File Coverage

blib/lib/Device/Chip/SSD1306.pm

Criterion	Covered	Total	%
statement	112	147	76.1
branch	14	24	58.3
condition	3	5	60.0
subroutine	15	19	78.9
pod	13	13	100.0
total	157	208	75.4

line	stmt	bran	cond	sub	pod	time	code
1							# You may distribute under the terms of either the GNU General Public License
2							# or the Artistic License (the same terms as Perl itself)
3							#
4							# (C) Paul Evans, 2015-2022 -- leonerd@leonerd.org.uk
5
6	5			5		153390	use v5.26;
	5					34
7	5			5		1468	use Object::Pad 0.70 ':experimental(adjust_params)';
	5					24179
	5					22
8
9							package Device::Chip::SSD1306 0.12;
10							class Device::Chip::SSD1306
11							:isa(Device::Chip)
12	3			3		1694	:strict(params);
	3					18187
	3					91
13
14	5			5		1019	use Carp;
	5					10
	5					278
15	5			5		28	use Future::AsyncAwait;
	5					6
	5					22
16
17							=encoding UTF-8
18
19							=head1 NAME
20
21							C - chip driver for monochrome OLED modules
22
23							=head1 DESCRIPTION
24
25							This abstract L subclass provides communication to an
26							F, F or F chip attached by an adapter. To actually
27							use it, you should use one of the subclasses for the various interface types.
28
29							=over 4
30
31							=item *
32
33							L - I²C
34
35							=item *
36
37							L - 4-wire SPI
38
39							=back
40
41							The reader is presumed to be familiar with the general operation of this chip;
42							the documentation here will not attempt to explain or define chip-specific
43							concepts or features, only the use of this module to access them.
44
45							=cut
46
47							=head1 DEVICE MODELS
48
49							This module supports a variety of actual chip modules with different display
50							sizes. The specific display module is selected by the C argument to the
51							constructor, which should take one of the following values:
52
53							=over 4
54
55							=item C
56
57							An F driving a display with 128 columns and 64 rows. The most common
58							of the display modules, often found with a 0.96 inch display.
59
60							This setting also drives the F chip found in the larger 1.6 or 2.4
61							inch displays.
62
63							=item C
64
65							An F driving a display with 128 columns and 32 rows. This is the
66							usual "half-height" module, often found with a 0.91 inch display. This uses
67							only even-numbered rows.
68
69							=item C
70
71							An F driving a display with 64 columns and 32 rows. This is the usual
72							"quarter" size module, often found with a 0.49 inch display. This uses the
73							only the middle 64 columns.
74
75							=item C
76
77							An F driving a display with 128 columns and 64 rows. This is the chip
78							that's usually found in the larger display modules, such as 1.3 and 1.6 inch.
79
80							=back
81
82							The overall API shape of this module is similar to that of
83							L, supporting the same set of drawing methods. A
84							future version of both of these modules may extend the concept into providing
85							access via an interface helper instance, if some standard API shape is defined
86							for driving these kinds of 1bpp pixel displays.
87
88							=cut
89
90							my %MODELS = (
91							"SSD1306-128x64" => {
92							columns => 128,
93							rows => 64,
94
95							set_com_pins_arg => 0x12,
96							column_offset => 0,
97							},
98							"SSD1306-128x32" => {
99							columns => 128,
100							rows => 32,
101
102							set_com_pins_arg => 0x02,
103							column_offset => 0,
104							},
105							"SSD1306-64x32" => {
106							columns => 64,
107							rows => 32,
108
109							set_com_pins_arg => 0x12,
110							# This module seems to use the middle 64 column pins
111							column_offset => 32,
112							},
113							"SH1106-128x64" => {
114							columns => 128,
115							rows => 64,
116
117							set_com_pins_arg => 0x12,
118							# SH1106 has a 128 column physical display but its VRAM is 132 columns
119							# wide; with two blank columns either side of the display. It actually
120							# starts outputting from column 2;
121							column_offset => 2,
122							},
123							);
124
125							=head1 CONSTRUCTOR
126
127							=cut
128
129							=head2 new
130
131							$chip = Device::Chip::SSD1306->new(
132							model => $model,
133							...
134							)
135
136							Returns a new C driver instance for the given model
137							name, which must be one of the models listed in L. If no model
138							option is chosen, the default of C will apply.
139
140							In addition to C, the following named options may also be passed:
141
142							=over 4
143
144							=item xflip => BOOL
145
146							=item yflip => BOOL
147
148							If true, the order of columns or rows respectively will be reversed by the
149							hardware. In particular, if both are true, this inverts the orientation of
150							the display, if it is mounted upside-down.
151
152							=back
153
154							=cut
155
156	5			5	1	16	has $_rows :reader;
	5					20
157	4			4	1	16	has $_columns :reader;
	4					19
158
159							has $_column_offset;
160							has $_set_com_pins_arg;
161							has $_xflip :param = 0;
162							has $_yflip :param = 0;
163
164							ADJUST :params ( :$model = "SSD1306-128x64" )
165							{
166							my $modelargs = $MODELS{$model} or croak "Unrecognised model $model";
167
168							( $_rows, $_columns, $_column_offset, $_set_com_pins_arg ) =
169							@{$modelargs}{qw( rows columns column_offset set_com_pins_arg )};
170							}
171
172							=head1 METHODS
173
174							The following methods documented in an C expression return L
175							instances.
176
177							=cut
178
179							=head2 rows
180
181							=head2 columns
182
183							$n = $chip->rows
184
185							$n = $chip->columns
186
187							Simple accessors that return the number of rows or columns present on the
188							physical display.
189
190							=cut
191
192							use constant {
193	5					13331	CMD_SET_CONTRAST => 0x81, # , contrast
194							CMD_DISPLAY_LAMPTEST => 0xA4, # + all on
195							CMD_DISPLAY_INVERT => 0xA6, # + invert
196							CMD_DISPLAY_OFF => 0xAE, #
197							CMD_DISPLAY_ON => 0xAF, #
198
199							CMD_SCROLL_RIGHT => 0x26, # , 0, start page, time, end page, 0, 0xff
200							CMD_SCROLL_LEFT => 0x27, # , 0, start page, time, end page, 0, 0xff
201							CMD_SCROLL_VERT_RIGHT => 0x29, # , 0, start page, time, end page, vertical
202							CMD_SCROLL_VERT_LEFT => 0x2A, # , 0, start page, time, end page, vertical
203							CMD_SCROLL_DEACTIVATE => 0x2E, #
204							CMD_SCROLL_ACTIVATE => 0x2F, #
205							CMD_SET_SCROLL_AREA => 0xA3, # , start row, scroll rows
206
207							CMD_SET_LOW_COLUMN => 0x00, # + column
208							CMD_SET_HIGH_COLUMN => 0x10, # + column
209							CMD_SET_ADDR_MODE => 0x20, # , mode
210							MODE_HORIZONTAL => 0,
211							MODE_VERTICAL => 1,
212							MODE_PAGE => 2,
213							CMD_SET_COLUMN_ADDR => 0x21, # , start column, end column
214							CMD_SET_PAGE_ADDR => 0x22, # , start page, end page
215							CMD_SET_PAGE_START => 0xB0, # + page
216
217							CMD_SET_DISPLAY_START => 0x40, # + line
218							CMD_SET_SEGMENT_REMAP => 0xA0, # + remap
219							CMD_SET_MUX_RATIO => 0xA8, # , mux
220							CMD_SET_COM_SCAN_DIR => 0xC0, # + direction(8)
221							CMD_SET_DISPLAY_OFFS => 0xD3, # , line offset
222							CMD_SET_COM_PINS => 0xDA, # , (config << 4) \| 0x02
223
224							CMD_SET_CLOCKDIV => 0xD5, # , (freq << 4) \| (divratio)
225							CMD_SET_PRECHARGE => 0xD9, # , (ph1 << 4) \| (ph2)
226							CMD_SET_VCOMH_LEVEL => 0xDB, # , (level << 4)
227							CMD_SET_CHARGEPUMP => 0x8D, # , 0x10 \| (enable << 2)
228
229							CMD_NOP => 0xE3,
230	5			5		2721	};
	5					10
231
232							=head2 init
233
234							await $chip->init;
235
236							Initialise the display after reset to some sensible defaults.
237
238							=cut
239
240							# This initialisation sequence is inspired by the Adafruit driver
241							# https://github.com/adafruit/Adafruit_SSD1306
242
243	0					0	async method init ()
	0					0
244	0					0	{
245	0					0	await $self->display( 0 );
246	0					0	await $self->send_cmd( CMD_SET_CLOCKDIV, ( 8 << 4 ) \| 0x80 );
247	0					0	await $self->send_cmd( CMD_SET_MUX_RATIO, $_rows - 1 );
248	0					0	await $self->send_cmd( CMD_SET_DISPLAY_OFFS, 0 );
249	0					0	await $self->send_cmd( CMD_SET_DISPLAY_START \| 0 );
250	0					0	await $self->send_cmd( CMD_SET_CHARGEPUMP, 0x14 );
251	0					0	await $self->send_cmd( CMD_SET_ADDR_MODE, MODE_HORIZONTAL );
252	0					0	await $self->send_cmd( CMD_SET_SEGMENT_REMAP \| ( $_xflip ? 1 : 0 ) );
253	0					0	await $self->send_cmd( CMD_SET_COM_SCAN_DIR \| ( $_yflip ? 1<<3 : 0 ) );
254	0					0	await $self->send_cmd( CMD_SET_COM_PINS, $_set_com_pins_arg );
255	0					0	await $self->send_cmd( CMD_SET_CONTRAST, 0x9F );
256	0					0	await $self->send_cmd( CMD_SET_PRECHARGE, ( 0x0f << 4 ) \| ( 1 ) );
257	0					0	await $self->send_cmd( CMD_SET_VCOMH_LEVEL, ( 4 << 4 ) );
258	0			0	1	0	}
259
260							=head2 display
261
262							await $chip->display( $on );
263
264							Turn on or off the display.
265
266							=cut
267
268	0					0	async method display ( $on )
	0					0
	0					0
269	0					0	{
270	0					0	await $self->send_cmd( $on ? CMD_DISPLAY_ON : CMD_DISPLAY_OFF );
271	0			0	1	0	}
272
273							=head2 display_lamptest
274
275							await $chip->display_lamptest( $enable );
276
277							Turn on or off the all-pixels-lit lamptest mode.
278
279							=cut
280
281	0					0	async method display_lamptest ( $enable )
	0					0
	0					0
282	0					0	{
283	0					0	await $self->send_cmd( CMD_DISPLAY_LAMPTEST + !!$enable );
284	0			0	1	0	}
285
286							=head2 display_invert
287
288							await $chip->display_invert( $enable );
289
290							Turn on or off the inverted output mode.
291
292							=cut
293
294	0					0	async method display_invert ( $enable )
	0					0
	0					0
295	0					0	{
296	0					0	await $self->send_cmd( CMD_DISPLAY_INVERT + !!$enable );
297	0			0	1	0	}
298
299							=head2 send_display
300
301							await $chip->send_display( $pixels );
302
303							Sends an entire screen-worth of pixel data. The C<$pixels> should be in a
304							packed binary string containing one byte per 8 pixels.
305
306							=cut
307
308	4					8	async method send_display ( $pixels )
	4					7
	4					4
309	4					13	{
310							# This output method isn't quite what most of the SSD1306 drivers use, but
311							# it happens to work on both the SSD1306 and the SH1106, whereas other code
312							# based on SET_COLUMN_ADDR + SET_PAGE_ADDR do not
313
314	4					5	my $pagewidth = $_columns;
315
316	4					5	my $column = $_column_offset;
317
318	4					17	foreach my $page ( 0 .. ( $_rows / 8 ) - 1 ) {
319	24					750	await $self->send_cmd( CMD_SET_PAGE_START + $page );
320	24					818	await $self->send_cmd( CMD_SET_LOW_COLUMN \| $column & 0x0f );
321	24					959	await $self->send_cmd( CMD_SET_HIGH_COLUMN \| $column >> 4 );
322	24					754	await $self->send_data( substr $pixels, $page * $pagewidth, $pagewidth );
323							}
324	4			4	1	7	}
325
326							=head1 DRAWING METHODS
327
328							The following methods operate on an internal framebuffer stored by the
329							instance. The user must invoke the L method to update the actual
330							chip after calling them.
331
332							=cut
333
334							# The internal framebuffer
335							has @_display;
336							has $_display_dirty;
337							has $_display_dirty_xlo;
338							has $_display_dirty_xhi;
339
340							=head2 clear
341
342							$chip->clear
343
344							Resets the stored framebuffer to blank.
345
346							=cut
347
348	1					1	method clear ()
	1					2
349	1			1	1	8	{
350							@_display = (
351	1					4	map { [ ( 0 ) x $_columns ] } 1 .. $_rows
	64					596
352							);
353	1					8	$_display_dirty = ( 1 << $_rows/8 ) - 1;
354	1					2	$_display_dirty_xlo = 0;
355	1					3	$_display_dirty_xhi = $_columns-1;
356							}
357
358							=head2 draw_pixel
359
360							$chip->draw_pixel( $x, $y, $val = 1 )
361
362							Draw the given pixel. If the third argument is false, the pixel will be
363							cleared instead of set.
364
365							=cut
366
367	1					10	method draw_pixel ( $x, $y, $val = 1 )
	1					3
	1					2
	1					2
	1					1
368	1			1	1	6	{
369	1					3	$_display[$y][$x] = $val;
370	1					3	$_display_dirty \|= ( 1 << int( $y / 8 ) );
371	1	50				4	$_display_dirty_xlo = $x if $_display_dirty_xlo > $x;
372	1	50				13	$_display_dirty_xhi = $x if $_display_dirty_xhi < $x;
373							}
374
375							=head2 draw_hline
376
377							$chip->draw_hline( $x1, $x2, $y, $val = 1 )
378
379							Draw a horizontal line in the given I<$y> row, between the columns I<$x1> and
380							I<$x2> (inclusive). If the fourth argument is false, the pixels will be
381							cleared instead of set.
382
383							=cut
384
385	1					3	method draw_hline ( $x1, $x2, $y, $val = 1 )
	1					3
	1					2
	1					1
	1					3
	1					2
386	1			1	1	4949	{
387	1					9	$_display[$y][$_] = $val for $x1 .. $x2;
388	1					5	$_display_dirty \|= ( 1 << int( $y / 8 ) );
389	1	50				4	$_display_dirty_xlo = $x1 if $_display_dirty_xlo > $x1;
390	1	50				3	$_display_dirty_xhi = $x2 if $_display_dirty_xhi < $x2;
391							}
392
393							=head2 draw_vline
394
395							$chip->draw_vline( $x, $y1, $y2, $val = 1 )
396
397							Draw a vertical line in the given I<$x> column, between the rows I<$y1> and
398							I<$y2> (inclusive). If the fourth argument is false, the pixels will be
399							cleared instead of set.
400
401							=cut
402
403	1					1	method draw_vline ( $x, $y1, $y2, $val = 1 )
	1					2
	1					2
	1					1
	1					2
	1					1
404	1			1	1	7	{
405	1		50			3	$val //= 1;
406
407	1					16	$_display[$_][$x] = $val for $y1 .. $y2;
408	1					11	$_display_dirty \|= ( 1 << int( $_ / 8 ) ) for $y1 .. $y2;
409	1	50				6	$_display_dirty_xlo = $x if $_display_dirty_xlo > $x;
410	1	50				3	$_display_dirty_xhi = $x if $_display_dirty_xhi < $x;
411							}
412
413							=head2 draw_blit
414
415							$chip->draw_blit( $x, $y, @lines )
416
417							Draws a bitmap pattern by copying the data given in lines, starting at the
418							given position.
419
420							Each value in C<@lines> should be a string giving a horizontal line of bitmap
421							data, each character corresponding to a single pixel of the display. Pixels
422							corresponding to a spaces will be left alone, a hyphen will be cleared, and
423							any other character (for example a C<#>) will be set.
424
425							For example, to draw an rightward-pointing arrow:
426
427							$chip->draw_blit( 20, 40,
428							" # ",
429							" ## ",
430							"######",
431							"######",
432							" ## ",
433							" # " );
434
435							=cut
436
437	1					1	method draw_blit ( $x0, $y, @lines )
	1					2
	1					2
	1					2
	1					2
438	1			1	1	8	{
439	1					3	for( ; @lines; $y++ ) {
440	8					17	my @pixels = split m//, shift @lines;
441	8	50				15	@pixels or next;
442
443	8					9	my $x = $x0;
444	8					13	for( ; @pixels; $x++ ) {
445	32					37	my $p = shift @pixels;
446
447	32	50				76	$p eq " " ? next :
		100
448							$p eq "-" ? ( $_display[$y][$x] = 0 ) :
449							( $_display[$y][$x] = 1 );
450							}
451	8					9	$x--;
452
453	8					12	$_display_dirty \|= ( 1 << int( $y / 8 ) );
454	8	50				11	$_display_dirty_xlo = $x0 if $_display_dirty_xlo > $x0;
455	8	50				19	$_display_dirty_xhi = $x if $_display_dirty_xhi < $x;
456							}
457							}
458
459							=head2 refresh
460
461							await $chip->refresh;
462
463							Sends the framebuffer to the display chip.
464
465							=cut
466
467	2					10	async method refresh ()
	2					3
468	2					7	{
469	2					4	my $maxcol = $_columns - 1;
470	2					4	my $column = $_column_offset + $_display_dirty_xlo;
471
472	2					8	foreach my $page ( 0 .. ( $_rows / 8 ) - 1 ) {
473	16	100				28	next unless $_display_dirty & ( 1 << $page );
474	12					18	my $row = $page * 8;
475
476	12					17	my $data = "";
477	12					15	foreach my $col ( $_display_dirty_xlo .. $_display_dirty_xhi ) {
478	1152					1158	my $v = 0;
479	1152		66			6609	$v <<= 1, $_display[$row+$_][$col] && ( $v \|= 1 ) for reverse 0 .. 7;
480	1152					1422	$data .= chr $v;
481							}
482
483	12					29	await $self->send_cmd( CMD_SET_PAGE_START + $page );
484	12					474	await $self->send_cmd( CMD_SET_LOW_COLUMN \| $column & 0x0f );
485	12					368	await $self->send_cmd( CMD_SET_HIGH_COLUMN \| $column >> 4 );
486	12					356	await $self->send_data( $data );
487
488	12					397	$_display_dirty &= ~( 1 << $page );
489							}
490
491	2					3	$_display_dirty_xlo = $_columns;
492	2					15	$_display_dirty_xhi = -1;
493	2			2	1	17	}
494
495							=head1 TODO
496
497							=over 4
498
499							=item *
500
501							More interfaces - 3-wire SPI
502
503							=back
504
505							=cut
506
507							=head1 AUTHOR
508
509							Paul Evans
510
511							=cut
512
513							0x55AA;