ebiten/graphics/opengl/shader/program.go

package shader

// #cgo LDFLAGS: -framework OpenGL
//
// #include <OpenGL/gl.h>
// #include <stdlib.h>
import "C"
import (
	"github.com/hajimehoshi/go-ebiten/graphics/matrix"
	"unsafe"
)

func createProgram(shaders ...*shader) C.GLuint {
	program := C.glCreateProgram()
	for _, shader := range shaders {
		C.glAttachShader(program, shader.id)
	}
	C.glLinkProgram(program)
	linked := C.GLint(C.GL_FALSE)
	C.glGetProgramiv(program, C.GL_LINK_STATUS, &linked)
	if linked == C.GL_FALSE {
		panic("program error")
	}
	return program
}

var (
	initialized = false
)

func initialize() {
	// TODO: when should this function be called?
	vertexShader.id = C.glCreateShader(C.GL_VERTEX_SHADER)
	if vertexShader.id == 0 {
		panic("creating shader failed")
	}
	fragmentShader.id = C.glCreateShader(C.GL_FRAGMENT_SHADER)
	if fragmentShader.id == 0 {
		panic("creating shader failed")
	}
	colorMatrixShader.id = C.glCreateShader(C.GL_FRAGMENT_SHADER)
	if colorMatrixShader.id == 0 {
		panic("creating shader failed")
	}

	vertexShader.compile()
	fragmentShader.compile()
	colorMatrixShader.compile()

	programRegular = createProgram(vertexShader, fragmentShader)
	programColorMatrix = createProgram(vertexShader, colorMatrixShader)

	C.glDeleteShader(vertexShader.id)
	C.glDeleteShader(fragmentShader.id)
	C.glDeleteShader(colorMatrixShader.id)

	initialized = true
}

const (
	qualifierVariableTypeAttribute = iota
	qualifierVariableTypeUniform
)

var (
	shaderLocationCache = map[int]map[string]C.GLint{
		qualifierVariableTypeAttribute: map[string]C.GLint{},
		qualifierVariableTypeUniform:   map[string]C.GLint{},
	}
)

func getLocation(program C.GLuint, name string, qualifierVariableType int) C.GLint {
	if location, ok := shaderLocationCache[qualifierVariableType][name]; ok {
		return location
	}

	locationName := C.CString(name)
	defer C.free(unsafe.Pointer(locationName))

	location := C.GLint(-1)

	switch qualifierVariableType {
	case qualifierVariableTypeAttribute:
		location = C.glGetAttribLocation(program, (*C.GLchar)(locationName))
	case qualifierVariableTypeUniform:
		location = C.glGetUniformLocation(program, (*C.GLchar)(locationName))
	default:
		panic("no reach")
	}
	if location == -1 {
		panic("glGetUniformLocation failed")
	}
	shaderLocationCache[qualifierVariableType][name] = location

	return location
}

func getAttributeLocation(program C.GLuint, name string) C.GLint {
	return getLocation(program, name, qualifierVariableTypeAttribute)
}

func getUniformLocation(program C.GLuint, name string) C.GLint {
	return getLocation(program, name, qualifierVariableTypeUniform)
}

func program() {
}

func use(projectionMatrix [16]float32,
	geometryMatrix matrix.Geometry, colorMatrix matrix.Color) C.GLuint {
	program := programRegular
	if !colorMatrix.IsIdentity() {
		program = programColorMatrix
	}
	C.glUseProgram(program)

	C.glUniformMatrix4fv(C.GLint(getUniformLocation(program, "projection_matrix")),
		1, C.GL_FALSE, (*C.GLfloat)(&projectionMatrix[0]))

	a := float32(geometryMatrix.Elements[0][0])
	b := float32(geometryMatrix.Elements[0][1])
	c := float32(geometryMatrix.Elements[1][0])
	d := float32(geometryMatrix.Elements[1][1])
	tx := float32(geometryMatrix.Elements[0][2])
	ty := float32(geometryMatrix.Elements[1][2])
	glModelviewMatrix := [...]float32{
		a, c, 0, 0,
		b, d, 0, 0,
		0, 0, 1, 0,
		tx, ty, 0, 1,
	}
	C.glUniformMatrix4fv(getUniformLocation(program, "modelview_matrix"),
		1, C.GL_FALSE,
		(*C.GLfloat)(&glModelviewMatrix[0]))

	C.glUniform1i(getUniformLocation(program, "texture"), 0)

	if program != programColorMatrix {
		return program
	}

	e := [4][5]float32{}
	for i := 0; i < 4; i++ {
		for j := 0; j < 5; j++ {
			e[i][j] = float32(colorMatrix.Elements[i][j])
		}
	}

	glColorMatrix := [...]float32{
		e[0][0], e[1][0], e[2][0], e[3][0],
		e[0][1], e[1][1], e[2][1], e[3][1],
		e[0][2], e[1][2], e[2][2], e[3][2],
		e[0][3], e[1][3], e[2][3], e[3][3],
	}
	C.glUniformMatrix4fv(getUniformLocation(program, "color_matrix"),
		1, C.GL_FALSE, (*C.GLfloat)(&glColorMatrix[0]))

	glColorMatrixTranslation := [...]float32{
		e[0][4], e[1][4], e[2][4], e[3][4],
	}
	C.glUniform4fv(getUniformLocation(program, "color_matrix_translation"),
		1, (*C.GLfloat)(&glColorMatrixTranslation[0]))

	return program
}
Add program.go 2013-10-26 18:56:58 +02:00			`package shader`

			`// #cgo LDFLAGS: -framework OpenGL`
			`//`
			`// #include <OpenGL/gl.h>`
			`// #include <stdlib.h>`
			`import "C"`
			`import (`
			`"github.com/hajimehoshi/go-ebiten/graphics/matrix"`
			`"unsafe"`
			`)`

			`func createProgram(shaders ...*shader) C.GLuint {`
			`program := C.glCreateProgram()`
			`for _, shader := range shaders {`
			`C.glAttachShader(program, shader.id)`
			`}`
			`C.glLinkProgram(program)`
			`linked := C.GLint(C.GL_FALSE)`
			`C.glGetProgramiv(program, C.GL_LINK_STATUS, &linked)`
			`if linked == C.GL_FALSE {`
			`panic("program error")`
			`}`
			`return program`
			`}`

			`var (`
			`initialized = false`
			`)`

			`func initialize() {`
			`// TODO: when should this function be called?`
			`vertexShader.id = C.glCreateShader(C.GL_VERTEX_SHADER)`
			`if vertexShader.id == 0 {`
			`panic("creating shader failed")`
			`}`
			`fragmentShader.id = C.glCreateShader(C.GL_FRAGMENT_SHADER)`
			`if fragmentShader.id == 0 {`
			`panic("creating shader failed")`
			`}`
			`colorMatrixShader.id = C.glCreateShader(C.GL_FRAGMENT_SHADER)`
			`if colorMatrixShader.id == 0 {`
			`panic("creating shader failed")`
			`}`

			`vertexShader.compile()`
			`fragmentShader.compile()`
			`colorMatrixShader.compile()`

			`programRegular = createProgram(vertexShader, fragmentShader)`
			`programColorMatrix = createProgram(vertexShader, colorMatrixShader)`

			`C.glDeleteShader(vertexShader.id)`
			`C.glDeleteShader(fragmentShader.id)`
			`C.glDeleteShader(colorMatrixShader.id)`

			`initialized = true`
			`}`

			`const (`
			`qualifierVariableTypeAttribute = iota`
			`qualifierVariableTypeUniform`
			`)`

			`var (`
			`shaderLocationCache = map[int]map[string]C.GLint{`
			`qualifierVariableTypeAttribute: map[string]C.GLint{},`
			`qualifierVariableTypeUniform: map[string]C.GLint{},`
			`}`
			`)`

			`func getLocation(program C.GLuint, name string, qualifierVariableType int) C.GLint {`
			`if location, ok := shaderLocationCache[qualifierVariableType][name]; ok {`
			`return location`
			`}`

			`locationName := C.CString(name)`
			`defer C.free(unsafe.Pointer(locationName))`

			`location := C.GLint(-1)`
Add opengl/graphics/rendertarget 2013-10-27 11:54:28 +01:00
Add program.go 2013-10-26 18:56:58 +02:00			`switch qualifierVariableType {`
			`case qualifierVariableTypeAttribute:`
			`location = C.glGetAttribLocation(program, (*C.GLchar)(locationName))`
			`case qualifierVariableTypeUniform:`
			`location = C.glGetUniformLocation(program, (*C.GLchar)(locationName))`
			`default:`
			`panic("no reach")`
			`}`
			`if location == -1 {`
			`panic("glGetUniformLocation failed")`
			`}`
			`shaderLocationCache[qualifierVariableType][name] = location`

			`return location`
			`}`

			`func getAttributeLocation(program C.GLuint, name string) C.GLint {`
			`return getLocation(program, name, qualifierVariableTypeAttribute)`
			`}`

			`func getUniformLocation(program C.GLuint, name string) C.GLint {`
			`return getLocation(program, name, qualifierVariableTypeUniform)`
			`}`

Add AdjustImage 2013-11-25 17:08:12 +01:00			`func program() {`
			`}`

			`func use(projectionMatrix [16]float32,`
			`geometryMatrix matrix.Geometry, colorMatrix matrix.Color) C.GLuint {`
Add program.go 2013-10-26 18:56:58 +02:00			`program := programRegular`
			`if !colorMatrix.IsIdentity() {`
			`program = programColorMatrix`
			`}`
			`C.glUseProgram(program)`
Add opengl/graphics/rendertarget 2013-10-27 11:54:28 +01:00
Add program.go 2013-10-26 18:56:58 +02:00			`C.glUniformMatrix4fv(C.GLint(getUniformLocation(program, "projection_matrix")),`
			`1, C.GL_FALSE, (*C.GLfloat)(&projectionMatrix[0]))`

			`a := float32(geometryMatrix.Elements[0][0])`
			`b := float32(geometryMatrix.Elements[0][1])`
			`c := float32(geometryMatrix.Elements[1][0])`
			`d := float32(geometryMatrix.Elements[1][1])`
			`tx := float32(geometryMatrix.Elements[0][2])`
			`ty := float32(geometryMatrix.Elements[1][2])`
			`glModelviewMatrix := [...]float32{`
			`a, c, 0, 0,`
			`b, d, 0, 0,`
			`0, 0, 1, 0,`
			`tx, ty, 0, 1,`
			`}`
			`C.glUniformMatrix4fv(getUniformLocation(program, "modelview_matrix"),`
			`1, C.GL_FALSE,`
			`(*C.GLfloat)(&glModelviewMatrix[0]))`

			`C.glUniform1i(getUniformLocation(program, "texture"), 0)`

			`if program != programColorMatrix {`
			`return program`
			`}`

			`e := [4][5]float32{}`
			`for i := 0; i < 4; i++ {`
			`for j := 0; j < 5; j++ {`
			`e[i][j] = float32(colorMatrix.Elements[i][j])`
			`}`
			`}`

			`glColorMatrix := [...]float32{`
			`e[0][0], e[1][0], e[2][0], e[3][0],`
			`e[0][1], e[1][1], e[2][1], e[3][1],`
			`e[0][2], e[1][2], e[2][2], e[3][2],`
			`e[0][3], e[1][3], e[2][3], e[3][3],`
			`}`
			`C.glUniformMatrix4fv(getUniformLocation(program, "color_matrix"),`
			`1, C.GL_FALSE, (*C.GLfloat)(&glColorMatrix[0]))`

			`glColorMatrixTranslation := [...]float32{`
			`e[0][4], e[1][4], e[2][4], e[3][4],`
			`}`
			`C.glUniform4fv(getUniformLocation(program, "color_matrix_translation"),`
			`1, (*C.GLfloat)(&glColorMatrixTranslation[0]))`

			`return program`
			`}`