// SetUniform sets a uniform variable using the appropriate glUniform* or glUniformMatrix* call. It supports arrays of float32 and float64 or Mat4 objects.
// NB: The underlying API does not support double precision, being able to pass float64 values is for convenience only.
// BUG: It does not support non-square matrices.
func (p *Program) SetUniform(loc string, data interface{}) {
uni := p.uni[loc]
switch f := data.(type) {
case float32:
C.glUniform1f(uni, C.GLfloat(f))
case [1]float32:
C.glUniform1f(uni, C.GLfloat(f[0]))
case [2]float32:
C.glUniform2f(uni, C.GLfloat(f[0]), C.GLfloat(f[1]))
case [3]float32:
C.glUniform3f(uni, C.GLfloat(f[0]), C.GLfloat(f[1]), C.GLfloat(f[2]))
case [4]float32:
C.glUniform4f(uni, C.GLfloat(f[0]), C.GLfloat(f[1]), C.GLfloat(f[2]), C.GLfloat(f[3]))
case float64:
C.glUniform1f(uni, C.GLfloat(f))
case [1]float64:
C.glUniform1f(uni, C.GLfloat(f[0]))
case [2]float64:
C.glUniform2f(uni, C.GLfloat(f[0]), C.GLfloat(f[1]))
case [3]float64:
C.glUniform3f(uni, C.GLfloat(f[0]), C.GLfloat(f[1]), C.GLfloat(f[2]))
case [4]float64:
C.glUniform4f(uni, C.GLfloat(f[0]), C.GLfloat(f[1]), C.GLfloat(f[2]), C.GLfloat(f[3]))
case int:
C.glUniform1i(uni, C.GLint(f))
case [1]int:
C.glUniform1i(uni, C.GLint(f[0]))
case [2]int:
C.glUniform2i(uni, C.GLint(f[0]), C.GLint(f[1]))
case [3]int:
C.glUniform3i(uni, C.GLint(f[0]), C.GLint(f[1]), C.GLint(f[2]))
case [4]int:
C.glUniform4i(uni, C.GLint(f[0]), C.GLint(f[1]), C.GLint(f[2]), C.GLint(f[3]))
case [2][2]float32:
g := [4]C.GLfloat{C.GLfloat(f[0][0]), C.GLfloat(f[1][0]), C.GLfloat(f[0][1]), C.GLfloat(f[1][1])}
C.glUniformMatrix2fv(uni, 1, FALSE, &g[0])
case [2][2]float64:
g := [4]C.GLfloat{C.GLfloat(f[0][0]), C.GLfloat(f[1][0]), C.GLfloat(f[0][1]), C.GLfloat(f[1][1])}
C.glUniformMatrix2fv(uni, 1, FALSE, &g[0])
case [3][3]float32:
g := [9]C.GLfloat{C.GLfloat(f[0][0]), C.GLfloat(f[1][0]), C.GLfloat(f[2][0]), C.GLfloat(f[0][1]), C.GLfloat(f[1][1]), C.GLfloat(f[2][1]), C.GLfloat(f[0][2]), C.GLfloat(f[1][2]), C.GLfloat(f[2][2])}
C.glUniformMatrix3fv(uni, 1, FALSE, &g[0])
case [3][3]float64:
g := [9]C.GLfloat{C.GLfloat(f[0][0]), C.GLfloat(f[1][0]), C.GLfloat(f[2][0]), C.GLfloat(f[0][1]), C.GLfloat(f[1][1]), C.GLfloat(f[2][1]), C.GLfloat(f[0][2]), C.GLfloat(f[1][2]), C.GLfloat(f[2][2])}
C.glUniformMatrix3fv(uni, 1, FALSE, &g[0])
case [4][4]float32:
g := [16]C.GLfloat{C.GLfloat(f[0][0]), C.GLfloat(f[1][0]), C.GLfloat(f[2][0]), C.GLfloat(f[3][0]), C.GLfloat(f[0][1]), C.GLfloat(f[1][1]), C.GLfloat(f[2][1]), C.GLfloat(f[3][1]), C.GLfloat(f[0][2]), C.GLfloat(f[1][2]), C.GLfloat(f[2][2]), C.GLfloat(f[3][2]), C.GLfloat(f[0][3]), C.GLfloat(f[1][3]), C.GLfloat(f[2][3]), C.GLfloat(f[3][3])}
C.glUniformMatrix4fv(uni, 1, FALSE, &g[0])
case [4][4]float64:
g := [16]C.GLfloat{C.GLfloat(f[0][0]), C.GLfloat(f[1][0]), C.GLfloat(f[2][0]), C.GLfloat(f[3][0]), C.GLfloat(f[0][1]), C.GLfloat(f[1][1]), C.GLfloat(f[2][1]), C.GLfloat(f[3][1]), C.GLfloat(f[0][2]), C.GLfloat(f[1][2]), C.GLfloat(f[2][2]), C.GLfloat(f[3][2]), C.GLfloat(f[0][3]), C.GLfloat(f[1][3]), C.GLfloat(f[2][3]), C.GLfloat(f[3][3])}
C.glUniformMatrix4fv(uni, 1, FALSE, &g[0])
case Mat4:
g := [16]C.GLfloat{C.GLfloat(f[0][0]), C.GLfloat(f[1][0]), C.GLfloat(f[2][0]), C.GLfloat(f[3][0]), C.GLfloat(f[0][1]), C.GLfloat(f[1][1]), C.GLfloat(f[2][1]), C.GLfloat(f[3][1]), C.GLfloat(f[0][2]), C.GLfloat(f[1][2]), C.GLfloat(f[2][2]), C.GLfloat(f[3][2]), C.GLfloat(f[0][3]), C.GLfloat(f[1][3]), C.GLfloat(f[2][3]), C.GLfloat(f[3][3])}
C.glUniformMatrix4fv(uni, 1, FALSE, &g[0])
default:
panic("invalid type passed to SetUniform()")
}
}
func UniformMatrix3fv(dst Uniform, src []float32) {
defer func() {
errstr := errDrain()
log.Printf("gl.UniformMatrix3fv(%v, len(%d)) %v", dst, len(src), errstr)
}()
C.glUniformMatrix3fv(dst.c(), C.GLsizei(len(src)/9), 0, (*C.GLfloat)(&src[0]))
}
func UniformMatrix3fv(
location int32, count Sizei,
transpose bool, value *float32) {
C.glUniformMatrix3fv(
C.GLint(location),
C.GLsizei(count),
glBoolean(transpose),
(*C.GLfloat)(value))
}
func (location UniformLocation) UniformMatrix3fv(transpose bool, list ...[]float32) {
if len(list) < 1 {
panic(ErrorInputSize)
}
// Maybe this isn't the best solution because of added overhead.
for i, _ := range list {
if len(list[i]) != 9 {
panic(ErrorInputSize)
}
}
C.glUniformMatrix3fv(C.GLint(location), C.GLsizei(len(list)), glBool(transpose), ((*C.GLfloat)((unsafe.Pointer)(&list[0]))))
}
func UniformMatrix3fv(dst Uniform, src []float32) {
C.glUniformMatrix3fv(dst.c(), C.GLsizei(len(src)/9), 0, (*C.GLfloat)(&src[0]))
}
func UniformMatrix3fv(location, count int, transpose bool, value []float32) {
C.glUniformMatrix3fv(C.GLint(location), C.GLsizei(count), glBoolean(transpose),
(*C.GLfloat)(&value[0]))
}
func (location UniformLocation) UniformMatrix3f(transpose bool, matrix *[9]float32) {
if matrix == nil {
panic("Matrix is nil")
}
C.glUniformMatrix3fv(C.GLint(location), 1, glBool(transpose), ((*C.GLfloat)((unsafe.Pointer)(&matrix[0]))))
}
func (location UniformLocation) UniformMatrix3fv(transpose bool, list ...[9]float32) {
if len(list) < 1 {
panic("Invalid array length - must be at least 1")
}
C.glUniformMatrix3fv(C.GLint(location), C.GLsizei(len(list)), glBool(transpose), ((*C.GLfloat)((unsafe.Pointer)(&list[0]))))
}
func (location UniformLocation) UniformMatrix3f(transpose bool, matrix []float32) {
if len(matrix) != 9 {
panic(ErrorInputSize)
}
C.glUniformMatrix3fv(C.GLint(location), 1, glBool(transpose), ((*C.GLfloat)((unsafe.Pointer)(&matrix[0]))))
}