예제 #1
0
def write():
    """write on screen"""
    width = render.getWindowWidth()
    height = render.getWindowHeight()

    # OpenGL setup
    bgl.glMatrixMode(bgl.GL_PROJECTION)
    bgl.glLoadIdentity()
    bgl.gluOrtho2D(0, width, 0, height)
    #bgl.glColor(1,1,1,1)
    bgl.glMatrixMode(bgl.GL_MODELVIEW)
    bgl.glLoadIdentity()

    # BLF drawing routine
    font_id = logic.font_id
    RED = (1, 0, 0, 1)
    pcol = ("Blue ", RED)
    #blf.color(font_id, 1, 1, 0, 0.5)
    blf.blur(font_id, 500)
    blf.rotation(font_id, 90)
    blf.position(font_id, (width * 0.5), (height * 0.5), 0.5)
    blf.size(font_id, 20, 100)
    blf.draw(font_id, "Hello World1")
    blf.size(font_id, 50, 72)
    blf.position(font_id, (width * 0.0), (height * 0.5), 0.5)
    blf.draw(font_id, "Hello World2")
예제 #2
0
 def draw_text(self, text, x, y, angle, font_height, colour):
     # dirty fast assignment
     dpi, font_id = 72, 0
     bgl.glColor4f(*colour)
     blf.position(font_id, x, y, 0)
     blf.rotation(font_id, angle)
     blf.size(font_id, font_height, dpi)
     blf.draw(font_id, text)
예제 #3
0
파일: AxisGizmo.py 프로젝트: alinsavix/ATB
def draw_callback_px(self, context, position, rotation):
    font_id = font_info["font_id"]
    blf.enable(font_id, blf.ROTATION)

    blf.rotation(font_id, math.radians(45))
    blf.position(font_id, position[0] - 280, position[1] - 280, 0)
    # blf.position(font_id, 3, 3, 0)

    blf.size(font_id, 10, 300)
    blf.draw(font_id, "Hello World")
예제 #4
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 def text_size(self, context):
     """
         overall on-screen size in pixels
     """
     dpi, font_id = context.user_preferences.system.dpi, 0
     if self.angle != 0:
         blf.enable(font_id, blf.ROTATION)
         blf.rotation(font_id, self.angle)
     blf.aspect(font_id, 1.0)
     blf.size(font_id, self.font_size, dpi)
     x, y = blf.dimensions(font_id, self.text)
     if self.angle != 0:
         blf.disable(font_id, blf.ROTATION)
     return Vector((x, y))
예제 #5
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 def draw(self, context, render=False):
     self.render = render
     x, y = self.position_2d_from_coord(context, self.pts[0], render)
     # dirty fast assignment
     dpi, font_id = context.user_preferences.system.dpi, 0
     bgl.glColor4f(*self.colour)
     if self.angle != 0:
         blf.enable(font_id, blf.ROTATION)
         blf.rotation(font_id, self.angle)
     blf.size(font_id, self.font_size, dpi)
     blf.position(font_id, x, y, 0)
     blf.draw(font_id, self.text)
     if self.angle != 0:
         blf.disable(font_id, blf.ROTATION)
예제 #6
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    def draw(self, context, render=False):

        # print("draw_text %s %s" % (self.text, type(self).__name__))
        self.render = render
        x, y = self.position_2d_from_coord(context, self.pts[0], render)
        # dirty fast assignment
        dpi, font_id = context.user_preferences.system.dpi, 0
        bgl.glColor4f(*self.colour)
        if self.angle != 0:
            blf.enable(font_id, blf.ROTATION)
            blf.rotation(font_id, self.angle)
        blf.size(font_id, self.font_size, dpi)
        blf.position(font_id, x, y, 0)
        blf.draw(font_id, self.text)
        if self.angle != 0:
            blf.disable(font_id, blf.ROTATION)
예제 #7
0
    def draw(self, context, render=False):

        # print("draw_text %s %s" % (self.text, type(self).__name__))
        self.render = render
        p = self.position_2d_from_coord(context, self.pts[0], render)
        # dirty fast assignment
        dpi, font_id = context.user_preferences.system.dpi, 0
        bgl.glColor4f(*self.colour)
        if self.angle != 0:
            blf.enable(font_id, blf.ROTATION)
            blf.rotation(font_id, self.angle)
        blf.size(font_id, self.font_size, dpi)
        blf.position(font_id, p.x, p.y, 0)
        blf.draw(font_id, self.text)
        if self.angle != 0:
            blf.disable(font_id, blf.ROTATION)
    def __render_text_index(
        cls,
        context,
        region,
        index,
        uv,  # uv vector to text position
        uvt=Vector([1.0, 0.0]),  # tangent unit vector on uv
        uvn=Vector([0.0, 1.0]),  # normal unit vector on uv
        loop_offset=(0.0, 0.0),  # additional offset to loop text pos
        bg_color=None,
    ):

        text = str(index)
        ruvi_props = scene = context.scene.ruvi_properties
        additional_offset = loop_offset[ruvi_props.edges]

        # Calcurate position and angle
        v = Vector(region.view2d.view_to_region(uv.x, uv.y))
        text_w, text_h = blf.dimensions(0, text)

        offset = (text_w * uvt + text_h * uvn) / 2
        sub_offset = additional_offset * text_h * uvn

        vo = Vector([1, 0])

        if uvt.y >= 0:
            angle = uvt.angle(vo)
        else:
            angle = -uvt.angle(vo)

        if uvt.x + uvt.y >= 0:
            v = v - offset + sub_offset
        else:
            v = v + offset + sub_offset
            angle -= pi

        blf.rotation(0, angle)

        # Render index
        if bg_color is not None:
            cls.__draw_background(bg_color, text, v, angle)
        font_size = ruvi_props.font_size
        cls.__render_text(font_size, v, text)
예제 #9
0
def scribble(text, x, y, px=12, pivot=(0.5, 0.0), rotation=0.0):
    blf.enable(0, blf.ROTATION)

    blf.size(0, px, 72)

    dimensions = blf.dimensions(0, text)

    sin = math.sin(rotation)
    cos = math.cos(rotation)

    offset = (dimensions[0] * pivot[0] * cos - dimensions[1] * pivot[1] * sin,
              dimensions[0] * pivot[0] * sin + dimensions[1] * pivot[1] * cos)

    position = (x - offset[0], y - offset[1])

    blf.position(0, position[0], position[1], 0.0)
    blf.rotation(0, rotation)

    blf.draw(0, text)

    blf.disable(0, blf.ROTATION)
예제 #10
0
    def draw(self, context, render=False):

        # print("draw_text %s %s" % (self.text, type(self).__name__))
        self.render = render
        p = self.position_2d_from_coord(context, self.pts[0], render)

        # dirty fast assignment
        dpi, font_id = context.preferences.system.dpi, 0

        # self.cbuff[0:4] = self.colour

        # bgl.glEnableClientState(bgl.GL_COLOR_ARRAY)
        # bgl.glColorPointer(4, bgl.GL_FLOAT, 0, self.cbuff)
        blf.color(0, *self.colour)
        if self.angle != 0:
            blf.enable(font_id, blf.ROTATION)
            blf.rotation(font_id, self.angle)
        blf.size(font_id, self.font_size, dpi)
        blf.position(font_id, p.x, p.y, 0)
        blf.draw(font_id, self.text)
        if self.angle != 0:
            blf.disable(font_id, blf.ROTATION)
예제 #11
0
    def draw(self, context, render=False):

        # print("draw_text %s %s" % (self.text, type(self).__name__))
        self.render = render
        p = self.position_2d_from_coord(context, self.pts[0], render)

        # dirty fast assignment
        dpi, font_id = context.preferences.system.dpi, 0

        # self.cbuff[0:4] = self.colour

        # bgl.glEnableClientState(bgl.GL_COLOR_ARRAY)
        # bgl.glColorPointer(4, bgl.GL_FLOAT, 0, self.cbuff)
        blf.color(0, *self.colour)
        if self.angle != 0:
            blf.enable(font_id, blf.ROTATION)
            blf.rotation(font_id, self.angle)
        blf.size(font_id, self.font_size, dpi)
        blf.position(font_id, p.x, p.y, 0)
        blf.draw(font_id, self.text)
        if self.angle != 0:
            blf.disable(font_id, blf.ROTATION)
 def rotation(angle, fontid=None):
     return blf.rotation(FontManager.load(fontid), angle)
예제 #13
0
 def setRot(self, angle):
     blf.rotation(self.font_info['font_id'], angle)
예제 #14
0
def display_instructions(region, rv3d, instruct, keys_aff, keys_nav, keys_neg):

    rw = region.width
    rh = region.height
    print('rw, rh', rw, rh)

    expand = False
    crop = False

    len_aff_max = rw - 140
    len_aff = len(keys_aff) * 5
    len_neg = len(keys_neg) * 5
    len_ins = len(instruct) * 18
    if len_aff > len_aff_max: expand = True

    rw_min = 480
    rh_min = 280
    if rw < rw_min or rh < rh_min: crop = True


    version = '020'
    font_id = 0

    keys_aff_1 = copy.deepcopy(keys_aff)
    keys_aff_2 = ' '
    if expand:
        keys_aff_1 = ''
        keys_aff_2 = ''
        print('len(keys_aff)', len(keys_aff))
        stop = 0
        for i in range (0, len(keys_aff)-1):
            #print(keys_aff[i])
            if keys_aff[i] == ',' and i * 5 <= len_aff_max and i > stop:
                stop = i
        print ('stop', stop)
        for i in range(0, stop + 1):
            keys_aff_1 = keys_aff_1 + keys_aff[i]
        for i in range(stop + 2, len(keys_aff)):
            keys_aff_2 = keys_aff_2 + keys_aff[i]
        print(keys_aff_1)
        print(keys_aff_2)

    field_keys_y = 46
    field_keys_x = 80
    field_keys_aff_1 = [[field_keys_x, field_keys_y + 21], [field_keys_x, field_keys_y + 39], [rw - int(field_keys_x / 2), field_keys_y + 39], [rw - int(field_keys_x / 2), field_keys_y + 21]]
    field_keys_aff_2 = copy.deepcopy(field_keys_aff_1)
    field_keys_neg = [[field_keys_x, field_keys_y], [field_keys_x, field_keys_y + 18], [rw - field_keys_x / 2, field_keys_y + 18], [rw - field_keys_x / 2, field_keys_y]]
    if expand:
        field_keys_aff_2 = copy.deepcopy(field_keys_neg)
        field_keys_neg = [[field_keys_x, field_keys_y - 21], [field_keys_x, field_keys_y - 3], [rw - field_keys_x / 2, field_keys_y - 3], [rw - field_keys_x / 2, field_keys_y - 21]]

    size_font_np = 25
    size_font_instruct = 21
    size_font_keys = 11
    len_np_ins = len_ins + int(size_font_np * 2.1)

    pos_font_np_x = (rw - (len_np_ins / 2)) / 2
    pos_font_np_y = 150
    if crop: pos_font_np_y = 75
    pos_font_instruct_x = pos_font_np_x + int(size_font_np * 2.1)
    pos_font_instruct_y = pos_font_np_y + 4
    pos_font_keys_aff_1_x = field_keys_x + 8
    pos_font_keys_aff_1_y = field_keys_y + 26
    pos_font_keys_aff_2_x = copy.deepcopy(pos_font_keys_aff_1_x)
    pos_font_keys_aff_2_y = copy.deepcopy(pos_font_keys_aff_1_y)
    pos_font_keys_nav_x = field_keys_x + 8
    pos_font_keys_nav_y = field_keys_y + 5
    pos_font_keys_neg_x = rw - 52 - len_neg
    print ('len_neg', len_neg)
    print ('pos_font_keys_neg_x', pos_font_keys_neg_x)
    pos_font_keys_neg_y = field_keys_y + 5
    if expand:
        pos_font_keys_aff_2_x = field_keys_x + 8
        pos_font_keys_aff_2_y = field_keys_y + 5
        pos_font_keys_nav_x = field_keys_x + 8
        pos_font_keys_nav_y = field_keys_y - 16
        pos_font_keys_neg_x = rw - 52 - len_neg
        pos_font_keys_neg_y = field_keys_y - 16

    col_font_np = addon_settings_graph()['col_font_np']
    col_font_instruct_main = addon_settings_graph()['col_font_instruct_main']
    col_font_instruct_shadow = addon_settings_graph()['col_font_instruct_shadow']
    col_font_keys = addon_settings_graph()['col_font_keys']
    col_field_keys_aff = addon_settings_graph()['col_field_keys_aff']
    col_field_keys_neg = addon_settings_graph()['col_field_keys_neg']



    # instructions - NP:

    bgl.glColor4f(*col_font_np)
    blf.size(font_id, size_font_np, 72)
    blf.position(font_id, pos_font_np_x, pos_font_np_y, 0)
    blf.draw(font_id, 'NP')

    blf.enable(font_id, ROTATION)
    ang = radians(90)
    blf.size(font_id, int(size_font_np / 2.2), 72)
    blf.rotation(font_id, ang)
    blf.position(font_id, pos_font_np_x + int(size_font_np * 1.72) , pos_font_np_y - 2, 0)
    blf.draw(font_id, version)
    blf.disable(font_id, ROTATION)

    # instructions - instruct:

    bgl.glColor4f(*col_font_instruct_shadow)
    blf.position(font_id, pos_font_instruct_x + 1, pos_font_instruct_y - 1, 0)
    blf.size(font_id, size_font_instruct, 72)
    blf.draw(font_id, instruct)

    bgl.glColor4f(*col_font_instruct_main)
    blf.position(font_id, pos_font_instruct_x, pos_font_instruct_y, 0)
    blf.size(font_id, size_font_instruct, 72)
    blf.draw(font_id, instruct)

    bgl.glDisable(bgl.GL_BLEND)

    # instructions - keys - backdrop fields:

    bgl.glEnable(bgl.GL_BLEND)

    if crop == False:

        bgl.glColor4f(*col_field_keys_aff)
        bgl.glBegin(bgl.GL_TRIANGLE_FAN)
        for co in field_keys_aff_1:
            bgl.glVertex2f(*co)
        bgl.glEnd()

        bgl.glColor4f(*col_field_keys_aff)
        bgl.glBegin(bgl.GL_TRIANGLE_FAN)
        for co in field_keys_aff_2:
            bgl.glVertex2f(*co)
        bgl.glEnd()

        bgl.glColor4f(*col_field_keys_neg)
        bgl.glBegin(bgl.GL_TRIANGLE_FAN)
        for co in field_keys_neg:
            bgl.glVertex2f(*co)
        bgl.glEnd()


        # instructions - keys - writing:

        bgl.glColor4f(*col_font_keys)
        blf.size(font_id, size_font_keys, 72)

        blf.position(font_id, pos_font_keys_aff_1_x, pos_font_keys_aff_1_y, 0)
        blf.draw(font_id, keys_aff_1)

        blf.position(font_id, pos_font_keys_aff_2_x, pos_font_keys_aff_2_y, 0)
        blf.draw(font_id, keys_aff_2)

        blf.position(font_id, pos_font_keys_nav_x, pos_font_keys_nav_y, 0)
        blf.draw(font_id, keys_nav)

        blf.position(font_id, pos_font_keys_neg_x, pos_font_keys_neg_y, 0)
        blf.draw(font_id, keys_neg)
예제 #15
0
def display_instructions(region, rv3d, instruct, keys_aff, keys_nav, keys_neg):


    userpref = bpy.context.user_preferences
    system = userpref.system
    rwtools = 0
    rwui = 0

    np_print(system.window_draw_method, system.use_region_overlap)


    if system.use_region_overlap:
        if system.window_draw_method in ('TRIPLE_BUFFER', 'AUTOMATIC') :

            area = bpy.context.area
            np_print('GO', area.regions)
            for r in area.regions:
                if r.type == 'TOOLS':
                    rwtools = r.width
                elif r.type == 'UI':
                    rwui = r.width

    np_print('rwtools', rwtools, 'rwui', rwui)
    field_keys_y = 46
    field_keys_x = 80
    rw = region.width
    rh = region.height
    np_print('rw, rh', rw, rh)

    expand = False
    crop = False

    len_aff_max = rw - 140 - rwtools - rwui
    len_aff = len(keys_aff) * 5
    len_neg = len(keys_neg) * 5
    len_ins = len(instruct) * 18
    if len_aff > len_aff_max: expand = True

    rw_min = 480
    rh_min = 280
    if rw - rwtools - rwui < rw_min or rh < rh_min: crop = True


    version = '020'
    font_id = 0

    keys_aff_1 = copy.deepcopy(keys_aff)
    keys_aff_2 = ' '
    if expand:
        keys_aff_1 = ''
        keys_aff_2 = ''
        np_print('len(keys_aff)', len(keys_aff))
        stop = 0
        for i in range (0, len(keys_aff)-1):
            #np_print(keys_aff[i])
            if keys_aff[i] == ',' and i * 5 <= len_aff_max and i > stop:
                stop = i
        np_print('stop', stop)
        for i in range(0, stop + 1):
            keys_aff_1 = keys_aff_1 + keys_aff[i]
        for i in range(stop + 2, len(keys_aff)):
            keys_aff_2 = keys_aff_2 + keys_aff[i]
        np_print(keys_aff_1)
        np_print(keys_aff_2)


    field_keys_aff_1 = [[field_keys_x + rwtools, field_keys_y + 21], [field_keys_x + rwtools, field_keys_y + 39], [rw - int(field_keys_x / 2) - rwui, field_keys_y + 39], [rw - int(field_keys_x / 2) - rwui, field_keys_y + 21]]
    field_keys_aff_2 = copy.deepcopy(field_keys_aff_1)
    field_keys_neg = [[field_keys_x + rwtools, field_keys_y], [field_keys_x + rwtools, field_keys_y + 18], [rw - int(field_keys_x / 2) - rwui, field_keys_y + 18], [rw - int(field_keys_x / 2) - rwui, field_keys_y]]
    if expand:
        field_keys_aff_2 = copy.deepcopy(field_keys_neg)
        field_keys_neg = [[field_keys_x + rwtools, field_keys_y - 21], [field_keys_x + rwtools, field_keys_y - 3], [rw - int(field_keys_x / 2) - rwui, field_keys_y - 3], [rw - int(field_keys_x / 2) - rwui, field_keys_y - 21]]

    size_font_np = 25
    size_font_instruct = 21
    size_font_keys = 11
    len_np_ins = len_ins + int(size_font_np * 2.1)

    pos_font_np_x = (rw - len_np_ins / 2) / 2 + rwtools / 2 - rwui / 2
    pos_font_np_y = 150
    if crop: pos_font_np_y = 75
    pos_font_instruct_x = pos_font_np_x + int(size_font_np * 2.1)
    pos_font_instruct_y = pos_font_np_y + 4
    pos_font_keys_aff_1_x = field_keys_x + 8 + rwtools
    pos_font_keys_aff_1_y = field_keys_y + 26
    pos_font_keys_aff_2_x = copy.deepcopy(pos_font_keys_aff_1_x)
    pos_font_keys_aff_2_y = copy.deepcopy(pos_font_keys_aff_1_y)
    pos_font_keys_nav_x = field_keys_x + 8 + rwtools
    pos_font_keys_nav_y = field_keys_y + 5
    pos_font_keys_neg_x = rw - 52 - len_neg - rwui
    np_print('len_neg', len_neg)
    np_print('pos_font_keys_neg_x', pos_font_keys_neg_x)
    pos_font_keys_neg_y = field_keys_y + 5
    if expand:
        pos_font_keys_aff_2_x = field_keys_x + 8 + rwtools
        pos_font_keys_aff_2_y = field_keys_y + 5
        pos_font_keys_nav_x = field_keys_x + 8 + rwtools
        pos_font_keys_nav_y = field_keys_y - 16
        pos_font_keys_neg_x = rw - 52 - len_neg - rwui
        pos_font_keys_neg_y = field_keys_y - 16 - rwui

    col_font_np = addon_settings_graph()['col_font_np']
    col_font_instruct_main = addon_settings_graph()['col_font_instruct_main']
    col_font_instruct_shadow = addon_settings_graph()['col_font_instruct_shadow']
    col_font_keys = addon_settings_graph()['col_font_keys']
    col_field_keys_aff = addon_settings_graph()['col_field_keys_aff']
    col_field_keys_neg = addon_settings_graph()['col_field_keys_neg']



    # instructions - NP:

    bgl.glColor4f(*col_font_np)
    blf.size(font_id, size_font_np, 72)
    blf.position(font_id, pos_font_np_x, pos_font_np_y, 0)
    blf.draw(font_id, 'NP')

    blf.enable(font_id, ROTATION)
    ang = radians(90)
    blf.size(font_id, int(size_font_np / 2.2), 72)
    blf.rotation(font_id, ang)
    blf.position(font_id, pos_font_np_x + int(size_font_np * 1.72) , pos_font_np_y - 2, 0)
    blf.draw(font_id, version)
    blf.disable(font_id, ROTATION)

    # instructions - instruct:

    bgl.glColor4f(*col_font_instruct_shadow)
    blf.position(font_id, pos_font_instruct_x + 1, pos_font_instruct_y - 1, 0)
    blf.size(font_id, size_font_instruct, 72)
    blf.draw(font_id, instruct)

    bgl.glColor4f(*col_font_instruct_main)
    blf.position(font_id, pos_font_instruct_x, pos_font_instruct_y, 0)
    blf.size(font_id, size_font_instruct, 72)
    blf.draw(font_id, instruct)

    bgl.glDisable(bgl.GL_BLEND)

    # instructions - keys - backdrop fields:

    bgl.glEnable(bgl.GL_BLEND)

    if crop == False:

        bgl.glColor4f(*col_field_keys_aff)
        bgl.glBegin(bgl.GL_TRIANGLE_FAN)
        for co in field_keys_aff_1:
            bgl.glVertex2f(*co)
        bgl.glEnd()

        bgl.glColor4f(*col_field_keys_aff)
        bgl.glBegin(bgl.GL_TRIANGLE_FAN)
        for co in field_keys_aff_2:
            bgl.glVertex2f(*co)
        bgl.glEnd()

        bgl.glColor4f(*col_field_keys_neg)
        bgl.glBegin(bgl.GL_TRIANGLE_FAN)
        for co in field_keys_neg:
            bgl.glVertex2f(*co)
        bgl.glEnd()


        # instructions - keys - writing:

        bgl.glColor4f(*col_font_keys)
        blf.size(font_id, size_font_keys, 72)

        blf.position(font_id, pos_font_keys_aff_1_x, pos_font_keys_aff_1_y, 0)
        blf.draw(font_id, keys_aff_1)

        blf.position(font_id, pos_font_keys_aff_2_x, pos_font_keys_aff_2_y, 0)
        blf.draw(font_id, keys_aff_2)

        blf.position(font_id, pos_font_keys_nav_x, pos_font_keys_nav_y, 0)
        blf.draw(font_id, keys_nav)

        blf.position(font_id, pos_font_keys_neg_x, pos_font_keys_neg_y, 0)
        blf.draw(font_id, keys_neg)
예제 #16
0
def draw_callback_px(self, context):
    """Draws Code Editors Minimap and indentation marks"""

    def draw_line(origin, length, thickness, vertical=False):
        """Drawing lines with polys, its faster"""
        x = (origin[0] + thickness) if vertical else (origin[0] + length)
        y = (origin[1] + length) if vertical else (origin[1] + thickness)
        bgl.glBegin(bgl.GL_QUADS)
        for v1, v2 in [origin, (x, origin[1]), (x, y), (origin[0], y)]:
            bgl.glVertex2i(v1, v2)
        bgl.glEnd()
        return

    # abort if another text editor
    if self.area == context.area and self.window == context.window:
        bgl.glEnable(bgl.GL_BLEND)
    else:
        return

    start = time.clock()

    # init params
    font_id = 0
    self.width = next(region.width for region in context.area.regions if region.type == "WINDOW")
    self.height = next(region.height for region in context.area.regions if region.type == "WINDOW")
    dpi_r = context.user_preferences.system.dpi / 72.0
    self.left_edge = self.width - round(dpi_r * (self.width + 5 * self.minimap_width) / 10.0)
    self.right_edge = self.width - round(dpi_r * 15)
    self.opacity = min(max(0, (self.width - self.min_width) / 100.0), 1)

    # compute character dimensions
    mcw = dpi_r * self.minimap_symbol_width  # minimap char width
    mlh = round(dpi_r * self.minimap_line_height)  # minimap line height
    fs = context.space_data.font_size
    cw = round(dpi_r * round(2 + 0.6 * (fs - 4)))  # char width
    ch = round(dpi_r * round(2 + 1.3 * (fs - 2) + ((fs % 10) == 0)))  # char height

    # panel background box
    self.tab_width = round(dpi_r * 25) if (self.tabs and len(bpy.data.texts) > 1) else 0
    bgl.glColor4f(self.background.r, self.background.g, self.background.b, (1 - self.bg_opacity) * self.opacity)
    bgl.glBegin(bgl.GL_QUADS)
    for x, y in [
        (self.left_edge - self.tab_width, self.height),
        (self.right_edge, self.height),
        (self.right_edge, 0),
        (self.left_edge - self.tab_width, 0),
    ]:
        bgl.glVertex2i(x, y)
    bgl.glEnd()

    # line numbers background
    space = context.space_data
    if space.text:
        lines = len(space.text.lines)
        lines_digits = len(str(lines)) if space.show_line_numbers else 0
        self.line_bar_width = int(dpi_r * 5) + cw * (lines_digits)
        bgl.glColor4f(self.background.r, self.background.g, self.background.b, 1)
        bgl.glBegin(bgl.GL_QUADS)
        for x, y in [(0, self.height), (self.line_bar_width, self.height), (self.line_bar_width, 0), (0, 0)]:
            bgl.glVertex2i(x, y)
        bgl.glEnd()
        # shadow
        bgl.glLineWidth(1.0 * dpi_r)
        for id, intensity in enumerate([0.2, 0.1, 0.07, 0.05, 0.03, 0.02, 0.01]):
            bgl.glColor4f(0.0, 0.0, 0.0, intensity)
            bgl.glBegin(bgl.GL_LINE_STRIP)
            for x, y in [(self.line_bar_width + id, 0), (self.line_bar_width + id, self.height)]:
                bgl.glVertex2i(x, y)
            bgl.glEnd()

    # minimap shadow
    for id, intensity in enumerate([0.2, 0.1, 0.07, 0.05, 0.03, 0.02, 0.01]):
        bgl.glColor4f(0.0, 0.0, 0.0, intensity * self.opacity)
        bgl.glBegin(bgl.GL_LINE_STRIP)
        for x, y in [(self.left_edge - id - self.tab_width, 0), (self.left_edge - id - self.tab_width, self.height)]:
            bgl.glVertex2i(x, y)
        bgl.glEnd()

    # divider
    if self.tab_width:
        bgl.glColor4f(0.0, 0.0, 0.0, 0.2 * self.opacity)
        bgl.glBegin(bgl.GL_LINE_STRIP)
        for x, y in [(self.left_edge, 0), (self.left_edge, self.height)]:
            bgl.glVertex2i(x, y)
        bgl.glEnd()

    # if there is text in window
    if space.text and self.opacity:

        # minimap horizontal sliding based on text block length
        max_slide = max(0, mlh * (lines + self.height / ch) - self.height)
        self.slide = int(max_slide * space.top / lines)
        minimap_top_line = int(self.slide / mlh)
        minimap_bot_line = int((self.height + self.slide) / mlh)

        # draw minimap visible box
        if self.in_minimap:
            bgl.glColor4f(1.0, 1.0, 1.0, 0.1 * self.opacity)
        else:
            bgl.glColor4f(1.0, 1.0, 1.0, 0.07 * self.opacity)
        bgl.glBegin(bgl.GL_QUADS)
        for x, y in [
            (self.left_edge, self.height - mlh * space.top + self.slide),
            (self.right_edge, self.height - mlh * space.top + self.slide),
            (self.right_edge, self.height - mlh * (space.top + space.visible_lines) + self.slide),
            (self.left_edge, self.height - mlh * (space.top + space.visible_lines) + self.slide),
        ]:
            bgl.glVertex2i(x, y)
        bgl.glEnd()

        # draw minimap code
        for segment in self.segments[:-1]:
            bgl.glColor4f(segment["col"][0], segment["col"][1], segment["col"][2], 0.4 * self.opacity)
            for id, element in enumerate(segment["elements"][minimap_top_line:minimap_bot_line]):
                loc_y = mlh * (id + minimap_top_line + 3) - self.slide
                for sub_element in element:
                    draw_line(
                        (self.left_edge + int(mcw * (sub_element[0] + 4)), self.height - loc_y),
                        int(mcw * (sub_element[1] - sub_element[0])),
                        int(0.5 * mlh),
                    )

        # minimap code marks
        bgl.glColor4f(
            self.segments[-2]["col"][0],
            self.segments[-2]["col"][1],
            self.segments[-2]["col"][2],
            0.3 * self.block_trans * self.opacity,
        )
        for id, element in enumerate(self.segments[-2]["elements"]):
            for sub_element in element:
                if sub_element[2] >= space.top or id < space.top + space.visible_lines:
                    draw_line(
                        (self.left_edge + int(mcw * (sub_element[0] + 4)), self.height - mlh * (id + 3) + self.slide),
                        -int(mlh * (sub_element[2] - id - 1)),
                        int(0.5 * mlh),
                        True,
                    )

    # draw dotted indentation marks
    bgl.glLineWidth(1.0 * dpi_r)
    if space.text:
        bgl.glColor4f(
            self.segments[0]["col"][0], self.segments[0]["col"][1], self.segments[0]["col"][2], self.indent_trans
        )
        for id, element in enumerate(self.segments[-1]["elements"][space.top : space.top + space.visible_lines]):
            loc_y = id
            for sub_element in element:
                draw_line(
                    (int(dpi_r * 10) + cw * (lines_digits + sub_element[0] + 4), self.height - ch * (loc_y)),
                    -ch,
                    int(1 * dpi_r),
                    True,
                )

        # draw code block marks
        bgl.glColor4f(
            self.segments[-2]["col"][0], self.segments[-2]["col"][1], self.segments[-2]["col"][2], self.block_trans
        )
        for id, element in enumerate(self.segments[-2]["elements"]):
            for sub_element in element:
                if sub_element[2] >= space.top or id < space.top + space.visible_lines:
                    bgl.glBegin(bgl.GL_LINE_STRIP)
                    bgl.glVertex2i(
                        int(dpi_r * 10 + cw * (lines_digits + sub_element[0])), self.height - ch * (id + 1 - space.top)
                    )
                    bgl.glVertex2i(
                        int(dpi_r * 10 + cw * (lines_digits + sub_element[0])),
                        self.height - int(ch * (sub_element[2] - space.top)),
                    )
                    bgl.glVertex2i(
                        int(dpi_r * 10 + cw * (lines_digits + sub_element[0] + 1)),
                        self.height - int(ch * (sub_element[2] - space.top)),
                    )
                    bgl.glEnd()

    # tab dividers
    if self.tab_width and self.opacity:
        self.tab_height = min(200, int(self.height / len(bpy.data.texts)))
        y_loc = self.height - 5
        for text in bpy.data.texts:
            # tab selection
            if text.name == self.in_tab:
                bgl.glColor4f(1.0, 1.0, 1.0, 0.05 * self.opacity)
                bgl.glBegin(bgl.GL_QUADS)
                for x, y in [
                    (self.left_edge - self.tab_width, y_loc),
                    (self.left_edge, y_loc),
                    (self.left_edge, y_loc - self.tab_height),
                    (self.left_edge - self.tab_width, y_loc - self.tab_height),
                ]:
                    bgl.glVertex2i(x, y)
                bgl.glEnd()
            # tab active
            if context.space_data.text and text.name == context.space_data.text.name:
                bgl.glColor4f(1.0, 1.0, 1.0, 0.05 * self.opacity)
                bgl.glBegin(bgl.GL_QUADS)
                for x, y in [
                    (self.left_edge - self.tab_width, y_loc),
                    (self.left_edge, y_loc),
                    (self.left_edge, y_loc - self.tab_height),
                    (self.left_edge - self.tab_width, y_loc - self.tab_height),
                ]:
                    bgl.glVertex2i(x, y)
                bgl.glEnd()
            bgl.glColor4f(0.0, 0.0, 0.0, 0.2 * self.opacity)
            y_loc -= self.tab_height
            bgl.glBegin(bgl.GL_LINE_STRIP)
            for x, y in [(self.left_edge - self.tab_width, y_loc), (self.left_edge, y_loc)]:
                bgl.glVertex2i(x, y)
            bgl.glEnd()

    # draw fps
    #    bgl.glColor4f(1, 1, 1, 0.2)
    #    blf.size(font_id, fs, int(dpi_r*72))
    #    blf.position(font_id, self.left_edge-50, 5, 0)
    #    blf.draw(font_id, str(round(1/(time.clock() - start),3)))

    # draw line numbers
    if space.text:
        bgl.glColor4f(self.segments[0]["col"][0], self.segments[0]["col"][1], self.segments[0]["col"][2], 0.5)
        for id in range(space.top, min(space.top + space.visible_lines + 1, lines + 1)):
            if self.in_line_bar and self.segments[-2]["elements"][id - 1]:
                bgl.glColor4f(self.segments[-2]["col"][0], self.segments[-2]["col"][1], self.segments[-2]["col"][2], 1)
                blf.position(
                    font_id, 2 + int(0.5 * cw * (len(str(lines)) - 1)), self.height - ch * (id - space.top) + 3, 0
                )
                # blf.draw(font_id, '→')
                blf.draw(font_id, "↓")
                bgl.glColor4f(self.segments[0]["col"][0], self.segments[0]["col"][1], self.segments[0]["col"][2], 0.5)
            else:
                blf.position(
                    font_id,
                    2 + int(0.5 * cw * (len(str(lines)) - len(str(id)))),
                    self.height - ch * (id - space.top) + 3,
                    0,
                )
                blf.draw(font_id, str(id))

    # draw file names
    if self.tab_width:
        blf.enable(font_id, blf.ROTATION)
        blf.rotation(font_id, 1.570796)
        y_loc = self.height
        for text in bpy.data.texts:
            text_max_length = max(2, int((self.tab_height - 40) / cw))
            name = text.name[:text_max_length]
            if text_max_length < len(text.name):
                name += "..."
            bgl.glColor4f(
                self.segments[0]["col"][0],
                self.segments[0]["col"][1],
                self.segments[0]["col"][2],
                (0.7 if text.name == self.in_tab else 0.4) * self.opacity,
            )
            blf.position(
                font_id,
                self.left_edge - round((self.tab_width - ch) / 2.0) - 5,
                round(y_loc - (self.tab_height / 2) - cw * len(name) / 2),
                0,
            )
            blf.draw(font_id, name)
            y_loc -= self.tab_height

    # restore opengl defaults
    bgl.glColor4f(0, 0, 0, 1)
    bgl.glLineWidth(1.0)
    bgl.glDisable(bgl.GL_BLEND)
    blf.disable(font_id, blf.ROTATION)
    return
예제 #17
0
 def rotation(angle, fontid=None):
     return blf.rotation(FontManager.load(fontid), angle)
예제 #18
0
	def draw(self):
		if self.visible == False: return
		module.post_draw_step += 1
		
		cam = self.scene.active_camera
		orth = cam.ortho_scale
		
		height = render.getWindowHeight()
		width = render.getWindowWidth()
		near = cam.near
		far = cam.far
		h = cam.worldPosition.z
		font_id = Label._fontname_id[self._font]
		unit = width/orth
		self._glunit = unit
		rpos = self._position - cam.worldPosition
		
		bgl.glMatrixMode(bgl.GL_PROJECTION)
		bgl.glLoadIdentity()
		bgl.gluOrtho2D(0, width, 0, height)
		bgl.glMatrixMode(bgl.GL_MODELVIEW)
		bgl.glLoadIdentity()
		
		bgl.glEnable(bgl.GL_BLEND)
		bgl.glBlendFunc(bgl.GL_SRC_ALPHA, bgl.GL_ONE_MINUS_SRC_ALPHA)
		bgl.glAlphaFunc(bgl.GL_SRC_ALPHA, 1)
		
		#Z AXIS
		oh = (far-near)/2
		ortho_unit = 1/oh
		dh = oh

		pos = list([width/2+rpos[0]*unit, height/2+rpos[1]*unit, dh*ortho_unit + rpos[2]*ortho_unit])
		if self._lastscale != self.scale or True:
			blf.size(font_id, int(self.scale.x*unit), 72)
		else:
			if self._lastorth != orth:
				sc = (float(self._lastorth) / float(orth)) * self.scale.x
				bgl.glScalef(sc,sc,1)
				print(str(self._lastorth) + " " + str(orth))
				pos[0] /= sc
				pos[1] /= sc
				
			else:
				self._lastorth = orth
		
		x, y = blf.dimensions(font_id, self._text) #NOTE: Always after blf.size()
		
		if self.align == ALIGN_CENTER:
			pos[0] -= (x)/2 * math.cos(self._rotation.z)
			pos[1] -= x/2 * math.sin(self._rotation.z)
		if self.align == ALIGN_RIGHT:
			pos[0] -= x * math.cos(self._rotation.z)
			pos[1] -= x * math.sin(self._rotation.z)
			
		if self.middle_height == True:
			pos[0] -= y/4 * math.sin(self._rotation.z)
			pos[1] -= y/4 * math.cos(self._rotation.z)
		
		blf.position(font_id, pos[0], pos[1], pos[2])
		blf.enable(font_id, blf.ROTATION)
		if self.rotation.z > 0.01 or self.rotation.z < -0.01:
			blf.rotation(font_id, self._rotation.z)
		else:
			blf.rotation(font_id, 0)
		
		if self.shadow == True:
			blf.position(font_id, pos[0]+self.shadow_offset[0], pos[1]+self.shadow_offset[1], pos[2])
			bgl.glColor4f(*self.shadow_color)
			blf.blur(font_id, self.shadow_blur)
			blf.draw(font_id, self._text)
			blf.position(font_id, pos[0], pos[1], pos[2])
			
		bgl.glColor4f(*self._color)
		blf.blur(font_id, self.blur)
		blf.draw(font_id, self._text)
		
		blf.disable(font_id, blf.ROTATION)
		
		self._lastscale = self.scale
예제 #19
0
    def draw(self):
        if self.visible == False: return
        module.post_draw_step += 1

        cam = self.scene.active_camera
        orth = cam.ortho_scale

        height = render.getWindowHeight()
        width = render.getWindowWidth()
        near = cam.near
        far = cam.far
        h = cam.worldPosition.z
        font_id = Label._fontname_id[self._font]
        unit = width / orth
        self._glunit = unit
        rpos = self._position - cam.worldPosition

        bgl.glMatrixMode(bgl.GL_PROJECTION)
        bgl.glLoadIdentity()
        bgl.gluOrtho2D(0, width, 0, height)
        bgl.glMatrixMode(bgl.GL_MODELVIEW)
        bgl.glLoadIdentity()

        bgl.glEnable(bgl.GL_BLEND)
        bgl.glBlendFunc(bgl.GL_SRC_ALPHA, bgl.GL_ONE_MINUS_SRC_ALPHA)
        bgl.glAlphaFunc(bgl.GL_SRC_ALPHA, 1)

        #Z AXIS
        oh = (far - near) / 2
        ortho_unit = 1 / oh
        dh = oh

        pos = list([
            width / 2 + rpos[0] * unit, height / 2 + rpos[1] * unit,
            dh * ortho_unit + rpos[2] * ortho_unit
        ])
        if self._lastscale != self.scale or True:
            blf.size(font_id, int(self.scale.x * unit), 72)
        else:
            if self._lastorth != orth:
                sc = (float(self._lastorth) / float(orth)) * self.scale.x
                bgl.glScalef(sc, sc, 1)
                print(str(self._lastorth) + " " + str(orth))
                pos[0] /= sc
                pos[1] /= sc

            else:
                self._lastorth = orth

        x, y = blf.dimensions(font_id,
                              self._text)  #NOTE: Always after blf.size()

        if self.align == ALIGN_CENTER:
            pos[0] -= (x) / 2 * math.cos(self._rotation.z)
            pos[1] -= x / 2 * math.sin(self._rotation.z)
        if self.align == ALIGN_RIGHT:
            pos[0] -= x * math.cos(self._rotation.z)
            pos[1] -= x * math.sin(self._rotation.z)

        if self.middle_height == True:
            pos[0] -= y / 4 * math.sin(self._rotation.z)
            pos[1] -= y / 4 * math.cos(self._rotation.z)

        blf.position(font_id, pos[0], pos[1], pos[2])
        blf.enable(font_id, blf.ROTATION)
        if self.rotation.z > 0.01 or self.rotation.z < -0.01:
            blf.rotation(font_id, self._rotation.z)
        else:
            blf.rotation(font_id, 0)

        if self.shadow == True:
            blf.position(font_id, pos[0] + self.shadow_offset[0],
                         pos[1] + self.shadow_offset[1], pos[2])
            bgl.glColor4f(*self.shadow_color)
            blf.blur(font_id, self.shadow_blur)
            blf.draw(font_id, self._text)
            blf.position(font_id, pos[0], pos[1], pos[2])

        bgl.glColor4f(*self._color)
        blf.blur(font_id, self.blur)
        blf.draw(font_id, self._text)

        blf.disable(font_id, blf.ROTATION)

        self._lastscale = self.scale
예제 #20
0
def display_instructions(region, rv3d, instruct, keys_aff, keys_nav, keys_neg):

    rw = region.width
    rh = region.height
    print('rw, rh', rw, rh)

    expand = False
    crop = False

    len_aff_max = rw - 140
    len_aff = len(keys_aff) * 5
    len_neg = len(keys_neg) * 5
    len_ins = len(instruct) * 18
    if len_aff > len_aff_max: expand = True

    rw_min = 480
    rh_min = 280
    if rw < rw_min or rh < rh_min: crop = True

    version = '020'
    font_id = 0

    keys_aff_1 = copy.deepcopy(keys_aff)
    keys_aff_2 = ' '
    if expand:
        keys_aff_1 = ''
        keys_aff_2 = ''
        print('len(keys_aff)', len(keys_aff))
        stop = 0
        for i in range(0, len(keys_aff) - 1):
            #print(keys_aff[i])
            if keys_aff[i] == ',' and i * 5 <= len_aff_max and i > stop:
                stop = i
        print('stop', stop)
        for i in range(0, stop + 1):
            keys_aff_1 = keys_aff_1 + keys_aff[i]
        for i in range(stop + 2, len(keys_aff)):
            keys_aff_2 = keys_aff_2 + keys_aff[i]
        print(keys_aff_1)
        print(keys_aff_2)

    field_keys_y = 46
    field_keys_x = 80
    field_keys_aff_1 = [[field_keys_x, field_keys_y + 21],
                        [field_keys_x, field_keys_y + 39],
                        [rw - int(field_keys_x / 2), field_keys_y + 39],
                        [rw - int(field_keys_x / 2), field_keys_y + 21]]
    field_keys_aff_2 = copy.deepcopy(field_keys_aff_1)
    field_keys_neg = [[field_keys_x, field_keys_y],
                      [field_keys_x, field_keys_y + 18],
                      [rw - field_keys_x / 2, field_keys_y + 18],
                      [rw - field_keys_x / 2, field_keys_y]]
    if expand:
        field_keys_aff_2 = copy.deepcopy(field_keys_neg)
        field_keys_neg = [[field_keys_x, field_keys_y - 21],
                          [field_keys_x, field_keys_y - 3],
                          [rw - field_keys_x / 2, field_keys_y - 3],
                          [rw - field_keys_x / 2, field_keys_y - 21]]

    size_font_np = 25
    size_font_instruct = 21
    size_font_keys = 11
    len_np_ins = len_ins + int(size_font_np * 2.1)

    pos_font_np_x = (rw - (len_np_ins / 2)) / 2
    pos_font_np_y = 150
    if crop: pos_font_np_y = 75
    pos_font_instruct_x = pos_font_np_x + int(size_font_np * 2.1)
    pos_font_instruct_y = pos_font_np_y + 4
    pos_font_keys_aff_1_x = field_keys_x + 8
    pos_font_keys_aff_1_y = field_keys_y + 26
    pos_font_keys_aff_2_x = copy.deepcopy(pos_font_keys_aff_1_x)
    pos_font_keys_aff_2_y = copy.deepcopy(pos_font_keys_aff_1_y)
    pos_font_keys_nav_x = field_keys_x + 8
    pos_font_keys_nav_y = field_keys_y + 5
    pos_font_keys_neg_x = rw - 52 - len_neg
    print('len_neg', len_neg)
    print('pos_font_keys_neg_x', pos_font_keys_neg_x)
    pos_font_keys_neg_y = field_keys_y + 5
    if expand:
        pos_font_keys_aff_2_x = field_keys_x + 8
        pos_font_keys_aff_2_y = field_keys_y + 5
        pos_font_keys_nav_x = field_keys_x + 8
        pos_font_keys_nav_y = field_keys_y - 16
        pos_font_keys_neg_x = rw - 52 - len_neg
        pos_font_keys_neg_y = field_keys_y - 16

    col_font_np = addon_settings_graph()['col_font_np']
    col_font_instruct_main = addon_settings_graph()['col_font_instruct_main']
    col_font_instruct_shadow = addon_settings_graph(
    )['col_font_instruct_shadow']
    col_font_keys = addon_settings_graph()['col_font_keys']
    col_field_keys_aff = addon_settings_graph()['col_field_keys_aff']
    col_field_keys_neg = addon_settings_graph()['col_field_keys_neg']

    # instructions - NP:

    bgl.glColor4f(*col_font_np)
    blf.size(font_id, size_font_np, 72)
    blf.position(font_id, pos_font_np_x, pos_font_np_y, 0)
    blf.draw(font_id, 'NP')

    blf.enable(font_id, ROTATION)
    ang = radians(90)
    blf.size(font_id, int(size_font_np / 2.2), 72)
    blf.rotation(font_id, ang)
    blf.position(font_id, pos_font_np_x + int(size_font_np * 1.72),
                 pos_font_np_y - 2, 0)
    blf.draw(font_id, version)
    blf.disable(font_id, ROTATION)

    # instructions - instruct:

    bgl.glColor4f(*col_font_instruct_shadow)
    blf.position(font_id, pos_font_instruct_x + 1, pos_font_instruct_y - 1, 0)
    blf.size(font_id, size_font_instruct, 72)
    blf.draw(font_id, instruct)

    bgl.glColor4f(*col_font_instruct_main)
    blf.position(font_id, pos_font_instruct_x, pos_font_instruct_y, 0)
    blf.size(font_id, size_font_instruct, 72)
    blf.draw(font_id, instruct)

    bgl.glDisable(bgl.GL_BLEND)

    # instructions - keys - backdrop fields:

    bgl.glEnable(bgl.GL_BLEND)

    if crop == False:

        bgl.glColor4f(*col_field_keys_aff)
        bgl.glBegin(bgl.GL_TRIANGLE_FAN)
        for co in field_keys_aff_1:
            bgl.glVertex2f(*co)
        bgl.glEnd()

        bgl.glColor4f(*col_field_keys_aff)
        bgl.glBegin(bgl.GL_TRIANGLE_FAN)
        for co in field_keys_aff_2:
            bgl.glVertex2f(*co)
        bgl.glEnd()

        bgl.glColor4f(*col_field_keys_neg)
        bgl.glBegin(bgl.GL_TRIANGLE_FAN)
        for co in field_keys_neg:
            bgl.glVertex2f(*co)
        bgl.glEnd()

        # instructions - keys - writing:

        bgl.glColor4f(*col_font_keys)
        blf.size(font_id, size_font_keys, 72)

        blf.position(font_id, pos_font_keys_aff_1_x, pos_font_keys_aff_1_y, 0)
        blf.draw(font_id, keys_aff_1)

        blf.position(font_id, pos_font_keys_aff_2_x, pos_font_keys_aff_2_y, 0)
        blf.draw(font_id, keys_aff_2)

        blf.position(font_id, pos_font_keys_nav_x, pos_font_keys_nav_y, 0)
        blf.draw(font_id, keys_nav)

        blf.position(font_id, pos_font_keys_neg_x, pos_font_keys_neg_y, 0)
        blf.draw(font_id, keys_neg)
예제 #21
0
    def draw_label(self,
                   context,
                   text,
                   pos,
                   dir,
                   gap=4,
                   center=True,
                   vcenter=False):
        """Draw text label

        Args:
          pos: bottom-center

        aligned and centered at segment middle
        """
        # 0 is the default font, but we're fancier than that
        font_id = self.font_id

        dpi = context.preferences.system.dpi

        color = context.scene.DocProperties.decorations_colour

        ang = -Vector((1, 0)).angle_signed(dir)
        cos = math.cos(ang)
        sin = math.sin(ang)

        # Horrific prototype code
        factor = self.camera_zoom_to_factor(
            context.space_data.region_3d.view_camera_zoom)
        camera_width_px = factor * context.region.width
        mm_to_px = camera_width_px / self.camera_width_mm
        # 0.004118616 is a magic constant number I visually discovered to get the right number.
        # In particular it works only for the OpenGOST font and produces a 2.5mm font size.
        # It probably should be dynamically calculated using system.dpi or something.
        # font_size = 16 <-- this is a good default
        font_size = int(0.004118616 * mm_to_px)

        blf.size(font_id, font_size, dpi)

        w, h = 0, 0
        if center or vcenter:
            w, h = blf.dimensions(font_id, text)

        if center:
            # horizontal centering
            pos -= Vector((cos, sin)) * w * 0.5

        if vcenter:
            # vertical centering
            pos -= Vector((-sin, cos)) * h * 0.5

        if gap:
            # side-shifting
            pos += Vector((-sin, cos)) * gap

        blf.enable(font_id, blf.ROTATION)
        blf.position(font_id, pos.x, pos.y, 0)

        blf.rotation(font_id, ang)
        blf.color(font_id, *color)
        # blf.enable(font_id, blf.SHADOW)
        # blf.shadow(font_id, 5, 0, 0, 0, 1)
        # blf.shadow_offset(font_id, 1, -1)
        blf.draw(font_id, text)
        blf.disable(font_id, blf.ROTATION)
def display_instructions(region, rv3d, instruct, keys_aff, keys_nav, keys_neg):

    userpref = bpy.context.user_preferences
    system = userpref.system
    rwtools = 0
    rwui = 0

    np_print(system.window_draw_method, system.use_region_overlap)

    if system.use_region_overlap:
        if system.window_draw_method in ('TRIPLE_BUFFER', 'AUTOMATIC'):

            area = bpy.context.area
            np_print('GO', area.regions)
            for r in area.regions:
                if r.type == 'TOOLS':
                    rwtools = r.width
                elif r.type == 'UI':
                    rwui = r.width

    np_print('rwtools', rwtools, 'rwui', rwui)
    field_keys_y = 46
    field_keys_x = 80
    rw = region.width
    rh = region.height
    np_print('rw, rh', rw, rh)

    expand = False
    crop = False

    len_aff_max = rw - 140 - rwtools - rwui
    len_aff = len(keys_aff) * 5
    len_neg = len(keys_neg) * 5
    len_ins = len(instruct) * 18
    if len_aff > len_aff_max: expand = True

    rw_min = 480
    rh_min = 280
    if rw - rwtools - rwui < rw_min or rh < rh_min: crop = True

    version = '020'
    font_id = 0

    keys_aff_1 = copy.deepcopy(keys_aff)
    keys_aff_2 = ' '
    if expand:
        keys_aff_1 = ''
        keys_aff_2 = ''
        np_print('len(keys_aff)', len(keys_aff))
        stop = 0
        for i in range(0, len(keys_aff) - 1):
            #np_print(keys_aff[i])
            if keys_aff[i] == ',' and i * 5 <= len_aff_max and i > stop:
                stop = i
        np_print('stop', stop)
        for i in range(0, stop + 1):
            keys_aff_1 = keys_aff_1 + keys_aff[i]
        for i in range(stop + 2, len(keys_aff)):
            keys_aff_2 = keys_aff_2 + keys_aff[i]
        np_print(keys_aff_1)
        np_print(keys_aff_2)

    field_keys_aff_1 = [[field_keys_x + rwtools, field_keys_y + 21],
                        [field_keys_x + rwtools, field_keys_y + 39],
                        [rw - int(field_keys_x / 2) - rwui, field_keys_y + 39],
                        [rw - int(field_keys_x / 2) - rwui, field_keys_y + 21]]
    field_keys_aff_2 = copy.deepcopy(field_keys_aff_1)
    field_keys_neg = [[field_keys_x + rwtools, field_keys_y],
                      [field_keys_x + rwtools, field_keys_y + 18],
                      [rw - int(field_keys_x / 2) - rwui, field_keys_y + 18],
                      [rw - int(field_keys_x / 2) - rwui, field_keys_y]]
    if expand:
        field_keys_aff_2 = copy.deepcopy(field_keys_neg)
        field_keys_neg = [
            [field_keys_x + rwtools, field_keys_y - 21],
            [field_keys_x + rwtools, field_keys_y - 3],
            [rw - int(field_keys_x / 2) - rwui, field_keys_y - 3],
            [rw - int(field_keys_x / 2) - rwui, field_keys_y - 21]
        ]

    size_font_np = 25
    size_font_instruct = 21
    size_font_keys = 11
    len_np_ins = len_ins + int(size_font_np * 2.1)

    pos_font_np_x = (rw - len_np_ins / 2) / 2 + rwtools / 2 - rwui / 2
    pos_font_np_y = 150
    if crop: pos_font_np_y = 75
    pos_font_instruct_x = pos_font_np_x + int(size_font_np * 2.1)
    pos_font_instruct_y = pos_font_np_y + 4
    pos_font_keys_aff_1_x = field_keys_x + 8 + rwtools
    pos_font_keys_aff_1_y = field_keys_y + 26
    pos_font_keys_aff_2_x = copy.deepcopy(pos_font_keys_aff_1_x)
    pos_font_keys_aff_2_y = copy.deepcopy(pos_font_keys_aff_1_y)
    pos_font_keys_nav_x = field_keys_x + 8 + rwtools
    pos_font_keys_nav_y = field_keys_y + 5
    pos_font_keys_neg_x = rw - 52 - len_neg - rwui
    np_print('len_neg', len_neg)
    np_print('pos_font_keys_neg_x', pos_font_keys_neg_x)
    pos_font_keys_neg_y = field_keys_y + 5
    if expand:
        pos_font_keys_aff_2_x = field_keys_x + 8 + rwtools
        pos_font_keys_aff_2_y = field_keys_y + 5
        pos_font_keys_nav_x = field_keys_x + 8 + rwtools
        pos_font_keys_nav_y = field_keys_y - 16
        pos_font_keys_neg_x = rw - 52 - len_neg - rwui
        pos_font_keys_neg_y = field_keys_y - 16 - rwui

    col_font_np = addon_settings_graph('col_font_np')
    col_font_instruct_main = addon_settings_graph('col_font_instruct_main')
    col_font_instruct_shadow = addon_settings_graph('col_font_instruct_shadow')
    col_font_keys = addon_settings_graph('col_font_keys')
    col_field_keys_aff = addon_settings_graph('col_field_keys_aff')
    col_field_keys_neg = addon_settings_graph('col_field_keys_neg')

    # instructions - NP:

    bgl.glColor4f(*col_font_np)
    blf.size(font_id, size_font_np, 72)
    blf.position(font_id, pos_font_np_x, pos_font_np_y, 0)
    blf.draw(font_id, 'NP')

    blf.enable(font_id, ROTATION)
    ang = radians(90)
    blf.size(font_id, int(size_font_np / 2.2), 72)
    blf.rotation(font_id, ang)
    blf.position(font_id, pos_font_np_x + int(size_font_np * 1.72),
                 pos_font_np_y - 2, 0)
    blf.draw(font_id, version)
    blf.disable(font_id, ROTATION)

    # instructions - instruct:

    bgl.glColor4f(*col_font_instruct_shadow)
    blf.position(font_id, pos_font_instruct_x + 1, pos_font_instruct_y - 1, 0)
    blf.size(font_id, size_font_instruct, 72)
    blf.draw(font_id, instruct)

    bgl.glColor4f(*col_font_instruct_main)
    blf.position(font_id, pos_font_instruct_x, pos_font_instruct_y, 0)
    blf.size(font_id, size_font_instruct, 72)
    blf.draw(font_id, instruct)

    bgl.glDisable(bgl.GL_BLEND)

    # instructions - keys - backdrop fields:

    bgl.glEnable(bgl.GL_BLEND)

    if crop == False:

        bgl.glColor4f(*col_field_keys_aff)
        bgl.glBegin(bgl.GL_TRIANGLE_FAN)
        for co in field_keys_aff_1:
            bgl.glVertex2f(*co)
        bgl.glEnd()

        bgl.glColor4f(*col_field_keys_aff)
        bgl.glBegin(bgl.GL_TRIANGLE_FAN)
        for co in field_keys_aff_2:
            bgl.glVertex2f(*co)
        bgl.glEnd()

        bgl.glColor4f(*col_field_keys_neg)
        bgl.glBegin(bgl.GL_TRIANGLE_FAN)
        for co in field_keys_neg:
            bgl.glVertex2f(*co)
        bgl.glEnd()

        # instructions - keys - writing:

        bgl.glColor4f(*col_font_keys)
        blf.size(font_id, size_font_keys, 72)

        blf.position(font_id, pos_font_keys_aff_1_x, pos_font_keys_aff_1_y, 0)
        blf.draw(font_id, keys_aff_1)

        blf.position(font_id, pos_font_keys_aff_2_x, pos_font_keys_aff_2_y, 0)
        blf.draw(font_id, keys_aff_2)

        blf.position(font_id, pos_font_keys_nav_x, pos_font_keys_nav_y, 0)
        blf.draw(font_id, keys_nav)

        blf.position(font_id, pos_font_keys_neg_x, pos_font_keys_neg_y, 0)
        blf.draw(font_id, keys_neg)
예제 #23
0
def draw_callback_px(self, context):
    """Draws Code Editors Minimap and indentation marks"""
    
    def draw_line(origin, length, thickness, vertical = False):
        """Drawing lines with polys, its faster"""
        x = (origin[0] + thickness) if vertical else (origin[0] + length)
        y = (origin[1] + length) if vertical else (origin[1] + thickness)
        bgl.glBegin(bgl.GL_QUADS)
        for v1, v2 in [origin, (x, origin[1]), (x, y), (origin[0], y)]:
            bgl.glVertex2i(v1, v2)
        bgl.glEnd()
        return
    
    # abort if another text editor
    if self.area == context.area and self.window == context.window:
        bgl.glEnable(bgl.GL_BLEND)
    else:
        return
    
    start = time.clock()
    
    # init params
    font_id = 0
    self.width = next(region.width for region in context.area.regions if region.type=='WINDOW')
    self.height = next(region.height for region in context.area.regions if region.type=='WINDOW')
    dpi_r = context.user_preferences.system.dpi / 72.0
    self.left_edge = self.width - round(dpi_r*(self.width+5*self.minimap_width)/10.0)
    self.right_edge = self.width - round(dpi_r*15)
    self.opacity = min(max(0,(self.width-self.min_width) / 100.0),1)
    
    # compute character dimensions
    mcw = dpi_r * self.minimap_symbol_width         # minimap char width
    mlh = round(dpi_r * self.minimap_line_height)   # minimap line height
    fs = context.space_data.font_size
    cw = round(dpi_r * round(2 + 0.6 * (fs - 4)))                    # char width
    ch = round(dpi_r * round(2 + 1.3 * (fs - 2) + ((fs % 10) == 0))) # char height
    
    # panel background box
    self.tab_width = round(dpi_r * 25) if (self.tabs and len(bpy.data.texts) > 1) else 0
    bgl.glColor4f(self.background.r, self.background.g, self.background.b, (1-self.bg_opacity)*self.opacity)
    bgl.glBegin(bgl.GL_QUADS)
    for x, y in [(self.left_edge-self.tab_width, self.height),
                 (self.right_edge, self.height),
                 (self.right_edge, 0),
                 (self.left_edge-self.tab_width, 0)]:
        bgl.glVertex2i(x, y)
    bgl.glEnd()
    
    # line numbers background
    space = context.space_data
    if space.text:
        lines = len(space.text.lines)
        lines_digits = len(str(lines)) if space.show_line_numbers else 0
        self.line_bar_width = int(dpi_r*5)+cw*(lines_digits)
        bgl.glColor4f(self.background.r, self.background.g, self.background.b, 1)
        bgl.glBegin(bgl.GL_QUADS)
        for x, y in [(0, self.height), (self.line_bar_width, self.height), (self.line_bar_width, 0), (0, 0)]:
            bgl.glVertex2i(x, y)
        bgl.glEnd()
        # shadow
        bgl.glLineWidth(1.0 * dpi_r)
        for id, intensity in enumerate([0.2,0.1,0.07,0.05,0.03,0.02,0.01]):
            bgl.glColor4f(0.0, 0.0, 0.0, intensity)
            bgl.glBegin(bgl.GL_LINE_STRIP)
            for x, y in [(self.line_bar_width+id, 0),
                         (self.line_bar_width+id, self.height)]:
                bgl.glVertex2i(x, y)
            bgl.glEnd()
    
    # minimap shadow
    for id, intensity in enumerate([0.2,0.1,0.07,0.05,0.03,0.02,0.01]):
        bgl.glColor4f(0.0, 0.0, 0.0, intensity*self.opacity)
        bgl.glBegin(bgl.GL_LINE_STRIP)
        for x, y in [(self.left_edge-id-self.tab_width, 0),
                     (self.left_edge-id-self.tab_width, self.height)]:
            bgl.glVertex2i(x, y)
        bgl.glEnd()
        
    # divider
    if self.tab_width:
        bgl.glColor4f(0.0, 0.0, 0.0, 0.2*self.opacity)
        bgl.glBegin(bgl.GL_LINE_STRIP)
        for x, y in [(self.left_edge, 0),
                     (self.left_edge, self.height)]:
            bgl.glVertex2i(x, y)
        bgl.glEnd()
    
    # if there is text in window
    if space.text and self.opacity:
        
        # minimap horizontal sliding based on text block length
        max_slide = max(0, mlh*(lines+self.height/ch) - self.height)
        self.slide = int(max_slide * space.top / lines)
        minimap_top_line = int(self.slide/mlh)
        minimap_bot_line = int((self.height+self.slide)/mlh)
        
        # draw minimap visible box
        if self.in_minimap:
            bgl.glColor4f(1.0, 1.0, 1.0, 0.1*self.opacity)
        else:
            bgl.glColor4f(1.0, 1.0, 1.0, 0.07*self.opacity)
        bgl.glBegin(bgl.GL_QUADS)
        for x, y in [(self.left_edge, self.height-mlh*space.top + self.slide),
                     (self.right_edge, self.height-mlh*space.top + self.slide),
                     (self.right_edge, self.height-mlh*(space.top+space.visible_lines) + self.slide),
                     (self.left_edge, self.height-mlh*(space.top+space.visible_lines) + self.slide)]:
            bgl.glVertex2i(x, y)
        bgl.glEnd()
        
        # draw minimap code
        for segment in self.segments[:-1]:
            bgl.glColor4f(segment['col'][0], segment['col'][1], segment['col'][2], 0.4*self.opacity)
            for id, element in enumerate(segment['elements'][minimap_top_line:minimap_bot_line]):
                loc_y = mlh*(id+minimap_top_line+3) - self.slide
                for sub_element in element:
                    draw_line((self.left_edge+int(mcw*(sub_element[0]+4)), self.height-loc_y),
                               int(mcw*(sub_element[1]-sub_element[0])),
                               int(0.5 * mlh))
        
        # minimap code marks
        bgl.glColor4f(self.segments[-2]['col'][0],
                      self.segments[-2]['col'][1],
                      self.segments[-2]['col'][2],
                      0.3*self.block_trans*self.opacity)
        for id, element in enumerate(self.segments[-2]['elements']):
            for sub_element in element:
                if sub_element[2] >= space.top or id < space.top+space.visible_lines:
                    draw_line((self.left_edge+int(mcw*(sub_element[0]+4)), self.height-mlh*(id+3)+self.slide),
                               -int(mlh*(sub_element[2]-id-1)),
                               int(0.5 * mlh),
                               True)
    
    # draw dotted indentation marks
    bgl.glLineWidth(1.0 * dpi_r)
    if space.text:
        bgl.glColor4f(self.segments[0]['col'][0],
                      self.segments[0]['col'][1],
                      self.segments[0]['col'][2],
                      self.indent_trans)
        for id, element in enumerate(self.segments[-1]['elements'][space.top:space.top+space.visible_lines]):
            loc_y = id
            for sub_element in element:
                draw_line((int(dpi_r*10)+cw*(lines_digits+sub_element[0]+4), self.height-ch*(loc_y)),
                           -ch,
                           int(1 * dpi_r),
                           True)
        
        # draw code block marks
        bgl.glColor4f(self.segments[-2]['col'][0],
                      self.segments[-2]['col'][1],
                      self.segments[-2]['col'][2],
                      self.block_trans)
        for id, element in enumerate(self.segments[-2]['elements']):
            for sub_element in element:
                if sub_element[2] >= space.top or id < space.top+space.visible_lines:
                    bgl.glBegin(bgl.GL_LINE_STRIP)
                    bgl.glVertex2i(int(dpi_r*10+cw*(lines_digits+sub_element[0])),
                                   self.height-ch*(id+1-space.top))
                    bgl.glVertex2i(int(dpi_r*10+cw*(lines_digits+sub_element[0])),
                                   self.height-int(ch*(sub_element[2]-space.top)))
                    bgl.glVertex2i(int(dpi_r*10+cw*(lines_digits+sub_element[0]+1)),
                                   self.height-int(ch*(sub_element[2]-space.top)))
                    bgl.glEnd()
    
    # tab dividers
    if self.tab_width and self.opacity:
        self.tab_height = min(200, int(self.height/len(bpy.data.texts)))
        y_loc = self.height-5
        for text in bpy.data.texts:
            # tab selection
            if text.name == self.in_tab:
                bgl.glColor4f(1.0, 1.0, 1.0, 0.05*self.opacity)
                bgl.glBegin(bgl.GL_QUADS)
                for x, y in [(self.left_edge-self.tab_width, y_loc),
                             (self.left_edge, y_loc),
                             (self.left_edge, y_loc-self.tab_height),
                             (self.left_edge-self.tab_width, y_loc-self.tab_height)]:
                    bgl.glVertex2i(x, y)
                bgl.glEnd()
            # tab active
            if context.space_data.text and text.name == context.space_data.text.name:
                bgl.glColor4f(1.0, 1.0, 1.0, 0.05*self.opacity)
                bgl.glBegin(bgl.GL_QUADS)
                for x, y in [(self.left_edge-self.tab_width, y_loc),
                             (self.left_edge, y_loc),
                             (self.left_edge, y_loc-self.tab_height),
                             (self.left_edge-self.tab_width, y_loc-self.tab_height)]:
                    bgl.glVertex2i(x, y)
                bgl.glEnd()
            bgl.glColor4f(0.0, 0.0, 0.0, 0.2*self.opacity)
            y_loc -= self.tab_height
            bgl.glBegin(bgl.GL_LINE_STRIP)
            for x, y in [(self.left_edge-self.tab_width, y_loc),
                         (self.left_edge, y_loc)]:
                bgl.glVertex2i(x, y)
            bgl.glEnd()
    
    # draw fps
#    bgl.glColor4f(1, 1, 1, 0.2)
#    blf.size(font_id, fs, int(dpi_r*72))
#    blf.position(font_id, self.left_edge-50, 5, 0)
#    blf.draw(font_id, str(round(1/(time.clock() - start),3)))
    
    # draw line numbers
    if space.text:
        bgl.glColor4f(self.segments[0]['col'][0],
                      self.segments[0]['col'][1],
                      self.segments[0]['col'][2],
                      0.5)
        for id in range(space.top, min(space.top+space.visible_lines+1, lines+1)):
            if self.in_line_bar and self.segments[-2]['elements'][id-1]:
                bgl.glColor4f(self.segments[-2]['col'][0],
                              self.segments[-2]['col'][1],
                              self.segments[-2]['col'][2],
                              1)
                blf.position(font_id, 2+int(0.5*cw*(len(str(lines))-1)), self.height-ch*(id-space.top)+3, 0)
                #blf.draw(font_id, '→')
                blf.draw(font_id, '↓')
                bgl.glColor4f(self.segments[0]['col'][0],
                      self.segments[0]['col'][1],
                      self.segments[0]['col'][2],
                      0.5)
            else:
                blf.position(font_id, 2+int(0.5*cw*(len(str(lines))-len(str(id)))), self.height-ch*(id-space.top)+3, 0)
                blf.draw(font_id, str(id))
    
    # draw file names
    if self.tab_width:
        blf.enable(font_id, blf.ROTATION)
        blf.rotation(font_id, 1.570796)
        y_loc = self.height
        for text in bpy.data.texts:
            text_max_length = max(2,int((self.tab_height - 40)/cw))
            name = text.name[:text_max_length]
            if text_max_length < len(text.name):
                name += '...'
            bgl.glColor4f(self.segments[0]['col'][0],
                          self.segments[0]['col'][1],
                          self.segments[0]['col'][2],
                          (0.7 if text.name == self.in_tab else 0.4)*self.opacity)
            blf.position(font_id,
                         self.left_edge-round((self.tab_width-ch)/2.0)-5,
                         round(y_loc-(self.tab_height/2)-cw*len(name)/2),
                         0)
            blf.draw(font_id, name)
            y_loc -= self.tab_height
    
    # restore opengl defaults
    bgl.glColor4f(0, 0, 0, 1)
    bgl.glLineWidth(1.0)
    bgl.glDisable(bgl.GL_BLEND)
    blf.disable(font_id, blf.ROTATION)
    return