "sampler.h"
#include "texture.h"
#include "vertexarray.h"
#include "vertexsetup.h"

using namespace std;

namespace Msp {
namespace GL {

Renderer::Renderer():
        changed(0)
{
        state_stack.reserve(16);
        state_stack.push_back(State());
        shdata_stack.reserve(32);
        state = &state_stack.back();
        add_shader_data(standard_shdata);
}

Renderer::~Renderer()
{
        end();
}

void Renderer::set_camera(const Camera &c)
{
        state->camera = &c;
        add_shader_data(c.get_shader_data());
        set_matrix(Matrix());
}

void Renderer::set_matrix(const Matrix &matrix)
{
        state->model_matrix = matrix;
        changed |= MATRIX;
}

void Renderer::transform(const Matrix &matrix)
{
        state->model_matrix *= matrix;
        changed |= MATRIX;
}

void Renderer::set_framebuffer(const Framebuffer *f)
{
        state->framebuffer = f;
}

void Renderer::set_viewport(const Rect *v)
{
        state->viewport = v;
}

void Renderer::set_scissor(const Rect *s)
{
        state->scissor = s;
}

void Renderer::set_texture(Tag tag, const Texture *tex, const Sampler *samp)
{
        if(tex)
                if(ResourceManager *res_mgr = tex->get_manager())
                        res_mgr->resource_used(*tex);

        if(texture_stack.size()>state->texture_count)
        {
                BoundTexture &bt = texture_stack[state->texture_count];
                if(bt.tag==tag && bt.texture==tex && bt.sampler==samp)
                {
                        ++state->texture_count;
                        return;
                }
                else
                        flush_textures();
        }

        for(auto i=texture_stack.end(); i!=texture_stack.begin(); )
                if((--i)->tag==tag)
                {
                        i->replaced = texture_stack.size();
                        break;
                }

        texture_stack.push_back(BoundTexture());
        BoundTexture &bound_tex = texture_stack.back();
        bound_tex.tag = tag;
        bound_tex.texture = tex;
        bound_tex.sampler = samp;
        state->texture_count = texture_stack.size();
}

void Renderer::flush_textures()
{
        for(unsigned i=0; i<state->texture_count; ++i)
                if(texture_stack[i].replaced>=static_cast<int>(state->texture_count))
                        texture_stack[i].replaced = -1;

        texture_stack.erase(texture_stack.begin()+state->texture_count, texture_stack.end());
}

void Renderer::set_material(const Material *m)
{
        if(m)
                add_shader_data(m->get_shader_data());
}

void Renderer::set_lighting(const Lighting *l)
{
        if(l)
                add_shader_data(l->get_shader_data());
}

void Renderer::set_clipping(const Clipping *c)
{
        state->clipping = c;
        if(c)
                add_shader_data(c->get_shader_data());
}

void Renderer::set_shader_program(const Program *p, const ProgramData *d)
{
        state->shprog = p;
        if(p && d)
                add_shader_data(*d);
}

void Renderer::add_shader_data(const ProgramData &d)
{
        if(state->shdata_count<shdata_stack.size())
        {
                const BoundProgramData &top = shdata_stack.back();
                if(top.shdata==&d && top.generation==d.get_generation())
                {
                        ++state->shdata_count;
                        return;
                }
        }

        flush_shader_data_();
        shdata_stack.push_back(&d);
        state->shdata_count = shdata_stack.size();
        changed |= SHADER_DATA;
}

void Renderer::flush_shader_data_()
{
        if(shdata_stack.size()>state->shdata_count)
                shdata_stack.erase(shdata_stack.begin()+state->shdata_count, shdata_stack.end());
}

void Renderer::set_vertex_setup(const VertexSetup *vs)
{
        state->vertex_setup = vs;
}

void Renderer::set_front_face(FaceWinding winding)
{
        state->front_face = winding;
}

void Renderer::set_face_cull(CullMode cull)
{
        state->face_cull = cull;
}

void Renderer::set_depth_test(const DepthTest *dt)
{
        state->depth_test = dt;
}

void Renderer::set_stencil_test(const StencilTest *st)
{
        state->stencil_test = st;
}

void Renderer::set_blend(const Blend *b)
{
        state->blend = b;
}

void Renderer::set_object_lod_bias(unsigned b)
{
        state->object_lod_bias = b;
}

void Renderer::push_state()
{
        state_stack.push_back(state_stack.back());
        state = &state_stack.back();
}

void Renderer::pop_state()
{
        if(state_stack.size()==1)
                throw stack_underflow("Renderer::pop_state");

        state_stack.pop_back();
        state = &state_stack.back();
        changed |= MATRIX;
}

void Renderer::end()
{
        if(state_stack.size()>1)
                throw invalid_operation("Renderer::end");

        *state = State();
        shdata_stack.clear();
        add_shader_data(standard_shdata);
        excluded.clear();

        commands.use_pipeline(0);
}

void Renderer::exclude(const Renderable &renderable)
{
        excluded.insert(&renderable);
}

void Renderer::include(const Renderable &renderable)
{
        excluded.erase(&renderable);
}

void Renderer::render(const Renderable &renderable, Tag tag)
{
        if(!excluded.count(&renderable))
                renderable.render(*this, tag);
}

void Renderer::clear(const ClearValue *values)
{
        pipeline_state.set_framebuffer(state->framebuffer);
        pipeline_state.set_viewport(state->viewport);
        pipeline_state.set_scissor(state->scissor);
        commands.use_pipeline(&pipeline_state);
        commands.clear(values);
}

void Renderer::draw(const Batch &batch)
{
        apply_state();
        batch.refresh();
        commands.use_pipeline(&pipeline_state);
        commands.draw(batch);
}

void Renderer::draw_instanced(const Batch &batch, unsigned count)
{
        apply_state();
        batch.refresh();
        commands.use_pipeline(&pipeline_state);
        commands.draw_instanced(batch, count);
}

void Renderer::resolve_multisample(Framebuffer &target)
{
        if(!state->framebuffer)
                throw invalid_operation("Renderer::resolve_multisample");

        unsigned width = state->framebuffer->get_width();
        unsigned height = state->framebuffer->get_height();
        if(target.get_width()!=width || target.get_height()!=height)
                throw incompatible_data("Renderer::resolve_multisample");

        pipeline_state.set_framebuffer(state->framebuffer);
        commands.use_pipeline(&pipeline_state);
        commands.resolve_multisample(target);
}

void Renderer::begin_query(const QueryPool &pool, unsigned index)
{
        commands.begin_query(pool, index);
}

void Renderer::end_query(const QueryPool &pool, unsigned index)
{
        commands.end_query(pool, index);
}

void Renderer::apply_state()
{
        if(!state->shprog)
                throw invalid_operation("Renderer::apply_state");

        if(changed&MATRIX)
        {
                standard_shdata.uniform("world_obj_matrix", state->model_matrix);
                LinAl::SquareMatrix<float, 3> nm = state->model_matrix.block<3, 3>(0, 0);
                nm = transpose(invert(nm));
                standard_shdata.uniform("world_obj_normal_matrix", nm);
                changed &= ~MATRIX;
        }

        pipeline_state.set_framebuffer(state->framebuffer);
        pipeline_state.set_viewport(state->viewport);
        pipeline_state.set_scissor(state->scissor);

        bool shprog_changed = (state->shprog!=pipeline_state.get_shader_program());
        pipeline_state.set_shader_program(state->shprog);

        if(state->vertex_setup)
        {
                if(const VertexArray *array = state->vertex_setup->get_vertex_array())
                        array->refresh();
                if(const VertexArray *array = state->vertex_setup->get_instance_array())
                        array->refresh();
        }
        pipeline_state.set_vertex_setup(state->vertex_setup);

        pipeline_state.set_front_face(state->front_face);
        pipeline_state.set_face_cull(state->face_cull);
        pipeline_state.set_enabled_clip_planes(state->clipping ? (1<<state->clipping->get_n_planes())-1 : 0);

        if(state->texture_count<texture_stack.size())
                flush_textures();

        for(const BoundTexture &t: texture_stack)
        {
                int unit = (t.tag.id ? state->shprog->get_uniform_binding(t.tag) : t.unit);
                if(unit>=0)
                        pipeline_state.set_texture(unit, t.texture, t.sampler);
        }

        bool shdata_changed = changed&SHADER_DATA;
        for(auto i=shdata_stack.begin(); (!shdata_changed && i!=shdata_stack.end()); ++i)
                shdata_changed = (i->shdata->get_generation()!=i->generation);
        bool extra_shdata = (shdata_stack.size()>state->shdata_count);

        if(shdata_changed || shprog_changed || extra_shdata)
        {
                if(extra_shdata)
                        shdata_stack.erase(shdata_stack.begin()+state->shdata_count, shdata_stack.end());
                for(const BoundProgramData &d: shdata_stack)
                {
                        d.shdata->apply(*state->shprog, pipeline_state);
                        d.generation = d.shdata->get_generation();
                }
                changed &= ~SHADER_DATA;
        }

        pipeline_state.set_depth_test(state->depth_test);
        pipeline_state.set_stencil_test(state->stencil_test);
        pipeline_state.set_blend(state->blend);
}


Renderer::BoundProgramData::BoundProgramData(const ProgramData *d):
        shdata(d)
{ }

} // namespace GL
} // namespace Msp