RetroArch/gfx/shader_cg.c

/*  RetroArch - A frontend for libretro.
 *  Copyright (C) 2010-2012 - Hans-Kristian Arntzen
 * 
 *  RetroArch is free software: you can redistribute it and/or modify it under the terms
 *  of the GNU General Public License as published by the Free Software Found-
 *  ation, either version 3 of the License, or (at your option) any later version.
 *
 *  RetroArch is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
 *  without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
 *  PURPOSE.  See the GNU General Public License for more details.
 *
 *  You should have received a copy of the GNU General Public License along with RetroArch.
 *  If not, see <http://www.gnu.org/licenses/>.
 */

#include "shader_cg.h"
#include <Cg/cg.h>
#include <Cg/cgGL.h>
#include "../general.h"
#include <string.h>
#include "../compat/strl.h"
#include "../conf/config_file.h"
#include "image.h"
#include "../dynamic.h"
#include "../compat/posix_string.h"

#ifdef HAVE_CONFIGFILE
#include "state_tracker.h"
#endif

//#define RARCH_CG_DEBUG

// Used when we call deactivate() since just unbinding the program didn't seem to work... :(
static const char *stock_cg_program =
      "void main_vertex"
      "("
      "	float4 position : POSITION,"
      "	float2 texCoord : TEXCOORD0,"
      "  float4 color : COLOR,"
      ""
      "  uniform float4x4 modelViewProj,"
      ""
      "	out float4 oPosition : POSITION,"
      "	out float2 otexCoord : TEXCOORD0,"
      "  out float4 oColor : COLOR"
      ")"
      "{"
      "	oPosition = mul(modelViewProj, position);"
      "	otexCoord = texCoord;"
      "  oColor = color;"
      "}"
      ""
      "float4 main_fragment(in float4 color : COLOR, float2 tex : TEXCOORD0, uniform sampler2D s0 : TEXUNIT0) : COLOR"
      "{"
      "   return color * tex2D(s0, tex);"
      "}";

static char *menu_cg_program;

#ifdef RARCH_CG_DEBUG
static void cg_error_handler(CGcontext ctx, CGerror error, void *data)
{
   (void)ctx;
   (void)data;

   switch (error)
   {
      case CG_INVALID_PARAM_HANDLE_ERROR:
         RARCH_ERR("CG: Invalid param handle.\n");
         break;

      case CG_INVALID_PARAMETER_ERROR:
         RARCH_ERR("CG: Invalid parameter.\n");
         break;

      default:
         break;
   }

   RARCH_ERR("CG error: \"%s\"\n", cgGetErrorString(error));
}
#endif

static CGcontext cgCtx;

struct cg_fbo_params
{
   CGparameter vid_size_f;
   CGparameter tex_size_f;
   CGparameter vid_size_v;
   CGparameter tex_size_v;
   CGparameter tex;
   CGparameter coord;
};

#define MAX_TEXTURES 8
#define MAX_VARIABLES 64
#define PREV_TEXTURES 7

struct cg_program
{
   CGprogram vprg;
   CGprogram fprg;

   CGparameter tex;
   CGparameter lut_tex;
   CGparameter color;
   CGparameter vertex;

   CGparameter vid_size_f;
   CGparameter tex_size_f;
   CGparameter out_size_f;
   CGparameter frame_cnt_f;
   CGparameter frame_dir_f;
   CGparameter vid_size_v;
   CGparameter tex_size_v;
   CGparameter out_size_v;
   CGparameter frame_cnt_v;
   CGparameter frame_dir_v;
   CGparameter mvp;

   struct cg_fbo_params fbo[RARCH_CG_MAX_SHADERS];
   struct cg_fbo_params orig;
   struct cg_fbo_params prev[PREV_TEXTURES];
};

#define FILTER_UNSPEC 0
#define FILTER_LINEAR 1
#define FILTER_NEAREST 2

static struct cg_program prg[RARCH_CG_MAX_SHADERS];
static const char **cg_arguments;
static bool cg_active = false;
static CGprofile cgVProf, cgFProf;
static unsigned active_index = 0;
static unsigned cg_shader_num = 0;
static struct gl_fbo_scale cg_scale[RARCH_CG_MAX_SHADERS];
static unsigned fbo_smooth[RARCH_CG_MAX_SHADERS];

static GLuint lut_textures[MAX_TEXTURES];
static unsigned lut_textures_num = 0;
static char lut_textures_uniform[MAX_TEXTURES][64];

static CGparameter cg_attribs[PREV_TEXTURES + 1 + 4 + RARCH_CG_MAX_SHADERS];
static unsigned cg_attrib_index;

#ifdef HAVE_CONFIGFILE
static state_tracker_t *state_tracker = NULL;
#endif

static void gl_cg_reset_attrib(void)
{
   for (unsigned i = 0; i < cg_attrib_index; i++)
      cgGLDisableClientState(cg_attribs[i]);
   cg_attrib_index = 0;
}

bool gl_cg_set_mvp(const math_matrix *mat)
{
   if (cg_active && prg[active_index].mvp)
   {
      cgGLSetMatrixParameterfc(prg[active_index].mvp, mat->data);
      return true;
   }
   else
      return false;
}

#define SET_COORD(name, coords_name, len) do { \
   if (prg[active_index].name) \
   { \
      cgGLSetParameterPointer(prg[active_index].name, len, GL_FLOAT, 0, coords->coords_name); \
      cgGLEnableClientState(prg[active_index].name); \
      cg_attribs[cg_attrib_index++] = prg[active_index].name; \
   } \
} while(0)

bool gl_cg_set_coords(const struct gl_coords *coords)
{
   if (!cg_active)
      return false;

   SET_COORD(vertex, vertex, 2);
   SET_COORD(tex, tex_coord, 2);
   SET_COORD(lut_tex, lut_tex_coord, 2);
   SET_COORD(color, color, 4);

   return true;
}

#define set_param_2f(param, x, y) \
   if (param) cgGLSetParameter2f(param, x, y)
#define set_param_1f(param, x) \
   if (param) cgGLSetParameter1f(param, x)

void gl_cg_set_params(unsigned width, unsigned height, 
      unsigned tex_width, unsigned tex_height,
      unsigned out_width, unsigned out_height,
      unsigned frame_count,
      const struct gl_tex_info *info,
      const struct gl_tex_info *prev_info,
      const struct gl_tex_info *fbo_info,
      unsigned fbo_info_cnt)
{
   if (!cg_active || (active_index == 0))
      return;

   // Set frame.
   set_param_2f(prg[active_index].vid_size_f, width, height);
   set_param_2f(prg[active_index].tex_size_f, tex_width, tex_height);
   set_param_2f(prg[active_index].out_size_f, out_width, out_height);
   set_param_1f(prg[active_index].frame_cnt_f, (float)frame_count);
   set_param_1f(prg[active_index].frame_dir_f, g_extern.frame_is_reverse ? -1.0 : 1.0);

   set_param_2f(prg[active_index].vid_size_v, width, height);
   set_param_2f(prg[active_index].tex_size_v, tex_width, tex_height);
   set_param_2f(prg[active_index].out_size_v, out_width, out_height);
   set_param_1f(prg[active_index].frame_cnt_v, (float)frame_count);
   set_param_1f(prg[active_index].frame_dir_v, g_extern.frame_is_reverse ? -1.0 : 1.0);

   if (active_index == RARCH_CG_MENU_SHADER_INDEX)
      return;

   // Set orig texture.
   CGparameter param = prg[active_index].orig.tex;
   if (param)
   {
      cgGLSetTextureParameter(param, info->tex);
      cgGLEnableTextureParameter(param);
   }

   set_param_2f(prg[active_index].orig.vid_size_v, info->input_size[0], info->input_size[1]);
   set_param_2f(prg[active_index].orig.vid_size_f, info->input_size[0], info->input_size[1]);
   set_param_2f(prg[active_index].orig.tex_size_v, info->tex_size[0],   info->tex_size[1]);
   set_param_2f(prg[active_index].orig.tex_size_f, info->tex_size[0],   info->tex_size[1]);
   if (prg[active_index].orig.coord)
   {
      cgGLSetParameterPointer(prg[active_index].orig.coord, 2, GL_FLOAT, 0, info->coord);
      cgGLEnableClientState(prg[active_index].orig.coord);
      cg_attribs[cg_attrib_index++] = prg[active_index].orig.coord;
   }

   // Set prev textures.
   for (unsigned i = 0; i < PREV_TEXTURES; i++)
   {
      param = prg[active_index].prev[i].tex;
      if (param)
      {
         cgGLSetTextureParameter(param, prev_info[i].tex);
         cgGLEnableTextureParameter(param);
      }

      set_param_2f(prg[active_index].prev[i].vid_size_v, prev_info[i].input_size[0], prev_info[i].input_size[1]);
      set_param_2f(prg[active_index].prev[i].vid_size_f, prev_info[i].input_size[0], prev_info[i].input_size[1]);
      set_param_2f(prg[active_index].prev[i].tex_size_v, prev_info[i].tex_size[0],   prev_info[i].tex_size[1]);
      set_param_2f(prg[active_index].prev[i].tex_size_f, prev_info[i].tex_size[0],   prev_info[i].tex_size[1]);

      if (prg[active_index].prev[i].coord)
      {
         cgGLSetParameterPointer(prg[active_index].prev[i].coord, 2, GL_FLOAT, 0, prev_info[i].coord);
         cgGLEnableClientState(prg[active_index].prev[i].coord);
         cg_attribs[cg_attrib_index++] = prg[active_index].prev[i].coord;
      }
   }

   // Set lookup textures.
   for (unsigned i = 0; i < lut_textures_num; i++)
   {
      CGparameter param = cgGetNamedParameter(prg[active_index].fprg, lut_textures_uniform[i]);
      if (param)
      {
         cgGLSetTextureParameter(param, lut_textures[i]);
         cgGLEnableTextureParameter(param);
      }
   }

   // Set FBO textures.
   if (active_index > 2)
   {
      for (unsigned i = 0; i < fbo_info_cnt; i++)
      {
         if (prg[active_index].fbo[i].tex)
         {
            cgGLSetTextureParameter(prg[active_index].fbo[i].tex, fbo_info[i].tex);
            cgGLEnableTextureParameter(prg[active_index].fbo[i].tex);
         }

         set_param_2f(prg[active_index].fbo[i].vid_size_v, fbo_info[i].input_size[0], fbo_info[i].input_size[1]);
         set_param_2f(prg[active_index].fbo[i].vid_size_f, fbo_info[i].input_size[0], fbo_info[i].input_size[1]);

         set_param_2f(prg[active_index].fbo[i].tex_size_v, fbo_info[i].tex_size[0], fbo_info[i].tex_size[1]);
         set_param_2f(prg[active_index].fbo[i].tex_size_f, fbo_info[i].tex_size[0], fbo_info[i].tex_size[1]);

         if (prg[active_index].fbo[i].coord)
         {
            cgGLSetParameterPointer(prg[active_index].fbo[i].coord, 2, GL_FLOAT, 0, fbo_info[i].coord);
            cgGLEnableClientState(prg[active_index].fbo[i].coord);
            cg_attribs[cg_attrib_index++] = prg[active_index].fbo[i].coord;
         }
      }
   }

#ifdef HAVE_CONFIGFILE
   // Set state parameters
   if (state_tracker)
   {
      // Only query uniforms in first pass.
      static struct state_tracker_uniform info[MAX_VARIABLES];
      static unsigned cnt = 0;

      if (active_index == 1)
         cnt = state_get_uniform(state_tracker, info, MAX_VARIABLES, frame_count);

      for (unsigned i = 0; i < cnt; i++)
      {
         CGparameter param_v = cgGetNamedParameter(prg[active_index].vprg, info[i].id);
         CGparameter param_f = cgGetNamedParameter(prg[active_index].fprg, info[i].id);
         set_param_1f(param_v, info[i].value);
         set_param_1f(param_f, info[i].value);
      }
   }
#endif
}

static void gl_cg_deinit_progs(void)
{
   RARCH_LOG("CG: Destroying programs.\n");
   cgGLUnbindProgram(cgFProf);
   cgGLUnbindProgram(cgVProf);

   // Programs may alias [0].
   for (unsigned i = 1; i < RARCH_CG_MAX_SHADERS; i++)
   {
      if (prg[i].fprg && prg[i].fprg != prg[0].fprg)
         cgDestroyProgram(prg[i].fprg);
      if (prg[i].vprg && prg[i].vprg != prg[0].vprg)
         cgDestroyProgram(prg[i].vprg);
   }

   if (prg[0].fprg)
      cgDestroyProgram(prg[0].fprg);
   if (prg[0].vprg)
      cgDestroyProgram(prg[0].vprg);

   memset(prg, 0, sizeof(prg));
}

static void gl_cg_deinit_state(void)
{
   gl_cg_reset_attrib();

   cg_active = false;
   cg_shader_num = 0;

   gl_cg_deinit_progs();

   memset(cg_scale, 0, sizeof(cg_scale));
   memset(fbo_smooth, 0, sizeof(fbo_smooth));

   glDeleteTextures(lut_textures_num, lut_textures);
   lut_textures_num = 0;

#ifdef HAVE_CONFIGFILE
   if (state_tracker)
   {
      state_tracker_free(state_tracker);
      state_tracker = NULL;
   }
#endif
}

// Final deinit.
static void gl_cg_deinit_context_state(void)
{
   if (menu_cg_program)
   {
      free(menu_cg_program);
      menu_cg_program = NULL;
   }

   // Destroying context breaks on PS3 for some unknown reason.
#ifndef __CELLOS_LV2__
   if (cgCtx)
   {
      RARCH_LOG("CG: Destroying context.\n");
      cgDestroyContext(cgCtx);
      cgCtx = NULL;
   }
#endif
}

// Full deinit.
void gl_cg_deinit(void)
{
   if (!cg_active)
      return;

   gl_cg_deinit_state();
   gl_cg_deinit_context_state();
}

// Deinit as much as possible without resetting context (broken on PS3),
// and reinit cleanly.
// If this fails, we're kinda screwed without resetting everything on PS3.
bool gl_cg_reinit(const char *path)
{
   if (cg_active)
      gl_cg_deinit_state();

   return gl_cg_init(path);
}

#define SET_LISTING(type) \
{ \
   const char *list = cgGetLastListing(cgCtx); \
   if (list) \
      listing_##type = strdup(list); \
}

static bool load_program(unsigned index, const char *prog, bool path_is_file)
{
   bool ret = true;
   char *listing_f = NULL;
   char *listing_v = NULL;

   if (path_is_file)
   {
      prg[index].fprg = cgCreateProgramFromFile(cgCtx, CG_SOURCE, prog, cgFProf, "main_fragment", cg_arguments);
      SET_LISTING(f);
      prg[index].vprg = cgCreateProgramFromFile(cgCtx, CG_SOURCE, prog, cgVProf, "main_vertex", cg_arguments);
      SET_LISTING(v);
   }
   else
   {
      prg[index].fprg = cgCreateProgram(cgCtx, CG_SOURCE, prog, cgFProf, "main_fragment", cg_arguments);
      SET_LISTING(f);
      prg[index].vprg = cgCreateProgram(cgCtx, CG_SOURCE, prog, cgVProf, "main_vertex", cg_arguments);
      SET_LISTING(v);
   }

   if (!prg[index].fprg || !prg[index].vprg)
   {
      RARCH_ERR("CG error: %s\n", cgGetErrorString(cgGetError()));
      if (listing_f)
         RARCH_ERR("Fragment:\n%s\n", listing_f);
      else if (listing_v)
         RARCH_ERR("Vertex:\n%s\n", listing_v);

      ret = false;
      goto end;
   }

   cgGLLoadProgram(prg[index].fprg);
   cgGLLoadProgram(prg[index].vprg);

end:
   free(listing_f);
   free(listing_v);
   return ret;
}

static void set_program_base_attrib(unsigned i);

static bool load_stock(void)
{
   if (!load_program(0, stock_cg_program, false))
   {
      RARCH_ERR("Failed to compile passthrough shader, is something wrong with your environment?\n");
      return false;
   }

   set_program_base_attrib(0);

   return true;
}

static bool load_plain(const char *path)
{
   if (!load_stock())
      return false;

   RARCH_LOG("Loading Cg file: %s\n", path);

   if (!load_program(1, path, true))
      return false;

   if (*g_settings.video.second_pass_shader && g_settings.video.render_to_texture)
   {
      if (!load_program(2, g_settings.video.second_pass_shader, true))
         return false;

      cg_shader_num = 2;
   }
   else
   {
      prg[2] = prg[0];
      cg_shader_num = 1;
   }

   return true;
}

static bool load_menu_shader(void)
{
   return load_program(RARCH_CG_MENU_SHADER_INDEX, menu_cg_program, true);
}

#define print_buf(buf, ...) snprintf(buf, sizeof(buf), __VA_ARGS__)

#ifdef HAVE_CONFIGFILE
static void load_texture_data(GLuint *obj, const struct texture_image *img, bool smooth)
{
   glGenTextures(1, obj);
   glBindTexture(GL_TEXTURE_2D, *obj);

   glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_BORDER);
   glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_BORDER);
   glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, smooth ? GL_LINEAR : GL_NEAREST);
   glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, smooth ? GL_LINEAR : GL_NEAREST);

#ifndef HAVE_PSGL
   glPixelStorei(GL_UNPACK_ALIGNMENT, 4);
#endif
   glTexImage2D(GL_TEXTURE_2D,
         0, RARCH_GL_INTERNAL_FORMAT32, img->width, img->height,
         0, RARCH_GL_TEXTURE_TYPE32, RARCH_GL_FORMAT32, img->pixels);

   free(img->pixels);
}

static bool load_textures(const char *dir_path, config_file_t *conf)
{
   bool ret = true;
   char *textures = NULL;
   if (!config_get_string(conf, "textures", &textures)) // No textures here ...
      return true;

   char *save;
   const char *id = strtok_r(textures, ";", &save);
   while (id && lut_textures_num < MAX_TEXTURES)
   {
      char path[PATH_MAX];
      if (!config_get_array(conf, id, path, sizeof(path)))
      {
         RARCH_ERR("Cannot find path to texture \"%s\" ...\n", id);
         ret = false;
         goto end;
      }

      char id_filter[64];
      print_buf(id_filter, "%s_linear", id);

      bool smooth = true;
      if (!config_get_bool(conf, id_filter, &smooth))
         smooth = true;

      char id_absolute[64];
      print_buf(id_absolute, "%s_absolute", id);

      bool absolute = false;
      if (!config_get_bool(conf, id_absolute, &absolute))
         absolute = false;

      char image_path[512];
      if (absolute)
         print_buf(image_path, "%s", path);
      else
         print_buf(image_path, "%s%s", dir_path, path);

      RARCH_LOG("Loading image from: \"%s\".\n", image_path);
      struct texture_image img;
      if (!texture_image_load(image_path, &img))
      {
         RARCH_ERR("Failed to load picture ...\n");
         ret = false;
         goto end;
      }

      strlcpy(lut_textures_uniform[lut_textures_num],
            id, sizeof(lut_textures_uniform[lut_textures_num]));

      load_texture_data(&lut_textures[lut_textures_num], &img, smooth);
      lut_textures_num++;

      id = strtok_r(NULL, ";", &save);
   }

end:
   free(textures);
   glBindTexture(GL_TEXTURE_2D, 0);
   return ret;
}

static bool load_imports(const char *dir_path, config_file_t *conf)
{
   bool ret = true;
   char *imports = NULL;

   if (!config_get_string(conf, "imports", &imports))
      return true;

   struct state_tracker_uniform_info info[MAX_VARIABLES];
   unsigned info_cnt = 0;
   struct state_tracker_info tracker_info = {0};

#ifdef HAVE_PYTHON
   char script_path[PATH_MAX];
   char *script = NULL;
   char *script_class = NULL; 
#endif

   char *save;
   const char *id = strtok_r(imports, ";", &save);
   while (id && info_cnt < MAX_VARIABLES)
   {
      char semantic_buf[64];
      char wram_buf[64];
      char input_slot_buf[64];
      char mask_buf[64];
      char equal_buf[64];

      print_buf(semantic_buf, "%s_semantic", id);
      print_buf(wram_buf, "%s_wram", id);
      print_buf(input_slot_buf, "%s_input_slot", id);
      print_buf(mask_buf, "%s_mask", id);
      print_buf(equal_buf, "%s_equal", id);

      char *semantic = NULL;

      config_get_string(conf, semantic_buf, &semantic);
   
      if (!semantic)
      {
         RARCH_ERR("No semantic for import variable.\n");
         ret = false;
         goto end;
      }

      enum state_tracker_type tracker_type;
      enum state_ram_type ram_type = RARCH_STATE_NONE;

      if (strcmp(semantic, "capture") == 0)
         tracker_type = RARCH_STATE_CAPTURE;
      else if (strcmp(semantic, "transition") == 0)
         tracker_type = RARCH_STATE_TRANSITION;
      else if (strcmp(semantic, "transition_count") == 0)
         tracker_type = RARCH_STATE_TRANSITION_COUNT;
      else if (strcmp(semantic, "capture_previous") == 0)
         tracker_type = RARCH_STATE_CAPTURE_PREV;
      else if (strcmp(semantic, "transition_previous") == 0)
         tracker_type = RARCH_STATE_TRANSITION_PREV;
#ifdef HAVE_PYTHON
      else if (strcmp(semantic, "python") == 0)
         tracker_type = RARCH_STATE_PYTHON;
#endif
      else
      {
         RARCH_ERR("Invalid semantic.\n");
         ret = false;
         goto end;
      }

      unsigned addr = 0;
#ifdef HAVE_PYTHON
      if (tracker_type != RARCH_STATE_PYTHON)
#endif
      {
         unsigned input_slot = 0;
         if (config_get_hex(conf, input_slot_buf, &input_slot))
         {
            switch (input_slot)
            {
               case 1:
                  ram_type = RARCH_STATE_INPUT_SLOT1;
                  break;

               case 2:
                  ram_type = RARCH_STATE_INPUT_SLOT2;
                  break;

               default:
                  RARCH_ERR("Invalid input slot for import.\n");
                  ret = false;
                  goto end;
            }
         }
         else if (config_get_hex(conf, wram_buf, &addr))
            ram_type = RARCH_STATE_WRAM;
         else
         {
            RARCH_ERR("No address assigned to semantic.\n");
            ret = false;
            goto end;
         }
      }

      unsigned memtype;
      switch (ram_type)
      {
         case RARCH_STATE_WRAM:
            memtype = RETRO_MEMORY_SYSTEM_RAM;
            break;

         default:
            memtype = -1u;
      }

      if ((memtype != -1u) && (addr >= pretro_get_memory_size(memtype)))
      {
         RARCH_ERR("Address out of bounds.\n");
         ret = false;
         goto end;
      }

      unsigned bitmask = 0;
      if (!config_get_hex(conf, mask_buf, &bitmask))
         bitmask = 0;
      unsigned bitequal = 0;
      if (!config_get_hex(conf, equal_buf, &bitequal))
         bitequal = 0;

      strlcpy(info[info_cnt].id, id, sizeof(info[info_cnt].id));
      info[info_cnt].addr = addr;
      info[info_cnt].type = tracker_type;
      info[info_cnt].ram_type = ram_type;
      info[info_cnt].mask = bitmask;
      info[info_cnt].equal = bitequal;

      info_cnt++;
      free(semantic);

      id = strtok_r(NULL, ";", &save);
   }

   tracker_info.wram = (uint8_t*)pretro_get_memory_data(RETRO_MEMORY_SYSTEM_RAM);
   tracker_info.info = info;
   tracker_info.info_elem = info_cnt;

#ifdef HAVE_PYTHON
   if (config_get_string(conf, "import_script", &script))
   {
      strlcpy(script_path, dir_path, sizeof(script_path));
      strlcat(script_path, script, sizeof(script_path));

      tracker_info.script = script_path;
   }
   if (config_get_string(conf, "import_script_class", &script_class))
      tracker_info.script_class = script_class;

   tracker_info.script_is_file = true;
#endif

   state_tracker = state_tracker_init(&tracker_info);
   if (!state_tracker)
      RARCH_WARN("Failed to initialize state tracker.\n");

#ifdef HAVE_PYTHON
   if (script)
      free(script);
   if (script_class)
      free(script_class);
#endif

end:
   free(imports);
   return ret;
}
#endif

static bool load_shader(const char *dir_path, unsigned i, config_file_t *conf)
{
   char *shader_path = NULL;
   char attr_buf[64];
   char path_buf[PATH_MAX];

   print_buf(attr_buf, "shader%u", i);
   if (config_get_string(conf, attr_buf, &shader_path))
   {
      strlcpy(path_buf, dir_path, sizeof(path_buf));
      strlcat(path_buf, shader_path, sizeof(path_buf));
      free(shader_path);
   }
   else
   {
      RARCH_ERR("Didn't find shader path in config ...\n");
      return false;
   }

   RARCH_LOG("Loading Cg shader: \"%s\".\n", path_buf);

   if (!load_program(i + 1, path_buf, true))
      return false;

   return true;
}

static bool load_shader_params(unsigned i, config_file_t *conf)
{
   bool ret = true;
   char *scale_type = NULL;
   char *scale_type_x = NULL;
   char *scale_type_y = NULL;
   bool has_scale_type;
   bool has_scale_type_x;
   bool has_scale_type_y;

   char scale_name_buf[64];
   print_buf(scale_name_buf, "scale_type%u", i);
   has_scale_type = config_get_string(conf, scale_name_buf, &scale_type);
   print_buf(scale_name_buf, "scale_type_x%u", i);
   has_scale_type_x = config_get_string(conf, scale_name_buf, &scale_type_x);
   print_buf(scale_name_buf, "scale_type_y%u", i);
   has_scale_type_y = config_get_string(conf, scale_name_buf, &scale_type_y);

   if (!has_scale_type && !has_scale_type_x && !has_scale_type_y)
      return true;

   if (has_scale_type)
   {
      free(scale_type_x);
      free(scale_type_y);

      scale_type_x = strdup(scale_type);
      scale_type_y = strdup(scale_type);

      free(scale_type);
      scale_type = NULL;
   }

   char attr_name_buf[64];
   float fattr = 0.0f;
   int iattr = 0;
   struct gl_fbo_scale *scale = &cg_scale[i + 1]; // Shader 0 is passthrough shader. Start at 1.

   scale->valid = true;
   scale->type_x = RARCH_SCALE_INPUT;
   scale->type_y = RARCH_SCALE_INPUT;
   scale->scale_x = 1.0;
   scale->scale_y = 1.0;

   const struct retro_game_geometry *geom = &g_extern.system.av_info.geometry;
   scale->abs_x = geom->base_width;
   scale->abs_y = geom->base_height;

   if (scale_type_x)
   {
      if (strcmp(scale_type_x, "source") == 0)
         scale->type_x = RARCH_SCALE_INPUT;
      else if (strcmp(scale_type_x, "viewport") == 0)
         scale->type_x = RARCH_SCALE_VIEWPORT;
      else if (strcmp(scale_type_x, "absolute") == 0)
         scale->type_x = RARCH_SCALE_ABSOLUTE;
      else
      {
         RARCH_ERR("Invalid attribute.\n");
         ret = false;
         goto end;
      }
   }

   if (scale_type_y)
   {
      if (strcmp(scale_type_y, "source") == 0)
         scale->type_y = RARCH_SCALE_INPUT;
      else if (strcmp(scale_type_y, "viewport") == 0)
         scale->type_y = RARCH_SCALE_VIEWPORT;
      else if (strcmp(scale_type_y, "absolute") == 0)
         scale->type_y = RARCH_SCALE_ABSOLUTE;
      else
      {
         RARCH_ERR("Invalid attribute.\n");
         ret = false;
         goto end;
      }
   }

   if (scale->type_x == RARCH_SCALE_ABSOLUTE)
   {
      print_buf(attr_name_buf, "scale%u", i);
      if (config_get_int(conf, attr_name_buf, &iattr))
         scale->abs_x = iattr;
      else
      {
         print_buf(attr_name_buf, "scale_x%u", i);
         if (config_get_int(conf, attr_name_buf, &iattr))
            scale->abs_x = iattr;
      }
   }
   else
   {
      print_buf(attr_name_buf, "scale%u", i);
      if (config_get_float(conf, attr_name_buf, &fattr))
         scale->scale_x = fattr;
      else
      {
         print_buf(attr_name_buf, "scale_x%u", i);
         if (config_get_float(conf, attr_name_buf, &fattr))
            scale->scale_x = fattr;
      }
   }

   if (scale->type_y == RARCH_SCALE_ABSOLUTE)
   {
      print_buf(attr_name_buf, "scale%u", i);
      if (config_get_int(conf, attr_name_buf, &iattr))
         scale->abs_y = iattr;
      else
      {
         print_buf(attr_name_buf, "scale_y%u", i);
         if (config_get_int(conf, attr_name_buf, &iattr))
            scale->abs_y = iattr;
      }
   }
   else
   {
      print_buf(attr_name_buf, "scale%u", i);
      if (config_get_float(conf, attr_name_buf, &fattr))
         scale->scale_y = fattr;
      else
      {
         print_buf(attr_name_buf, "scale_y%u", i);
         if (config_get_float(conf, attr_name_buf, &fattr))
            scale->scale_y = fattr;
      }
   }

end:
   free(scale_type);
   free(scale_type_x);
   free(scale_type_y);
   return ret;
}

static bool load_preset(const char *path)
{
#ifdef HAVE_CONFIGFILE
   bool ret = true;

   if (!load_stock())
      return false;

   int shaders = 0;
   // Basedir.
   char dir_path[PATH_MAX];
   char *ptr = NULL;

   RARCH_LOG("Loading Cg meta-shader: %s\n", path);
   config_file_t *conf = config_file_new(path);
   if (!conf)
   {
      RARCH_ERR("Failed to load preset.\n");
      ret = false;
      goto end;
   }

   if (!config_get_int(conf, "shaders", &shaders))
   {
      RARCH_ERR("Cannot find \"shaders\" param.\n");
      ret = false;
      goto end;
   }

   if (shaders < 1)
   {
      RARCH_ERR("Need to define at least 1 shader.\n");
      ret = false;
      goto end;
   }

   cg_shader_num = shaders;
   if (shaders > RARCH_CG_MAX_SHADERS - 3)
   {
      RARCH_WARN("Too many shaders ... Capping shader amount to %d.\n", RARCH_CG_MAX_SHADERS - 3);
      cg_shader_num = shaders = RARCH_CG_MAX_SHADERS - 3;
   }
   // If we aren't using last pass non-FBO shader, 
   // this shader will be assumed to be "fixed-function".
   // Just use prg[0] for that pass, which will be
   // pass-through.
   prg[shaders + 1] = prg[0]; 

   // Check filter params.
   for (int i = 0; i < shaders; i++)
   {
      bool smooth = false;
      char filter_name_buf[64];
      print_buf(filter_name_buf, "filter_linear%u", i);
      if (config_get_bool(conf, filter_name_buf, &smooth))
         fbo_smooth[i + 1] = smooth ? FILTER_LINEAR : FILTER_NEAREST;
   }

   strlcpy(dir_path, path, sizeof(dir_path));
   ptr = strrchr(dir_path, '/');
   if (!ptr) ptr = strrchr(dir_path, '\\');
   if (ptr) 
      ptr[1] = '\0';
   else // No directory.
      dir_path[0] = '\0';

   for (int i = 0; i < shaders; i++)
   {
      if (!load_shader_params(i, conf))
      {
         RARCH_ERR("Failed to load shader params ...\n");
         ret = false;
         goto end;
      }

      if (!load_shader(dir_path, i, conf))
      {
         RARCH_ERR("Failed to load shaders ...\n");
         ret = false;
         goto end;
      }
   }

   if (!load_textures(dir_path, conf))
   {
      RARCH_ERR("Failed to load lookup textures ...\n");
      ret = false;
      goto end;
   }

   if (!load_imports(dir_path, conf))
   {
      RARCH_ERR("Failed to load imports ...\n");
      ret = false;
      goto end;
   }

end:
   if (conf)
      config_file_free(conf);
   return ret;

#else
   (void)path;
   RARCH_ERR("No config file support compiled in.\n");
   return false;
#endif
}

static void set_program_base_attrib(unsigned i)
{
   CGparameter param = cgGetFirstParameter(prg[i].vprg, CG_PROGRAM);
   for (; param; param = cgGetNextParameter(param))
   {
      if (cgGetParameterDirection(param) != CG_IN || cgGetParameterVariability(param) != CG_VARYING)
         continue;

      const char *semantic = cgGetParameterSemantic(param);
      if (!semantic)
         continue;

      RARCH_LOG("CG: Found semantic \"%s\" in prog #%u.\n", semantic, i);

      if (strcmp(semantic, "TEXCOORD") == 0 || strcmp(semantic, "TEXCOORD0") == 0)
         prg[i].tex = param;
      else if (strcmp(semantic, "COLOR") == 0 || strcmp(semantic, "COLOR0") == 0)
         prg[i].color = param;
      else if (strcmp(semantic, "POSITION") == 0)
         prg[i].vertex = param;
      else if (strcmp(semantic, "TEXCOORD1") == 0)
         prg[i].lut_tex = param;
   }
}

static void set_program_attributes(unsigned i)
{
   cgGLBindProgram(prg[i].fprg);
   cgGLBindProgram(prg[i].vprg);

   set_program_base_attrib(i);

   prg[i].vid_size_f = cgGetNamedParameter(prg[i].fprg, "IN.video_size");
   prg[i].tex_size_f = cgGetNamedParameter(prg[i].fprg, "IN.texture_size");
   prg[i].out_size_f = cgGetNamedParameter(prg[i].fprg, "IN.output_size");
   prg[i].frame_cnt_f = cgGetNamedParameter(prg[i].fprg, "IN.frame_count");
   prg[i].frame_dir_f = cgGetNamedParameter(prg[i].fprg, "IN.frame_direction");
   prg[i].vid_size_v = cgGetNamedParameter(prg[i].vprg, "IN.video_size");
   prg[i].tex_size_v = cgGetNamedParameter(prg[i].vprg, "IN.texture_size");
   prg[i].out_size_v = cgGetNamedParameter(prg[i].vprg, "IN.output_size");
   prg[i].frame_cnt_v = cgGetNamedParameter(prg[i].vprg, "IN.frame_count");
   prg[i].frame_dir_v = cgGetNamedParameter(prg[i].vprg, "IN.frame_direction");
   prg[i].mvp = cgGetNamedParameter(prg[i].vprg, "modelViewProj");

   if (i == RARCH_CG_MENU_SHADER_INDEX)
      return;

   prg[i].orig.tex = cgGetNamedParameter(prg[i].fprg, "ORIG.texture");
   prg[i].orig.vid_size_v = cgGetNamedParameter(prg[i].vprg, "ORIG.video_size");
   prg[i].orig.vid_size_f = cgGetNamedParameter(prg[i].fprg, "ORIG.video_size");
   prg[i].orig.tex_size_v = cgGetNamedParameter(prg[i].vprg, "ORIG.texture_size");
   prg[i].orig.tex_size_f = cgGetNamedParameter(prg[i].fprg, "ORIG.texture_size");
   prg[i].orig.coord = cgGetNamedParameter(prg[i].vprg, "ORIG.tex_coord");

   for (unsigned j = 0; j < PREV_TEXTURES; j++)
   {
      char attr_buf_tex[64];
      char attr_buf_vid_size[64];
      char attr_buf_tex_size[64];
      char attr_buf_coord[64];
      static const char *prev_names[PREV_TEXTURES] = {
         "PREV",
         "PREV1",
         "PREV2",
         "PREV3",
         "PREV4",
         "PREV5",
         "PREV6",
      };

      snprintf(attr_buf_tex,      sizeof(attr_buf_tex),      "%s.texture", prev_names[j]);
      snprintf(attr_buf_vid_size, sizeof(attr_buf_vid_size), "%s.video_size", prev_names[j]);
      snprintf(attr_buf_tex_size, sizeof(attr_buf_tex_size), "%s.texture_size", prev_names[j]);
      snprintf(attr_buf_coord,    sizeof(attr_buf_coord),    "%s.tex_coord", prev_names[j]);

      prg[i].prev[j].tex = cgGetNamedParameter(prg[i].fprg, attr_buf_tex);

      prg[i].prev[j].vid_size_v = cgGetNamedParameter(prg[i].vprg, attr_buf_vid_size);
      prg[i].prev[j].vid_size_f = cgGetNamedParameter(prg[i].fprg, attr_buf_vid_size);

      prg[i].prev[j].tex_size_v = cgGetNamedParameter(prg[i].vprg, attr_buf_tex_size);
      prg[i].prev[j].tex_size_f = cgGetNamedParameter(prg[i].fprg, attr_buf_tex_size);

      prg[i].prev[j].coord = cgGetNamedParameter(prg[i].vprg, attr_buf_coord);
   }

   for (unsigned j = 0; j < i - 1; j++)
   {
      char attr_buf[64];

      snprintf(attr_buf, sizeof(attr_buf), "PASS%u.texture", j + 1);
      prg[i].fbo[j].tex = cgGetNamedParameter(prg[i].fprg, attr_buf);

      snprintf(attr_buf, sizeof(attr_buf), "PASS%u.video_size", j + 1);
      prg[i].fbo[j].vid_size_v = cgGetNamedParameter(prg[i].vprg, attr_buf);
      prg[i].fbo[j].vid_size_f = cgGetNamedParameter(prg[i].fprg, attr_buf);

      snprintf(attr_buf, sizeof(attr_buf), "PASS%u.texture_size", j + 1);
      prg[i].fbo[j].tex_size_v = cgGetNamedParameter(prg[i].vprg, attr_buf);
      prg[i].fbo[j].tex_size_f = cgGetNamedParameter(prg[i].fprg, attr_buf);

      snprintf(attr_buf, sizeof(attr_buf), "PASS%u.tex_coord", j + 1);
      prg[i].fbo[j].coord = cgGetNamedParameter(prg[i].vprg, attr_buf);
   }
}

bool gl_cg_init(const char *path)
{
#ifdef HAVE_CG_RUNTIME_COMPILER
   cgRTCgcInit();
#endif

   if (!cgCtx)
      cgCtx = cgCreateContext();

   if (cgCtx == NULL)
   {
      RARCH_ERR("Failed to create Cg context\n");
      return false;
   }

#ifdef RARCH_CG_DEBUG
   cgGLSetDebugMode(CG_TRUE);
   cgSetErrorHandler(cg_error_handler, NULL);
#endif

   cgFProf = cgGLGetLatestProfile(CG_GL_FRAGMENT);
   cgVProf = cgGLGetLatestProfile(CG_GL_VERTEX);
   if (cgFProf == CG_PROFILE_UNKNOWN || cgVProf == CG_PROFILE_UNKNOWN)
   {
      RARCH_ERR("Invalid profile type\n");
      return false;
   }
   cgGLSetOptimalOptions(cgFProf);
   cgGLSetOptimalOptions(cgVProf);
   cgGLEnableProfile(cgFProf);
   cgGLEnableProfile(cgVProf);

   if (strstr(path, ".cgp"))
   {
      if (!load_preset(path))
         return false;
   }
   else
   {
      if (!load_plain(path))
         return false;
   }

   if (menu_cg_program && !load_menu_shader())
      return false;

   prg[0].mvp = cgGetNamedParameter(prg[0].vprg, "modelViewProj");

   for (unsigned i = 1; i <= cg_shader_num; i++)
      set_program_attributes(i);

   if (menu_cg_program)
      set_program_attributes(RARCH_CG_MENU_SHADER_INDEX);

   cgGLBindProgram(prg[1].fprg);
   cgGLBindProgram(prg[1].vprg);

   cg_active = true;
   return true;
}

void gl_cg_use(unsigned index)
{
   if (cg_active && prg[index].vprg && prg[index].fprg)
   {
      gl_cg_reset_attrib();

      active_index = index;
      cgGLBindProgram(prg[index].vprg);
      cgGLBindProgram(prg[index].fprg);
   }
}

unsigned gl_cg_num(void)
{
   if (cg_active)
      return cg_shader_num;
   else
      return 0;
}

bool gl_cg_filter_type(unsigned index, bool *smooth)
{
   if (cg_active)
   {
      if (fbo_smooth[index] == FILTER_UNSPEC)
         return false;
      *smooth = (fbo_smooth[index] == FILTER_LINEAR);
      return true;
   }
   else
      return false;
}

void gl_cg_shader_scale(unsigned index, struct gl_fbo_scale *scale)
{
   if (cg_active)
      *scale = cg_scale[index];
   else
      scale->valid = false;
}

void gl_cg_set_menu_shader(const char *path)
{
   if (menu_cg_program)
      free(menu_cg_program);

   menu_cg_program = strdup(path);
}

void gl_cg_set_compiler_args(const char **argv)
{
   cg_arguments = argv;
}

bool gl_cg_load_shader(unsigned index, const char *path)
{
   if (!cg_active)
      return false;

   if (index == 0)
      return false;

   if (prg[index].fprg)
   {
      cgGLUnbindProgram(cgFProf);

      if (prg[0].fprg != prg[index].fprg)
         cgDestroyProgram(prg[index].fprg);
   }

   if (prg[index].vprg)
   {
      cgGLUnbindProgram(cgVProf);

      if (prg[0].vprg != prg[index].vprg)
         cgDestroyProgram(prg[index].vprg);
   }

   memset(&prg[index], 0, sizeof(prg[index]));

   if (path)
   {
      if (load_program(index, path, true))
      {
         set_program_attributes(index);
         return true;
      }
      else
      {
         // Always make sure we have a valid shader.
         prg[index] = prg[0];
         return false;
      }
   }
   else
   {
      prg[index] = prg[0];
      return true;
   }
}

bool gl_cg_save_cgp(const char *path, const struct gl_cg_cgp_info *info)
{
   if (!info->shader[0] || !*info->shader[0])
      return false;

   FILE *file = fopen(path, "w");
   if (!file)
      return false;

   unsigned shaders = info->shader[1] && *info->shader[1] ? 2 : 1;
   fprintf(file, "shaders = %u\n", shaders);

   fprintf(file, "shader0 = \"%s\"\n", info->shader[0]);
   if (shaders == 2)
      fprintf(file, "shader1 = \"%s\"\n", info->shader[1]);

   fprintf(file, "filter_linear0 = %s\n", info->filter_linear[0] ? "true" : "false");

   if (info->render_to_texture)
   {
      fprintf(file, "filter_linear1 = %s\n", info->filter_linear[1] ? "true" : "false");
      fprintf(file, "scale_type0 = source\n");
      fprintf(file, "scale0 = %.1f\n", info->fbo_scale);
   }

   if (info->lut_texture_path && info->lut_texture_id)
   {
      fprintf(file, "textures = %s\n", info->lut_texture_id);
      fprintf(file, "%s = \"%s\"\n",
            info->lut_texture_id, info->lut_texture_path);

      fprintf(file, "%s_absolute = %s\n",
            info->lut_texture_id,
            info->lut_texture_absolute ? "true" : "false");
   }

   fclose(file);
   return true;
}

void gl_cg_invalidate_context(void)
{
   cgCtx = NULL;
}

unsigned gl_cg_get_lut_info(struct gl_cg_lut_info *info, unsigned elems)
{
   if (!cg_active)
      return 0;

   elems = elems > lut_textures_num ? lut_textures_num : elems;

   for (unsigned i = 0; i < elems; i++)
   {
      strlcpy(info[i].id, lut_textures_uniform[i], sizeof(info[i].id));
      info[i].tex = lut_textures[i];
   }

   return elems;
}