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/*
* This file is part of the Micro Python project , http : //micropython.org/
*
* The MIT License ( MIT )
*
* Copyright ( c ) 2020 Jeff Epler for Adafruit Industries
*
* Permission is hereby granted , free of charge , to any person obtaining a copy
* of this software and associated documentation files ( the " Software " ) , to deal
* in the Software without restriction , including without limitation the rights
* to use , copy , modify , merge , publish , distribute , sublicense , and / or sell
* copies of the Software , and to permit persons to whom the Software is
* furnished to do so , subject to the following conditions :
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software .
*
* THE SOFTWARE IS PROVIDED " AS IS " , WITHOUT WARRANTY OF ANY KIND , EXPRESS OR
* IMPLIED , INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY ,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT . IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM , DAMAGES OR OTHER
* LIABILITY , WHETHER IN AN ACTION OF CONTRACT , TORT OR OTHERWISE , ARISING FROM ,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE .
*/
# include "py/obj.h"
# include "py/objproperty.h"
# include "py/runtime.h"
# include "py/objarray.h"
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# include "common-hal/rgbmatrix/RGBMatrix.h"
# include "shared-bindings/rgbmatrix/RGBMatrix.h"
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# include "shared-bindings/microcontroller/Pin.h"
# include "shared-bindings/microcontroller/__init__.h"
# include "shared-bindings/util.h"
# include "shared-module/displayio/__init__.h"
# include "shared-module/framebufferio/__init__.h"
# include "shared-module/framebufferio/FramebufferDisplay.h"
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//| class RGBMatrix:
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//| """Displays an in-memory framebuffer to a HUB75-style RGB LED matrix."""
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//|
extern Protomatter_core * _PM_protoPtr ;
STATIC uint8_t validate_pin ( mp_obj_t obj ) {
mcu_pin_obj_t * result = validate_obj_is_free_pin ( obj ) ;
return common_hal_mcu_pin_number ( result ) ;
}
STATIC void validate_pins ( qstr what , uint8_t * pin_nos , mp_int_t max_pins , mp_obj_t seq , uint8_t * count_out ) {
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mcu_pin_obj_t * pins [ max_pins ] ;
validate_list_is_free_pins ( what , pins , max_pins , seq , count_out ) ;
for ( mp_int_t i = 0 ; i < * count_out ; i + + ) {
pin_nos [ i ] = common_hal_mcu_pin_number ( pins [ i ] ) ;
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}
}
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STATIC void claim_and_never_reset_pin ( mp_obj_t pin ) {
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common_hal_mcu_pin_claim ( pin ) ;
common_hal_never_reset_pin ( pin ) ;
}
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STATIC void claim_and_never_reset_pins ( mp_obj_t seq ) {
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mp_int_t len = MP_OBJ_SMALL_INT_VALUE ( mp_obj_len ( seq ) ) ;
for ( mp_int_t i = 0 ; i < len ; i + + ) {
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claim_and_never_reset_pin ( mp_obj_subscr ( seq , MP_OBJ_NEW_SMALL_INT ( i ) , MP_OBJ_SENTINEL ) ) ;
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}
}
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STATIC void preflight_pins_or_throw ( uint8_t clock_pin , uint8_t * rgb_pins , uint8_t rgb_pin_count , bool allow_inefficient ) {
uint32_t port = clock_pin / 32 ;
uint32_t bit_mask = 1 < < ( clock_pin % 32 ) ;
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if ( rgb_pin_count < = 0 | | rgb_pin_count % 6 ! = 0 | | rgb_pin_count > 30 ) {
mp_raise_ValueError_varg ( translate ( " The length of rgb_pins must be 6, 12, 18, 24, or 30 " ) ) ;
}
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for ( uint8_t i = 0 ; i < rgb_pin_count ; i + + ) {
uint32_t pin_port = rgb_pins [ i ] / 32 ;
if ( pin_port ! = port ) {
mp_raise_ValueError_varg (
translate ( " rgb_pins[%d] is not on the same port as clock " ) , i ) ;
}
uint32_t pin_mask = 1 < < ( rgb_pins [ i ] % 32 ) ;
if ( pin_mask & bit_mask ) {
mp_raise_ValueError_varg (
translate ( " rgb_pins[%d] duplicates another pin assignment " ) , i ) ;
}
bit_mask | = pin_mask ;
}
if ( allow_inefficient ) {
return ;
}
uint8_t byte_mask = 0 ;
if ( bit_mask & 0x000000FF ) byte_mask | = 0 b0001 ;
if ( bit_mask & 0x0000FF00 ) byte_mask | = 0 b0010 ;
if ( bit_mask & 0x00FF0000 ) byte_mask | = 0 b0100 ;
if ( bit_mask & 0xFF000000 ) byte_mask | = 0 b1000 ;
uint8_t bytes_per_element = 0xff ;
uint8_t ideal_bytes_per_element = ( rgb_pin_count + 7 ) / 8 ;
switch ( byte_mask ) {
case 0 b0001 :
case 0 b0010 :
case 0 b0100 :
case 0 b1000 :
bytes_per_element = 1 ;
break ;
case 0 b0011 :
case 0 b1100 :
bytes_per_element = 2 ;
break ;
default :
bytes_per_element = 4 ;
break ;
}
if ( bytes_per_element ! = ideal_bytes_per_element ) {
mp_raise_ValueError_varg (
translate ( " Pinout uses %d bytes per element, which consumes more than the ideal %d bytes. If this cannot be avoided, pass allow_inefficient=True to the constructor " ) ,
bytes_per_element , ideal_bytes_per_element ) ;
}
}
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//| def __init__(self, *, width: int, bit_depth: int, rgb_pins: Sequence[digitalio.DigitalInOut], addr_pins: Sequence[digitalio.DigitalInOut], clock_pin: digitalio.DigitalInOut, latch_pin: digitalio.DigitalInOut, output_enable_pin: digitalio.DigitalInOut, doublebuffer: bool = True, framebuffer: Optional[WriteableBuffer] = None, height: int = 0) -> None:
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//| """Create a RGBMatrix object with the given attributes. The height of
//| the display is determined by the number of rgb and address pins:
//| len(rgb_pins) // 3 * 2 ** len(address_pins). With 6 RGB pins and 4
//| address lines, the display will be 32 pixels tall. If the optional height
//| parameter is specified and is not 0, it is checked against the calculated
//| height.
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//|
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//| Up to 30 RGB pins and 8 address pins are supported.
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//|
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//| The RGB pins must be within a single "port" and performance and memory
//| usage are best when they are all within "close by" bits of the port.
//| The clock pin must also be on the same port as the RGB pins. See the
//| documentation of the underlying protomatter C library for more
//| information. Generally, Adafruit's interface boards are designed so
//| that these requirements are met when matched with the intended
//| microcontroller board. For instance, the Feather M4 Express works
//| together with the RGB Matrix Feather.
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//|
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//| The framebuffer is in "RGB565" format.
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//|
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//| "RGB565" means that it is organized as a series of 16-bit numbers
//| where the highest 5 bits are interpreted as red, the next 6 as
//| green, and the final 5 as blue. The object can be any buffer, but
//| `array.array` and `ulab.array` objects are most often useful.
//| To update the content, modify the framebuffer and call refresh.
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//|
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//| If a framebuffer is not passed in, one is allocated and initialized
//| to all black. In any case, the framebuffer can be retrieved
//| by passing the RGBMatrix object to memoryview().
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//|
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//| If doublebuffer is False, some memory is saved, but the display may
//| flicker during updates.
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//|
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//| A RGBMatrix is often used in conjunction with a
//| `framebufferio.FramebufferDisplay`."""
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//|
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STATIC mp_obj_t rgbmatrix_rgbmatrix_make_new ( const mp_obj_type_t * type , size_t n_args , const mp_obj_t * pos_args , mp_map_t * kw_args ) {
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enum { ARG_width , ARG_bit_depth , ARG_rgb_list , ARG_addr_list ,
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ARG_clock_pin , ARG_latch_pin , ARG_output_enable_pin , ARG_doublebuffer , ARG_framebuffer , ARG_height } ;
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static const mp_arg_t allowed_args [ ] = {
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{ MP_QSTR_width , MP_ARG_INT | MP_ARG_REQUIRED | MP_ARG_KW_ONLY } ,
{ MP_QSTR_bit_depth , MP_ARG_INT | MP_ARG_REQUIRED | MP_ARG_KW_ONLY } ,
{ MP_QSTR_rgb_pins , MP_ARG_OBJ | MP_ARG_REQUIRED | MP_ARG_KW_ONLY } ,
{ MP_QSTR_addr_pins , MP_ARG_OBJ | MP_ARG_REQUIRED | MP_ARG_KW_ONLY } ,
{ MP_QSTR_clock_pin , MP_ARG_OBJ | MP_ARG_REQUIRED | MP_ARG_KW_ONLY } ,
{ MP_QSTR_latch_pin , MP_ARG_OBJ | MP_ARG_REQUIRED | MP_ARG_KW_ONLY } ,
{ MP_QSTR_output_enable_pin , MP_ARG_OBJ | MP_ARG_REQUIRED | MP_ARG_KW_ONLY } ,
{ MP_QSTR_doublebuffer , MP_ARG_BOOL | MP_ARG_KW_ONLY , { . u_bool = true } } ,
{ MP_QSTR_framebuffer , MP_ARG_OBJ | MP_ARG_KW_ONLY , { . u_obj = mp_const_none } } ,
{ MP_QSTR_height , MP_ARG_INT | MP_ARG_KW_ONLY , { . u_int = 0 } } ,
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} ;
mp_arg_val_t args [ MP_ARRAY_SIZE ( allowed_args ) ] ;
mp_arg_parse_all ( n_args , pos_args , kw_args , MP_ARRAY_SIZE ( allowed_args ) , allowed_args , args ) ;
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rgbmatrix_rgbmatrix_obj_t * self = & allocate_display_bus_or_raise ( ) - > rgbmatrix ;
self - > base . type = & rgbmatrix_RGBMatrix_type ;
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uint8_t rgb_count , addr_count ;
uint8_t rgb_pins [ MP_ARRAY_SIZE ( self - > rgb_pins ) ] ;
uint8_t addr_pins [ MP_ARRAY_SIZE ( self - > addr_pins ) ] ;
uint8_t clock_pin = validate_pin ( args [ ARG_clock_pin ] . u_obj ) ;
uint8_t latch_pin = validate_pin ( args [ ARG_latch_pin ] . u_obj ) ;
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uint8_t output_enable_pin = validate_pin ( args [ ARG_output_enable_pin ] . u_obj ) ;
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int bit_depth = args [ ARG_bit_depth ] . u_int ;
if ( bit_depth < = 0 | | bit_depth > 6 ) {
mp_raise_ValueError_varg ( translate ( " Bit depth must be from 1 to 6 inclusive, not %d " ) , bit_depth ) ;
}
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validate_pins ( MP_QSTR_rgb_pins , rgb_pins , MP_ARRAY_SIZE ( self - > rgb_pins ) , args [ ARG_rgb_list ] . u_obj , & rgb_count ) ;
validate_pins ( MP_QSTR_addr_pins , addr_pins , MP_ARRAY_SIZE ( self - > addr_pins ) , args [ ARG_addr_list ] . u_obj , & addr_count ) ;
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if ( rgb_count % 6 ) {
mp_raise_ValueError_varg ( translate ( " Must use a multiple of 6 rgb pins, not %d " ) , rgb_count ) ;
}
// TODO(@jepler) Use fewer than all rows of pixels if height < computed_height
if ( args [ ARG_height ] . u_int ! = 0 ) {
int computed_height = ( rgb_count / 3 ) < < ( addr_count ) ;
if ( computed_height ! = args [ ARG_height ] . u_int ) {
mp_raise_ValueError_varg (
translate ( " %d address pins and %d rgb pins indicate a height of %d, not %d " ) , addr_count , rgb_count , computed_height , args [ ARG_height ] . u_int ) ;
}
}
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if ( args [ ARG_width ] . u_int < = 0 ) {
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mp_raise_ValueError ( translate ( " width must be greater than zero " ) ) ;
}
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preflight_pins_or_throw ( clock_pin , rgb_pins , rgb_count , true ) ;
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mp_obj_t framebuffer = args [ ARG_framebuffer ] . u_obj ;
if ( framebuffer = = mp_const_none ) {
int width = args [ ARG_width ] . u_int ;
int bufsize = 2 * width * rgb_count / 3 * ( 1 < < addr_count ) ;
framebuffer = mp_obj_new_bytearray_of_zeros ( bufsize ) ;
}
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common_hal_rgbmatrix_rgbmatrix_construct ( self ,
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args [ ARG_width ] . u_int ,
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bit_depth ,
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rgb_count , rgb_pins ,
addr_count , addr_pins ,
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clock_pin , latch_pin , output_enable_pin ,
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args [ ARG_doublebuffer ] . u_bool ,
framebuffer , NULL ) ;
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claim_and_never_reset_pins ( args [ ARG_rgb_list ] . u_obj ) ;
claim_and_never_reset_pins ( args [ ARG_addr_list ] . u_obj ) ;
claim_and_never_reset_pin ( args [ ARG_clock_pin ] . u_obj ) ;
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claim_and_never_reset_pin ( args [ ARG_output_enable_pin ] . u_obj ) ;
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claim_and_never_reset_pin ( args [ ARG_latch_pin ] . u_obj ) ;
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return MP_OBJ_FROM_PTR ( self ) ;
}
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//| def deinit(self) -> None:
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//| """Free the resources (pins, timers, etc.) associated with this
//| rgbmatrix instance. After deinitialization, no further operations
//| may be performed."""
//| ...
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//|
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STATIC mp_obj_t rgbmatrix_rgbmatrix_deinit ( mp_obj_t self_in ) {
rgbmatrix_rgbmatrix_obj_t * self = ( rgbmatrix_rgbmatrix_obj_t * ) self_in ;
common_hal_rgbmatrix_rgbmatrix_deinit ( self ) ;
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return mp_const_none ;
}
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STATIC MP_DEFINE_CONST_FUN_OBJ_1 ( rgbmatrix_rgbmatrix_deinit_obj , rgbmatrix_rgbmatrix_deinit ) ;
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static void check_for_deinit ( rgbmatrix_rgbmatrix_obj_t * self ) {
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if ( ! self - > protomatter . rgbPins ) {
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raise_deinited_error ( ) ;
}
}
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//| brightness: float
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//| """In the current implementation, 0.0 turns the display off entirely
//| and any other value up to 1.0 turns the display on fully."""
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//|
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STATIC mp_obj_t rgbmatrix_rgbmatrix_get_brightness ( mp_obj_t self_in ) {
rgbmatrix_rgbmatrix_obj_t * self = ( rgbmatrix_rgbmatrix_obj_t * ) self_in ;
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check_for_deinit ( self ) ;
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return mp_obj_new_float ( common_hal_rgbmatrix_rgbmatrix_get_paused ( self ) ? 0.0f : 1.0f ) ;
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}
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MP_DEFINE_CONST_FUN_OBJ_1 ( rgbmatrix_rgbmatrix_get_brightness_obj , rgbmatrix_rgbmatrix_get_brightness ) ;
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STATIC mp_obj_t rgbmatrix_rgbmatrix_set_brightness ( mp_obj_t self_in , mp_obj_t value_in ) {
rgbmatrix_rgbmatrix_obj_t * self = ( rgbmatrix_rgbmatrix_obj_t * ) self_in ;
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check_for_deinit ( self ) ;
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mp_float_t brightness = mp_obj_get_float ( value_in ) ;
if ( brightness < 0.0f | | brightness > 1.0f ) {
mp_raise_ValueError ( translate ( " Brightness must be 0-1.0 " ) ) ;
}
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common_hal_rgbmatrix_rgbmatrix_set_paused ( self , brightness < = 0 ) ;
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return mp_const_none ;
}
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MP_DEFINE_CONST_FUN_OBJ_2 ( rgbmatrix_rgbmatrix_set_brightness_obj , rgbmatrix_rgbmatrix_set_brightness ) ;
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const mp_obj_property_t rgbmatrix_rgbmatrix_brightness_obj = {
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. base . type = & mp_type_property ,
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. proxy = { ( mp_obj_t ) & rgbmatrix_rgbmatrix_get_brightness_obj ,
( mp_obj_t ) & rgbmatrix_rgbmatrix_set_brightness_obj ,
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( mp_obj_t ) & mp_const_none_obj } ,
} ;
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//| def refresh(self) -> None:
//| """Transmits the color data in the buffer to the pixels so that
//| they are shown."""
//| ...
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//|
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STATIC mp_obj_t rgbmatrix_rgbmatrix_refresh ( mp_obj_t self_in ) {
rgbmatrix_rgbmatrix_obj_t * self = ( rgbmatrix_rgbmatrix_obj_t * ) self_in ;
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check_for_deinit ( self ) ;
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common_hal_rgbmatrix_rgbmatrix_refresh ( self ) ;
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return mp_const_none ;
}
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MP_DEFINE_CONST_FUN_OBJ_1 ( rgbmatrix_rgbmatrix_refresh_obj , rgbmatrix_rgbmatrix_refresh ) ;
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//| width: int
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//| """The width of the display, in pixels"""
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//|
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STATIC mp_obj_t rgbmatrix_rgbmatrix_get_width ( mp_obj_t self_in ) {
rgbmatrix_rgbmatrix_obj_t * self = ( rgbmatrix_rgbmatrix_obj_t * ) self_in ;
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check_for_deinit ( self ) ;
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return MP_OBJ_NEW_SMALL_INT ( common_hal_rgbmatrix_rgbmatrix_get_width ( self ) ) ;
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}
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MP_DEFINE_CONST_FUN_OBJ_1 ( rgbmatrix_rgbmatrix_get_width_obj , rgbmatrix_rgbmatrix_get_width ) ;
const mp_obj_property_t rgbmatrix_rgbmatrix_width_obj = {
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. base . type = & mp_type_property ,
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. proxy = { ( mp_obj_t ) & rgbmatrix_rgbmatrix_get_width_obj ,
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( mp_obj_t ) & mp_const_none_obj ,
( mp_obj_t ) & mp_const_none_obj } ,
} ;
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//| height: int
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//| """The height of the display, in pixels"""
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//|
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STATIC mp_obj_t rgbmatrix_rgbmatrix_get_height ( mp_obj_t self_in ) {
rgbmatrix_rgbmatrix_obj_t * self = ( rgbmatrix_rgbmatrix_obj_t * ) self_in ;
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check_for_deinit ( self ) ;
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return MP_OBJ_NEW_SMALL_INT ( common_hal_rgbmatrix_rgbmatrix_get_height ( self ) ) ;
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}
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MP_DEFINE_CONST_FUN_OBJ_1 ( rgbmatrix_rgbmatrix_get_height_obj , rgbmatrix_rgbmatrix_get_height ) ;
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const mp_obj_property_t rgbmatrix_rgbmatrix_height_obj = {
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. base . type = & mp_type_property ,
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. proxy = { ( mp_obj_t ) & rgbmatrix_rgbmatrix_get_height_obj ,
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( mp_obj_t ) & mp_const_none_obj ,
( mp_obj_t ) & mp_const_none_obj } ,
} ;
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STATIC const mp_rom_map_elem_t rgbmatrix_rgbmatrix_locals_dict_table [ ] = {
{ MP_ROM_QSTR ( MP_QSTR_deinit ) , MP_ROM_PTR ( & rgbmatrix_rgbmatrix_deinit_obj ) } ,
{ MP_ROM_QSTR ( MP_QSTR_brightness ) , MP_ROM_PTR ( & rgbmatrix_rgbmatrix_brightness_obj ) } ,
{ MP_ROM_QSTR ( MP_QSTR_refresh ) , MP_ROM_PTR ( & rgbmatrix_rgbmatrix_refresh_obj ) } ,
{ MP_ROM_QSTR ( MP_QSTR_width ) , MP_ROM_PTR ( & rgbmatrix_rgbmatrix_width_obj ) } ,
{ MP_ROM_QSTR ( MP_QSTR_height ) , MP_ROM_PTR ( & rgbmatrix_rgbmatrix_height_obj ) } ,
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} ;
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STATIC MP_DEFINE_CONST_DICT ( rgbmatrix_rgbmatrix_locals_dict , rgbmatrix_rgbmatrix_locals_dict_table ) ;
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STATIC void rgbmatrix_rgbmatrix_get_bufinfo ( mp_obj_t self_in , mp_buffer_info_t * bufinfo ) {
rgbmatrix_rgbmatrix_obj_t * self = ( rgbmatrix_rgbmatrix_obj_t * ) self_in ;
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check_for_deinit ( self ) ;
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* bufinfo = self - > bufinfo ;
}
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// These version exists so that the prototype matches the protocol,
// avoiding a type cast that can hide errors
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STATIC void rgbmatrix_rgbmatrix_swapbuffers ( mp_obj_t self_in , uint8_t * dirty_row_bitmap ) {
( void ) dirty_row_bitmap ;
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common_hal_rgbmatrix_rgbmatrix_refresh ( self_in ) ;
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}
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STATIC void rgbmatrix_rgbmatrix_deinit_proto ( mp_obj_t self_in ) {
common_hal_rgbmatrix_rgbmatrix_deinit ( self_in ) ;
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}
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STATIC float rgbmatrix_rgbmatrix_get_brightness_proto ( mp_obj_t self_in ) {
return common_hal_rgbmatrix_rgbmatrix_get_paused ( self_in ) ? 0.0f : 1.0f ;
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}
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STATIC bool rgbmatrix_rgbmatrix_set_brightness_proto ( mp_obj_t self_in , mp_float_t value ) {
common_hal_rgbmatrix_rgbmatrix_set_paused ( self_in , value < = 0 ) ;
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return true ;
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}
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STATIC int rgbmatrix_rgbmatrix_get_width_proto ( mp_obj_t self_in ) {
return common_hal_rgbmatrix_rgbmatrix_get_width ( self_in ) ;
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}
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STATIC int rgbmatrix_rgbmatrix_get_height_proto ( mp_obj_t self_in ) {
return common_hal_rgbmatrix_rgbmatrix_get_height ( self_in ) ;
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}
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STATIC int rgbmatrix_rgbmatrix_get_color_depth_proto ( mp_obj_t self_in ) {
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return 16 ;
}
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STATIC int rgbmatrix_rgbmatrix_get_bytes_per_cell_proto ( mp_obj_t self_in ) {
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return 1 ;
}
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STATIC int rgbmatrix_rgbmatrix_get_native_frames_per_second_proto ( mp_obj_t self_in ) {
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return 250 ;
}
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STATIC const framebuffer_p_t rgbmatrix_rgbmatrix_proto = {
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MP_PROTO_IMPLEMENT ( MP_QSTR_protocol_framebuffer )
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. get_bufinfo = rgbmatrix_rgbmatrix_get_bufinfo ,
. set_brightness = rgbmatrix_rgbmatrix_set_brightness_proto ,
. get_brightness = rgbmatrix_rgbmatrix_get_brightness_proto ,
. get_width = rgbmatrix_rgbmatrix_get_width_proto ,
. get_height = rgbmatrix_rgbmatrix_get_height_proto ,
. get_color_depth = rgbmatrix_rgbmatrix_get_color_depth_proto ,
. get_bytes_per_cell = rgbmatrix_rgbmatrix_get_bytes_per_cell_proto ,
. get_native_frames_per_second = rgbmatrix_rgbmatrix_get_native_frames_per_second_proto ,
. swapbuffers = rgbmatrix_rgbmatrix_swapbuffers ,
. deinit = rgbmatrix_rgbmatrix_deinit_proto ,
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} ;
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STATIC mp_int_t rgbmatrix_rgbmatrix_get_buffer ( mp_obj_t self_in , mp_buffer_info_t * bufinfo , mp_uint_t flags ) {
rgbmatrix_rgbmatrix_obj_t * self = ( rgbmatrix_rgbmatrix_obj_t * ) self_in ;
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// a readonly framebuffer would be unusual but not impossible
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if ( ( flags & MP_BUFFER_WRITE ) & & ! ( self - > bufinfo . typecode & MP_OBJ_ARRAY_TYPECODE_FLAG_RW ) ) {
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return 1 ;
}
* bufinfo = self - > bufinfo ;
return 0 ;
}
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const mp_obj_type_t rgbmatrix_RGBMatrix_type = {
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{ & mp_type_type } ,
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. name = MP_QSTR_RGBMatrix ,
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. buffer_p = { . get_buffer = rgbmatrix_rgbmatrix_get_buffer , } ,
. make_new = rgbmatrix_rgbmatrix_make_new ,
. protocol = & rgbmatrix_rgbmatrix_proto ,
. locals_dict = ( mp_obj_dict_t * ) & rgbmatrix_rgbmatrix_locals_dict ,
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} ;