package materials import ( "github.com/bloeys/gglm/gglm" "github.com/bloeys/nmage/assert" "github.com/bloeys/nmage/logging" "github.com/bloeys/nmage/shaders" "github.com/go-gl/gl/v4.1-core/gl" ) type Material struct { Name string ShaderProg shaders.ShaderProgram DiffuseTex uint32 UnifLocs map[string]int32 AttribLocs map[string]int32 } func (m *Material) Bind() { gl.UseProgram(m.ShaderProg.ID) gl.ActiveTexture(gl.TEXTURE0) gl.BindTexture(gl.TEXTURE_2D, m.DiffuseTex) } func (m *Material) UnBind() { gl.UseProgram(0) //TODO: Should we unbind textures here? Are these two lines needed? // gl.ActiveTexture(gl.TEXTURE0) // gl.BindTexture(gl.TEXTURE_2D, 0) } func (m *Material) GetAttribLoc(attribName string) int32 { loc, ok := m.AttribLocs[attribName] if ok { return loc } loc = gl.GetAttribLocation(m.ShaderProg.ID, gl.Str(attribName+"\x00")) assert.T(loc != -1, "Attribute '"+attribName+"' doesn't exist on material "+m.Name) m.AttribLocs[attribName] = loc return loc } func (m *Material) GetUnifLoc(uniformName string) int32 { loc, ok := m.UnifLocs[uniformName] if ok { return loc } loc = gl.GetUniformLocation(m.ShaderProg.ID, gl.Str(uniformName+"\x00")) assert.T(loc != -1, "Uniform '"+uniformName+"' doesn't exist on material "+m.Name) m.UnifLocs[uniformName] = loc return loc } func (m *Material) EnableAttribute(attribName string) { gl.EnableVertexAttribArray(uint32(m.GetAttribLoc(attribName))) } func (m *Material) DisableAttribute(attribName string) { gl.DisableVertexAttribArray(uint32(m.GetAttribLoc(attribName))) } func (m *Material) SetUnifInt32(uniformName string, val int32) { gl.ProgramUniform1i(m.ShaderProg.ID, m.GetUnifLoc(uniformName), val) } func (m *Material) SetUnifFloat32(uniformName string, val float32) { gl.ProgramUniform1f(m.ShaderProg.ID, m.GetUnifLoc(uniformName), val) } func (m *Material) SetUnifVec2(uniformName string, vec2 *gglm.Vec2) { gl.ProgramUniform2fv(m.ShaderProg.ID, m.GetUnifLoc(uniformName), 1, &vec2.Data[0]) } func (m *Material) SetUnifVec3(uniformName string, vec3 *gglm.Vec3) { gl.ProgramUniform3fv(m.ShaderProg.ID, m.GetUnifLoc(uniformName), 1, &vec3.Data[0]) } func (m *Material) SetUnifVec4(uniformName string, vec4 *gglm.Vec4) { gl.ProgramUniform4fv(m.ShaderProg.ID, m.GetUnifLoc(uniformName), 1, &vec4.Data[0]) } func (m *Material) SetUnifMat2(uniformName string, mat2 *gglm.Mat2) { gl.ProgramUniformMatrix2fv(m.ShaderProg.ID, m.GetUnifLoc(uniformName), 1, false, &mat2.Data[0][0]) } func (m *Material) SetUnifMat3(uniformName string, mat3 *gglm.Mat3) { gl.ProgramUniformMatrix3fv(m.ShaderProg.ID, m.GetUnifLoc(uniformName), 1, false, &mat3.Data[0][0]) } func (m *Material) SetUnifMat4(uniformName string, mat4 *gglm.Mat4) { gl.ProgramUniformMatrix4fv(m.ShaderProg.ID, m.GetUnifLoc(uniformName), 1, false, &mat4.Data[0][0]) } func (m *Material) Delete() { gl.DeleteProgram(m.ShaderProg.ID) } func NewMaterial(matName, shaderPath string) *Material { shdrProg, err := shaders.LoadAndCompileCombinedShader(shaderPath) if err != nil { logging.ErrLog.Fatalln("Failed to create new material. Err: ", err) } return &Material{Name: matName, ShaderProg: shdrProg, UnifLocs: make(map[string]int32), AttribLocs: make(map[string]int32)} } func NewMaterialSrc(matName string, shaderSrc []byte) *Material { shdrProg, err := shaders.LoadAndCompileCombinedShaderSrc(shaderSrc) if err != nil { logging.ErrLog.Fatalln("Failed to create new material. Err: ", err) } return &Material{Name: matName, ShaderProg: shdrProg, UnifLocs: make(map[string]int32), AttribLocs: make(map[string]int32)} }