X-Git-Url: https://sigrok.org/gitweb/?p=libsigrokdecode.git;a=blobdiff_plain;f=decoders%2Famulet_ascii%2Fpd.py;h=23f5a151b0eb07651d1bcd1a8892f0f669458c3c;hp=bd8c4d0e3729a84635853b5c7ad7136047e05a90;hb=0b137b0d5e1cd9a42ab57edbb6e1c724ca88f692;hpb=6a44fc57450a86401a979fda722e44e87de63832 diff --git a/decoders/amulet_ascii/pd.py b/decoders/amulet_ascii/pd.py index bd8c4d0..23f5a15 100644 --- a/decoders/amulet_ascii/pd.py +++ b/decoders/amulet_ascii/pd.py @@ -105,14 +105,14 @@ class Decoder(srd.Decoder): if self.cmdstate == 2: self.ss_field = self.ss self.addr = chr(pdata) - self.putx([Ann.BIT, ['Address high nibble: %c' % (pdata), - 'Addr high 0x%c' % (pdata), 'Addr h 0x%c' % (pdata)]]) + self.putx([Ann.BIT, ['Address high nibble: %c' % pdata, + 'Addr high 0x%c' % pdata, 'Addr h 0x%c' % pdata]]) elif self.cmdstate == 3: self.es_field = self.es self.addr += chr(pdata) self.addr = int(self.addr, 16) - self.putx([Ann.BIT, ['Address low nibble: %c' % (pdata), - 'Addr low 0x%c' % (pdata), 'Addr l 0x%c' % (pdata)]]) + self.putx([Ann.BIT, ['Address low nibble: %c' % pdata, + 'Addr low 0x%c' % pdata, 'Addr l 0x%c' % pdata]]) self.putf([Ann.FIELD, ['Address: 0x%02X' % self.addr, 'Addr: 0x%02X' % self.addr, '0x%02X' % self.addr]]) @@ -151,13 +151,13 @@ class Decoder(srd.Decoder): # Null terminated string ends. self.es_field = self.es self.putx([Ann.BIT, ['NULL']]) - self.putf([Ann.FIELD, ['Value: %s' % (self.value), - 'Val: %s' % (self.value), '%s' % (self.value)]]) + self.putf([Ann.FIELD, ['Value: %s' % self.value, + 'Val: %s' % self.value, '%s' % self.value]]) self.emit_cmd_end([ann_class, self.cmd_ann_list()]) return if self.cmdstate > 3: self.value += chr(pdata) - self.putx([Ann.BIT, ['%c' % (pdata)]]) + self.putx([Ann.BIT, ['%c' % pdata]]) self.cmdstate += 1 # Command handlers @@ -187,8 +187,8 @@ class Decoder(srd.Decoder): self.putf(Ann.WARN, ['Soft reset', 'Reset']) else: page = chr(self.page[0]) + chr(self.page[1]) - self.putf(Ann.FIELD, ['Page index: 0x%s' % (page), - 'Page: 0x%s' % (page), '0x%s' % (page)]) + self.putf(Ann.FIELD, ['Page index: 0x%s' % page, + 'Page: 0x%s' % page, '0x%s' % page]) elif self.cmdstate == 5: self.checksum += pdata if (self.checksum & 0xFF) != 0: @@ -228,7 +228,7 @@ class Decoder(srd.Decoder): elif self.cmdstate == 3: self.flags += int(chr(pdata), 16) self.es_field = self.es - self.putf([Ann.FIELD, ['RPC flag: 0x%02X' % (self.flags)]]) + self.putf([Ann.FIELD, ['RPC flag: 0x%02X' % self.flags]]) self.emit_cmd_end([Ann.GRPC, self.cmd_ann_list()]) # Get byte value array @@ -289,13 +289,13 @@ class Decoder(srd.Decoder): if self.cmdstate == 2: self.addr = int(chr(pdata), 16) << 4 self.ss_field = self.ss - self.putx([Ann.BIT, ['Address high nibble: %c' % (pdata), - 'Addr high 0x%c' % (pdata), '0x%c' % (pdata)]]) + self.putx([Ann.BIT, ['Address high nibble: %c' % pdata, + 'Addr high 0x%c' % pdata, '0x%c' % pdata]]) elif self.cmdstate == 3: self.addr += int(chr(pdata), 16) self.es_field = self.ss - self.putx([Ann.BIT, ['Address low nibble: %c' % (pdata), - 'Addr low 0x%c' % (pdata), '0x%c' % (pdata)]]) + self.putx([Ann.BIT, ['Address low nibble: %c' % pdata, + 'Addr low 0x%c' % pdata, '0x%c' % pdata]]) self.putf([Ann.FIELD, ['Address: 0x%02X' % self.addr, 'Addr: 0x%02X' % self.addr, '0x%02X' % self.addr]]) elif stage == 2: @@ -307,8 +307,8 @@ class Decoder(srd.Decoder): else: self.value += int(chr(pdata), 16) self.es_field = self.es - self.putf([Ann.FIELD, ['Value 0x%02X' % (self.value), - '0x%02X' % (self.value)]]) + self.putf([Ann.FIELD, ['Value 0x%02X' % self.value, + '0x%02X' % self.value]]) self.cmdstate += 1 # Set word value array @@ -317,13 +317,13 @@ class Decoder(srd.Decoder): if self.cmdstate == 2: self.addr = int(chr(pdata), 16) << 4 self.ss_field = self.ss - self.putx([Ann.BIT, ['Address high nibble: %c' % (pdata), - 'Addr high 0x%c' % (pdata), '0x%c' % (pdata)]]) + self.putx([Ann.BIT, ['Address high nibble: %c' % pdata, + 'Addr high 0x%c' % pdata, '0x%c' % pdata]]) elif self.cmdstate == 3: self.addr += int(chr(pdata), 16) self.es_field = self.ss - self.putx([Ann.BIT, ['Address low nibble: %c' % (pdata), - 'Addr low 0x%c' % (pdata), '0x%c' % (pdata)]]) + self.putx([Ann.BIT, ['Address low nibble: %c' % pdata, + 'Addr low 0x%c' % pdata, '0x%c' % pdata]]) self.putf([Ann.FIELD, ['Address: 0x%02X' % self.addr, 'Addr: 0x%02X' % self.addr, '0x%02X' % self.addr]]) self.value = 0 @@ -337,8 +337,8 @@ class Decoder(srd.Decoder): self.ss_field = self.ss if nibble == 3: self.es_field = self.es - self.putf([Ann.FIELD, ['Value 0x%04X' % (self.value), - '0x%04X' % (self.value)]]) + self.putf([Ann.FIELD, ['Value 0x%04X' % self.value, + '0x%04X' % self.value]]) self.cmdstate += 1 # Set color variable @@ -370,8 +370,8 @@ class Decoder(srd.Decoder): self.ss_field = self.ss elif nibble == 3: self.es_field = self.es - self.putf([Ann.FIELD, ['Coordinate 0x%04X' % (self.coords[i])], - ['0x%04X' % (self.coords[i])]]) + self.putf([Ann.FIELD, ['Coordinate 0x%04X' % self.coords[i]], + ['0x%04X' % self.coords[i]]]) # TODO: There are actually two protocol revisions for drawing. # Both use 4 bytes for 16bit x and y pairs for start and end. @@ -420,13 +420,13 @@ class Decoder(srd.Decoder): if self.cmdstate == 4: self.ss_field = self.ss self.value = int(chr(pdata), 16) << 4 - self.putx([Ann.BIT, ['High nibble 0x%s' % (pdata), '0x%s' % (pdata)]]) + self.putx([Ann.BIT, ['High nibble 0x%s' % pdata, '0x%s' % pdata]]) elif self.cmdstate == 5: self.value += int(chr(pdata), 16) - self.putx([Ann.BIT, ['Low nibble 0x%s' % (pdata), '0x%s' % (pdata)]]) + self.putx([Ann.BIT, ['Low nibble 0x%s' % pdata, '0x%s' % pdata]]) self.es_field = self.es - self.putf([Ann.FIELD, ['Value: 0x%02X' % (self.value), - '0x%02X' % (self.value)]]) + self.putf([Ann.FIELD, ['Value: 0x%02X' % self.value, + '0x%02X' % self.value]]) self.emit_cmd_end([Ann.GBVR, self.cmd_ann_list()]) self.cmdstate += 1 @@ -438,10 +438,10 @@ class Decoder(srd.Decoder): self.value = 0 self.ss_field = self.ss self.value += int(chr(pdata), 16) << 12 - (4 * nibble) - self.putx([Ann.BIT, ['0x%s' % (pdata)]]) + self.putx([Ann.BIT, ['0x%s' % pdata]]) if nibble == 3: - self.putf([Ann.FIELD, ['Value: 0x%04x' % (self.value), - '0x%04X' % (self.value)]]) + self.putf([Ann.FIELD, ['Value: 0x%04x' % self.value, + '0x%04X' % self.value]]) self.es_cmd = self.ss self.emit_cmd_end([Ann.GWVR, self.cmd_ann_list()]) self.cmdstate += 1 @@ -462,12 +462,12 @@ class Decoder(srd.Decoder): return self.value = int(chr(pdata), 16) << 4 self.ss_field = self.ss - self.putx([Ann.BIT, ['0x%s' % (pdata)]]) + self.putx([Ann.BIT, ['0x%s' % pdata]]) if nibble == 2: self.value += int(chr(pdata), 16) self.es_field = self.es - self.putx([Ann.BIT, ['0x%s' % (pdata)]]) - self.putf([Ann.FIELD, ['0x%02X' % (self.value)]]) + self.putx([Ann.BIT, ['0x%s' % pdata]]) + self.putf([Ann.FIELD, ['0x%02X' % self.value]]) self.cmdstate += 1 def handle_sbvr(self, pdata): @@ -546,13 +546,13 @@ class Decoder(srd.Decoder): if self.cmdstate == 2: self.addr = int(chr(pdata), 16) << 4 self.ss_field = self.ss - self.putx([Ann.BIT, ['Address high nibble: %c' % (pdata), - 'Addr high 0x%c' % (pdata), '0x%c' % (pdata)]]) + self.putx([Ann.BIT, ['Address high nibble: %c' % pdata, + 'Addr high 0x%c' % pdata, '0x%c' % pdata]]) elif self.cmdstate == 3: self.addr += int(chr(pdata), 16) self.es_field = self.ss - self.putx([Ann.BIT, ['Address low nibble: %c' % (pdata), - 'Addr low 0x%c' % (pdata), '0x%c' % (pdata)]]) + self.putx([Ann.BIT, ['Address low nibble: %c' % pdata, + 'Addr low 0x%c' % pdata, '0x%c' % pdata]]) self.putf([Ann.FIELD, ['Address: 0x%02X' % self.addr, 'Addr: 0x%02X' % self.addr, '0x%02X' % self.addr]]) elif stage == 2: @@ -564,8 +564,8 @@ class Decoder(srd.Decoder): else: self.value += int(chr(pdata), 16) self.es_field = self.es - self.putf([Ann.FIELD, ['Value 0x%02X' % (self.value), - '0x%02X' % (self.value)]]) + self.putf([Ann.FIELD, ['Value 0x%02X' % self.value, + '0x%02X' % self.value]]) self.cmdstate += 1 def handle_gwvar(self, pdata): @@ -573,13 +573,13 @@ class Decoder(srd.Decoder): if self.cmdstate == 2: self.addr = int(chr(pdata), 16) << 4 self.ss_field = self.ss - self.putx([Ann.BIT, ['Address high nibble: %c' % (pdata), - 'Addr high 0x%c' % (pdata), '0x%c' % (pdata)]]) + self.putx([Ann.BIT, ['Address high nibble: %c' % pdata, + 'Addr high 0x%c' % pdata, '0x%c' % pdata]]) elif self.cmdstate == 3: self.addr += int(chr(pdata), 16) self.es_field = self.ss - self.putx([Ann.BIT, ['Address low nibble: %c' % (pdata), - 'Addr low 0x%c' % (pdata), '0x%c' % (pdata)]]) + self.putx([Ann.BIT, ['Address low nibble: %c' % pdata, + 'Addr low 0x%c' % pdata, '0x%c' % pdata]]) self.putf([Ann.FIELD, ['Address: 0x%02X' % self.addr, 'Addr: 0x%02X' % self.addr, '0x%02X' % self.addr]]) self.value = 0 @@ -593,8 +593,8 @@ class Decoder(srd.Decoder): self.ss_field = self.ss if nibble == 3: self.es_field = self.es - self.putf([Ann.FIELD, ['Value 0x%04X' % (self.value), - '0x%04X' % (self.value)]]) + self.putf([Ann.FIELD, ['Value 0x%04X' % self.value, + '0x%04X' % self.value]]) self.cmdstate += 1 # Get byte variable array reply @@ -603,13 +603,13 @@ class Decoder(srd.Decoder): if self.cmdstate == 2: self.addr = int(chr(pdata), 16) << 4 self.ss_field = self.ss - self.putx([Ann.BIT, ['Address high nibble: %c' % (pdata), - 'Addr high 0x%c' % (pdata), '0x%c' % (pdata)]]) + self.putx([Ann.BIT, ['Address high nibble: %c' % pdata, + 'Addr high 0x%c' % pdata, '0x%c' % pdata]]) elif self.cmdstate == 3: self.addr += int(chr(pdata), 16) self.es_field = self.ss - self.putx([Ann.BIT, ['Address low nibble: %c' % (pdata), - 'Addr low 0x%c' % (pdata), '0x%c' % (pdata)]]) + self.putx([Ann.BIT, ['Address low nibble: %c' % pdata, + 'Addr low 0x%c' % pdata, '0x%c' % pdata]]) self.putf([Ann.FIELD, ['Address: 0x%02X' % self.addr, 'Addr: 0x%02X' % self.addr, '0x%02X' % self.addr]]) elif stage == 2: @@ -621,8 +621,8 @@ class Decoder(srd.Decoder): else: self.value += int(chr(pdata), 16) self.es_field = self.es - self.putf([Ann.FIELD, ['Value 0x%02X' % (self.value), - '0x%02X' % (self.value)]]) + self.putf([Ann.FIELD, ['Value 0x%02X' % self.value, + '0x%02X' % self.value]]) self.cmdstate += 1 # Set word variable array reply @@ -631,13 +631,13 @@ class Decoder(srd.Decoder): if self.cmdstate == 2: self.addr = int(chr(pdata), 16) << 4 self.ss_field = self.ss - self.putx([Ann.BIT, ['Address high nibble: %c' % (pdata), - 'Addr high 0x%c' % (pdata), '0x%c' % (pdata)]]) + self.putx([Ann.BIT, ['Address high nibble: %c' % pdata, + 'Addr high 0x%c' % pdata, '0x%c' % pdata]]) elif self.cmdstate == 3: self.addr += int(chr(pdata), 16) self.es_field = self.ss - self.putx([Ann.BIT, ['Address low nibble: %c' % (pdata), - 'Addr low 0x%c' % (pdata), '0x%c' % (pdata)]]) + self.putx([Ann.BIT, ['Address low nibble: %c' % pdata, + 'Addr low 0x%c' % pdata, '0x%c' % pdata]]) self.putf([Ann.FIELD, ['Address: 0x%02X' % self.addr, 'Addr: 0x%02X' % self.addr, '0x%02X' % self.addr]]) self.value = 0 @@ -651,8 +651,8 @@ class Decoder(srd.Decoder): self.ss_field = self.ss if nibble == 3: self.es_field = self.es - self.putf([Ann.FIELD, ['Value 0x%04X' % (self.value), - '0x%04X' % (self.value)]]) + self.putf([Ann.FIELD, ['Value 0x%04X' % self.value, + '0x%04X' % self.value]]) self.cmdstate += 1 def handle_gcvr(self, pdata): @@ -693,7 +693,7 @@ class Decoder(srd.Decoder): self.state = pdata[0] self.emit_cmd_byte() self.cmdstate = 1 - if (self.state is None): + if self.state is None: self.state = pdata[0] self.emit_cmd_byte() self.cmdstate = 1