PrusaSlicer-NonPlainar/src/slic3r/GUI/GLShader.cpp
bubnikv 9406b50447 Const correctness improvements:
removed some unnecessary const_casts that remove const.
2020-01-03 16:33:04 +01:00

367 lines
10 KiB
C++

#include <GL/glew.h>
#include "GLShader.hpp"
#include "libslic3r/Utils.hpp"
#include "3DScene.hpp"
#include <boost/nowide/fstream.hpp>
#include <string>
#include <utility>
#include <assert.h>
namespace Slic3r {
GLShader::~GLShader()
{
assert(fragment_program_id == 0);
assert(vertex_program_id == 0);
assert(shader_program_id == 0);
}
// A safe wrapper around glGetString to report a "N/A" string in case glGetString returns nullptr.
inline std::string gl_get_string_safe(GLenum param)
{
const char *value = (const char*)glGetString(param);
return std::string(value ? value : "N/A");
}
bool GLShader::load_from_text(const char *fragment_shader, const char *vertex_shader)
{
std::string gl_version = gl_get_string_safe(GL_VERSION);
int major = atoi(gl_version.c_str());
//int minor = atoi(gl_version.c_str() + gl_version.find('.') + 1);
if (major < 2) {
// Cannot create a shader object on OpenGL 1.x.
// Form an error message.
std::string gl_vendor = gl_get_string_safe(GL_VENDOR);
std::string gl_renderer = gl_get_string_safe(GL_RENDERER);
std::string glsl_version = gl_get_string_safe(GL_SHADING_LANGUAGE_VERSION);
last_error = "Your computer does not support OpenGL shaders.\n";
#ifdef _WIN32
if (gl_vendor == "Microsoft Corporation" && gl_renderer == "GDI Generic") {
last_error = "Windows is using a software OpenGL renderer.\n"
"You are either connected over remote desktop,\n"
"or a hardware acceleration is not available.\n";
}
#endif
last_error += "GL version: " + gl_version + "\n";
last_error += "vendor: " + gl_vendor + "\n";
last_error += "renderer: " + gl_renderer + "\n";
last_error += "GLSL version: " + glsl_version + "\n";
return false;
}
if (fragment_shader != nullptr) {
this->fragment_program_id = ::glCreateShader(GL_FRAGMENT_SHADER);
glcheck();
if (this->fragment_program_id == 0) {
last_error = "glCreateShader(GL_FRAGMENT_SHADER) failed.";
return false;
}
GLint len = (GLint)strlen(fragment_shader);
glsafe(::glShaderSource(this->fragment_program_id, 1, &fragment_shader, &len));
glsafe(::glCompileShader(this->fragment_program_id));
GLint params;
glsafe(::glGetShaderiv(this->fragment_program_id, GL_COMPILE_STATUS, &params));
if (params == GL_FALSE) {
// Compilation failed. Get the log.
glsafe(::glGetShaderiv(this->fragment_program_id, GL_INFO_LOG_LENGTH, &params));
std::vector<char> msg(params);
glsafe(::glGetShaderInfoLog(this->fragment_program_id, params, &params, msg.data()));
this->last_error = std::string("Fragment shader compilation failed:\n") + msg.data();
this->release();
return false;
}
}
if (vertex_shader != nullptr) {
this->vertex_program_id = ::glCreateShader(GL_VERTEX_SHADER);
glcheck();
if (this->vertex_program_id == 0) {
last_error = "glCreateShader(GL_VERTEX_SHADER) failed.";
this->release();
return false;
}
GLint len = (GLint)strlen(vertex_shader);
glsafe(::glShaderSource(this->vertex_program_id, 1, &vertex_shader, &len));
glsafe(::glCompileShader(this->vertex_program_id));
GLint params;
glsafe(::glGetShaderiv(this->vertex_program_id, GL_COMPILE_STATUS, &params));
if (params == GL_FALSE) {
// Compilation failed. Get the log.
glsafe(::glGetShaderiv(this->vertex_program_id, GL_INFO_LOG_LENGTH, &params));
std::vector<char> msg(params);
glsafe(::glGetShaderInfoLog(this->vertex_program_id, params, &params, msg.data()));
this->last_error = std::string("Vertex shader compilation failed:\n") + msg.data();
this->release();
return false;
}
}
// Link shaders
this->shader_program_id = ::glCreateProgram();
glcheck();
if (this->shader_program_id == 0) {
last_error = "glCreateProgram() failed.";
this->release();
return false;
}
if (this->fragment_program_id)
glsafe(::glAttachShader(this->shader_program_id, this->fragment_program_id));
if (this->vertex_program_id)
glsafe(::glAttachShader(this->shader_program_id, this->vertex_program_id));
glsafe(::glLinkProgram(this->shader_program_id));
GLint params;
glsafe(::glGetProgramiv(this->shader_program_id, GL_LINK_STATUS, &params));
if (params == GL_FALSE) {
// Linking failed. Get the log.
glsafe(::glGetProgramiv(this->shader_program_id, GL_INFO_LOG_LENGTH, &params));
std::vector<char> msg(params);
glsafe(::glGetProgramInfoLog(this->shader_program_id, params, &params, msg.data()));
this->last_error = std::string("Shader linking failed:\n") + msg.data();
this->release();
return false;
}
last_error.clear();
return true;
}
bool GLShader::load_from_file(const char* fragment_shader_filename, const char* vertex_shader_filename)
{
const std::string& path = resources_dir() + "/shaders/";
boost::nowide::ifstream vs(path + std::string(vertex_shader_filename), boost::nowide::ifstream::binary);
if (!vs.good())
return false;
vs.seekg(0, vs.end);
int file_length = (int)vs.tellg();
vs.seekg(0, vs.beg);
std::string vertex_shader(file_length, '\0');
vs.read(vertex_shader.data(), file_length);
if (!vs.good())
return false;
vs.close();
boost::nowide::ifstream fs(path + std::string(fragment_shader_filename), boost::nowide::ifstream::binary);
if (!fs.good())
return false;
fs.seekg(0, fs.end);
file_length = (int)fs.tellg();
fs.seekg(0, fs.beg);
std::string fragment_shader(file_length, '\0');
fs.read(fragment_shader.data(), file_length);
if (!fs.good())
return false;
fs.close();
return load_from_text(fragment_shader.c_str(), vertex_shader.c_str());
}
void GLShader::release()
{
if (this->shader_program_id) {
if (this->vertex_program_id)
glsafe(::glDetachShader(this->shader_program_id, this->vertex_program_id));
if (this->fragment_program_id)
glsafe(::glDetachShader(this->shader_program_id, this->fragment_program_id));
glsafe(::glDeleteProgram(this->shader_program_id));
this->shader_program_id = 0;
}
if (this->vertex_program_id) {
glsafe(::glDeleteShader(this->vertex_program_id));
this->vertex_program_id = 0;
}
if (this->fragment_program_id) {
glsafe(::glDeleteShader(this->fragment_program_id));
this->fragment_program_id = 0;
}
}
void GLShader::enable() const
{
glsafe(::glUseProgram(this->shader_program_id));
}
void GLShader::disable() const
{
glsafe(::glUseProgram(0));
}
// Return shader vertex attribute ID
int GLShader::get_attrib_location(const char *name) const
{
return this->shader_program_id ? glGetAttribLocation(this->shader_program_id, name) : -1;
}
// Return shader uniform variable ID
int GLShader::get_uniform_location(const char *name) const
{
return this->shader_program_id ? glGetUniformLocation(this->shader_program_id, name) : -1;
}
bool GLShader::set_uniform(const char *name, float value) const
{
int id = this->get_uniform_location(name);
if (id >= 0) {
glsafe(::glUniform1fARB(id, value));
return true;
}
return false;
}
bool GLShader::set_uniform(const char* name, const float* matrix) const
{
int id = get_uniform_location(name);
if (id >= 0)
{
glsafe(::glUniformMatrix4fv(id, 1, GL_FALSE, (const GLfloat*)matrix));
return true;
}
return false;
}
bool GLShader::set_uniform(const char* name, int value) const
{
int id = get_uniform_location(name);
if (id >= 0)
{
glsafe(::glUniform1i(id, value));
return true;
}
return false;
}
/*
# Set shader vector
sub SetVector
{
my($self,$var,@values) = @_;
my $id = $self->Map($var);
return 'Unable to map $var' if (!defined($id));
my $count = scalar(@values);
eval('glUniform'.$count.'fARB($id,@values)');
return '';
}
# Set shader 4x4 matrix
sub SetMatrix
{
my($self,$var,$oga) = @_;
my $id = $self->Map($var);
return 'Unable to map $var' if (!defined($id));
glUniformMatrix4fvARB_c($id,1,0,$oga->ptr());
return '';
}
*/
Shader::Shader()
: m_shader(nullptr)
{
}
Shader::~Shader()
{
reset();
}
bool Shader::init(const std::string& vertex_shader_filename, const std::string& fragment_shader_filename)
{
if (is_initialized())
return true;
m_shader = new GLShader();
if (m_shader != nullptr)
{
if (!m_shader->load_from_file(fragment_shader_filename.c_str(), vertex_shader_filename.c_str()))
{
std::cout << "Compilaton of shader failed:" << std::endl;
std::cout << m_shader->last_error << std::endl;
reset();
return false;
}
}
return true;
}
bool Shader::is_initialized() const
{
return (m_shader != nullptr);
}
bool Shader::start_using() const
{
if (is_initialized())
{
m_shader->enable();
return true;
}
else
return false;
}
void Shader::stop_using() const
{
if (m_shader != nullptr)
m_shader->disable();
}
int Shader::get_attrib_location(const std::string& name) const
{
return (m_shader != nullptr) ? m_shader->get_attrib_location(name.c_str()) : -1;
}
int Shader::get_uniform_location(const std::string& name) const
{
return (m_shader != nullptr) ? m_shader->get_uniform_location(name.c_str()) : -1;
}
void Shader::set_uniform(const std::string& name, float value) const
{
if (m_shader != nullptr)
m_shader->set_uniform(name.c_str(), value);
}
void Shader::set_uniform(const std::string& name, const float* matrix) const
{
if (m_shader != nullptr)
m_shader->set_uniform(name.c_str(), matrix);
}
void Shader::set_uniform(const std::string& name, bool value) const
{
if (m_shader != nullptr)
m_shader->set_uniform(name.c_str(), value ? 1 : 0);
}
unsigned int Shader::get_shader_program_id() const
{
return (m_shader != nullptr) ? m_shader->shader_program_id : 0;
}
void Shader::reset()
{
if (m_shader != nullptr)
{
m_shader->release();
delete m_shader;
m_shader = nullptr;
}
}
} // namespace Slic3r