src/libprojectM/MilkdropPresetFactory/MilkdropPreset.cpp - vendor/opensource/projectM - Git at Google

 /**
  * projectM -- Milkdrop-esque visualisation SDK
  * Copyright (C)2003-2004 projectM Team
  *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
  * License as published by the Free Software Foundation; either
  * version 2.1 of the License, or (at your option) any later version.
  *
  * This library 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
  * Lesser General Public License for more details.
  *
  * You should have received a copy of the GNU Lesser General Public
  * License along with this library; if not, write to the Free Software
  * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
  * See 'LICENSE.txt' included within this release
  *
  */
 #include <cstdio>
 #include <cstring>
 #include <cstdlib>

 #ifdef WIN32
 #include "win32-dirent.h"
 #else
 #include <dirent.h>
 #endif /** WIN32 */
 #include <time.h>

 #include "MilkdropPreset.hpp"
 #include "Parser.hpp"
 #include "ParamUtils.hpp"
 #include "InitCondUtils.hpp"
 #include "fatal.h"
 #include <iostream>
 #include <fstream>

 #include "PresetFrameIO.hpp"


 MilkdropPreset::MilkdropPreset(std::istream & in, const std::string & presetName,  PresetOutputs & presetOutputs)
   : Preset(presetName),
     builtinParams(_presetInputs, presetOutputs),
     _presetOutputs(presetOutputs)
 {
   initialize(in);
 }

 MilkdropPreset::MilkdropPreset (const std::string & absoluteFilePath, const std::string & presetName, PresetOutputs & presetOutputs)
   : Preset(presetName),
     builtinParams(_presetInputs, presetOutputs),
     _absoluteFilePath(absoluteFilePath),
     _presetOutputs(presetOutputs),
     _filename(parseFilename(absoluteFilePath))
 {
   initialize(absoluteFilePath);
 }

 MilkdropPreset::~MilkdropPreset()
 {
   traverse<TraverseFunctors::Delete<InitCond> >(init_cond_tree);

   traverse<TraverseFunctors::Delete<InitCond> >(per_frame_init_eqn_tree);

   traverse<TraverseFunctors::Delete<PerPixelEqn> >(per_pixel_eqn_tree);

   traverseVector<TraverseFunctors::Delete<PerFrameEqn> >(per_frame_eqn_tree);

   traverse<TraverseFunctors::Delete<Param> >(user_param_tree);

   /// Testing deletion of render items by the preset. would be nice if it worked,
   /// and seems to be working if you use a mutex on the preset switching.

   for (PresetOutputs::cwave_container::iterator pos = customWaves.begin();
        pos != customWaves.end();
        ++pos )
   {
     //  __android_log_print(ANDROID_LOG_ERROR, "projectM", "not freeing wave %x", *pos);
     delete(*pos);
   }

   for (PresetOutputs::cshape_container::iterator pos = customShapes.begin();
        pos != customShapes.end();
        ++pos )
   {
     //__android_log_print(ANDROID_LOG_ERROR, "projectM", "not freeing shape %x", *pos);
     delete(*pos);
   }

   customWaves.clear();
   customShapes.clear();
   presetOutputs().customWaves.clear();
   presetOutputs().customShapes.clear();
   presetOutputs().drawables.clear();
 }

 /* Adds a per pixel equation according to its string name. This
    will be used only by the parser */

 int
 MilkdropPreset::add_per_pixel_eqn(char * name, GenExpr * gen_expr)
 {
   PerPixelEqn * per_pixel_eqn = NULL;
   int         index;
   Param       * param = NULL;

   assert(gen_expr);
   assert(name);

   if (PER_PIXEL_EQN_DEBUG) printf("add_per_pixel_eqn: per pixel equation (name = \"%s\")\n", name);

   /* Search for the parameter so we know what matrix the per pixel equation is referencing */

   param = ParamUtils::find(name, &this->builtinParams, &this->user_param_tree);
   if ( !param )
   {
     if (PER_PIXEL_EQN_DEBUG) printf("add_per_pixel_eqn: failed to allocate a new parameter!\n");
       return PROJECTM_FAILURE;
   }

   index = per_pixel_eqn_tree.size();

   /* Create the per pixel equation given the index, parameter, and general expression */
   if ((per_pixel_eqn = new PerPixelEqn(index, param, gen_expr)) == NULL)
   {
     if (PER_PIXEL_EQN_DEBUG) printf("add_per_pixel_eqn: failed to create new per pixel equation!\n");
       return PROJECTM_FAILURE;
   }


   /* Insert the per pixel equation into the preset per pixel database */
   std::pair<std::map<int, PerPixelEqn*>::iterator, bool> inserteeOption =
       per_pixel_eqn_tree.insert (std::make_pair(per_pixel_eqn->index, per_pixel_eqn));

   if (!inserteeOption.second)
   {
     printf("failed to add per pixel eqn!\n");
     delete(per_pixel_eqn);
     return PROJECTM_FAILURE;
   }

   /* Done */
   return PROJECTM_SUCCESS;
 }

 void
 MilkdropPreset::evalCustomShapeInitConditions()
 {

   for (PresetOutputs::cshape_container::iterator pos = customShapes.begin();
        pos != customShapes.end();
        ++pos)
   {
     assert(*pos);
     (*pos)->evalInitConds();
   }
 }


 void
 MilkdropPreset::evalCustomWaveInitConditions()
 {

   for (PresetOutputs::cwave_container::iterator pos = customWaves.begin();
        pos != customWaves.end();
        ++pos)
   {
     assert(*pos);
     (*pos)->evalInitConds();
   }
 }


 void
 MilkdropPreset::evalCustomWavePerFrameEquations()
 {

   for (PresetOutputs::cwave_container::iterator pos = customWaves.begin();
        pos != customWaves.end();
        ++pos)
   {
     std::map<std::string, InitCond*> & init_cond_tree = (*pos)->init_cond_tree;

     for (std::map<std::string, InitCond*>::iterator _pos = init_cond_tree.begin();
          _pos != init_cond_tree.end();
          ++_pos)
     {
       assert(_pos->second);
       _pos->second->evaluate();
     }

     std::vector<PerFrameEqn*> & per_frame_eqn_tree = (*pos)->per_frame_eqn_tree;
     for (std::vector<PerFrameEqn*>::iterator _pos = per_frame_eqn_tree.begin();
          _pos != per_frame_eqn_tree.end();
          ++_pos)
     {
       (*_pos)->evaluate();
     }
   }
 }

 void
 MilkdropPreset::evalCustomShapePerFrameEquations()
 {

   for (PresetOutputs::cshape_container::iterator pos = customShapes.begin();
        pos != customShapes.end();
        ++pos)
   {
     std::map<std::string, InitCond*> & init_cond_tree = (*pos)->init_cond_tree;

     for (std::map<std::string, InitCond*>::iterator _pos = init_cond_tree.begin();
          _pos != init_cond_tree.end();
          ++_pos)
     {
       assert(_pos->second);
       _pos->second->evaluate();
     }

     std::vector<PerFrameEqn*> & per_frame_eqn_tree = (*pos)->per_frame_eqn_tree;
     for (std::vector<PerFrameEqn*>::iterator _pos = per_frame_eqn_tree.begin();
          _pos != per_frame_eqn_tree.end();
          ++_pos)
     {
       (*_pos)->evaluate();
     }
   }
 }

 void
 MilkdropPreset::evalPerFrameInitEquations()
 {
   for (std::map<std::string, InitCond*>::iterator pos = per_frame_init_eqn_tree.begin();
        pos != per_frame_init_eqn_tree.end();
        ++pos)
   {
     assert(pos->second);
     pos->second->evaluate();
   }
 }

 void
 MilkdropPreset::evalPerFrameEquations()
 {
   for (std::map<std::string, InitCond*>::iterator pos = init_cond_tree.begin();
        pos != init_cond_tree.end();
        ++pos)
   {
     assert(pos->second);
     pos->second->evaluate();
   }

   for (std::vector<PerFrameEqn*>::iterator pos = per_frame_eqn_tree.begin();
        pos != per_frame_eqn_tree.end();
        ++pos)
   {
     (*pos)->evaluate();
   }
 }

 void
 MilkdropPreset::preloadInitialize()
 {
   /// @note commented this out because it should be unnecessary
   // Clear equation trees
   //init_cond_tree.clear();
   //user_param_tree.clear();
   //per_frame_eqn_tree.clear();
   //per_pixel_eqn_tree.clear();
   //per_frame_init_eqn_tree.clear();
 }

 void
 MilkdropPreset::postloadInitialize()
 {
   /* It's kind of ugly to reset these values here. Should definitely be placed in the parser somewhere */
   this->per_frame_eqn_count = 0;
   this->per_frame_init_eqn_count = 0;

   this->loadBuiltinParamsUnspecInitConds();
   this->loadCustomWaveUnspecInitConds();
   this->loadCustomShapeUnspecInitConds();


   /// @bug are you handling all the q variables conditions? in particular, the un-init case?
   //m_presetOutputs.q1 = 0;
   //m_presetOutputs.q2 = 0;
   //m_presetOutputs.q3 = 0;
   //m_presetOutputs.q4 = 0;
   //m_presetOutputs.q5 = 0;
   //m_presetOutputs.q6 = 0;
   //m_presetOutputs.q7 = 0;
   //m_presetOutputs.q8 = 0;
 }

 void
 MilkdropPreset::Render(const BeatDetect &music, const PipelineContext &context)
 {
   _presetInputs.update(music, context);

   evaluateFrame();
   pipeline().Render(music, context);
 }

 void
 MilkdropPreset::initialize(const std::string & pathname)
 {
   int retval;

   preloadInitialize();

   if (MILKDROP_PRESET_DEBUG)
     std::cerr << "[Preset] loading file \"" << pathname << "\"..." << std::endl;

   if ((retval = loadPresetFile(pathname)) < 0)
   {
     if (MILKDROP_PRESET_DEBUG)
       std::cerr << "[Preset] failed to load file \""
                 << pathname << "\"!"
                 << std::endl;

     /// @bug how should we handle this problem? a well define exception?
     throw retval;
   }

   postloadInitialize();
 }

 void
 MilkdropPreset::initialize(std::istream & in)
 {
   int retval;

   preloadInitialize();

   if ((retval = readIn(in)) < 0)
   {

     if (MILKDROP_PRESET_DEBUG)
       std::cerr << "[Preset] failed to load from stream " << std::endl;

     /// @bug how should we handle this problem? a well define exception?
     throw retval;
   }

   postloadInitialize();
 }

 void
 MilkdropPreset::loadBuiltinParamsUnspecInitConds()
 {

   InitCondUtils::LoadUnspecInitCond loadUnspecInitCond(this->init_cond_tree, this->per_frame_init_eqn_tree);

   this->builtinParams.apply(loadUnspecInitCond);
   traverse(user_param_tree, loadUnspecInitCond);

 }

 void
 MilkdropPreset::loadCustomWaveUnspecInitConds()
 {
   for (PresetOutputs::cwave_container::iterator pos = customWaves.begin();
        pos != customWaves.end();
        ++pos)
   {
     assert(*pos);
     (*pos)->loadUnspecInitConds();
   }
 }

 void
 MilkdropPreset::loadCustomShapeUnspecInitConds()
 {
   for (PresetOutputs::cshape_container::iterator pos = customShapes.begin();
        pos != customShapes.end();
        ++pos)
   {
     assert(*pos);
     (*pos)->loadUnspecInitConds();
   }
 }


 void
 MilkdropPreset::evaluateFrame()
 {
   // Evaluate all equation objects according to milkdrop flow diagram

   evalPerFrameInitEquations();
   evalPerFrameEquations();

   // Important step to ensure custom shapes and waves don't stamp on the q variable values
   // calculated by the per frame (init) and per pixel equations.
   transfer_q_variables(customWaves);
   transfer_q_variables(customShapes);

   initialize_PerPixelMeshes();

   evalPerPixelEqns();

   evalCustomWaveInitConditions();
   evalCustomWavePerFrameEquations();

   evalCustomShapeInitConditions();
   evalCustomShapePerFrameEquations();

   // Setup pointers of the custom waves and shapes to the preset outputs instance
   /// @slow an extra O(N) per frame, could do this during eval
   _presetOutputs.customWaves = PresetOutputs::cwave_container(customWaves);
   _presetOutputs.customShapes = PresetOutputs::cshape_container(customShapes);
 }

 void
 MilkdropPreset::initialize_PerPixelMeshes()
 {
   int x,y;

   for (x=0;x<presetInputs().gx;x++){
     for(y=0;y<presetInputs().gy;y++){
       _presetOutputs.cx_mesh[x][y]=presetOutputs().cx;
     }
   }

   for (x=0;x<presetInputs().gx;x++){
     for(y=0;y<presetInputs().gy;y++){
       _presetOutputs.cy_mesh[x][y]=presetOutputs().cy;
     }
   }

   for (x=0;x<presetInputs().gx;x++){
     for(y=0;y<presetInputs().gy;y++){
       _presetOutputs.sx_mesh[x][y]=presetOutputs().sx;
     }
   }

   for (x=0;x<presetInputs().gx;x++){
     for(y=0;y<presetInputs().gy;y++){
       _presetOutputs.sy_mesh[x][y]=presetOutputs().sy;
     }
   }

   for (x=0;x<presetInputs().gx;x++){
     for(y=0;y<presetInputs().gy;y++){
       _presetOutputs.dx_mesh[x][y]=presetOutputs().dx;
     }
   }

   //std::cout<<presetOutputs().cx<<","<<presetOutputs().cy<<" "<<presetOutputs().dx<<","<<presetOutputs().dy<<std::endl;

   for (x=0;x<presetInputs().gx;x++){
     for(y=0;y<presetInputs().gy;y++){
       _presetOutputs.dy_mesh[x][y]=presetOutputs().dy;
     }
   }

   for (x=0;x<presetInputs().gx;x++){
     for(y=0;y<presetInputs().gy;y++){
       _presetOutputs.zoom_mesh[x][y]=presetOutputs().zoom;
     }
   }

   for (x=0;x<presetInputs().gx;x++){
     for(y=0;y<presetInputs().gy;y++){
       _presetOutputs.zoomexp_mesh[x][y]=presetOutputs().zoomexp;
     }
   }

   for (x=0;x<presetInputs().gx;x++){
     for(y=0;y<presetInputs().gy;y++){
       _presetOutputs.rot_mesh[x][y]=presetOutputs().rot;
     }
   }

   for (x=0;x<presetInputs().gx;x++){
     for(y=0;y<presetInputs().gy;y++){
       _presetOutputs.warp_mesh[x][y]=presetOutputs().warp;
     }
   }
 }

 // Evaluates all per-pixel equations
 void
 MilkdropPreset::evalPerPixelEqns()
 {
   /* Evaluate all per pixel equations in the tree datastructure */
   for (int mesh_x = 0; mesh_x < presetInputs().gx; mesh_x++)
     for (int mesh_y = 0; mesh_y < presetInputs().gy; mesh_y++)
       for (std::map<int, PerPixelEqn*>::iterator pos = per_pixel_eqn_tree.begin();
            pos != per_pixel_eqn_tree.end();
            ++pos)
         pos->second->evaluate(mesh_x, mesh_y);
 }

 int
 MilkdropPreset::readIn(std::istream & fs)
 {
   line_mode_t line_mode;

   presetOutputs().compositeShader.programSource.clear();
   presetOutputs().warpShader.programSource.clear();

   /* Parse any comments */
   if (Parser::parse_top_comment(fs) < 0)
   {
     if (MILKDROP_PRESET_DEBUG)
       std::cerr << "[Preset::readIn] no left bracket found..." << std::endl;
     return PROJECTM_FAILURE;
   }

   /* Parse the preset name and a left bracket */
   char tmp_name[MAX_TOKEN_SIZE];

   if (Parser::parse_preset_name(fs, tmp_name) < 0)
   {
     std::cerr <<  "[Preset::readIn] loading of preset name failed" << std::endl;
     return PROJECTM_ERROR;
   }

   /// @note  We ignore the preset name because [preset00] is just not so useful

   // Loop through each line in file, trying to successfully parse the file.
   // If a line does not parse correctly, keep trucking along to next line.
   int retval;
   while ((retval = Parser::parse_line(fs, this)) != EOF)
   {
     if (retval == PROJECTM_PARSE_ERROR)
     {
       line_mode = UNSET_LINE_MODE;
       // std::cerr << "[Preset::readIn()] parse error in file \"" << this->absoluteFilePath() << "\"" << std::endl;
     }
   }

   //  std::cerr << "loadPresetFile: finished line parsing successfully" << std::endl;

   /* Now the preset has been loaded.
      Evaluation calls can be made at appropiate
      times in the frame loop */

   return PROJECTM_SUCCESS;
 }

 /* loadPresetFile: private function that loads a specific preset denoted
    by the given pathname */
 int
 MilkdropPreset::loadPresetFile(const std::string & pathname)
 {
   /* Open the file corresponding to pathname */
   std::ifstream fs(pathname.c_str());

   if (!fs || fs.eof()) {
     if (MILKDROP_PRESET_DEBUG)
       std::cerr << "loadPresetFile: loading of file \"" << pathname << "\" failed!\n";
     return PROJECTM_ERROR;
   }

   return readIn(fs);
 }

 const std::string &
 MilkdropPreset::name() const
 {
   return name().empty() ? filename() : name();
 }
	/**
	* projectM -- Milkdrop-esque visualisation SDK
	* Copyright (C)2003-2004 projectM Team
	*
	* This library is free software; you can redistribute it and/or
	* modify it under the terms of the GNU Lesser General Public
	* License as published by the Free Software Foundation; either
	* version 2.1 of the License, or (at your option) any later version.
	*
	* This library 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
	* Lesser General Public License for more details.
	*
	* You should have received a copy of the GNU Lesser General Public
	* License along with this library; if not, write to the Free Software
	* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
	* See 'LICENSE.txt' included within this release
	*
	*/
	#include <cstdio>
	#include <cstring>
	#include <cstdlib>

	#ifdef WIN32
	#include "win32-dirent.h"
	#else
	#include <dirent.h>
	#endif /** WIN32 */
	#include <time.h>

	#include "MilkdropPreset.hpp"
	#include "Parser.hpp"
	#include "ParamUtils.hpp"
	#include "InitCondUtils.hpp"
	#include "fatal.h"
	#include <iostream>
	#include <fstream>

	#include "PresetFrameIO.hpp"


	MilkdropPreset::MilkdropPreset(std::istream & in, const std::string & presetName, PresetOutputs & presetOutputs)
	: Preset(presetName),
	builtinParams(_presetInputs, presetOutputs),
	_presetOutputs(presetOutputs)
	{
	initialize(in);
	}

	MilkdropPreset::MilkdropPreset (const std::string & absoluteFilePath, const std::string & presetName, PresetOutputs & presetOutputs)
	: Preset(presetName),
	builtinParams(_presetInputs, presetOutputs),
	_absoluteFilePath(absoluteFilePath),
	_presetOutputs(presetOutputs),
	_filename(parseFilename(absoluteFilePath))
	{
	initialize(absoluteFilePath);
	}

	MilkdropPreset::~MilkdropPreset()
	{
	traverse<TraverseFunctors::Delete<InitCond> >(init_cond_tree);

	traverse<TraverseFunctors::Delete<InitCond> >(per_frame_init_eqn_tree);

	traverse<TraverseFunctors::Delete<PerPixelEqn> >(per_pixel_eqn_tree);

	traverseVector<TraverseFunctors::Delete<PerFrameEqn> >(per_frame_eqn_tree);

	traverse<TraverseFunctors::Delete<Param> >(user_param_tree);

	/// Testing deletion of render items by the preset. would be nice if it worked,
	/// and seems to be working if you use a mutex on the preset switching.

	for (PresetOutputs::cwave_container::iterator pos = customWaves.begin();
	pos != customWaves.end();
	++pos )
	{
	// __android_log_print(ANDROID_LOG_ERROR, "projectM", "not freeing wave %x", *pos);
	delete(*pos);
	}

	for (PresetOutputs::cshape_container::iterator pos = customShapes.begin();
	pos != customShapes.end();
	++pos )
	{
	//__android_log_print(ANDROID_LOG_ERROR, "projectM", "not freeing shape %x", *pos);
	delete(*pos);
	}

	customWaves.clear();
	customShapes.clear();
	presetOutputs().customWaves.clear();
	presetOutputs().customShapes.clear();
	presetOutputs().drawables.clear();
	}

	/* Adds a per pixel equation according to its string name. This
	will be used only by the parser */

	int
	MilkdropPreset::add_per_pixel_eqn(char * name, GenExpr * gen_expr)
	{
	PerPixelEqn * per_pixel_eqn = NULL;
	int index;
	Param * param = NULL;

	assert(gen_expr);
	assert(name);

	if (PER_PIXEL_EQN_DEBUG) printf("add_per_pixel_eqn: per pixel equation (name = \"%s\")\n", name);

	/* Search for the parameter so we know what matrix the per pixel equation is referencing */

	param = ParamUtils::find(name, &this->builtinParams, &this->user_param_tree);
	if ( !param )
	{
	if (PER_PIXEL_EQN_DEBUG) printf("add_per_pixel_eqn: failed to allocate a new parameter!\n");
	return PROJECTM_FAILURE;
	}

	index = per_pixel_eqn_tree.size();

	/* Create the per pixel equation given the index, parameter, and general expression */
	if ((per_pixel_eqn = new PerPixelEqn(index, param, gen_expr)) == NULL)
	{
	if (PER_PIXEL_EQN_DEBUG) printf("add_per_pixel_eqn: failed to create new per pixel equation!\n");
	return PROJECTM_FAILURE;
	}



	/* Insert the per pixel equation into the preset per pixel database */
	std::pair<std::map<int, PerPixelEqn*>::iterator, bool> inserteeOption =
	per_pixel_eqn_tree.insert (std::make_pair(per_pixel_eqn->index, per_pixel_eqn));

	if (!inserteeOption.second)
	{
	printf("failed to add per pixel eqn!\n");
	delete(per_pixel_eqn);
	return PROJECTM_FAILURE;
	}

	/* Done */
	return PROJECTM_SUCCESS;
	}

	void
	MilkdropPreset::evalCustomShapeInitConditions()
	{

	for (PresetOutputs::cshape_container::iterator pos = customShapes.begin();
	pos != customShapes.end();
	++pos)
	{
	assert(*pos);
	(*pos)->evalInitConds();
	}
	}


	void
	MilkdropPreset::evalCustomWaveInitConditions()
	{

	for (PresetOutputs::cwave_container::iterator pos = customWaves.begin();
	pos != customWaves.end();
	++pos)
	{
	assert(*pos);
	(*pos)->evalInitConds();
	}
	}


	void
	MilkdropPreset::evalCustomWavePerFrameEquations()
	{

	for (PresetOutputs::cwave_container::iterator pos = customWaves.begin();
	pos != customWaves.end();
	++pos)
	{
	std::map<std::string, InitCond> & init_cond_tree = (pos)->init_cond_tree;

	for (std::map<std::string, InitCond*>::iterator _pos = init_cond_tree.begin();
	_pos != init_cond_tree.end();
	++_pos)
	{
	assert(_pos->second);
	_pos->second->evaluate();
	}

	std::vector<PerFrameEqn> & per_frame_eqn_tree = (pos)->per_frame_eqn_tree;
	for (std::vector<PerFrameEqn*>::iterator _pos = per_frame_eqn_tree.begin();
	_pos != per_frame_eqn_tree.end();
	++_pos)
	{
	(*_pos)->evaluate();
	}
	}
	}

	void
	MilkdropPreset::evalCustomShapePerFrameEquations()
	{

	for (PresetOutputs::cshape_container::iterator pos = customShapes.begin();
	pos != customShapes.end();
	++pos)
	{
	std::map<std::string, InitCond> & init_cond_tree = (pos)->init_cond_tree;

	for (std::map<std::string, InitCond*>::iterator _pos = init_cond_tree.begin();
	_pos != init_cond_tree.end();
	++_pos)
	{
	assert(_pos->second);
	_pos->second->evaluate();
	}

	std::vector<PerFrameEqn> & per_frame_eqn_tree = (pos)->per_frame_eqn_tree;
	for (std::vector<PerFrameEqn*>::iterator _pos = per_frame_eqn_tree.begin();
	_pos != per_frame_eqn_tree.end();
	++_pos)
	{
	(*_pos)->evaluate();
	}
	}
	}

	void
	MilkdropPreset::evalPerFrameInitEquations()
	{
	for (std::map<std::string, InitCond*>::iterator pos = per_frame_init_eqn_tree.begin();
	pos != per_frame_init_eqn_tree.end();
	++pos)
	{
	assert(pos->second);
	pos->second->evaluate();
	}
	}

	void
	MilkdropPreset::evalPerFrameEquations()
	{
	for (std::map<std::string, InitCond*>::iterator pos = init_cond_tree.begin();
	pos != init_cond_tree.end();
	++pos)
	{
	assert(pos->second);
	pos->second->evaluate();
	}

	for (std::vector<PerFrameEqn*>::iterator pos = per_frame_eqn_tree.begin();
	pos != per_frame_eqn_tree.end();
	++pos)
	{
	(*pos)->evaluate();
	}
	}

	void
	MilkdropPreset::preloadInitialize()
	{
	/// @note commented this out because it should be unnecessary
	// Clear equation trees
	//init_cond_tree.clear();
	//user_param_tree.clear();
	//per_frame_eqn_tree.clear();
	//per_pixel_eqn_tree.clear();
	//per_frame_init_eqn_tree.clear();
	}

	void
	MilkdropPreset::postloadInitialize()
	{
	/* It's kind of ugly to reset these values here. Should definitely be placed in the parser somewhere */
	this->per_frame_eqn_count = 0;
	this->per_frame_init_eqn_count = 0;

	this->loadBuiltinParamsUnspecInitConds();
	this->loadCustomWaveUnspecInitConds();
	this->loadCustomShapeUnspecInitConds();


	/// @bug are you handling all the q variables conditions? in particular, the un-init case?
	//m_presetOutputs.q1 = 0;
	//m_presetOutputs.q2 = 0;
	//m_presetOutputs.q3 = 0;
	//m_presetOutputs.q4 = 0;
	//m_presetOutputs.q5 = 0;
	//m_presetOutputs.q6 = 0;
	//m_presetOutputs.q7 = 0;
	//m_presetOutputs.q8 = 0;
	}

	void
	MilkdropPreset::Render(const BeatDetect &music, const PipelineContext &context)
	{
	_presetInputs.update(music, context);

	evaluateFrame();
	pipeline().Render(music, context);
	}

	void
	MilkdropPreset::initialize(const std::string & pathname)
	{
	int retval;

	preloadInitialize();

	if (MILKDROP_PRESET_DEBUG)
	std::cerr << "[Preset] loading file \"" << pathname << "\"..." << std::endl;

	if ((retval = loadPresetFile(pathname)) < 0)
	{
	if (MILKDROP_PRESET_DEBUG)
	std::cerr << "[Preset] failed to load file \""
	<< pathname << "\"!"
	<< std::endl;

	/// @bug how should we handle this problem? a well define exception?
	throw retval;
	}

	postloadInitialize();
	}

	void
	MilkdropPreset::initialize(std::istream & in)
	{
	int retval;

	preloadInitialize();

	if ((retval = readIn(in)) < 0)
	{

	if (MILKDROP_PRESET_DEBUG)
	std::cerr << "[Preset] failed to load from stream " << std::endl;

	/// @bug how should we handle this problem? a well define exception?
	throw retval;
	}

	postloadInitialize();
	}

	void
	MilkdropPreset::loadBuiltinParamsUnspecInitConds()
	{

	InitCondUtils::LoadUnspecInitCond loadUnspecInitCond(this->init_cond_tree, this->per_frame_init_eqn_tree);

	this->builtinParams.apply(loadUnspecInitCond);
	traverse(user_param_tree, loadUnspecInitCond);

	}

	void
	MilkdropPreset::loadCustomWaveUnspecInitConds()
	{
	for (PresetOutputs::cwave_container::iterator pos = customWaves.begin();
	pos != customWaves.end();
	++pos)
	{
	assert(*pos);
	(*pos)->loadUnspecInitConds();
	}
	}

	void
	MilkdropPreset::loadCustomShapeUnspecInitConds()
	{
	for (PresetOutputs::cshape_container::iterator pos = customShapes.begin();
	pos != customShapes.end();
	++pos)
	{
	assert(*pos);
	(*pos)->loadUnspecInitConds();
	}
	}


	void
	MilkdropPreset::evaluateFrame()
	{
	// Evaluate all equation objects according to milkdrop flow diagram

	evalPerFrameInitEquations();
	evalPerFrameEquations();

	// Important step to ensure custom shapes and waves don't stamp on the q variable values
	// calculated by the per frame (init) and per pixel equations.
	transfer_q_variables(customWaves);
	transfer_q_variables(customShapes);

	initialize_PerPixelMeshes();

	evalPerPixelEqns();

	evalCustomWaveInitConditions();
	evalCustomWavePerFrameEquations();

	evalCustomShapeInitConditions();
	evalCustomShapePerFrameEquations();

	// Setup pointers of the custom waves and shapes to the preset outputs instance
	/// @slow an extra O(N) per frame, could do this during eval
	_presetOutputs.customWaves = PresetOutputs::cwave_container(customWaves);
	_presetOutputs.customShapes = PresetOutputs::cshape_container(customShapes);
	}

	void
	MilkdropPreset::initialize_PerPixelMeshes()
	{
	int x,y;

	for (x=0;x<presetInputs().gx;x++){
	for(y=0;y<presetInputs().gy;y++){
	_presetOutputs.cx_mesh[x][y]=presetOutputs().cx;
	}
	}

	for (x=0;x<presetInputs().gx;x++){
	for(y=0;y<presetInputs().gy;y++){
	_presetOutputs.cy_mesh[x][y]=presetOutputs().cy;
	}
	}

	for (x=0;x<presetInputs().gx;x++){
	for(y=0;y<presetInputs().gy;y++){
	_presetOutputs.sx_mesh[x][y]=presetOutputs().sx;
	}
	}

	for (x=0;x<presetInputs().gx;x++){
	for(y=0;y<presetInputs().gy;y++){
	_presetOutputs.sy_mesh[x][y]=presetOutputs().sy;
	}
	}

	for (x=0;x<presetInputs().gx;x++){
	for(y=0;y<presetInputs().gy;y++){
	_presetOutputs.dx_mesh[x][y]=presetOutputs().dx;
	}
	}

	//std::cout<<presetOutputs().cx<<","<<presetOutputs().cy<<" "<<presetOutputs().dx<<","<<presetOutputs().dy<<std::endl;

	for (x=0;x<presetInputs().gx;x++){
	for(y=0;y<presetInputs().gy;y++){
	_presetOutputs.dy_mesh[x][y]=presetOutputs().dy;
	}
	}

	for (x=0;x<presetInputs().gx;x++){
	for(y=0;y<presetInputs().gy;y++){
	_presetOutputs.zoom_mesh[x][y]=presetOutputs().zoom;
	}
	}

	for (x=0;x<presetInputs().gx;x++){
	for(y=0;y<presetInputs().gy;y++){
	_presetOutputs.zoomexp_mesh[x][y]=presetOutputs().zoomexp;
	}
	}

	for (x=0;x<presetInputs().gx;x++){
	for(y=0;y<presetInputs().gy;y++){
	_presetOutputs.rot_mesh[x][y]=presetOutputs().rot;
	}
	}

	for (x=0;x<presetInputs().gx;x++){
	for(y=0;y<presetInputs().gy;y++){
	_presetOutputs.warp_mesh[x][y]=presetOutputs().warp;
	}
	}
	}

	// Evaluates all per-pixel equations
	void
	MilkdropPreset::evalPerPixelEqns()
	{
	/* Evaluate all per pixel equations in the tree datastructure */
	for (int mesh_x = 0; mesh_x < presetInputs().gx; mesh_x++)
	for (int mesh_y = 0; mesh_y < presetInputs().gy; mesh_y++)
	for (std::map<int, PerPixelEqn*>::iterator pos = per_pixel_eqn_tree.begin();
	pos != per_pixel_eqn_tree.end();
	++pos)
	pos->second->evaluate(mesh_x, mesh_y);
	}

	int
	MilkdropPreset::readIn(std::istream & fs)
	{
	line_mode_t line_mode;

	presetOutputs().compositeShader.programSource.clear();
	presetOutputs().warpShader.programSource.clear();

	/* Parse any comments */
	if (Parser::parse_top_comment(fs) < 0)
	{
	if (MILKDROP_PRESET_DEBUG)
	std::cerr << "[Preset::readIn] no left bracket found..." << std::endl;
	return PROJECTM_FAILURE;
	}

	/* Parse the preset name and a left bracket */
	char tmp_name[MAX_TOKEN_SIZE];

	if (Parser::parse_preset_name(fs, tmp_name) < 0)
	{
	std::cerr << "[Preset::readIn] loading of preset name failed" << std::endl;
	return PROJECTM_ERROR;
	}

	/// @note We ignore the preset name because [preset00] is just not so useful

	// Loop through each line in file, trying to successfully parse the file.
	// If a line does not parse correctly, keep trucking along to next line.
	int retval;
	while ((retval = Parser::parse_line(fs, this)) != EOF)
	{
	if (retval == PROJECTM_PARSE_ERROR)
	{
	line_mode = UNSET_LINE_MODE;
	// std::cerr << "[Preset::readIn()] parse error in file \"" << this->absoluteFilePath() << "\"" << std::endl;
	}
	}

	// std::cerr << "loadPresetFile: finished line parsing successfully" << std::endl;

	/* Now the preset has been loaded.
	Evaluation calls can be made at appropiate
	times in the frame loop */

	return PROJECTM_SUCCESS;
	}

	/* loadPresetFile: private function that loads a specific preset denoted
	by the given pathname */
	int
	MilkdropPreset::loadPresetFile(const std::string & pathname)
	{
	/* Open the file corresponding to pathname */
	std::ifstream fs(pathname.c_str());

	if (!fs \|\| fs.eof()) {
	if (MILKDROP_PRESET_DEBUG)
	std::cerr << "loadPresetFile: loading of file \"" << pathname << "\" failed!\n";
	return PROJECTM_ERROR;
	}

	return readIn(fs);
	}

	const std::string &
	MilkdropPreset::name() const
	{
	return name().empty() ? filename() : name();
	}