コード例 #1
0
    def pasteExpr(self):
        font = pFont()
        dstGlyphs = {glyph.name: glyph for glyph in font.pGlyphs()}

        print 'WARN:\t Pasting Metric expressions to Font:%s;' % font.name
        for glyphName, glyphMetrics in self.srcGlyphBounds.iteritems():
            if glyphName in dstGlyphs:
                wGlyph = dstGlyphs[glyphName]

                if self.cmb_mode.currentIndex == 1:
                    for layer in wGlyph.masters():
                        if glyphMetrics.has_key(layer.name):
                            wGlyph.setLSBeq(glyphMetrics[layer.name][0],
                                            layer.name)
                            wGlyph.setRSBeq(glyphMetrics[layer.name][1],
                                            layer.name)
                            wGlyph.setADVeq(glyphMetrics[layer.name][2],
                                            layer.name)
                            wGlyph.update()
                            print 'PASTE MM:\t Glyph: /%s;\tLayer: %s;\tExp(LSB, RSB, ADV): %s.' % (
                                glyphName, layer.name, glyphMetrics)
                        else:
                            print 'WARN:\t Glyph /%s - Layer %s not found!' % glyphName, layerName
                else:
                    wGlyph.setLSBeq(glyphMetrics[0])
                    wGlyph.setRSBeq(glyphMetrics[1])
                    wGlyph.setADVeq(glyphMetrics[2])
                    wGlyph.update()
                    print 'PASTE:\t Glyph: /%s;\tLayer: %s;\tExp(LSB, RSB, ADV): %s.' % (
                        glyphName, wGlyph.layer().name, glyphMetrics)
            else:
                print 'SKIP:\t Glyph /%s not found.' % glyphName

        fl6.Update(CurrentFont())
コード例 #2
0
    def process_lerp(self):
        if self.chk_setAxis.isChecked():
            try:
                tx = self.mixer_dx.sld_axis.value / float(
                    self.mixer_dx.edt_1.text)
            except ZeroDivisionError:
                tx = 0.

            dst_array = [
                self.lerpXY(item[0], item[1], tx, tx)
                for item in self.process_array
            ]

            self.aux.glyph._setCoordArray(dst_array)

            self.aux.glyph.update()
            fl6.Update(self.aux.glyph.fl)
コード例 #3
0
    def pasteAnchor(self):
        font = pFont()
        dst_glyphs = {glyph.name: glyph for glyph in font.pGlyphs()}

        print 'WARN:\t Pasting Glyph Anchors to Font:%s;' % font.name
        for glyph_name, layer_anchors in self.srcGlyphAnchors.iteritems():
            if glyph_name in dst_glyphs:
                w_glyph = dst_glyphs[glyph_name]

                if self.cmb_mode.currentIndex == 1:
                    # - All master layers
                    for layer in w_glyph.masters():
                        if layer_anchors.has_key(layer.name):
                            w_glyph.clearAnchors(layer.name)

                            for anchor_name, anchor_pos in layer_anchors[
                                    layer.name]:
                                w_glyph.addAnchor(anchor_pos, anchor_name,
                                                  layer.name)

                            print 'PASTE MM:\t Glyph: /%s;\tLayer: %s.' % (
                                glyph_name, layer.name)
                        else:
                            print 'WARN:\t Glyph /%s - Layer %s not found!' % (
                                glyph_name, layer.name)
                else:
                    # - Active Layer only
                    w_glyph.clearAnchors()

                    for anchor_name, anchor_pos in layer_anchors:
                        w_glyph.addAnchor(anchor_pos, anchor_name)

                    print 'PASTE:\t Glyph: /%s;\tLayer: %s.' % (
                        glyph_name, w_glyph.layer().name)

                if self.cmb_flag.currentText != 'None':
                    w_glyph.setMark(
                        QtGui.QColor(self.cmb_flag.currentText).hue())

            else:
                print 'SKIP:\t Glyph /%s not found.' % glyph_name

        fl6.Update(CurrentFont())
コード例 #4
0
	def execute_scale(self):
		if len(self.axis_points):
			# - Stems
			curr_sw_dx = float(self.mixer_dx.sld_axis.value)
			curr_sw_dy = float(self.mixer_dy.sld_axis.value)

			# - Scaling
			sx = float(self.scalerX.sld_axis.value)/100.
			sy = float(self.scalerY.sld_axis.value)/100.
			
			# - Options
			opt_extrapolate = self.head.btn_setExtrapolate.isChecked()
			opt_italic = radians(-float(self.italic_angle)) if self.head.btn_setItalic.isChecked() else 0.

			# - Process
			self.glyph._setPointArray(self.axis_points.scale_by_stem((curr_sw_dx, curr_sw_dy), (sx,sy), (0.,0.), (0.,0.), opt_italic, extrapolate=opt_extrapolate))
			
			self.glyph.update()
			#fl6.Update(fl6.CurrentGlyph())
			fl6.Update(self.glyph.fl)
コード例 #5
0
ファイル: G-Scaler.py プロジェクト: twardoch/TypeRig
            def scalerMM(glyph, sx, sy, t):
                if len(glyph.axis):
                    #mms = transform.adaptive_scale([glyph.axis[0].x, glyph.axis[0].y], [glyph.axis[1].x, glyph.axis[1].y], [sw_V[0], sw_H[0]], [sw_V[1], sw_H[1]], [sx, sy], [dx, dy], [t, t], scmp, angle)
                    if useFortran:  # Original Fortran 95 implementation
                        mms = lambda sx, sy, t: transform.adaptive_scale([
                            glyph.axis[0].x, glyph.axis[0].y
                        ], [glyph.axis[1].x, glyph.axis[1].y
                            ], [sw_V[0], sw_H[0]], [sw_V[1], sw_H[
                                1]], [sx, sy], [dx, dy], [t, t], scmp, angle)

                    else:  # NumPy implementation
                        mms = lambda sx, sy, t: transform.adaptive_scale(
                            [glyph.axis[0].x, glyph.axis[0].y
                             ], [glyph.axis[1].x, glyph.axis[1].y], sx, sy, dx,
                            dy, t, t, scmp[0], scmp[1], angle, sw_V0, sw_V1)

                    glyph._setCoordArray(mms(sx, sy, tx))

                    for contour in glyph.contours():
                        contour.changed()

                    fl6.Update(glyph.fg)
コード例 #6
0
ファイル: DeltaMachine.py プロジェクト: hwk1984/TypeRig
    def process_scale(self,
                      glyph,
                      layerIndex=None,
                      anisotropic=False,
                      live_update=False,
                      keep_metrics=False):
        wGlyph = glyph
        config_data = self.tab_masters.getRow(layerIndex)

        if len(self.data_PointArrays.keys()
               ) and wGlyph.name in self.data_PointArrays.keys():
            # - Backup Metrics
            if keep_metrics:
                data_lsb, data_rsb = wGlyph.getLSB(
                    config_data[0]), wGlyph.getRSB(config_data[0])
                data_lsb_eq, data_rsb_eq = wGlyph.getSBeq(config_data[0])

            # - Axis
            a = self.data_PointArrays[wGlyph.name][config_data[1]]
            b = self.data_PointArrays[wGlyph.name][config_data[2]]

            # - Compensation
            scmp = float(config_data[11]), float(config_data[12])

            # - Italic Angle
            if self.chk_italic.isChecked():
                angle = radians(float(self.italic_angle))
            else:
                angle = 0

            # - Stems
            sw_dx = [float(config_data[3]), float(config_data[4])]
            sw_dy = [float(config_data[5]), float(config_data[6])]

            if live_update:
                curr_sw_dx = float(self.mixer_dx.sld_axis.value)
                curr_sw_dy = float(self.mixer_dy.sld_axis.value)
            else:
                curr_sw_dx = float(config_data[7])
                curr_sw_dy = float(config_data[8])

            # - Stem values
            sw_dx0, sw_dx1 = sorted(sw_dx)
            sw_dy0, sw_dy1 = sorted(sw_dy)

            # - Interpolation times
            tx = transform.timer(curr_sw_dx, sw_dx0, sw_dx1,
                                 self.chk_boundry.isChecked())
            ty = transform.timer(curr_sw_dy, sw_dy0, sw_dy1,
                                 self.chk_boundry.isChecked())

            # - Scaling
            if live_update:
                sx = 100. / float(self.scaler_dx.edt_1.text) + float(
                    self.scaler_dx.sld_axis.value) / float(
                        self.scaler_dx.edt_1.text)
                sy = 100. / float(self.scaler_dy.edt_1.text) + float(
                    self.scaler_dy.sld_axis.value) / float(
                        self.scaler_dy.edt_1.text)
            else:
                sx = float(config_data[9]) / 100  # scale X
                sy = float(config_data[10]) / 100  # scale Y

            dx, dy = 0.0, 0.0  # shift X, Y

            # - Build
            # -- Numpy
            #mm_scaler = lambda sx, sy, tx, ty : transform.adaptive_scale_array([a.x, a.y], [b.x, b.y], sx, sy, dx, dy, tx, ty, scmp[0], scmp[1], angle, [sw_dx0, sw_dx1, sw_dy0, sw_dy1])

            # -- Native
            joined_array = zip(a.tuple, b.tuple)
            mm_scaler = lambda sx, sy, tx, ty: transform.adaptive_scale_array(
                joined_array, (sx, sy), (dx, dy), (tx, ty),
                (scmp[0], scmp[1]), angle, [sw_dx0, sw_dx1, sw_dy0, sw_dy1])

            if anisotropic:
                # - Dual axis mixer - anisotropic
                wGlyph._setPointArray(mm_scaler(sx, sy, tx, ty),
                                      layer=config_data[0])
            else:
                # - Single axis mixer
                wGlyph._setPointArray(mm_scaler(sx, sy, tx, tx),
                                      layer=config_data[0])

            if live_update:
                wGlyph.update()
                fl6.Update(wGlyph.fl)

            # - Restore metrics
            if keep_metrics:
                wGlyph.setLSB(data_lsb)
                wGlyph.setRSB(data_rsb)
                wGlyph.setLSBeq(data_lsb_eq)
                wGlyph.setRSBeq(data_rsb_eq)
コード例 #7
0
ファイル: Mixer.py プロジェクト: twardoch/TypeRig
    def process_scale(self,
                      anisotropic=False,
                      process=False,
                      true_update=False):
        if len(self.axis):
            # - Axis
            a = self.axis[0]
            b = self.axis[1]

            # - Compensation
            scmp = float(self.head.spb_compH.value), float(
                self.head.spb_compV.value)

            # - Italic Angle
            if self.head.chk_italic.isChecked():
                angle = radians(-float(self.italic_angle))
            else:
                angle = 0

            # - Stems
            sw_dx = (float(self.head.edt_stemV0.text),
                     float(self.head.edt_stemV1.text))
            sw_dy = (float(self.head.edt_stemH0.text),
                     float(self.head.edt_stemH1.text))

            curr_sw_dx = float(self.mixer_dx.sld_axis.value)
            curr_sw_dy = float(self.mixer_dy.sld_axis.value)

            sw_dx0, sw_dx1 = min(*sw_dx), max(*sw_dx)
            sw_dy0, sw_dy1 = min(*sw_dy), max(*sw_dy)

            # - Interpolation
            tx = ((curr_sw_dx - sw_dx0) /
                  (sw_dx1 - sw_dx0)) * (1, -1)[sw_dx[0] > sw_dx[1]] + (
                      0, 1)[sw_dx[0] > sw_dx[1]]
            ty = ((curr_sw_dy - sw_dy0) /
                  (sw_dy1 - sw_dy0)) * (1, -1)[sw_dy[0] > sw_dy[1]] + (
                      0, 1)[sw_dy[0] > sw_dy[1]]

            # - Scaling
            sx = 100. / float(self.scaler_dx.edt_1.text) + float(
                self.scaler_dx.sld_axis.value) / float(
                    self.scaler_dx.edt_1.text)
            sy = 100. / float(self.scaler_dy.edt_1.text) + float(
                self.scaler_dy.sld_axis.value) / float(
                    self.scaler_dy.edt_1.text)
            dx, dy = 0.0, 0.0

            # - Build
            if useFortran:  # Original Fortran 95 implementation
                mm_scaler = lambda sx, sy, tx, ty: transform.adaptive_scale(
                    [a.x, a.y], [b.x, b.y], [sw_dx[0], sw_dy[0]], [
                        sw_dx[1], sw_dy[1]
                    ], [sx, sy], [dx, dy], [tx, ty], scmp, angle)

            else:  # NumPy implementation
                mm_scaler = lambda sx, sy, tx, ty: transform.adaptive_scale(
                    [a.x, a.y], [b.x, b.y], sx, sy, dx, dy, tx, ty, scmp[
                        0], scmp[1], angle, sw_dx0, sw_dx1)

            if process:
                '''
				# - Keep width constant for weight change
				if self.btn_revWidth.isChecked(): 
					glyph_width = self.glyph.getBounds().width()
					scale_result = mm_scaler(sx, sy, tx, ty)

					max_width = scale_result.T[0].max() - scale_result.T[0].min()
					sx = float(glyph_width)/max_width #ratfrac(min(max_width, glyph_width), max(max_width, glyph_width), 1.)
				'''
                # - Process
                if anisotropic:
                    # - Single axis mixer
                    self.glyph._setCoordArray(mm_scaler(sx, sy, tx, ty))
                else:
                    # - Dual axis mixer - anisotropic
                    self.glyph._setCoordArray(mm_scaler(sx, sy, tx, tx))

                if not true_update:
                    self.glyph.update()
                    #fl6.Update(fl6.CurrentGlyph())
                    fl6.Update(self.glyph.fl)
                else:
                    self.glyph.update()
                    self.glyph.updateObject(
                        self.glyph.fl,
                        'Glyph: %s | Mixer | sx: %s; sy: %s; tx: %s; ty: %s.' %
                        (self.glyph.name, sx, sy, tx, ty))

            else:
                # - Just return output
                #return mm_scaler(sx, sy, tx, ty)
                scale_result = mm_scaler(sx, sy, tx, ty)
                self.tail.edt_width_t.setText(scale_result.T[0].max() -
                                              scale_result.T[0].min())
                self.tail.edt_height_t.setText(scale_result.T[1].max() -
                                               scale_result.T[1].min())
コード例 #8
0
    def process_scale(self,
                      glyph,
                      layerIndex=None,
                      anisotropic=False,
                      live_update=False,
                      keep_metrics=False):
        wGlyph = glyph
        config_data = self.tab_masters.getRow(layerIndex)

        if len(self.data_coordArrays.keys()
               ) and wGlyph.name in self.data_coordArrays.keys():
            # - Backup Metrics
            if keep_metrics:
                data_lsb, data_rsb = wGlyph.getLSB(
                    config_data[0]), wGlyph.getRSB(config_data[0])
                data_lsb_eq, data_rsb_eq = wGlyph.getSBeq(config_data[0])

            # - Axis
            a = self.data_coordArrays[wGlyph.name][config_data[1]]
            b = self.data_coordArrays[wGlyph.name][config_data[2]]

            # - Compensation
            scmp = float(config_data[11]), float(config_data[12])

            # - Italic Angle
            if self.chk_italic.isChecked():
                angle = radians(-float(self.italic_angle))
            else:
                angle = 0

            # - Stems
            sw_dx = (float(config_data[3]), float(config_data[4]))
            sw_dy = (float(config_data[5]), float(config_data[6]))

            if live_update:
                curr_sw_dx = float(self.mixer_dx.sld_axis.value)
                curr_sw_dy = float(self.mixer_dy.sld_axis.value)
            else:
                curr_sw_dx = float(config_data[7])
                curr_sw_dy = float(config_data[8])

            sw_dx0, sw_dx1 = min(*sw_dx), max(*sw_dx)
            sw_dy0, sw_dy1 = min(*sw_dy), max(*sw_dy)

            # !!! Very crude boundry error fix
            if self.chk_boundry.isChecked() and curr_sw_dx == sw_dx1:
                sw_dx1 += 1
            if self.chk_boundry.isChecked() and curr_sw_dy == sw_dy1:
                sw_dy1 += 1

            # - Interpolation
            try:
                tx = ((curr_sw_dx - sw_dx0) /
                      (sw_dx1 - sw_dx0)) * (1, -1)[sw_dx[0] > sw_dx[1]] + (
                          0, 1)[sw_dx[0] > sw_dx[1]]
            except ZeroDivisionError:
                tx = 0.

            try:
                ty = ((curr_sw_dy - sw_dy0) /
                      (sw_dy1 - sw_dy0)) * (1, -1)[sw_dy[0] > sw_dy[1]] + (
                          0, 1)[sw_dy[0] > sw_dy[1]]
            except ZeroDivisionError:
                ty = 0.

            # - Scaling
            if live_update:
                sx = 100. / float(self.scaler_dx.edt_1.text) + float(
                    self.scaler_dx.sld_axis.value) / float(
                        self.scaler_dx.edt_1.text)
                sy = 100. / float(self.scaler_dy.edt_1.text) + float(
                    self.scaler_dy.sld_axis.value) / float(
                        self.scaler_dy.edt_1.text)
            else:
                sx = float(config_data[9]) / 100  # scale X
                sy = float(config_data[10]) / 100  # scale Y

            dx, dy = 0.0, 0.0  # shift X, Y

            # - Build
            mm_scaler = lambda sx, sy, tx, ty: transform.adaptive_scaleXY(
                [a.x, a.y], [b.x, b.y], sx, sy, dx, dy, tx, ty, scmp[0], scmp[
                    1], angle, [sw_dx0, sw_dx1, sw_dy0, sw_dy1])

            if anisotropic:
                # - Dual axis mixer - anisotropic
                wGlyph._setCoordArray(mm_scaler(sx, sy, tx, ty),
                                      layer=config_data[0])
            else:
                # - Single axis mixer
                wGlyph._setCoordArray(mm_scaler(sx, sy, tx, tx),
                                      layer=config_data[0])

            if live_update:
                wGlyph.update()
                fl6.Update(wGlyph.fl)

            # - Restore metrics
            if keep_metrics:
                wGlyph.setLSB(data_lsb)
                wGlyph.setRSB(data_rsb)
                wGlyph.setLSBeq(data_lsb_eq)
                wGlyph.setRSBeq(data_rsb_eq)
コード例 #9
0
def updateFont(f=None):
    f = f if f else CurrentFont()
    f.update()
    #lf = fl6.flPackage(f)
    #fl6.flItems.notifyPackageContentUpdated(lf.id)
    fl6.Update(f)
コード例 #10
0
ファイル: F-SimpleTransform.py プロジェクト: twardoch/TypeRig
    def applyTransform(self):
        # - Init
        activeFont = pFont()
        inp_x, inp_y = float(self.edt_x.text), float(self.edt_y.text)

        def transformGlyph(glyph, layer, matrix):
            '''
			if glyph.hasLayer(layer):
				for shape in glyph.listUnboundShapes(layer):
					tShape = pShape(shape)
					
					if not tShape.isChanged():
						for node in tShape.nodes():
							tNode = matrix.applyTransformation(node.x, node.y)
							node.setXY(*tNode)

						tShape.fl.update()
				
				glyph.update()
				#glyph.updateObject(glyph.fl, 'DONE:\tTransform:\t Glyph /%s;\tLayer: %s' %(glyph.name, layer))
				print 'DONE:\tTransform:\t Glyph /%s;\tLayer: %s' %(glyph.name, layer)

			else:
				print 'ERROR:\tNot found:\t Glyph /%s;\tLayer: %s' %(glyph.name, layer)
			'''
            if glyph.hasLayer(layer):
                if not len(glyph.hasGlyphComponents()):
                    for node in glyph.nodes(layer):
                        tNode = matrix.applyTransformation(node.x, node.y)
                        node.setXY(*tNode)

                glyph.update()
                glyph.updateObject(
                    glyph.fl, 'DONE:\tTransform:\t Glyph /%s;\tLayer: %s' %
                    (glyph.name, layer))
            else:
                print 'ERROR:\tNot found:\t Glyph /%s;\tLayer: %s' % (
                    glyph.name, layer)

        # - Set parameters
        if self.cmb_glyphset.currentIndex == 0:
            workSet = activeFont.pGlyphs()
        elif self.cmb_glyphset.currentIndex == 1:
            workSet = activeFont.selected_pGlyphs()
        else:
            workSet = []

        if self.cmb_layer.currentIndex == 0:
            wLayer = None
        else:
            wLayer = activeFont.masters()

        # - Set Transformation

        if self.cmb_transform.currentIndex == 0:
            workTrans = transform().skew(inp_x, inp_y)
        elif self.cmb_transform.currentIndex == 2:
            workTrans = transform().rotate(inp_x)
        elif self.cmb_transform.currentIndex == 1:
            workTrans = transform().scale(inp_x, inp_y)

        for glyph in workSet:
            if wLayer is not None:
                for layer in wLayer:
                    transformGlyph(glyph, layer, workTrans)
            else:
                transformGlyph(glyph, None, workTrans)

        activeFont.update()
        fl6.Update(CurrentFont())